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Combo 12

20230046080 · 2023-02-16

    Inventors

    Cpc classification

    International classification

    Abstract

    The following provisional application contains many innovations to many products and markets. Including wetsuits, shoes, social media apps, sports equipment and more.

    Claims

    1. A vehicle can have an automatic tailgate that can reposition itself from the press of a button or buttons on the fender of the vehicle.

    2. A gummy candy that has a surface covered in sour and/or sugar coating, can have a liquid filling inside the gummy.

    3. A social media app comprising a home section for posts from accounts that you primarily follow which can be scrolled through vertically, a search section that shows posts that are in the interests of the user in columns of two or three, can have a row of limited time posts of accounts the user follows. Said limited time posts can stay up for 24 hours since posted. When a user views these posts on the screen they can select an icon that can notify the account that made the post of their selection. This section can be called a “like”. a. The social media app of claim 3, can have wherein a permanent post can be made with multiple images and videos, where the account that makes such a post is able to edit the post later and be able to delete one or more of the photos or videos. b. The social media app of claim 3, can have a filter that lets the user draw with their nose. As the user's nose is moved a line is drawn on the screen over where the nose was. c. The social media app of claim 3, can have a filter where it replicates half of the users face onto the otherside to show symmetry. This other symmetry is done without the user's face remaining in the middle of the screen.

    Description

    DESCRIPTION OF DRAWINGS

    [0952] FIG. 1 shows the glasses with magnetic attachment of lens. The base lens 01, is secured to frame 03, that is then connected to the right arm 05 and the left arm 06. The auxiliary lens 02, has a lens thickness shown by 04. Magnets 09 and 11 connect with magnets 10 and 12 respectively. Magnets 07 and 08 match. Magnets 13 and 15 match with magnets 14 and 16 respectively.

    [0953] FIG. 2 shows the rolling mount for a massage gun. The stem 17 is secured to the middle structure 18, which has the right protruding axil 19 and the left axle 20. At the ends of both axles are threading for bolts. The right bearing 24 is inserted into the inside of the right wheel 21, and then is slid over the right axle 19. This lets the wheel spin with low friction around the axle. Then the right bolt 26 is screwed onto the threading at the end of the axle 19 to secure the rolling wheel from falling off. The same can be done for the left bearing 25 and the left wheel 22, and the left bolt 27. On the wheels can be a tread pattern 23, that has a changing surface elevation to put more pressure on certain areas of the body that is being massaged.

    [0954] FIG. 3 shows the rolling mount for a massage gun with one rolling wheel 30. It has a protruding axle 28 that is shaped so that the single wheel 30 is centered with the stem 17. A bump 29 on said axle 28 keeps the bearing 25 from sliding past it. Bolt 27 secures the wheel and bearing to the axle 28.

    [0955] FIG. 4 shows the massage gun device. The body of the device 31 holds the motor and chips that make the device function. The lower dial 32 controls the vibration of the mount and the upper dial 33 controls the pulsation of the mount. The base 35 is where the stem 17 attaches to. Base 35 receives motion from the motor of the device. The gap 34 is a gap between the body 31 and the base 35 so that low friction movement can take place.

    [0956] FIG. 5 shows a speargun apparatus with sheath for the knife inside the speargun handle. A knife 36 is comprised of a handle 37, a guard 38 and a blade 39. The speargun handle body 40, has a sheath 41 for the blade of the knife 39, a groove 44 for the knife handle 38 to snap into. A protrusion 45 at the end of the groove 44 prevents the guard 38 from falling out. Below the protrusion 45 the lower spear gun handle 46 still covers over the knife handle. The trigger 43 is surrounded by a trigger guard 42. The rest of the speargun apparatus 47 is above the handle body 40.

    [0957] FIG. 6 shows a shoe. At the bottom perimeter of the shoe is a rubber strip 48. The back panel of the shoe 49 is the fabric that covers the heel. The inside of the back panel 50 is where the users heel contacts the shoe. A stretchy fabric panel 51 separates the back panel 49 from the front panel 54, and continues downward to meet the rubbers strip 48. The tab panel 52 is grabbed by the user when putting on the shoe. The stretchy tab panel 53 is a fabric panel of stretchy fabric that encompasses the tab panel 52 and divides it from the front panel 54.

    [0958] FIG. 7 shows a shoe. Extended stretchy fabric panel 55 has a downward protrusion where many slip in shoes have a stretchy section, but this extended stretchy fabric panel 55 also extends and wraps around to the other side of the shoe.

    [0959] FIG. 8 shows a shoe where it has many of the same parts as FIG. 6. The difference is with stretchy upper tab section 56 and non-stretchy fabric island 57.

    [0960] FIG. 9 shows gummy candy. A sweet and/or sour coating 58 covers the gummy body 59 of the candy. At the center is a liquid core 60 of a sweet flavor burst. This figure shows a see-through diagram of its layers.

    [0961] FIG. 10 shows a candy with a sweet and/or sour coating 58, a gummy body 59, and a liquid core 60. In this figure we see a cross-sectional view of FIG. 9. This figure can also be a 2-D view of a spherical candy with the same structure. This ordering of candy layers can be used for any shaped gummy candy.

    [0962] FIG. 11 shows a hood of neoprene fabric. The back of the hood 61, has an opening 62. This opening allows the user to let their hair out of the hood. This opening 62 has a slit design with two stitching reinforcements 63 at either end. Said reinforcements 63 can be covered in rubber to prevent ripping of the neoprene fabric.

    [0963] FIG. 12 shows how a wetsuit hood can let the user's hair out of an opening.

    [0964] FIG. 13 shows a wetsuit 64. A shoulder panel 65 can have fabric thickness which is thinner than the arm below the shoulder or on the leg below the knee. Stitching 66 can show how the fabric panels inside the shoulder panel 65 are stitched together. The shoulder panel 65 can have a similar shape over the front of the shoulder and part of the chest compared to the back of the shoulder and part of the shoulder blade and latissimus dorsi. At the bottom of the wetsuit leg ending can be a section of fabric that is thinner than the neoprene fabric above it, this can be called a heel stretch section 67. A heel ridge 68 can be made of rubber and can cover the outside surface that goes up the back of the wetsuit from the leg ending.

    [0965] FIG. 14 shows a bootie for water activities. The rubber outer sole 73 can run continuously from around the heel, under the foot, to the toes. Rubber heel spine 69 can travel from over the top of the heel, along the achilles tendon up to the top ending of the bootie. A rubber shin spine 72 can cover the front length of the bootie that covers the shin. Near the top of the heel spine 69 is a strap 70, and at the top of the shine spine 72 is a strap 71. Both of these straps help the user open and put on the booties.

    [0966] FIG. 15 shows a bootie. On the upper rubber outer sole 73 can protrude a strap 74 to help the user put on the booties. A heel path section 75 can have a fabric that is thinner and/or more stretchy than the main fabric panel/s 76.

    [0967] FIG. 16 shows a soft top construction. The foam core of the board 77 can have an external layer of square tread 79 or rolling bumpy tread 78.

    [0968] FIG. 17 shows a scooter 80. On either side of the deck 81 of the scooter can be an external foam pad 82.

    [0969] FIG. 18 shows a water filter for a smoking product 83. The front end 84 receives the smoking product, this can be something rolled like a joint, or bowl piece. This front end 84 can also be shaped with a right angle upwards so that this can be packed like a bowl or receive a bull piece. A chamber continues from the front end 84 to the mouthpiece 88. This design has three chambers. The underwater section 87 is under the wave horizon. The air chambers 85 are above the wave horizon. The body 86 can be made of glass. Above the chambers can be exit route 89, this can allow water to exit and enter for easy water change. A plug can cover this exit route 89, or a plug can be made to seal it.

    [0970] FIG. 19 shows a pair of shorts. The body 90 of the shorts can have a fabric with thermochromic pigment. A fabric coating, a darker color, or lack of thermochromic pigment can make an ornamental design by color contrast to the changing colors of the body 90. The leg endings on shorts can have a split ending 92 where the front half is above the knee and the back half is at or below the knee. Especially for board short mobility. A knee to waist strip 95 connects the leg ending to the waist ending in a pair of shorts. Said strip has more stretch for comfort and mobility. The belt platform 94 has an outward facing bottle opener.

    [0971] FIG. 20 shows the back end of a truck 95. On the rear-fender of the truck is a button 96. This button controls the lowering and other changing positions of the tail gate.

    [0972] FIG. 21 shows a flipper. The body of the flipper 97 has an open heel for a strap 98. Said strap is made of stretchy material or sections of stretchy material. A part 99 that is connected to the flipper has slots for the strap 98 to loop through and secure it.

    [0973] FIG. 22 shows a weighted juggling ball or work out sack. The core 102 is made of sand, gravel or any loose weighted material. The sealing layer 101 can be made of plastic or cloth and seals the loose weighted material. The outer layer 100 is made of a rubber and holds the sack together. The outer surface can have tread.

    [0974] FIG. 23 shows a basketball rim. The receiving tube 103 has incremental holes 104. The holes allow for the specific change in rim size. A metal bead 105 is spring loaded to push out can lock into said holes 104. The metal bead 105 is located near the end of the rim that enters the receiving tub 103.

    [0975] FIG. 24 shows a climbing shoe. The shoe can be divided into three main parts to the bottom of the shoe. At the back is the heel panel 106 which has a rubber exterior. In the middle is the stretchy arch 107 made of stretchy fabric. In the front is the tip section 109 which is also covered with rubber. Inside foot strap 108 can tighten the shoe for climbing, as well as the outer foot strap 112. The big toe tread 100 is a section of tread that is exposed on the outward surface of the shoe over the big toe. The upper tread 111 is a section of tread that is exposed on the upward surface over the toes, including the big toe. Stretchy top section 113 is a section of stretchy fabric that covers the top of the upper foot. It connects to the other side of the heel panel similar on both sides. Since this area is stretchy enough it allows the foot to enter.

    [0976] FIG. 25 shows a bicycle with a wheelie assistance device. It has a wheel 114 that spins on the ground, an adjustable frame 115 that has a rotational attachment to the base frame 116 which attaches to the bike frame or seat stem.

    [0977] FIG. 26 shows a yoga mat 117. In this yoga mat are ergonomic curves that are formed from changing thickness in the mat.

    [0978] FIG. 27 shows an exercise mat that supports the lower back. The interior curve 118 of mat gradually meets the for at the thinning section 121. The mat body 119 is made from squishy foam. The side wall 120 keeps the user centered on the mat.

    [0979] FIG. 28 shows a camera product. It is comprised of a floaty body 124 that has a layer of adhesive 123 that is sealed with a peelable layer 122. A base platform 125 is a rigid structure in the middle of the floaty body 124 and reaches the layer of adhesive 123. A stem 127 protrudes from the platform. At its center is an air channel. The top exit 129 lets are exit when surfing and can be plugged when diving. The side exit 126 lets out air and can allow for snorkel attachment. The arms 128 that protrude from stem 127 are for the a mouth guard to go over and attach to.

    [0980] FIG. 29 shows a motorized bed 122 that has three moveable upper body frames that are each able to rotate on a joint between them.

    [0981] FIG. 30 shows a hat. The hat can have a stretchy side panel 130 made from a fabric that is more stretchy than the fabrics of other panels on the hat.

    [0982] FIG. 31 shows a candy that goes over the drinking edge of a soda can. The exterior coating 131 of the candy is a sweet/sour/fizz ingredient. A “V” shaped groove 132 in the candy is made to fit over the ridge of an aluminum can to secure the candy to it.

    [0983] FIG. 32 shows a hat that has a curve around its perimeter that extends lower on the back of the head then the front.

    [0984] FIG.33 shows a dinosaur mask. It is composed of an upper face mask 133 and jaw piece 134. The jaw piece 134 is able to swing relative to the upper face mask 133 because of a rotational piece 135. The user can see out of the eye hole 136, and be able to breathe through a nasal passage 137. Feathers 138 are attached to the mask. The attachment point 139, is where the feathers 138 are secured to the mask and allow the feathers to rotate into different positions.

    [0985] FIG. 34 shows the dinosaur mask with feathers 138 extended into a more upright position. This is done by the rotational piece 135 being powered by a battery powered module to reposition itself. Many different positions can be set, and a remote, or buttons on the apparatus can be used to control them. When the jaw piece 134 is put into a specific position the feathers 138 can be set into a corresponding position. This can be done with wire connection between the rotational piece 135 and the attachment points 139.

    [0986] FIG. 35 shows a structure for glasses. The upper frame bar 140 has magnets 142 set into it. Supporting arms 141 connected to the upper frame bar 140. The nose part 143 also has a magnet 144 set into it. At the end of the nose part 143 is the nose cushion 145. Above the nose cushion 145 is a flat or grooved surface for part of the lens to rest on, this is called the nose platform 146.

    [0987] FIG. 36 shows the structure for a halloween mask. The rubber exterior 147 of the mask is separate from the rest of the face mask 149 but can be secured with glue, tape or a peelable sticky layer. The face mask 149 can have interior padding 151 and exterior padding 152. A strap 148 can secure the face mask 149 around the back of the user's head.

    [0988] FIG. 37 shows the face mask 149 as well as the upper strap 148a and the lower strap 148b which loop through a hole 152. There are also eye holes 154 to see out of. The nose pad 153 can have a peelable and sticky layer to secure it to the rubber exterior 147.

    [0989] FIG. 38 shows a trail camera. Its main components are a camera body 155, a lens 156 and exterior cover 161 and a platform 157. The platform 157 has spikes to dig into a tree with. The platform 157 also has holes 159 that allows nails 160 and screws to pass through, as another method to secure it to a tree. The exterior cove 161 is in the shape of a mushroom, and can be painted as such. A transparent section 162 can allow the camera to see through. An attachment snap 163 can secure the exterior cover 161 to the camera body 155.

    [0990] FIG. 39 shows a driver's sun blocking device. In the upper section is a mirror 164. A tinted transparent layer 165 is what blocks the sun but still allows the user to see through it to view the road. A connection platform 169 attaches this device to the inside of a vehicle. A rotational joint 168 allows it to rotate. There can be several layers stem sections 166 that can extend out from one another at an overlap point 167. This overlap point 167 can also be rotatable. A clip 170 can attach to the inside of the vehicle when the user wants it to be put up and stored away. This clip 170 and the rotational joint 168 can be rotated to lay flush with the inside surface of the vehicle.

    [0991] FIG. 40 shows an underwater flashlight for diving. It is composed of an upper body 171, a rotational ring 172 that when rotated can put the light into different settings, such as brightness levels and off. The lower body 173 is the flashlight body below the rotational belt 172. A screen 175 can show the diver information about the dive, such as depth, time, distance, location and more. Buttons 176 can be placed on the device to control features on the screen or light. Button 176a can start and stop a stopwatch. Button 176b can start and stop recording diving paths. Button 176c can change light brightness. The cap 174 can screw onto the lower body 173 and make a watertight seal enclosing the battery.

    [0992] FIG. 41 shows a flotation device for an underwater sports camera. The main body 177 is composed of a buoyant material. The protrusion piece 178 can also be made of a buoyant material like foam and allows the user to bite it. This creates a simple mouth mount. The sticky layer 179 is what sticks to the camera, and can have a peelable layer to preserve the stickiness.

    [0993] FIG. 42 shows a halloween mask. The mask exterior 180 makes the halloween mask its unique shape, and connects to the transparent lens 181. Said lens 181 can be tinted so the user's eyes are not visible. A nose bridge 182 connects the lens 181 of the right and left eye. A nose mask section 183 connects to both transparent lens 181, and to the rest of the mask exterior 180 from the top and bottom.

    [0994] FIG. 43 shows a vehicle's mirror. The body 185 is connected to the stem 186 which connects it to the side of the vehicle. The flat part of the mirror 187 is closest to the vehicle. The curved part of the mirror 188 is farther outward from the vehicle.

    [0995] FIG. 44 shows an electrical trimmer. The trimmer body 189 is where the user can hold it and inside it can be a rechargeable battery. A detachable charger port system 190 is used to recharge the trimmers rechargeable battery. A mechanical lever 191 changes the length of the base trimmer guard over the cutting system when the lever is rotated. This trimmer design has a rotatable trimmer guard 192 that is attached to said base trimmer guard that is moved by the mechanical lever 191. The rotational handle 193 can be rotated by the user's hand to rotate the rotatable trimmer guard 192. An angle chart 194 shows the angle the rotatable trimmer guard 192 is at so that it can be set precisely.

    [0996] FIG. 45 shows an electrical trimmer. In this design the trimmer has a secondary guard 195 with an ascue rotational point 196.

    [0997] FIG. 46 shows an electrical trimmer. On the bottom of the trimmer guard is a secondary guard pocket 197. This pocket lets a secondary guard of various shapes slide in and be secured to the bottom of the trimmer guard and be interchangeable.

    [0998] FIG. 47 shows a swipe pattern for touchscreen devices when a video is being played. The touchscreen 198 can have the user hold their finger on it. Area where the finger is held 199 is depicted as a circle in this illustration. The incremental sections upward 200 correspond to the increasing video playing speed or the amount of timeline distance the video is skipped or played forwards. The incremental sections downward 201 correspond to decreasing of video playing speed or the amount of timeline distance the video is skipped or played backwards. The horizontal swipe pattern 202 can correspond to an increase or decrease in video playing speed based upon if the finger is slid to the right or left. The horizontal swipe pattern 202 can also correspond to a forward or reverse skipping or playing of the video based upon if the finger is slid to the right or left. If the swipe pattern has a slope the two options for the horizontal swipe pattern 202 can be combined with the vertical swipe pattern. For the purpose of these next examples of swipe patterns with slopes, the horizontal swipe pattern 202 will correspond to skipping or playing video forward when moved to the right, and reversing video when moved to the left. The vertical swipe pattern will correspond to increasing video speed when swiped up and decreasing video speed when swiping down. The swipe pattern with a positive slope 203 will increase the video speed and skip forward when moved upward at its angle. When it is moved at its downward angle it will decrease video speed and reverse the video. The swipe pattern with a negative slope 204 will decrease video speed and play video forwards as it is swiped to the right at its downward angle. When it is moved to the left at its angle the video will play at an increased speed in reverse.

    [0999] FIG. 48 shows the bottom of a soft top surfboard. Main bottom body 205 can be made with a plastic or strong foam layer that is smooth for low friction. A rigid tail and fin box supporting structure 206 can be made of a plastic that is stronger than the plastic of the main bottom body 205. The purpose of the rigid tail and fin box supporting structure 206 is to give the fins boxes a sturdy attachment to the board so the fin boxes don't tilt and give poor fin performance. The rigid tail and fin box supporting structure 206 can have fin boxes built into it so that they are very well supported. One, two, three, four or five fin boxes can be built into the rigid tail and fin box supporting structure 206. A center fin box 207a, a left fin box 207b and a right fin box 207c can be the main fin box design set up.

    [1000] FIG. 49 shows a vehicle's bumper lip 208. Attached to the bottom edge of the bumper lip 208 is a center roller 209a, a right roller 209b and a left roller 209c. Said rollers rotate when they contact the ground to not damage the car.

    [1001] FIG. 50 shows a truck. The front frame 210 is the frame of the front half of the vehicle. The upper point 211 is a protrusion for looks and aerodynamics. The case 218 covers the truck bed and is ergonomically fitted around the upper point 211 and has a spike 219 that eronomically fits around a downward sloping back end. The asymmetrical wheel well 214 has a more gradual curve in the front half and a more squared curve in the back half. The truck floor 215 is the bottom surface of the truck's bed. The tail gate 216 is able to fold inward and lay flat on the truck floor 215. The hinge structure 217 contains the hinge that allows the tail gate 216 to rotate like this. A rotational track 213 is attached to the front bumper of the truck. This allows the front end of the truck to roll out of steep off-road positions. The retractable roof lights 212 are able to rotate upward from a flush or near flush position from the exterior of the car.

    [1002] FIG. 51 shows an in depth view of the inward folding tailgate 216. Inside the hinge structure 217 is a track 220 that allows the pin 221 which is attached to the inward folding tailgate 216 to be lifted up and rotated inward.

    [1003] FIG. 52 shows an in depth view of the retractable roof lights 212 which can rotate upwards. In this illustration they are in the retracted position. The roof frame 222 is the area which the retractable roof lights are built into. A wire 223 connects to an electric module 224 that powers the rotation of the retractable roof lights.

    [1004] FIG. 53 shows the retractable roof lights 212 in the upright position. A rear rubber seal 225 covers a gap to prevent water seepage. A front rubber seal 226 is used to prevent water seepage when the retractable light is retracted.

    [1005] FIG. 54 shows a double sided retractable light 227 that has lights facing forwards and backwards. These lights can be sieren lights, such as the ones police officers have. This retractable feature allows the vehicle to become undercover and indistinguishable from normal vehicles. Said double sided retractable light 227 can slide up and down with motorized front track 228a and motorized rear track 228b.

    [1006] FIG. 55 shows a truck design. A front fender curve 230 is for looks and maybe aerodynamics. A window perimeter 229 has an increased window section towards the rear half of the window.

    [1007] FIG. 56 shows a method of finding the text you are looking for within a document or website. The document or website 233 has to have text. The search bar 231 lets the user type in words that they want to find. If the user thinks that the words do not directly follow one another then they can put a semicolon or another symbol used to separate the words in the search bar. If all of the words in the search bar are within the same sentence, then the searched words will be highlighted or in a box 232 or signified in some other way like bolded or italics possibly. The search system will take the document or website 233 to the page that has words that are highlighted or in a box 232. If some but not all of the searched words are in the same sentence then the searched word/s can be underlined 234 or signified in some other way.

    [1008] FIG. 57 shows a screen of an electronic device and can be the lockscreen of such a device. It shows to sections an upper section which has map navigation 235, and a lower half that has music playing information and controls 236. Box 242 is where the name of the song and artist can be placed. Time bar 243 is the timeline of song/audio and dot is where the current playing position is located. Icon 245 identifies if the song is playing or paused and the double arrows on either side can skip forward or backward in the playlist or audio sequence. Volume bar 244 identifies volume range and the dot shows the current level. Circle 241 overlaps the dividing line between the map navigation 235 and the music playing information and controls 236. This circle 241 represents the area where a finger makes contact with the touchscreen device and when the finger is held and slid upward or downward the dividing line follows, resulting in a changing ratio of the two sections. Line 239 signifies the white line on a road and can be shown on the map navigation 235 as a white line. Dotted line 238 separates the lanes on the road to give an accurate representation of the road. Double solid lines 237 shows the separation of direction of traffic, and can be yellow for accuracy. Location dot 240 shows the location of the user of the map navigation 235. The line continuing from the location dot 240 is that of future travel which the map navigation 235 suggests. There is no trailing line of where the user was behind the location dot 240.

    [1009] FIG. 58 shows a navigation software that gives directions on a road, and within a building. The one dotted and one solid line combination 246 shows the separation of direction of traffic where one side can cross through. This can be shown yellow for accuracy. The line of direction 248 is where the navigation directs the user, and can seamlessly transition from vehicle to walking navigation. Walking path 247 can be shown as the user walks with navigation. The building system 250 includes the entire building, departments 255 and rooms 253. Building navigation path 249 navigates the user through a building, such as a mall, university, airport and more. Elevator 251 is shown in navigation and the navigation software can detect how light you are in the elevator and once you reach your new floor the building navigation can change to be accurate to this new floor. Floor box 252 informs the user what level to take the elevator to. Destination dot 254 shows the end destination and in this case is within a room 253.

    [1010] FIG. 59 depicts a design for a pair of glasses. The frame 256 has a high corner magnet 258, a side magnet 257 and a low corner magnet 260 that are secured to and protrude from the frame 256. A lower groove 261 runs along the bottom inside edge of the frame 256 so that a lens can be slid inside. A nose groove 263 can be made also to receive the edge of a lens and secure it. A clamp 262 can be built flush into the frame 256 so that it can secure a lens.

    [1011] FIG. 60 shows a structural design for a frame of a pair of glasses. The exposed edge of frame 264 is also connected to the hidden edge 265, built into the surface of the hidden edge 256 is a magnet 266.

    [1012] FIG. 61 shows the same structural design for a frame of a pair of glasses as FIG. 60 but from a different perspective. In this illustration we see the magnet 266 placed on the hidden platform 265a. The hidden edge 256 reaches the same level as the magnet 266 but the magnet is placed on a lower surface called the hidden platform 265a so that the magnet 266 and the hidden edge 256 are flush.

    [1013] FIG. 62 shows how the clamp 262 works. A lens 268 can have a lens hook 269 attached to it. The clamp hook 262a secures the lens hook 269. A rotational pin 267 allows the clamp 262 to rotate and can be spring loaded to recoil to the depicted position. The rotational pin 267 can attach to the frame 256 as shown in FIG. 59 and allow rotation between them.

    [1014] FIG. 63 shows a rod 270 that is accessible for the driver of a vehicle. On the rod 270 is a rotational dial 271 that when spun increases or decreases the amount of head beam light based upon which way it is spun. This rotational dial 271 can be spun very slightly and allow for the fine tuning of the light that comes out. Icon 272 can depict to the user which way to spin the rotational dial 271 to increase the light output.

    [1015] FIG. 64 shows a double layered dial system that can be used for compacting controls within a vehicle. The outer dial 273 can be spun either way and controls something like fan speed. The inner dial 274 can be spun either way and can control something like the temperature of fan air.

    [1016] FIG. 65 shows a zipper body 274 with a zipper handle 275 and a part snap 276. The part snap 276 can be on either side of the zipper handle 275. The benefit of this part snap 276 is that if there is a compatible part snap on the surface of something it can secure the zipper body 274 near that area.

    [1017] FIG. 66 shows a lounge chair that consists of a body platform 277, a back rest platform 278, and a head rest platform 279. Legs 280 hold up the lounge chair. Lower bar 281 allows for positioning of lower adjustment bar 283. Higher bar 282 allows for positioning of higher adjustment bar 284. Both adjustment bars have incremental teeth. The lower adjustment bar 283 changes the angle of the back rest platform 278 based upon which row of teeth is catching the lower bar 281. The higher adjustment bar 284 changes the angle of the head rest platform 279 based upon which row of teeth is catching the higher bar 282.

    [1018] FIG. 67 shows a design structure for a zip line that can go in a curving path. It consists of two cables 287 that have a coating 288 which can be of rubber/plastic and still allows the cables to be flexible. Incrementally along the line are attachment structures 286 which have a hollow section 286 that allows it to be supported by line. The attachment structures 286 attach to the cable by encompassing it like the coating 288 and is flush with the coating 288. A double pulley system rides along the coated cable lines and is attached or held by the rider.

    [1019] FIG. 68 shows a shirt 289 with a curved neck collar. The front section 290 and the back section 292 are divided by a middle section 291 on either side. The middle section is shaped like a trapezoid with the shorter base at the top, this is what will give the neck collar its curved shape.

    [1020] FIG. 69 shows a hat with a front fabric section 293 and a brim that has a flat section 294 and a curved section 295 on either end. This curved section 295 allows for the blocking of sun rays, but the flat section 294 allows for a comfortable fit. The front fabric section 293 which is all fabric panels that cover the front half of the hat, can have fabric pannel/s that align with the flat then curve of the brim.

    [1021] FIG. 70 shows a martial arts and work out device that has rigid platforms 296 covered in squishy exterior padding 297 and spring hinges 298 that the user works against.

    [1022] FIG. 71 shows a chest workout device that comprises two platforms 299 and strong spring hinge 300 and a hinge protector surface 301. The user will push the platforms together with their elbows, forearms, hands, legs, lats and more.

    [1023] FIG. 72 shows a kiteboarding bar 303 that has holes or grooves 304 that go into the surface of the bar or all the way through. The center lines 305 go through the center of the bar 303. The holes or grooves 304 are for the rider's thumbs to press against to help steer.