Caster and whiteboard comprising caster

Abstract

Disclosed are: a caster mounted on a teaching aid including a whiteboard, or furniture, etc. so as to conveniently and stably convert between a movement state and a stopping state; and a whiteboard including the caster. The present invention relates to a caster comprising: a wheel which is coupled to the lower end of a fixing shaft having a male screw formed on the upper side thereof so that a nut is fastened; a wheel moving means which comprises a slide member and an eccentric rotation member, wherein the slide member has a shaft hole punched on the central part thereof so as to allow the fixing shaft of the wheel to be penetrated and fastened by the nut, and has a working shaft hole formed on the circumferential surface thereof, and the eccentric rotation member has an eccentric shaft formed at one side thereof and a shaft bolt formed protrudingly from the center part of the other side thereof, the eccentric shaft being fitted into the working shaft hole of the slide member; a main body which comprises a first operating space, a second operating space, a third operating space, and a female screw, wherein the first operating space is penetrated at the central part thereof in the vertical direction so that the slide member is fitted thereto and can move up and down, the second operating space enables the wheel to rotate and move up and down, the third operating space is penetrated in the horizontal direction so that an eccentric member is fitted thereto and the eccentric shaft can be introduced into the first operating space, and the female screw is formed on the upper part of the main body for the fastening purpose; a working lever which has a coupling hole punched on the central part thereof, the coupling hole being fitted into the shaft bolt of the eccentric rotation member; a fixing nut which is screw-coupled to the shaft bolt of the eccentric rotation member so as to fix the working lever; and a fixing means which comprises a first fixing part or a second fixing part so as to prevent the eccentric rotation member fitted into the third operating space of the main body from being detached and stop the rotation of the eccentric rotation member. The caster is mounted on a pedestal fixed to the lower end of a column frame on which the whiteboard is mounted.

Claims

1. A caster mounted on the underside of a teaching aid or a piece of furniture, the caster comprising: a wheel 2 coupled to the lower end of a fixing shaft 21 having a male screw 22 formed on the upper periphery thereof in such a manner as to be fastened to a nut 23; moving means having a slide member 3 having a shaft hole 31 punched on the center thereof in such a manner as to pass the fixing shaft 21 of the wheel 2 therethrough and an operating shaft hole 32 formed on the circumferential surface thereof and an eccentric rotation member 4 having an eccentric shaft 41 formed at one side thereof in such a manner as to be fitted to the operating shaft hole 32 of the slide member 3 and a shaft bolt 42 formed protrudingly from the center of the other side thereof; a main body 5 having a first operating space 51 penetrated at the center thereof in a vertical direction thereof so that the slide member 3 is fitted thereto and moves up and down, a second operating space 52 in which the wheel 2 rotates and moves up and down, a third operating space 53 penetrated in a horizontal direction thereof so that the eccentric rotation member 4 is fitted thereto to allow the eccentric shaft 41 to be introduced into the first operating space 51 and fitted to the operating shaft hole 32 of the slide member 3, and female screws 54 formed on the upper part thereof for the fastening purpose; an operating lever 6 having a coupling hole 61 punched on the center thereof in such a manner as to be fitted to the shaft bolt 42 of the eccentric rotation member 4; a fixing nut 24 screw-coupled to the shaft bolt 42 of the eccentric rotation member 4 to fix the operating lever 6 to the eccentric rotation member 4; and fixing means having a first fixing part 210 or a second fixing part 220 to prevent the eccentric rotation member 4 fitted into the third operating space 53 of the main body 5 from being deviated from the third operating space 53 and to stop the rotation of the eccentric rotation member 4.

2. The caster according to claim 1, wherein the first fixing part 210 comprises a finishing ring 212 screw-coupled to the front end periphery of the third operating space 53 and a stopping pin 213 fixed to the outside of the entrance of the third operating space 53 of the main body 5, and the second fixing part 220 comprises a support rod 221 having a semispherical lower end portion and a protruding flange formed on the center portion thereof in such a manner as to be fittedly contacted with a guide slot 34 formed on the circumferential surface of the eccentric rotation member 4 and stopping grooves 44 formed on both ends of the guide slot 43, a spring 222 adapted to provide an elastic force to the support rod 221, and a stopper 223 screw-coupled to the front end periphery of an accommodation space 55 punched on the main body 5 to communicate with the third operating space 53 of the main body 5 so that the support rod 221 and the spring 222 are accommodated in the accommodation space 55.

3. A white board comprising the caster 1 according to claim 1, wherein the caster 1 comes into contact with a base 93 fixed to the lower end of a column frame 92 of a stand 91 of the white board 9, and fastening bolts 25 pass through the base 93 in such a manner as to be screw-coupled to the female screws 54 formed on top of the main body 5 of the caster 1.

4. A white board comprising the caster 1 according to claim 2, wherein the caster 1 comes into contact with a base 93 fixed to the lower end of a column frame 92 of a stand 91 of the white board 9, and fastening bolts 25 pass through the base 93 in such a manner as to be screw-coupled to the female screws 54 formed on top of the main body 5 of the caster 1.

Description

DESCRIPTION OF DRAWINGS

[0019] FIG. 1 is an exploded perspective view showing a caster according to the present invention.

[0020] FIG. 2 is a perspective view showing the partially assembled caster according to the present invention.

[0021] FIG. 3 is a partially exploded perspective view showing a white board having a caster according to the present invention.

[0022] FIGS. 4a to 4c are partially enlarged cross and longitudinal sectional view showing the operating processes of the caster according to the present invention.

[0023] FIG. 5 is an enlarged perspective view showing another example of a first fixing part in the caster according to the present invention, wherein main parts are illustrated in the state wherein an operating lever is coupled to an eccentric rotation member.

[0024] FIG. 6 is an exploded perspective view showing a second fixing part of the caster according to the present invention.

[0025] FIG. 7 is a longitudinal sectional view showing the operating processes of the second fixing part of the caster according to the present invention.

MODE FOR INVENTION

[0026] Hereinafter, an explanation on a caster and a white board having the caster according to the present invention will be in detail given with reference to the attached drawing.

[0027] FIGS. 1 to 3 are an exploded perspective view showing a caster according to the present invention and a partially exploded perspective view showing a white board having a caster according to the present invention, wherein a reference numeral 1 denotes a caster, 2 denotes a wheel, 3 denotes a slide member, 4 denotes an eccentric rotation member, 5 denotes a main body, 6 denotes an operating lever, 9 denotes a white board, 91 denotes a stand, 92 denotes a column frame, and 93 denotes a base.

[0028] As shown, a caster according to the present invention, which is movably mounted on the underside of a teaching aid such as a chalk board, a white board and the like or on the underside of a piece of furniture, includes a main body 5 and moving means and fixing means mounted on the main body 5 to retractably move a wheel 2 and stop the wheel 2.

[0029] First, the wheel 2 is coupled to the lower end of a fixing shaft 21 having a male screw 22 formed on the upper periphery thereof in such a manner as to be fastened to a nut 23.

[0030] Further, the moving means, which moves the wheel 2 down in such a manner as to allow the wheel 2 to be retractable, includes a slide member 3 and an eccentric rotation member 4 for operating the slide member 3.

[0031] The slide member 3 has a shaft hole 31 punched on the center thereof in such a manner as to pass the fixing shaft 21 of the wheel 2 therethrough and an operating shaft hole 32 formed on the circumferential surface thereof in such a manner as to have a shape of a long hole extended in a horizontal direction thereof. That is, the slide member 3 is accommodated in the main body 5 and moves up and down to allow the wheel 2 to be retractable.

[0032] The eccentric rotation member 4 has an eccentric shaft formed at one side thereof in such a manner as to be fitted to the operating shaft hole 32 of the slide member 3 and a shaft bolt 42 formed protrudingly from the center of the other side thereof. On the other hand, the eccentric rotation member 4 rotates to an angle of about 95 to 100° to allow the eccentric shaft 41 to move the slide member 3 up and down.

[0033] The main body 5 has a first operating space 51 penetrated at the center thereof in a vertical direction thereof so that the slide member 3 is fitted thereto and moves up and down, a second operating space 52 in which the wheel 2 rotates and moves up and down, a third operating space 53 penetrated in a horizontal direction thereof so that the eccentric rotation member 4 is fitted thereto to allow the eccentric shaft 41 to be introduced into the first operating space 51 and fitted to the operating shaft hole 32 of the slide member 3, and female screws 54 formed on the upper part thereof for the fastening purpose.

[0034] Further, an operating lever 6 is provided to rotate the eccentric rotation member 4 and thus has a coupling hole 61 punched on the center thereof in such a manner as to be fitted to the shaft bolt 42 of the eccentric rotation member 4.

[0035] So as to directly transmit the rotary force of the operating lever 6 to the eccentric rotation member 4, on the other hand, the shaft bolt 42 of the eccentric rotation member 4 are cut and flattened on the top and underside portions thereof, as shown in FIG. 2, and also, the coupling hole 61 of the operating lever 6 fitted to the shaft bolt 42 has the linear surfaces corresponding to the flattened surfaces of the shaft bolt 42. Otherwise, as shown in FIG. 5, a fixing pin 213 is disposed on the eccentric rotation member 4, and a fixing hole 62 is formed on the operating lever 6 in such a manner as to fit the fixing pin 213 thereto. The coupling means for easily transmitting the rotary force of the operating lever 6 to the eccentric rotation member 4 is not limited thereto, and instead of the shaft bolt 42 of the eccentric rotation member 4, that is, the operating lever 6 can be directly fixed to the eccentric rotation member 6 by means of a screw not shown in the figure.

[0036] So as to fix the operating lever 6 to the eccentric rotation member 4, furthermore, a fixing nut 24 is screw-coupled to the shaft bolt 42 of the eccentric rotation member 4.

[0037] Further, fixing means is provided to prevent the eccentric rotation member 4 fitted into the third operating space 53 of the main body 5 from being deviated from the third operating space 53 and to stop the rotation of the eccentric rotation member 4 and thus has a first fixing part 210 or a second fixing part 220.

[0038] As shown in FIGS. 1 and 2, the first fixing part 210 as the fixing means includes a finishing ring 212 screw-coupled to the front end periphery of the third operating space 53 to prevent the eccentric rotation member 4 fitted into the third operating space 53 of the main body 5 from being deviated from the third operating space 53 and a stopping pin 213 fixed to the outside of the entrance of the third operating space 53 of the main body 5. The stopping pin 213 is located to stop the rotation of the operating lever 6 so that the eccentric shaft 41 of the eccentric rotation member 5 stops when it reaches a rotation angle a deviated from the vertical center line as shown in A and B of FIG. 4c, and functions as a stopper.

[0039] Further, the second fixing part 220 as the fixing means is configured to replace the finishing ring 212 and the stopping pin 213 of the first fixing part 210, and as shown in FIGS. 6 to 7b, the eccentric rotation member 4 has a guide slot 43 formed on the circumferential surface thereof and stopping grooves 44 formed on both ends of the guide slot 43, a support rod 221 having a semispherical lower end portion and a protruding flange formed on the center portion thereof in such a manner as to be fittedly contacted with the guide slot 34 and the stopping grooves 44, a spring 222 adapted to provide an elastic force to the support rod 221, and a stopper 223 screw-coupled to the front end periphery of an accommodation space 55 punched on the main body 5 to communicate with the third operating space 53 of the main body 5 so that the support rod 221 and the spring 222 are accommodated in the accommodation space 55. The semispherical lower end portion of the support rod 221 is fittedly contacted with the guide slot 43 formed on the circumferential surface of the eccentric rotation member 4 and the stopping grooves 44 and thus functions as a locking protrusion, thereby preventing the eccentric rotation member 4 from being deviated from the third operating space 53 of the main body 5.

[0040] Further, the first operating space 51 of the main body 5 and the slide member 3 moving up and down in the first operating space 51 have circular sectional shapes as shown in FIG. 1 and square sectional shapes as shown in FIG. 6.

[0041] Accordingly, four casters 1 according to the present invention are mounted on a white board 9 as one of a teaching aid or a piece of furniture as shown in FIG. 3. That is, the tops of the main bodies 5 of the casters 1 come into contact with the bases 93 fixed to the lower ends of column frames 92 of stands 91 of the white board 9, and next, after screw portions of fastening bolts 25 pass through the punched holes of the bases 93, they are screw-coupled to the female screws 54 formed on top of the main bodies 5 of the casters 1, thereby finishing mounting the casters 1 on the white board 9.

[0042] When the wheels 2 are located in the second operating spaces 52 of the main bodies 5 after the casters 1 are mounted on the bases 93, the underside surfaces of the main bodies 5 come into contact with the floor, so that the movements of the casters 1 stop. That is, as shown in A and B of FIG. 4a, the operating levers 6 are in vertical states, and the eccentric shafts 41 of the eccentric rotation members 4 reach the uppermost positions thereof, so that the slide members 3 fixing the wheels 2 move up.

[0043] So as to move the casters 1, next, the wheels 2 move down under the second operating spaces 52 of the main bodies 5 and come into contact with the floor.

[0044] Accordingly, if the operating levers 6 rotate to an angle of 90° in a counterclockwise direction, the eccentric shafts 41 rotate by means of the rotation of the operating levers 6 and at the same time by means of the rotation of the eccentric rotation members 4, and the rotation of the eccentric shafts 41 permits the position of the operating shaft holes 32 of the slide members 3 to move down, so that as shown in A and B of FIG. 4b, the operating levers 6 are in horizontal states, and the eccentric shafts 41 of the eccentric rotation members 4 reach the bottom dead point as the lowermost positions thereof, so that the slide members 3 fixing the wheels 2 move down.

[0045] As shown in A and B of FIG. 4b, the slide members 3 are located at the lowermost positions, and the eccentric shafts 41 of the eccentric rotation members 4 are located on the vertical center lines. At this time, the eccentric rotation members 4 may freely rotate due to external vibration or impacts, and so as to prevent the free rotation of the eccentric rotation members 4 and to maintain downward movements of the wheels 2, accordingly, stopping positions should be set.

[0046] That is, one method for maintaining downward movements of the wheels 2 is carried out wherein as shown in A and B of FIG. 4c, the stopping pins 213 stop the rotation of the operating levers 6 so that the operating levers 6 rotating the eccentric rotation members 4 do not rotate anymore when the eccentric shafts 41 of the eccentric rotation members 4 reach the rotation angles a deviated by an angle of 5 to 10° from the vertical center line as shown in A and B of FIG. 4c.

[0047] Further, another method for maintaining downward movements of the wheels 2 is carried out wherein as shown in FIG. 7a, the semispherical lower ends of the support rods 221 are fitted to the stopping grooves 44 formed on the circumferential surfaces of the eccentric rotation members 4 by means of the elastic forces of the springs 222 to stop the rotation of the eccentric rotation members 4, and if the eccentric rotation members 4 rotate to move down the slide members 3 fixing the wheels 2, the guide slots 43 come into contact with the semispherical lower ends of the support rods 221, so that the wheels 2 protrude downwardly from the main bodies 5 and come into contact with the floor, and further, the semispherical lower ends of the support rods 221 are lockedly fitted to the stopping grooves 44 formed on the circumferential surfaces of the eccentric rotation members 4, thereby allowing the wheels 2 to be stably movable.

[0048] According to the present invention, as mentioned above, the downward movement of the wheel 2 is stably maintained by means of the artificial operation of the operating lever 6, by means of the simple and easy manipulation of the moving means for allowing the eccentric shaft 41 of the eccentric rotation member 4 rotated by the rotary force of the operating lever 6 to move the slide member 3 through the operating shaft hole 32, and by means of the first fixing part 210 or the second fixing part 220 for preventing the deviation of the eccentric rotation member 4 as one of the moving means and for setting the fixing position of the eccentric rotation member 4, so that the caster 1 is very convenient to use, simple in configuration, easy to manufacture, and provides the reduction of the manufacturing cost thereof.

[0049] While the present invention has been described with reference to the particular illustrative embodiments, it is not to be restricted by the embodiments but only by the appended claims. It is to be appreciated that those skilled in the art can change or modify the embodiments without departing from the scope and spirit of the present invention.

EXPLANATION OF REFERENCE NUMERALS IN THE DRAWINGS

[0050] 1: caster 2: wheel

[0051] 21: fixing shaft 22: male screw

[0052] 23: nut 24: fixing nut

[0053] 3: slide member 31: shaft hole

[0054] 32: operating shaft hole

[0055] 4: eccentric rotation member 41: eccentric shaft

[0056] 42: shaft bolt 43: guide slot

[0057] 44: stopping groove 5: main body

[0058] 51: first operating space

[0059] 52: second operating space

[0060] 53: third operating space 54: female screw

[0061] 55: accommodation space

[0062] 6: operating lever 61: coupling hole

[0063] 62: fixing hole 9: white board

[0064] 91: stand 92: column frame

[0065] 93: base 210: first fixing part

[0066] 211: stopping pin 212: finishing ring

[0067] 213: fixing pin 220: second fixing part

[0068] 221: support rod 222: spring

[0069] 22: stopper