TRIPOD STAND HEAD MOUNT

Abstract

A head mount includes a seat body on which a mounting cavity is provided; a conversion structure, and having two connection ends of different specifications; the conversion structure is reversibly disposed in the installation cavity, and the selected connection end protrudes out of the installation cavity by flipping the conversion structure, and is adapted to The photographing device is connected, and the seat body has a limiting structure for preventing the switching mechanism from being turned over after the photographing device is connected to the connecting end. By setting the conversion structure, when it is necessary to connect with the shooting device of different interfaces, the required connection end may be flipped outside the installation cavity to connect with the corresponding shooting device as required. The invention may realize the conversion of different connection ends by simply flipping the conversion structure, thereby realizing the connection with the different interface photographing devices, the operation is simple and quick, and the connection end is not required to be disassembled, and the connection end is not easily lost.

Claims

1: A head mount comprising: a seat body having a mounting cavity (1) thereon; a conversion structure having at least two connection ends (21) of different specifications; conversions are disposed in the mounting cavity (1), and the selected connecting end (21) protrudes out of the mounting cavity (1) by flipping the conversion structure, and is adapted to be connected to a photographing device, and the seat body includes a limit structure for preventing the switching mechanism from being turned over after the photographing device is connected to the connecting end (21).

2: The head mount according to claim 1, wherein the limiting structure is a limiting end surface (24) on the base body, and the mounting cavity (1) is formed on the limit end face (24), the limit end face (24) is opposed to the bottom of the photographing device to prevent the switching mechanism from being reversed.

3. (canceled)

4: The head mount according to claim 1, wherein the at least two connecting ends (21) of the conversion structure are a ⅜ UNC screw end and a ¼ UNC screw end, respectively.

5: The head mount according to claim 1, wherein the conversion structure is hinged in the mounting cavity (1).

6: The head mount according to claim 5, wherein the cavity wall of the mounting cavity (1) has oppositely disposed restricted opening (11), and the conversion structure further comprises: a hinge shaft (22) is respectively inserted into the corresponding limiting opening (11); a rotating shaft body (23), two connecting ends (21) are respectively fixed on two sides thereof; the rotating shaft body (23) provided therethrough for the hinge shaft (22) to pass through and the hinge body (23) may be hinged around the hinge; a hinged opening in which the shaft (22) rotates.

7: The head mount according to claim 6, wherein the outer diameter of the hinge shaft (22) is interference-fitted with the aperture of the limiting opening (11).

8: The head mount according to claim 1, wherein the base body comprises: a base adapted to be coupled to the bracket; a quick-loading plate assembly (4) mounted on the base, and the mounting cavity (1) is mounted away from one end of the base.

9: The head mount according to claim 8, wherein the quick-loading plate assembly (4) comprises: a quick loading plate (41), comprising a plate-shaped body (411), and an extending arm (412) extending from the plate-shaped body (411) away from the photographing device; the plate-shaped body (411) a first receiving cavity (413) is disposed, and the protruding arm (412) and the plate-like body (411) form a second accommodating communication with the first receiving cavity (413) Cavity (414); The fixing seat (42) includes an insertion portion (421) installed in the first receiving cavity (413), and is provided with the mounting cavity (1); a cover plate (43) is disposed in the second receiving cavity (414), detachably connected to a side of the plate-shaped body (411) away from the photographing device, and the insertion portion (421) A side away from the photographing device is opposed to prevent the embedding portion (421) from coming out of the first receiving cavity (413) away from the photographing device.

10: The head mount according to claim 9, wherein an outer diameter of the first receiving cavity (413) near the end of the photographing device is smaller than an outer diameter of one end away from the photographing device, and an outer peripheral wall of the insertion portion (421) matches the wall of the chamber of the first accommodating chamber (413).

11: The head mount according to claim 9, wherein the fixing base (42) a protrusion (422) extendingly coupled to the insertion portion (421) and extending into the second receiving cavity (414), wherein the head mount further comprising a protruding portion (422) The protrusion (422) and the adjustment structure (5) for rotating the shaft around the axis of the connection end (21) of the mounting cavity (1) may be driven.

12: The head mount according to claim 11, wherein the adjustment handle (5) is hinged to the protrusion (422), and the adjustment handle (5) has a plane and the connection The axially parallel expanded state of the end (21) and a stored state in which the plane is perpendicular to the axial direction of the connecting end (21).

13: The head mount according to claim 8, wherein the base is a multi-dimensional adjustment seat for adjusting an installation angle of the photographing device on the head mount.

14: The head mount according to claim 13, wherein the multi-dimensional adjustment seat comprises at least two rotating seats (31), the at least two rotating seats (31) and when the at least two rotating seats (31) are rotatably connected by the rotating shaft (32) and a number of the rotating shafts (32) is greater than 1, the rotating shafts (32) are not arranged in parallel; and wherein the head mount further includes a first locking structure disposed between the two adjacent rotating seats (31) for locking the two adjacent rotating seats (31) at an adjusted angle.

15: The head mount according to claim 14, wherein the first lock structure comprises: a locking assembly (61) disposed on one of the at least two rotating seats (31) a seat (31) for locking the rotating shaft (32) to prevent two adjacent rotating seats (31) rotate therebetween; a locking handle (62) that cooperates with the locking assembly (61) for controlling the locking assembly (61) to lock the rotating shaft (32) or to unlock the rotating shaft (32).

16: The head mount according to claim 15, wherein the first locking structure is rotatably disposed around the rotating shaft (32); the head mount further includes a winding mechanism for the first locking structure rotating the rotating shaft (32) to the lock handle (62) is in a vertical state and a second lock structure that is locked when rotated about the rotary shaft (32) to be in a working state.

17: The head mount of claim 16, wherein the second locking structure comprises: an curved groove (71) disposed on an end surface of the locking base (61) provided with the locking assembly (61) facing the locking assembly (61) and provided with a first position (711) And a second location (712); a positioning opening disposed on the end surface of the locking component (61) facing the corresponding arc groove (71); an elastic member (72) is mounted in the positioning opening; an adjustment member (73) is opposite to one end of the elastic member (72), and the elastic member (72) is the first position (711) and the second position (712) are engaged or disengaged by the action, and the adjustment member (73) is engaged in the first locking structure when the first locking structure is in the vertical state in the first position (711) is in the second position (712) when the first locking structure is in an operational state.

18: The head mount according to claim 17, wherein the first position (711) and the second position (712) is respectively locked by the groove bottom of the curved groove (71) opening.

19: The head mount according to claim 14, wherein one of the rotating seats (31) of the two mating seats (31) is formed with a through opening, and one of the rotating seats (31) is provided with the rotating shaft (32) adapted to pass through the through opening; the locking assembly (61) is rotatably coupled to the rotating seat provided with the through opening (31) above, and the locking assembly (61) is provided with a mounting opening that may be fitted on the rotating shaft (32).

20: The head mount according to claim 19, wherein the locking assembly (61) further comprises an open sleeve (611) sleeved on the rotating shaft (32), provided in the mounting opening, the opening sleeve (611) has two sides of the opening extending outwardly from the first regulating arm (612) and the second regulating arm (613); wherein the first locking structure further includes a shaft (63) connecting the locking assembly (61) and the locking handle (62); the locking assembly (61) is provided with a threaded connection, a corresponding end of the shaft (63) is provided with an externally threaded structure that cooperates with the threaded connection; the shaft (63) moves along the threaded connection to push against the first regulating arm (612) toward the second regulating arm (613) or to pull away from the first regulating arm (613) and the away from the second regulating arm (613).

21: The head mount according to claim 20, further comprising an elastic sleeve (8), said elastic sleeve (8) being provided between the rotating shaft (32) and the opening sleeve (611), wherein the elastic sleeve (8) locks the rotating shaft when the opening of the opening sleeve (611) contracts.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0037] In order to more clearly illustrate the specific embodiments of the aspects of the invention or the technical solutions in the prior art, the drawings used in the specific embodiments or the description of the prior art will be briefly described below, and obviously, the attached in the following description The drawings are some embodiments of the aspects of the invention, and those skilled in the art may obtain other drawings based on these drawings without any creative work.

[0038] FIG. 1 is a perspective view of a head mount provided in a first embodiment of the aspects of the invention;

[0039] FIG. 2 is a perspective view showing the conversion structure of the head mount shown in FIG. 1 mounted on the quick-loading plate assembly;

[0040] FIG. 3 is a top plan view showing the conversion structure of the head mount shown in FIG. 2 mounted on the quick-loading plate assembly;

[0041] FIG. 4 is a cross-sectional view showing the conversion structure of the head mount shown in FIG. 2 mounted on the quick-loading plate assembly;

[0042] FIG. 5 is a perspective exploded view showing the conversion structure of the head mount shown in FIG. 2 mounted on the quick-loading plate assembly;

[0043] FIG. 6 is a schematic perspective view showing the conversion structure of the head mount shown in FIG. 1 mounted on a fixed seat;

[0044] FIG. 7 is a partial exploded view of the head mount shown in FIG. 1;

[0045] FIG. 8 is a schematic view showing the separation state of the first locking structure of the head mount and the other parts of the head mount shown in FIG. 1;

[0046] FIG. 9 is a partial cross-sectional view of the head mount shown in FIG. 1;

[0047] FIG. 10 is a perspective view showing the locking handle in the head mount shown in FIG. 1 in a vertical state;

DETAILED DESCRIPTION

[0048] Descriptions of the reference numbers are below:

[0049] 1—mounting cavity, 11—restricted opening, 21—connecting end, 22—hinging shaft, 23—spindle body, 24—limit end face, 31—rotating seat, 32—rotating shaft, 4—fast mounting plate assembly, 41—quick release plate, 411—plate body, 412—extension arm, 413—first accommodation cavity, 414—second accommodation cavity, 42—fixed seat, 421—embedded portion, 422—extension, 43—cover, 5—adjustment handle, 61—locking assembly, 611—opening sleeve, 612—first adjustment arm, 613—second adjustment arm, 62—locking handle, 63—axis, 71—curved groove, 711—first position, 712—second position, 72—elastic member, 73—adjustment member, 8—elastic sleeve.

[0050] The technical solutions of the aspects of the invention will be clearly and completely described in the following with reference to the accompanying drawings. It is obvious that the described embodiments are a part of the embodiments of the invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the invention without departing from the inventive scope are the scope of aspects of the invention.

[0051] Further, the technical features involved in the different embodiments of aspects of the invention described below may be combined with each other as long as they do not constitute a conflict therebetween.

[0052] As shown in FIG. 1 to FIG. 4, the embodiment provides a head mount, including a base body and a conversion structure. A mounting cavity 1 is provided on the seat body.

[0053] The conversion structure has two connection ends 21 of different specifications; the conversion structure is reversibly mounted on the installation in the cavity 1, the selected connecting end 21 is extended beyond the mounting cavity 1 by flipping the conversion structure, suitable for shooting.

[0054] The camera (such as a camera, a camera, etc.) is connected, and the body has a limit structure that prevents the switching mechanism from flipping after the connection device is connected to the connection end 21. As a switchable embodiment, the conversion structure may also have three or four different types of connection terminals 21 of different specifications.

[0055] The limiting structure is a limiting end face 24 on the seat body, and the mounting cavity 1 is formed on the limiting end face 24.

[0056] The over-limit end face 24 is against the bottom of the camera and prevents the switching mechanism from flipping. In this embodiment, the connecting end 21 is a screw end and is respectively a ⅜ UNC screw end, and ¼ UNC screw end.

[0057] The specific structure of the conversion structure may come in various forms. In this embodiment, the conversion structure is hinged in the installation cavity 1, and the cavity wall of the installation cavity 1 has oppositely disposed restricted openings.

[0058] The hinge shaft 22 and the shaft body 23 are included. The hinge shaft 22 is respectively inserted into the corresponding restricted opening 11.

[0059] The shaft body 23 has two connecting ends 21 fixed on two sides thereof, and the rotating shaft body 23 is provided with a hinge. The shaft 22 passes through a hinge hole that allows the spindle body 23 to rotate about the hinge shaft 22 by connecting the two. The two ends 21 are respectively disposed at two ends of the rotating shaft body 23, and the hinge holes are arranged on the rotating shaft body 23, so that only the rotating shaft body 23 is rotated around the hinge shaft 22 to realize the conversion between the two connecting ends 21, and the structure is simple and convenient to operate.

[0060] In order to prevent the hinge shaft 22 from rotating together under the driving of the shaft body 23, in this embodiment, the outer diameter of the hinge shaft 22 is interference-fitted with the aperture of the restricted opening 11. The base body includes a base and a quick-loading plate assembly 4. The base is adapted to be coupled to the bracket.

[0061] As shown in FIG. 4-6, the quick-loading plate assembly 4 is mounted on the base and at the end away from the base.

[0062] There is a mounting cavity 1 on the top. The quick release plate assembly 4 includes a quick release plate 41, a fixing base 42 and a cover plate 43.

[0063] The quick loading plate 41 includes a plate-like body 411, and is oriented away from the photographing device by the plate-like body 411. An extending arm 412 is extended; a plate-shaped body 411 is provided with a first receiving cavity 413, and an extending arm 412 forms a second accommodating cavity 414 communicating with the first accommodating cavity 413 with the plate-shaped body 411.

[0064] The fixing base 42 includes an inserting portion 421 installed in the first accommodating cavity 413, and is provided with a mounting cavity 1.

[0065] The cover plate 43 is disposed in the second accommodating cavity 414, and is detachably connected to the plate-shaped body 411 away from shooting.

[0066] One side of the device and the side of the embedding portion 421 away from the photographing device to prevent the embedding portion 421.

[0067] The first receiving cavity 413 is disengaged away from the photographing device.

[0068] By arranging the mounting cavity 1 in the fixing seat 42 and by engaging the quick mounting plate 41 with the cover plate 43. The fixing seat 42 provided with the mounting cavity 1 may be stably mounted on the quick mounting plate 41, thereby enabling installation of the conversion structure in chamber 1 smoother.

[0069] The outer diameter of the first accommodating cavity 413 near the end of the photographing device is smaller than the outer end of the photographing device. The diameter of the outer peripheral wall of the insert portion 421 matches the wall of the first accommodating chamber 413. In order to make the connection operation between the head mount and the photographing device more convenient, the fixing seat 42, in this embodiment, further includes a protrusion 422 that is fixedly coupled to the embedded portion 421 and extends into the second housing cavity 414.

[0070] The head mount also includes a connecting portion 422, a movable extension portion 422, and a conversion structure extending around the adjustment handle 5 of the shaft rotation of the connection end 21 of the mounting chamber 1 is provided. When the connection end 21 needs to be connected to the photographing device, the adjustment handle 5 may be rotated to adjust the screw connection between the connection end 21 and the photographing device, thereby making the connection operation between the head mount and the photographing device more complete.

[0071] In this embodiment, the adjustment handle 5 is hinged to the extension 422, and the adjustment handle 5 has a plane in which the plane lies parallel to the axial direction of the connecting end 21, and a plane and a connecting end 21 axially vertical storage state. Thus, when the adjustment handle 5 is required, the adjustment handle 5 is in the unfolded state. When the adjustment handle 5 is not required, the adjustment handle 5 is placed in the storage state.

[0072] This makes it easy for storage or carriage. Implementing the adjustment knob 5 There are many ways to switch between the two states.

[0073] For example, a locking structure is provided, in this embodiment, by adjusting the handle 5 and the extension 422. The hinge is provided with an interference fit so that the state of the adjustment knob 5 may be locked in real time. Referring to FIG. 1, the base in this embodiment is a multi-dimensional adjustment seat for adjusting the shooting equipment in the head mount with the mounting angle on the top. The multi-dimensional adjustment seat includes at least two rotating seats 31. When the rotating seats 31 and the rotating seats 31 are rotatably connected by the rotating shaft 32 and the number of the rotating shafts 32 is greater than 1, the rotating shafts 32 are not arranged in parallel. Specifically, in the embodiment, the multi-dimensional adjustment base includes three rotating seats 31, and the rotating seats 31 and the rotating seats 31 are rotatably connected by the rotating shaft 32, and the rotating shafts 32 are not arranged in parallel, wherein the brackets are close to each other. A base is attached to the bracket. As a variant, the multi-dimensional adjustment seat may also comprise two or four equal rotation seats 31.

[0074] As shown in FIG. 7 to FIG. 9, the head mount in this embodiment further includes a rotatable setting about the rotation axis 32.

[0075] A first locking structure is disposed between the adjacent two rotating seats 31 being adjacent to the two rotating seats 31 locked at the adjusted angle. The first locking structure includes a locking assembly 61 and a locking handle 62. The lock assembly 61 is disposed on one of the rotating seats 31 of the adjacent two rotating seats 31 for locking the rotating shaft 32 to prevent rotation between the adjacent two rotating seats 31.

[0076] The locking handle 62 cooperates with the locking assembly 61 for controlling the locking assembly 61 to lock the rotating shaft 32 or unlock the rotary axis 32.

[0077] Referring to FIG. 10, the head mount in this embodiment further includes a first locking structure about the rotating shaft 32.

[0078] The head mount rotates to lock handle 62 when in vertical position, and rotate around rotary axis 32 to work. In the state, the second locking structure is locked separately. The lock may be made by the setting of the second locking structure

[0079] The handle 62 is switched and locked between the vertical state and the working state, thereby facilitating the locking.

[0080] The use of the handle 62 and the ease of storage when not in use reduce the space occupied by the head mount. As a variant, the second locking structure may not be provided.

[0081] The specific structure of the second locking structure may be various. In the embodiment, the second locking structure includes an curved groove 71, a positioning hole, an elastic member 72 and an adjustment member 73.

[0082] The curved groove 71 is provided on the end surface of the lock base 61 provided with the lock assembly 61 toward the end surface of the lock assembly 61, and is provided with a first position 711 and a second position 712.

[0083] The positioning holes are provided on the end faces of the locking members 61 facing the corresponding curved grooves 71.

[0084] The elastic member 72 is mounted in the positioning hole. The adjustment member 73 is opposite to one end of the elastic member 72 and may be inserted or removed by the elastic member 72.

[0085] The first position 711 and the second position 712, the adjustment member 73 is engaged in the first position 711 when the first locking structure is in a vertical state, when the first locking structure is in the working state In the second position 712.

[0086] By switching the adjustment member 73 between the first position 711 and the second position 712, it is possible to achieve having the locking handle 62 switched between the vertical state and the working state, and the manner of realizing the switching state of the locking handle 62 is simple and convenient to operate.

[0087] In the present embodiment, the first position 711 and the second position 712 are respectively locking holes which are recessed by the groove bottom of the curved groove 71.

[0088] One of the at least two rotating seats 31 is formed with a through hole and the other is turned. The movable seat 31 is provided with a rotating shaft 32 adapted to pass through the through hole; the locking assembly 61 is rotatably connected.

[0089] The rotating seats 31 of the through hole is provided, and the locking assembly 61 is provided with a mounting hole that may be fitted on the rotating shaft 32.

[0090] The locking assembly 61 further includes an open sleeve 611 sleeved on the rotating shaft 32, and is disposed in the mounting hole.

[0091] The opening sleeve 611 has two sides of the opening extending outwardly from the first adjustment arm 612 and the second adjustment arm 613; the first locking structure further includes a shaft 63 connecting the locking assembly 61 and the locking handle 62. The locking assembly 61 is provided with a threaded connection, and the corresponding end of the shaft 63 is provided with a screwing hole as the threaded structure. The shaft 63 pushes against the first adjustment arm 612 to the second when screwing or unscrewing the threaded connection.

[0092] The adjustment arm 613 is brought closer to the reduced opening or away from the first adjustment arm 612 to gradually enlarge the opening.

[0093] By opening the shaft 32, the opening of the opening sleeve 611 may be adjusted, thereby opening the sleeve 611.

[0094] Rotating or holding the rotating shaft 32 with respect to the rotating shaft 32, so that the opening bushing 611 may be rotated relative to the rotating shaft 32.

[0095] When the rotating shaft 32 rotates, the angle between the rotating seats 31 and the state of the locking handle 62 are switched.

[0096] The angle or state is adjusted when the open sleeve 611 holds the rotary shaft 32. The head mount of this embodiment further includes an elastic sleeve 8 disposed on the rotating shaft 32 and the opening between the bushings 611. The elastic bushing 8 locks the rotating shaft 32 when the opening of the split bushing 611 contracts. As an alternative embodiment, the elastic bushing 8 may not be provided.

[0097] In the head mount in this embodiment, when the interface of the photographing device to be installed corresponds to the ⅜ UNC screw end, the ¼ UNC screw end is pressed down, so that the shaft body 23 is turned around the hinge shaft 22 in the mounting cavity 1 to The ¼UNC screw end extends into the mounting cavity 1 and the ⅜UNC screw end is turned out of the mounting cavity 1; when the interface of the shooting device to be mounted corresponds to the ¼UNC screw end, the same reason, press ⅜ UNC Screw end, so that the shaft body 23 is turned around the hinge shaft 22 in the mounting cavity 1 to the ⅜ UNC screw end extend into the mounting cavity 1 and the ¼ UNC screw end is turned out of the mounting cavity 1 so that it may be used according to the requirements.

[0098] Convert the required connection 21 to the mounting pocket 1 and connect it to the corresponding shooting device. Aspects of the invention only needs flip the conversion structure to enable conversion of different connectors 21, enabling shooting with different interfaces

[0099] The connection of the device is simple and quick, and the connection end 21 is not required to be disassembled, which is not easy to cause the connection end 21 lost.

[0100] It is apparent that the above-described embodiments are merely illustrative of the examples and are not intended to limit the implementation. Other variations or modifications of the various forms may be made by those skilled in the art in light of the above description. There is no need and no way to exhaust all of the implementations. Obvious changes or variations resulting therefrom are still within the protection of the invention.