CN211018935U - High shooting instrument - Google Patents

Abstract

The utility model provides a high-speed shooting instrument, which comprises a high-speed shooting instrument camera rod, a base and a bracket, wherein the top of the base is provided with a groove, one end of the bracket is connected with a body, the other end of the bracket is movably connected with the base, and the high-speed shooting instrument camera rod is provided with a hidden position and a rising position; when the high-speed shooting instrument camera shooting rod is located at the hidden position, the high-speed shooting instrument camera shooting rod and the support are located in the groove of the base; when the high shooting instrument camera shooting rod is located at the lifting position, the high shooting instrument camera shooting rod extends out of the groove. When need not using the high appearance of clapping, the high appearance of clapping is made a video recording the pole and is in hiding the position, when needs use the high appearance of clapping, the high appearance of clapping is made a video recording the pole and is switched to the position of rising from hiding the position, has saved the space that the high appearance of clapping took like this to avoided the high appearance of clapping when idle, produced the damage because of colliding with.

Description

High shooting instrument

Technical Field

The utility model relates to a scanning device technical field, in particular to high appearance of clapping.

Background

The fact that the audio and video of the whole process of the notarization are marked is that when a notarization worker handles a case, the whole notarization process is recorded and stored through notarization equipment, and the recorded and stored notarization process is uploaded to a storage server after being encrypted through tamper resistance. A high-speed shooting instrument is arranged in the notarization host desktop terminal. The high-speed shooting instrument is used for carrying out data electronic input on identity cards, files and the like and supporting an automatic cutting technology of electronic materials.

In prior art, the high appearance of clapping has the high appearance of clapping that is used for shooing and is made a video recording the pole and be used for supporting the base that the high appearance of clapping made a video recording the pole, wherein, the high appearance of clapping is made a video recording by the leg joint who sets up along vertical direction between pole and the base, and the base has notarization such as touch-sensitive screen and uses electronic equipment. When need not to use high appearance of clapping, the high appearance of clapping camera rod still stretches out in the base top, occupation space to camera equipment on the high appearance of clapping camera rod produces the damage because of colliding with easily.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to stretch out base top occupation space for a long time in order to overcome prior art's high appearance of clapping, and because of colliding with the defect that produces the damage easily, provide a high appearance of clapping.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

a high-speed shooting instrument comprises a high-speed shooting instrument camera shooting rod, a base and a support, and is characterized in that a groove is formed in the top of the base, one end of the support is connected to a body, the other end of the support is movably connected to the base, and the high-speed shooting instrument camera shooting rod is provided with a hidden position and a rising position;

when the high-speed shooting instrument camera shooting rod is located at the hidden position, the high-speed shooting instrument camera shooting rod and the support are located in the groove of the base; when the high shooting instrument camera shooting rod is located at the lifting position, the high shooting instrument camera shooting rod extends out of the groove.

In this scheme, when need not use the high appearance of clapping, the high appearance of clapping is made a video recording the pole and is in hiding the position, when needs use the high appearance of clapping, the high appearance of clapping is made a video recording the pole and is switched to the position of rising from hiding the position, has saved the space that the high appearance of clapping took like this to avoided the high appearance of clapping when idle, produced the damage because of colliding with.

Preferably, the stand has a flip joint by which the high-speed scanner imaging lever is switched between the hidden position and the raised position.

Preferably, the overturning joint comprises a first overturning joint and a second overturning joint, the first overturning joint is arranged between the support and the base, and the second overturning joint is arranged between the support and the high-speed shooting instrument camera rod.

In the scheme, the first overturning joint is used for realizing the movable connection between the support and the base, so that the support can do overturning motion around the first overturning joint; the second overturning joint is used for realizing the movable connection between the high-speed shooting instrument camera shooting rod and the support, so that the high-speed shooting instrument camera shooting rod and the support can do overturning motion around the second overturning joint. Therefore, the first and second flipping joints flip the high-speed scanner imaging lever from the hidden position to the raised position.

Preferably, the tilt joint has an automatic locking device and a rotation shaft, and the automatic locking device is configured to lock the rotation shaft when the high-speed scanner camera stick is located at the raised position.

In this scheme, the upset joint passes through the upset is realized to the rotation axis, works as the high appearance of clapping camera shooting pole is located during the rising position, through automatic locking device with the rotation axis locking, avoided the high appearance of clapping camera shooting pole to take place to rock for the high appearance of clapping structure is more firm when using.

Preferably, the automatic locking device comprises a fixed shaft sleeve, a spring and a ratchet wheel, the rotating shaft comprises a rotating shaft core, the spring, the ratchet wheel and the rotating shaft core are sequentially arranged in the fixed shaft sleeve, one side of the ratchet wheel close to the rotating shaft core is provided with a plurality of tooth sockets, and the outer surface of the rotating shaft core is provided with a protrusion matched with at least one tooth socket;

when the bracket is located at the lifting position, the protrusion is clamped with the tooth groove to prevent the rotating shaft from rotating; the projection does not fully snap into the socket when the bracket is between the stowed position and the raised position.

In the scheme, when the bracket is located at the lifting position, namely the automatic locking device locks the rotating shaft, the protrusion is clamped into the tooth socket; when the bracket does not reach the lifting position, namely the rotating shaft rotates, the protrusion pushes the ratchet wheel to move towards the spring, the reaction force of the compression spring pushes the ratchet wheel, so that the protrusion quickly enters the tooth groove corresponding to the lifting position, and the locking is realized automatically.

Preferably, the high-speed scanner has a lifting mechanism, and the high-speed scanner camera shooting rod is switched between the hiding position and the lifting position through the lifting mechanism.

Preferably, the lifting mechanism comprises an elastic compression piece and a lock catch, the lower end of the elastic compression piece is connected to the base, the upper end of the elastic compression piece is connected to the support, and the lock catch is used for limiting the up-and-down movement of the elastic compression piece.

In the scheme, when the high-speed shooting instrument camera shooting rod is located at the hidden position, the lock catch locks the elastic compression piece, so that the elastic compression piece is in a compression state, and the support and the high-speed shooting instrument camera shooting rod are completely located in the groove; when the high-speed shooting instrument camera shooting rod is changed from the hidden position to the rising position, the lock catch is opened, the elastic compression piece rebounds to a natural state, and the support is lifted upwards by the elastic compression piece, so that the high-speed shooting instrument camera shooting rod is lifted to the rising position. After this scheme was opened the hasp, high appearance of shooing and the support can be lifted automatically, and it is more convenient to use.

Preferably, the lower portion of the groove has a guide groove for receiving and guiding the bracket.

In the scheme, when the high-speed shooting instrument camera shooting rod is positioned at a hidden position, the support is positioned in the guide groove; when the high-speed shooting instrument camera shooting rod is switched from the hidden position to the lifting position, the support is lifted upwards along the guide groove, so that the high-speed shooting instrument camera shooting rod is lifted to the lifting position.

Preferably, a fixing part matched with the lock catch is arranged on the side surface of the bracket;

when the high-speed shooting instrument camera shooting rod is located at the hidden position, the lock catch is clamped into the fixing part; when the high shooting instrument camera shooting rod is located at the lifting position, the lock catch is not clamped into the fixing part.

Preferably, when the high-speed camera shooting rod is located at the lifting position, the high-speed camera shooting rod can rotate 180 degrees around the support in the horizontal direction.

The utility model discloses an actively advance the effect and lie in:

to this high appearance of clapping, the high appearance pole of clapping has hidden position and rising position, and when need not use the high appearance of clapping, the high appearance pole of clapping is in hidden position, and when needs used the high appearance of clapping, the high appearance pole of clapping switches to rising position from hidden position. Like this, when the user need not use the high appearance of clapping, saved the space that the pole took is made a video recording to the high appearance of clapping when idle, the pole is made a video recording because of colliding with and produces the damage to the high appearance of clapping.

Drawings

Fig. 1 is a schematic perspective view of a high-speed scanner according to a first embodiment of the present invention. Wherein, the high shooting instrument camera rod is positioned at a hidden position.

Fig. 2 is another schematic perspective view of a high-speed scanner according to a first embodiment of the present invention. Wherein the high-speed camera shooting rod is positioned between a hidden position and a rising position.

Fig. 3 is another schematic perspective view of a high-speed scanner according to a first embodiment of the present invention. Wherein, the high shooting instrument camera shooting rod is positioned at a lifting position.

Fig. 4 is a schematic cross-sectional structure diagram of a high-speed scanner according to a first embodiment of the present invention. Wherein, the high shooting instrument camera shooting rod is positioned at a lifting position.

Fig. 5 is a schematic cross-sectional view of an automatic locking device according to a first embodiment of the present invention.

Fig. 6 is a schematic perspective view of a high-speed scanner according to a second embodiment of the present invention. Wherein the high-speed camera shooting rod is positioned between a hidden position and a rising position.

Fig. 7 is a schematic perspective view of a high-speed scanner according to a second embodiment of the present invention. Wherein, the high shooting instrument camera shooting rod is positioned at a lifting position.

Fig. 8 is another schematic sectional structure diagram of the high-speed scanner according to the second embodiment of the present invention. Wherein, the high shooting instrument camera rod is positioned at a hidden position.

Fig. 9 is another schematic sectional view of a high-speed scanner according to a second embodiment of the present invention. Wherein, the high shooting instrument camera shooting rod is positioned at a lifting position.

Description of reference numerals:

high shooting instrument camera rod 1

Base 2

Groove 21

Support 3

Roll-over joint 31

Automatic locking device 311

Rotating shaft core 313

Fixed shaft sleeve 314

Spring 315

Ratchet wheel 316

Gullet 317

Projection 318

Lifting mechanism 32

Elastic compression member 321

Lock catch 322

Guide groove 323

Fixing part 324

Detailed Description

The present invention will be further described by way of examples with reference to the accompanying drawings, but the present invention is not limited thereto.

Example 1

The embodiment discloses a high appearance of clapping, as shown in fig. 1-5, high appearance of clapping includes high appearance camera rod 1, base 2 and support 3, and the top of base 2 has recess 21, and the one end of support 3 is connected in the body, and the other end swing joint of support 3 is in base 2, and high appearance camera rod 1 has hidden position and raised position. When the high-speed shooting instrument camera shooting rod 1 is located at the hidden position, the high-speed shooting instrument camera shooting rod 1 and the support 3 are located in the groove 21 of the base 2; when the high-speed shooting instrument camera shooting rod 1 is located at the lifting position, the high-speed shooting instrument camera shooting rod 1 extends out of the groove 21.

In this embodiment, when need not use the high appearance of clapping, the high appearance of clapping is made a video recording pole 1 and is in hiding the position, when needs use the high appearance of clapping, the high appearance of clapping is made a video recording pole 1 and is switched to the position of rising from hiding the position, has saved the space that the high appearance of clapping took like this to avoided the high appearance of clapping when idle, produced the damage because of colliding with.

As shown in fig. 2 to 4, the stand 3 has a flip joint 31, and the high-speed photographing bar 1 is switched between the hidden position and the raised position by the flip joint 31.

Specifically, the tilt joint 31 includes a first tilt joint 31 and a second tilt joint 31, the first tilt joint 31 is provided between the stand 3 and the base 2, and the second tilt joint 31 is provided between the stand 3 and the high-speed image taking apparatus imaging rod 1.

In the present embodiment, the first turning joint 31 is used for realizing the movable connection between the bracket 3 and the base 2, so that the bracket 3 can make turning motion around the first turning joint 31; the second overturning joint 31 is used for realizing the movable connection between the high-speed shooting instrument shooting rod 1 and the support 3, so that the high-speed shooting instrument shooting rod 1 and the support 3 can do overturning motion around the second overturning joint 31. Therefore, the first and second flip joints 31 and 31 cause the high-speed image pickup lever 1 to flip from the hidden position to the raised position.

The flip joint 31 has an automatic locking device 311 and a rotation shaft, and when the high-speed scanner imaging lever 1 is located at the raised position, the automatic locking device 311 is used to lock the rotation shaft.

In this embodiment, upset joint 31 realizes the upset through the rotation axis, and when high appearance of shooing pole 1 was located the rising position, through automatic locking device 311 with the rotation axis locking, avoided high appearance of shooing pole 1 to take place to rock for the structure is more firm when using high appearance of shooing.

It is understood that the automatic locking device 311 can also be used to lock the rotation shaft when the high-speed camera shooting bar 1 is in the hidden position.

As shown in fig. 5, the automatic locking device 311 includes a fixed shaft sleeve 314, a spring 315 and a ratchet wheel 316, the rotating shaft includes a rotating shaft core 313, the spring 315, the ratchet wheel 316 and the rotating shaft core 313 are sequentially arranged in the fixed shaft sleeve 314, one side of the ratchet wheel 316 close to the rotating shaft core 313 is provided with a plurality of tooth sockets 317, and the outer surface of the rotating shaft core 313 is provided with a protrusion 318 adapted to at least one tooth socket 317;

when the high-speed shooting instrument camera shooting rod 1 is located at the lifting position, the protrusion 318 is clamped with the tooth socket 317 to prevent the rotation shaft from rotating; when the high-speed scanner stick 1 is positioned between the hidden position and the raised position, the projection is not completely caught in the tooth groove 317.

In the present embodiment, when the high-speed scanner imaging lever 1 is in the raised position, i.e., the automatic locking device 311 locks the rotation shaft, the protrusion is caught in the tooth groove 317; when the rotation shaft is rotated and the high-speed scanner imaging lever 1 is closer to the raised position, the protrusion pushes the ratchet wheel 316 toward the spring 315, and the reaction force of the compression spring 315 pushes the ratchet wheel 316, so that the protrusion is quickly brought into the tooth groove 317 corresponding to the raised position, thereby being automatically locked.

It will be appreciated that when the high-speed camera bar 1 is in the concealed position, the protrusions can also engage the gullets to prevent rotation of the rotating shaft. Likewise, when the high-speed camera shooting lever 1 is closer to the hidden position, the protrusion pushes the ratchet 316 toward the spring 315, and the reaction force of the compression spring 315 pushes the ratchet 316, so that the protrusion snaps into the tooth groove 317 corresponding to the hidden position, thereby automatically locking.

Specifically, the shape and the size of each tooth socket are the same, the included angle between the central lines of two adjacent tooth sockets is 90 degrees, and the protrusion can be clamped with at least one tooth socket. When the rotating shaft core rotates, the protrusion pushes the ratchet wheel to move towards the spring, and when the rotating shaft core rotates by no more than 45 degrees, the spring pushes the ratchet wheel to enable the protrusion to quickly recover the original tooth socket. When the rotating shaft core rotates over 45 degrees, the spring pushes the ratchet wheel to enable the protrusion to rapidly enter the next tooth groove. For example, when the bracket rotates by no more than 45 degrees around the first overturning joint and the high-speed shooting instrument camera shooting rod rotates by no more than 45 degrees around the second overturning joint, the high-speed shooting instrument camera shooting rod can be restored to the original hidden position or the lifted position; when the support rotates around the first overturning joint to exceed 45 degrees and the high-speed shooting instrument shooting rod rotates around the second overturning joint to exceed 45 degrees, the high-speed shooting instrument shooting rod is switched to a lifting position from an original hidden position or is switched to the hidden position from the original lifting position so as to be automatically locked.

Example 2

As shown in fig. 6-9, the present embodiment further discloses another high-speed scanner, which includes a high-speed scanner camera rod 1, a base 2 and a bracket 3, wherein the top of the base 2 has a groove 21, one end of the bracket 3 is connected to the main body, the other end of the bracket 3 is movably connected to the base 2, and the high-speed scanner camera rod 1 has a hidden position and a raised position. When the high-speed shooting instrument camera shooting rod 1 is located at the hidden position, the high-speed shooting instrument camera shooting rod 1 and the support 3 are located in the groove 21 of the base 2; when the high-speed shooting instrument camera shooting rod 1 is located at the lifting position, the high-speed shooting instrument camera shooting rod 1 extends out of the groove 21.

In this embodiment, when need not use the high appearance of clapping, the high appearance of clapping is made a video recording pole 1 and is in hiding the position, when needs use the high appearance of clapping, the high appearance of clapping is made a video recording pole 1 and is switched to the position of rising from hiding the position, has saved the space that the high appearance of clapping took like this to avoided the high appearance of clapping when idle, produced the damage because of colliding with.

The high-speed scanner has a lifting mechanism 32, and the high-speed scanner imaging rod 1 is switched between a hidden position and a lifted position by the lifting mechanism 32.

As shown in fig. 8 and 9, the lifting mechanism 32 includes an elastic compression member 321 and a latch 322, a lower end of the elastic compression member 321 is connected to the base 2, an upper end of the elastic compression member 321 is connected to the bracket 3, and the latch 322 is used for limiting the up-and-down movement of the elastic compression member 321. In particular, the elastic expansion member may be a gas spring or other hydraulic mechanism.

In this embodiment, when the high-speed scanner camera rod 1 is located at the hidden position, the lock catch 322 locks the elastic compression element 321, so that the elastic compression element 321 is in a compressed state, and the bracket 3 and the high-speed scanner camera rod 1 are completely located in the groove 21; when the high-speed shooting instrument camera shooting rod 1 is changed from the hidden position to the rising position, the lock catch 322 is opened, the elastic compression piece 321 rebounds to the natural state, and the support 3 is lifted upwards by the elastic compression piece 321, so that the high-speed shooting instrument camera shooting rod 1 is lifted to the rising position. This scheme is opened hasp 322 back, and high appearance of shooing 1 and support 3 can lift up automatically, and it is more convenient to use.

As shown in fig. 8 and 9, the lower portion of the groove 21 has a guide groove 323 for receiving and guiding the bracket 3.

In the present embodiment, when the high-speed scanner imaging lever 1 is in the hidden position, the holder 3 is positioned in the guide groove 323; when the high-speed scanner imaging lever 1 is switched from the hidden position to the raised position, the holder 3 is raised upward along the guide groove 323, thereby raising the high-speed scanner imaging lever 1 to the raised position.

As shown in fig. 8 and 9, the side of the bracket 3 is provided with a fixing portion 324 adapted to the lock catch 322;

when the high-speed shooting instrument camera shooting rod 1 is located at the hidden position, the lock catch 322 is clamped into the fixing part 324; when the high-speed scanner imaging lever 1 is in the raised position, the lock catch 322 is not engaged with the fixing portion 324.

As shown in fig. 8 and 9, when high-speed scanner imaging bar 1 is in the raised position, high-speed scanner imaging bar 1 is rotatable 180 degrees in the horizontal direction about stand 3 to bring high-speed scanner imaging bar 1 into an operating state.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are all within the scope of the invention.

Claims (10)

1. A high-speed shooting instrument comprises a high-speed shooting instrument camera shooting rod, a base and a support, and is characterized in that a groove is formed in the top of the base, one end of the support is connected to a body, the other end of the support is movably connected to the base, and the high-speed shooting instrument camera shooting rod is provided with a hidden position and a rising position;

when the high-speed shooting instrument camera shooting rod is located at the hidden position, the high-speed shooting instrument camera shooting rod and the support are located in the groove of the base; when the high shooting instrument camera shooting rod is located at the lifting position, the high shooting instrument camera shooting rod extends out of the groove.

2. The high-speed scanner of claim 1 wherein said carriage has a flip joint by which said high-speed scanner camera bar is switched between said stowed position and said raised position.

3. The high-speed scanner according to claim 2, wherein the flipping joint comprises a first flipping joint and a second flipping joint, the first flipping joint is provided between the stand and the base, and the second flipping joint is provided between the stand and the camera stick of the high-speed scanner.

4. The high-speed scanner of claim 2 wherein said flip joint has an automatic locking device and a pivot axis, said automatic locking device for locking the pivot axis when said high-speed scanner camera bar is in said raised position.

5. The high-speed scanner according to claim 4, wherein the automatic locking device comprises a fixed shaft sleeve, a spring and a ratchet wheel, the rotating shaft comprises a rotating shaft core, the spring, the ratchet wheel and the rotating shaft core are sequentially arranged in the fixed shaft sleeve, one side of the ratchet wheel close to the rotating shaft core is provided with a plurality of tooth sockets, and the outer surface of the rotating shaft core is provided with a protrusion matched with at least one tooth socket;

when the high-speed shooting instrument camera shooting rod is located at a lifting position, the protrusion is clamped with the tooth groove to prevent the rotating shaft from rotating; when the high-speed shooting instrument camera shooting rod is located between the hiding position and the rising position, the bulge is not completely clamped into the tooth groove.

6. The high-speed scanner of claim 1, wherein said high-speed scanner has a lift mechanism by which said high-speed scanner camera bar is switched between said stowed position and said raised position.

7. A high speed scanner according to claim 6 wherein said elevating mechanism comprises an elastic compression member and a lock, the lower end of said elastic compression member is connected to said base, the upper end of said elastic compression member is connected to said frame, and said lock is used for limiting the up and down movement of said elastic compression member.

8. A high-speed scanner according to claim 7 wherein said recess has a guide slot in a lower portion thereof for receiving and guiding said support.

9. The high-speed scanner according to claim 8, wherein the side of the bracket is provided with a fixing part adapted to the lock catch;

when the high-speed shooting instrument camera shooting rod is located at the hidden position, the lock catch is clamped into the fixing part; when the high shooting instrument camera shooting rod is located at the lifting position, the lock catch is not clamped into the fixing part.

10. The high image capture device of claim 8 wherein the high image capture bar is rotatable 180 degrees about the support in a horizontal direction when the high image capture bar is in the raised position.

Images