CN113894532A

CN113894532A - Carrier rotary positioning mechanism

Info

Publication number: CN113894532A
Application number: CN202111256907.0A
Authority: CN
Inventors: 黄鉴志; 陆取科; 李细国
Original assignee: Shenzhen Hyconn Technology Co ltd
Current assignee: Shenzhen Hyconn Technology Co ltd
Priority date: 2021-10-27
Filing date: 2021-10-27
Publication date: 2022-01-07

Abstract

The application relates to a carrier rotary positioning mechanism, which comprises a connecting plate and a positioning plate rotationally arranged on the connecting plate, wherein a rotation limiting mechanism used for stopping clockwise rotation and anticlockwise rotation of the positioning plate is arranged on the connecting plate; the notebook computer keyboard has the advantage of being convenient to place the notebook computer keyboard on the carrier.

Description

Carrier rotary positioning mechanism

Technical Field

The application relates to the field of electronic component processing equipment, in particular to a carrier rotating and positioning mechanism.

Background

The notebook computer keyboard can adopt the screw to fix each other subassembly on the notebook computer keyboard when producing, the device that adopts the automatic locking screw usually realizes the operation of automatic locking screw, when needs are fastened to the screw, arrange the notebook computer keyboard on the carrier of automatic locking screw device's below for the operation of automatic locking screw of notebook computer keyboard on the carrier is realized to the automatic locking screw device, but hinder the automatic locking screw device to be located blockking of carrier top, lead to operating personnel not convenient for arrange the keyboard of notebook computer on the carrier.

Disclosure of Invention

In order to facilitate an operator to place a notebook computer keyboard on a carrier, the application provides a carrier rotation positioning mechanism.

The application provides a carrier rotational positioning mechanism adopts following technical scheme:

the utility model provides a carrier rotational positioning mechanism, includes the connecting plate and rotates the locating plate that sets up on the connecting plate, be provided with on the connecting plate and be used for carrying out the rotation limiting mechanism that blocks to the clockwise rotation and the anticlockwise rotation of locating plate, be provided with the carrier on the locating plate, be provided with on the carrier and be used for carrying out the positioning mechanism who fixes a position notebook computer keyboard.

By adopting the technical scheme, the carrier is manually driven to rotate by an operator, so that one side of the carrier is rotated out of the automatic welding device, the notebook computer keyboard is conveniently placed in the carrier by the operator, the rotation limiting mechanism can realize clockwise rotation and anticlockwise rotation positioning of the rotating plate, the carrier is prevented from rotating excessively when being rotated out of or rotated into the automatic welding device, and the rotating effect of the carrier is improved; the positioning mechanism can realize the positioning of the keyboard of the notebook computer, and prevent the keyboard of the notebook computer from being driven to be positioned in the carrier to move when a screw is searched.

Optionally, the rotation limiting mechanism includes a moving block, a first stop block and a second stop block, the moving block is disposed on an edge of the positioning plate, the first stop block and the second stop block are both disposed on the connecting plate, the positioning plate is used for being abutted to the first stop block when rotating clockwise to rotate one side of the carrier out of the automatic screw locking device, and the positioning plate is used for being abutted to the second stop block when rotating counterclockwise to rotate the carrier to a position below the automatic screw locking device.

Through adopting above-mentioned technical scheme, when the locating plate clockwise turning, the locating plate can drive the movable block butt joint to first dog on, the automatic screw locking device is rolled out to the carrier this moment, when the locating plate anticlockwise turning, the locating plate can drive the movable block butt joint to the second dog on, the carrier is located the automatic screw locking below this moment, adopts its simple structure of setting up of movable block, first dog and second dog, has improved the location effect when rotating locating plate and carrier.

Optionally, the moving block is detachably connected to the positioning plate, and both the first stop block and the second stop block are detachably connected to the connecting plate.

Through adopting above-mentioned technical scheme, be convenient for adjust the position of movable block, first dog and second dog to the adjustment of the rotation distance of locating plate and carrier is applicable to the rotation of different shapes carriers.

Optionally, a rotating positioning mechanism for driving the positioning plate to stop rotating when the moving block abuts against the first stop block or the second stop block is arranged on the connecting plate.

Through adopting above-mentioned technical scheme, rotate positioning mechanism and can drive the locating plate stall at once when movable block and first dog and second dog butt, prevent that the locating plate from revolving after rotating, improved the rotation effect to the locating plate.

Optionally, the rotating positioning mechanism includes a butting wheel and a butting mechanism, a plurality of positioning grooves are formed in the positioning plate along the circumferential position of the edge of the positioning plate, the butting mechanism is used for driving the butting wheel to move into or out of the positioning grooves, and the butting wheel is located in the positioning grooves when the moving block is butted with the first stop block and the second stop block.

Through adopting above-mentioned technical scheme, when the locating plate drives the constant head tank and rotates to the position at butt wheel place, butt mechanism can drive butt wheel immigration to the constant head tank in for the rotation of constant head tank and butt wheel pair locating plate plays the effect of prevention, makes the locating plate drive carrier immigration or shift out automatic locking screw device after stop rotating at once, adopts butt wheel and constant head tank to set up its simple structure, has improved the location effect after the locating plate rotates.

Optionally, the butt mechanism includes the body of rod and elasticity butt piece, the body of rod sets up to extending structure, and extending structure includes a plurality of connecting rods, and the cross sectional area of a plurality of connecting rods reduces in proper order towards the direction of keeping away from the locating plate, and the less connecting rod of diameter is pegged graft and sliding connection is in the great connecting rod of diameter in the adjacent connecting rod, the butt wheel rotates and sets up on being close to the connecting rod of locating plate in a plurality of connecting rods, elasticity butt piece sets up in the body of rod, the butt wheel is used for relying on elasticity butt piece to butt to in locating plate or the constant head tank.

By adopting the technical scheme, when the positioning plate drives the positioning groove to rotate to the position of the abutting wheel, the connecting rods can move in the adjacent connecting rods due to the elasticity of the elastic abutting pieces, so that the abutting wheel moves into the positioning groove by the elasticity of the elastic abutting pieces; the elastic abutting pieces are arranged, so that the abutting wheels are always abutted to the positioning plate, the rotating speed of the positioning plate is reduced, and the influence on a notebook computer keyboard in the carrier caused by the overhigh rotating speed is prevented.

Optionally, the connecting plate is provided with a mounting seat towards the direction close to or away from the positioning plate in a sliding manner, the connecting rod far away from the positioning plate in the connecting rods is detachably connected to the mounting seat, and the mounting seat is provided with a mounting part for fixing the mounting seat to any position after movement.

Through adopting above-mentioned technical scheme, adjust the interval between mount pad and the locating plate through the installed part to adjust the elasticity of elasticity butt piece, make the butt wheel can further butt to the constant head tank in, improved the effect that butt wheel and constant head tank drive the locating plate and stop, and through adjusting the butt power between butt wheel and the locating plate, thereby adjust the slew velocity of locating plate.

Optionally, carrier rotational positioning mechanism is still including the lifting unit who is used for driving the connecting plate lift, lifting unit includes the bottom plate and wears to establish and a plurality of lifters on the sliding connection bottom plate, the connecting plate is fixed to be set up on the tip of lifters, lifting unit is still including setting up on the bottom plate and being used for driving the connecting plate and being close to or keeping away from the lift of bottom plate.

Through adopting above-mentioned technical scheme, the piece that goes up and down can drive the connecting plate and be close to or keep away from the bottom plate to adjust the interval between carrier and the automatic screw locking device, make the automatic screw locking carry out the automatic screw locking to the electronic component of different thickness, and further be convenient for place the electronic component of different thickness.

Optionally, the connecting strips are arranged below the bottom plate and on two sides of the bottom plate, the end, far away from the connecting plate, of the jacking rod is fixedly arranged on the connecting strips, and buffer pieces used for buffering the lifting of the connecting plate when the connecting plate is lifted are arranged on the connecting strips on two sides.

Through adopting above-mentioned technical scheme, the bolster can cushion the lift of connecting plate to prevent that the electronic component on the connecting plate drives the carrier from leading to appearing damaging because of vibrations.

Optionally, the positioning mechanism includes a plurality of positioning blocks arranged at circumferential positions of edges of the carrier, each positioning block is arranged on the carrier in a sliding manner along a position close to or far away from the center of the carrier, and a fixing piece used for fixing the positioning block to any position after movement is arranged on the positioning block.

By adopting the technical scheme, the positions of the positioning blocks are adjusted through the fixing pieces, so that the positioning blocks can position the electronic elements in different shapes, and the applicability of the positioning blocks is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

the carrier is driven to rotate manually by an operator, so that one side of the carrier is rotated out of the automatic welding device, the notebook computer keyboard is convenient for the operator to place in the carrier, the rotation limiting mechanism can realize clockwise rotation and anticlockwise rotation positioning of the rotating plate, the carrier is prevented from rotating excessively when being rotated out of or rotated into the automatic welding device, and the rotating effect of the carrier is improved; the positioning mechanism can position the keyboard of the notebook computer, and prevent the keyboard of the notebook computer from being driven to be positioned in the carrier to move when the screws are searched;

when the positioning plate drives the positioning groove to rotate to the position of the abutting wheel, the connecting rods can move in the adjacent connecting rods due to the elasticity of the elastic abutting pieces, so that the abutting wheel moves into the positioning groove by the elasticity of the elastic abutting pieces; the elastic abutting pieces are arranged, so that the abutting wheels are always abutted to the positioning plate, the rotating speed of the positioning plate is reduced, and the influence on a notebook computer keyboard in the carrier caused by the overhigh rotating speed is prevented.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

fig. 2 is a schematic structural diagram of a hidden carrier according to an embodiment of the present application;

fig. 3 is a schematic half-sectional view of a rod body and a mounting seat according to an embodiment of the present disclosure.

Description of reference numerals: 1. a connecting plate; 11. positioning a plate; 12. a carrier; 121. positioning blocks; 122. a first sliding groove; 123. fixing the strip-shaped holes; 13. a moving block, 131, a first stopper; 132. a second stopper; 14. a butting wheel; 141. positioning a groove; 142. a rod body; 143. a connecting rod; 144. a spring; 145. a mounting seat; 146. a second sliding groove; 147. installing a strip-shaped hole; 148. an installation opening; 149. mounting a plate; 1491. accommodating grooves; 15. a base plate; 151. a jacking rod; 152. a cylinder; 153. a butting block; 154. a connecting strip; 155. a buffer.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a carrier rotation positioning mechanism. With reference to fig. 1 and 2, a carrier rotational positioning mechanism includes a connecting plate 1 and a positioning plate 11 rotatably disposed on the connecting plate 1, a bearing is disposed on the connecting plate 1, an outer ring of the bearing is fixedly disposed on the connecting plate 1, the positioning plate 11 is fixedly disposed on an inner ring of the bearing, the positioning plate 11 is rotatably disposed on the positioning plate 11 through the bearing, a carrier 12 is disposed on the positioning plate 11, and in this embodiment, the carrier 12 is a strip-shaped plate.

Referring to fig. 1 and 2, in order to fix the notebook computer keyboard on the carrier 12, a positioning mechanism for positioning the notebook computer keyboard is disposed on the carrier 12; the positioning mechanism comprises a plurality of positioning blocks 121 arranged at the peripheral position of the edge of the carrier 12, each positioning block 121 is arranged on the carrier 12 in a sliding manner along a position close to or far away from the center of the carrier 12, a first sliding groove 122 is formed in the carrier 12 at the position where each positioning block 121 is located, the positioning block 121 is located in the first sliding groove 122, the positioning groove 141 is arranged on the connecting plate 1 in a sliding manner through the first sliding groove 122, and a fixing piece used for fixing the positioning block 121 to any position after movement is arranged on the positioning block 121; in this embodiment, the fixing member includes a fixing strip-shaped hole 123 formed in the positioning block 121 and a fixing bolt (not shown in the figure) inserted into and screwed on the bottom wall of the first sliding groove 122, the fixing strip-shaped hole 123 is used for the rod portion of the fixing bolt to pass through, and the fixing bolt moves by driving the positioning block 121, so that the rod portion of the fixing bolt is located in the fixing strip-shaped hole 123, and the position of the positioning block 121 is adjusted.

With reference to fig. 1 and 2, the connecting plate 1 is provided with a rotation limiting mechanism for blocking clockwise rotation and counterclockwise rotation of the positioning plate 11; the rotation limiting mechanism comprises a moving block 13, a first stop block 131 and a second stop block 132, the moving block 13 is arranged on the edge of the positioning plate 11, and the first stop block 131 and the second stop block 132 are both arranged on the connecting plate 1; in this embodiment, the positioning plate 11 is disposed in a circular shape, and an acute angle formed by a connection line between the first stopper 131 and the center point of the connecting plate 1 and a connection line between the second stopper 132 and the center point of the connecting plate 1 is 90 degrees; when the positioning plate 11 rotates clockwise, the positioning plate 11 abuts against the first stopper 131 to rotate one side of the carrier 12 out of the automatic screw locking device, and when the positioning plate 11 rotates counterclockwise, the positioning plate 11 abuts against the second stopper 132 to rotate 90 degrees to rotate the carrier 12 to the lower side of the automatic screw locking device.

Referring to fig. 1 and 2, the moving block 13 is detachably connected to the positioning plate 11, and both the first stop 131 and the second stop 132 are detachably connected to the connecting plate 1; in this embodiment, a first bolt (not shown in the figure) for inserting and screwing on the positioning plate 11 penetrates through the moving block 13, the moving block 13 is detachably connected to the positioning plate 11 through the first bolt, second bolts (not shown in the figure) for inserting and screwing on the connecting plate 1 penetrate through the first stop 131 and the second stop 132, and the first stop 131 and the second stop 132 are detachably connected to the connecting plate 1 through the second bolts.

With reference to fig. 1 and 2, the connecting plate 1 is provided with a rotation positioning mechanism for driving the positioning plate 11 to stop rotating when the moving block 13 abuts against the first stopper 131 or the second stopper 132; the rotational positioning mechanism includes a butting wheel 14 and a butting mechanism, a plurality of positioning grooves 141 are provided on the positioning plate 11 along the circumferential position of the edge of the positioning plate 11, in this embodiment, the positioning grooves 141 are provided with four, four positioning grooves 141 are uniformly distributed on the circumferential edge of the positioning plate 11, the bottom wall of the positioning groove 141 includes two butting faces for simultaneously butting against the butting wheel 14, an obtuse angle formed between the two butting faces is 120 degrees, thereby facilitating the movement of the roller into or out of the positioning groove 141, the butting mechanism is used for driving the butting wheel 14 to move into or out of the positioning groove 141, and the butting wheel 14 is located in the positioning groove 141 when the moving block 13 is butted against the first stopper 131 and the second stopper 132.

Referring to fig. 2 and 3, two sets of abutting mechanisms are disposed on two sides of the positioning plate 11, each abutting mechanism includes a rod 142 and an elastic abutting member, the rod 142 is a telescopic structure, the telescopic structure includes a plurality of connecting rods 143, and in this embodiment, three connecting rods 143 are disposed; the cross-sectional areas of the connecting rods 143 are sequentially reduced towards the direction away from the positioning plate 11, the connecting rod 143 with the smaller diameter in the adjacent connecting rods 143 is inserted and connected in the connecting rod 143 with the larger diameter in a sliding manner, the abutting wheel 14 is rotatably arranged on the connecting rod 143 close to the positioning plate 11 in the connecting rods 143, the elastic abutting piece is arranged in the rod body 142, and the abutting wheel 14 is abutted to the positioning plate 11 or the positioning groove 141 by means of the elastic force of the elastic abutting piece; in the present embodiment, the elastic abutment member comprises a spring 144, one end of the spring 144 is fixedly connected to the bottom wall of the connecting rod 143 with the largest cross-sectional area, and the other end is fixedly connected to the bottom wall of the connecting rod 143 with the smallest cross-sectional area; when the spring 144 is in a compressed state, the abutting wheel 14 can abut against the edge of the positioning plate 11 or move into the positioning slot 141 against the elastic force of the spring 144.

With reference to fig. 2 and 3, the connecting plate 1 is provided with a mounting seat 145 in a sliding manner in a direction approaching or departing from the positioning plate 11, the connecting plate 1 is provided with second sliding grooves 146 at two sides of the connecting plate 1, the second sliding grooves 146 at two sides are located on the same straight line, an end of the second sliding groove 146 far from the positioning plate 11 penetrates through the connecting plate 1, the mounting seat 145 is located in the second sliding groove 146, the mounting seat 145 is slidably provided on the connecting plate 1 through the second sliding groove 146, and the mounting seat 145 is provided with a mounting part for fixing the mounting seat 145 to an arbitrarily moved position; in this embodiment, the mounting member includes mounting bar holes 147 that are provided on the mounting base 145 and located on both sides of the mounting base 145 and a plurality of mounting bolts (not shown in the figure) that are inserted and screwed on the connecting plate 1, and the mounting bar holes 147 are used for the rod portion of the mounting bolts to pass through, and move by driving the mounting base 145, so that the rod portion of the mounting bolts moves in the mounting bar holes 147, thereby realizing the adjustment of the position of the mounting base 145, and facilitating the adjustment of the elasticity of the spring 144.

Referring to fig. 2 and 3, the connecting rod 143 far away from the positioning plate 11 among the connecting rods 143 is detachably connected to the mounting base 145, a mounting opening 148 is formed in the mounting base 145 in a penetrating manner, the mounting opening 148 is used for the remaining two connecting rods 143 except for the connecting rod 143 with the largest diameter to pass through, a mounting plate 149 is sleeved on the connecting rod 143 with the smallest diameter, the mounting plate 149 is used for being fixed on the surface of the mounting base 145 far away from the connecting rod 143 through a bolt, the connecting rod 143 with the smallest diameter among the three connecting rods 143 is penetrated and slidably connected to the mounting plate 149, the connecting rod 143 located in the middle among the three connecting rods 143 abuts against the mounting plate 149 by virtue of the elasticity of the spring 144 in a compressed state, so that the abutting wheel 14 abuts against the positioning plate 11 or the positioning groove 141, and the rod body 142 can be located on the mounting base 145 after the mounting plate 149 is removed; the mounting base 145 is provided with a receiving groove 1491 for accommodating the mounting plate 149.

With reference to fig. 1 and fig. 2, the carrier 12 rotary positioning mechanism further includes a lifting assembly for driving the connecting plate 1 to lift, the lifting assembly includes a bottom plate 15 and a plurality of lifting rods 151 penetrating through and slidably connected to the bottom plate 15, in this embodiment, four lifting rods 151 are provided, the four lifting rods 151 are located at positions close to four corners of the bottom plate 15, the connecting plate 1 is fixedly disposed on end portions of the plurality of lifting rods 151, and the lifting assembly further includes a lifting member disposed on the bottom plate 15 and used for driving the connecting plate 1 to approach or be away from the bottom plate 15; in this embodiment, the lifter includes that the fixed cylinder 152 that sets up on the face that deviates from connecting plate 1 at bottom plate 15, and the drive end of cylinder 152 wears to establish and sliding connection on connecting plate 1, and the butt piece 153 that the fixed cover was established and fixedly connected with was used for with the butt of connecting plate 1 on the drive end of cylinder 152.

With reference to fig. 1 and 2, a connecting strip 154 is disposed below the bottom plate 15 and on two sides of the bottom plate 15, ends of the lifting rods 151 far away from the connecting plate 1 are fixedly disposed on the connecting strip 154, each two lifting rods 151 correspond to one connecting strip 154, and a buffer 155 for buffering lifting of the connecting plate 1 when the connecting plate 1 is lifted is disposed on the connecting strips 154 on two sides; in this embodiment, the buffer 155 includes a hydraulic buffer, the hydraulic buffer is inserted into and fixedly connected to the connecting bar 154, and a buffer end of the hydraulic buffer is configured to abut against a surface of the bottom plate 15 away from the connecting plate 1.

The implementation principle of the carrier rotation positioning mechanism in the embodiment of the application is as follows: when the notebook computer keyboard needs to be placed in the mold, an operator manually drives the carrier 12 to rotate, at this time, the carrier 12 can drive the moving block 13 on the positioning plate 11 to be separated from the abutting connection with the second stopper 132, so that the moving block 13 rotates towards the first stopper 131, the moving block 13 can abut against the first stopper 131, the abutting wheel 14 can resist the elastic force of the spring 144 to move into the positioning groove 141, so that the moving block 13 is fixed to the abutting connection state with the first stopper 131, at this time, one side of the carrier 12 rotates out of the automatic welding device, the notebook computer keyboard is placed in the carrier 12, the carrier 12 is driven to rotate reversely again by force, the abutting wheel 14 can move out of the positioning groove 141 again by the elastic force of the spring 144, the positioning plate 11 can drive the moving block 13 to rotate towards the second stopper 132, when the moving block 13 abuts against the second stopper 132, the abutting wheel 14 can move into the positioning groove 141 again by the elastic force of the spring 144, the carrier 12 is fixed to a position under the automatic welding device, in the embodiment, a keyboard of a notebook computer is used to facilitate the understanding of the working principle of the present application, and in other embodiments, the keyboard of the notebook computer can be replaced by other objects to facilitate the placement of the other objects by an operator.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A carrier rotation positioning mechanism is characterized in that: including connecting plate (1) and rotation setting locating plate (11) on connecting plate (1), be provided with on connecting plate (1) and be used for carrying out the rotation limiting mechanism that stops to the clockwise rotation and the anticlockwise rotation of locating plate (11), be provided with carrier (12) on locating plate (11), be provided with on carrier (12) and be used for carrying out the positioning mechanism who fixes a position notebook computer keyboard.

2. The carrier rotational positioning mechanism of claim 1, further comprising: the rotation limiting mechanism comprises a moving block (13), a first stop block (131) and a second stop block (132), the moving block (13) is arranged on the edge of the positioning plate (11), the first stop block (131) and the second stop block (132) are arranged on the connecting plate (1), the positioning plate (11) is used for being abutted to the first stop block (131) when rotating clockwise so as to enable one side of the carrier (12) to be rotated out of the automatic screw locking device, and the positioning plate (11) is used for being abutted to the second stop block (132) when rotating anticlockwise so as to enable the carrier (12) to be rotated below the automatic screw locking device.

3. The carrier rotational positioning mechanism of claim 2, wherein: the moving block (13) is detachably connected to the positioning plate (11), and both the first stop block (131) and the second stop block (132) can be detachably connected to the connecting plate (1).

4. The carrier rotational positioning mechanism of claim 2, wherein: the connecting plate (1) is provided with a rotating positioning mechanism for driving the positioning plate (11) to stop rotating when the moving block (13) is abutted against the first stop block (131) or the second stop block (132).

5. The carrier rotational positioning mechanism of claim 4, wherein: the rotary positioning mechanism comprises a butting wheel (14) and a butting mechanism, a plurality of positioning grooves (141) are formed in the positioning plate (11) along the circumferential position of the edge of the positioning plate (11), the butting mechanism is used for driving the butting wheel (14) to move into or out of the positioning grooves (141), and the butting wheel (14) is located in the positioning grooves (141) when the moving block (13) is butted with the first stop block (131) and the second stop block (132).

6. The carrier rotational positioning mechanism of claim 5, wherein: the butt mechanism includes the body of rod (142) and elasticity butt piece, the body of rod (142) sets up to extending structure, and extending structure includes a plurality of connecting rods (143), and the cross sectional area orientation of a plurality of connecting rods (143) reduces in proper order far away from the direction of locating plate (11), and the less connecting rod (143) of diameter is pegged graft and sliding connection is in the great connecting rod (143) of diameter in adjacent connecting rod (143), butt wheel (14) rotate set up in a plurality of connecting rods (143) be close to on connecting rod (143) of locating plate (11), elasticity butt piece sets up in the body of rod (142), butt wheel (14) are used for relying on elasticity butt piece to butt to locating plate (11) or in constant head tank (141).

7. The carrier rotational positioning mechanism of claim 6, wherein: the connecting plate (1) is provided with a mounting seat (145) in a sliding mode towards the direction close to or far away from the positioning plate (11), the connecting rods (143) far away from the positioning plate (11) in the connecting rods (143) are detachably connected to the mounting seat (145), and a mounting part used for fixing the mounting seat (145) to any position after movement is arranged on the mounting seat (145).

8. The carrier rotational positioning mechanism of claim 1, further comprising: carrier (12) rotational positioning mechanism is still including the lifting unit who is used for driving connecting plate (1) to go up and down, lifting unit includes bottom plate (15) and wears to establish and a plurality of lifters (151) on sliding connection bottom plate (15), connecting plate (1) is fixed to be set up on the tip of lifters (151), lifting unit is still including setting up on bottom plate (15) and being used for driving connecting plate (1) and being close to or keeping away from the lift of bottom plate (15).

9. The carrier rotational positioning mechanism of claim 8, wherein: the connecting strip (154) is arranged below the bottom plate (15) and on two sides of the bottom plate (15), the end part of the jacking rod (151) far away from the connecting plate (1) is fixedly arranged on the connecting strip (154), and two sides of the jacking rod are provided with buffer pieces (155) used for buffering the lifting of the connecting plate (1) when the connecting plate (1) is lifted.

10. The carrier rotational positioning mechanism of any of claims 1-9, further comprising: the positioning mechanism comprises a plurality of positioning blocks (121) arranged at the peripheral position of the edge of the carrier (12), each positioning block (121) is arranged on the carrier (12) in a sliding mode along the position close to or far away from the center of the carrier (12), and a fixing piece used for fixing the positioning block (121) to any position after movement is arranged on each positioning block (121).