CN113500337B - Multi-vehicle-type shared workpiece transfer machine gravity center adjusting mechanism - Google Patents

Abstract

The utility model provides a work piece that multi-vehicle type shared moves machine focus guiding mechanism that carries, including the lift seat, an optical axis and No. two optical axes, no. two optical axes pass through installing support and whole frame attach, the cover is equipped with No. one bush and No. two bushes on the No. two optical axes, the cover is equipped with the mount pad No. one on the bush, the cover is equipped with the mount pad No. two on No. two bushes, be equipped with compression spring between No. two bushes and the installing support, be equipped with spacing spacer between No. two mounts, be connected with No. three optical axes between the mount pad, be connected with No. four optical axes between No. two mounts, the cover is equipped with No. three bushes and No. four bushes on No. three No. four optical axes, the cover is equipped with No. three mounts on No. three bushes, be equipped with compression spring between No. three bushes and No. two mounts, the cover is equipped with No. four mounts on No. four bushes, be equipped with compression spring between No. four bushes and No. two mounts, no. three No. four mounts pass through the lift seat and be connected with elevating system. The design has good stability and low maintenance cost.

Description

Multi-vehicle-type shared workpiece transfer machine gravity center adjusting mechanism

Technical Field

The invention relates to the technical field of automobile manufacturing, in particular to a multi-vehicle shared workpiece transfer machine gravity center adjusting mechanism which is mainly suitable for improving stability and reducing maintenance cost.

Background

In the existing automobile body-in-white welding fixture, the clamping unit switched by a plurality of movable cylinders is adopted to clamp side wall floors of automobile body top covers with different widths and lengths, and the whole gravity center is switched by a spring and a ball linear bearing. The mechanism is snatched in the focus guiding mechanism sub-unit connection that spring and ball linear bearing constitute, snatch the mechanism and snatch the part when, because the variety of part, the focus is different, the focus point can be moved about back and forth, the skew mechanism at focus guiding mechanism center passes through ball linear bearing and removes, remove the spring of in-process compression one end, the spring force release of the other end, focus guiding mechanism one end ball linear bearing bears the downward extrusion force simultaneously, other end ball linear bearing bears the upward extrusion force, ball linear bearing is because of bearing the extrusion force, often break the damage, lead to the whole lower part to snatch the mechanism focus imbalance, unable normal work, and ball linear bearing easily destroys, need the maintenance of frequent maintenance.

Disclosure of Invention

The invention aims to overcome the defects and problems of poor stability and high maintenance cost in the prior art, and provides a gravity center adjusting mechanism of a workpiece transfer machine shared by multiple vehicle types, which has good stability and low maintenance cost.

In order to achieve the above purpose, the technical solution of the invention is as follows: a gravity center adjusting mechanism of a workpiece transfer machine shared by multiple vehicle types comprises a lifting seat and an optical axis, wherein the optical axis comprises a first optical axis, a second optical axis, a third optical axis and a fourth optical axis, the first optical axis and the second optical axis are symmetrically arranged at two sides of the lifting seat, two ends of the first optical axis and the second optical axis are both connected with mounting brackets, the mounting bracket is connected with the integral frame of the transfer machine, the outer walls of the first optical axis and the second optical axis are respectively sleeved with a first bush and a second bush, the outer wall of the first bushing is sleeved with a first mounting seat, a first compression spring is arranged between the first bushing and the mounting bracket, a second mounting seat is sleeved on the outer wall of the second bushing, a second compression spring is arranged between the second bushing and the mounting bracket, the first mounting seat and the second mounting seat are symmetrically arranged, a limiting spacer bush is arranged between the first mounting seat and the second mounting seat, a third optical axis is connected between the first mounting seat of the first optical axis and the first mounting seat of the second optical axis, a fourth optical axis is connected between the second mounting seat of the first optical axis and the second mounting seat of the second optical axis, the third optical axis and the fourth optical axis are symmetrically arranged, the outer walls of the third optical axis and the fourth optical axis are respectively sleeved with a third bushing and a fourth bushing, a third mounting seat is sleeved on the outer wall of the third bushing, a third compression spring is arranged between the third bushing and the first mounting seat and between the third bushing and the second mounting seat, a fourth mounting seat is sleeved on the outer wall of the fourth bushing, a fourth compression spring is arranged between the fourth bushing and the first mounting seat and between the fourth bushing and the second mounting seat, no. three mount pads and No. four mount pads symmetry set up, no. three mount pads, no. four mount pads all are connected with the bottom surface of lift seat, the top surface of lift seat is connected with elevating system through the connecting plate.

The first bushing, the second bushing, the third bushing and the fourth bushing are all graphite bushings.

The first bushing, the second bushing, the third bushing and the fourth bushing are of T-shaped structures and comprise bushing bodies and flange plates connected with the end parts of the bushing bodies; the bushing bodies of the first bushing and the second bushing are sleeved on the outer walls of the first optical axis and the second optical axis, the first mounting seat is sleeved on the outer wall of the bushing body of the first bushing, one end face of the flange plate of the first bushing is connected with the end face of the first mounting seat, and the other end face of the flange plate of the first bushing is attached to the first compression spring; the second mounting seat is sleeved on the outer wall of the bushing body of the second bushing, one end face of the flange plate of the second bushing is connected with the end face of the second mounting seat, and the other end face of the flange plate of the second bushing is attached to the second compression spring; the bushing bodies of the third bushing and the fourth bushing are sleeved on the outer walls of the third optical axis and the fourth optical axis, the third mounting seat is sleeved on the outer wall of the bushing body of the third bushing, one end face of the flange plate of the third bushing is connected with the end face of the third mounting seat, and the other end face of the flange plate of the third bushing is attached to the third compression spring; no. four mount pads suit is on the outer wall of the bush body of No. four bushes, and an terminal surface of the ring flange of No. four bushes is connected with the terminal surface of No. four mount pads, and another terminal surface and the laminating of No. four compression spring of the ring flange of No. four bushes mutually.

And limiting blocks are arranged at the positions, outside the third mounting seat and the fourth mounting seat, on the bottom surface of the lifting seat.

The gravity center adjusting mechanism further comprises a fixing plate, and the fixing plate is connected with the top surfaces of the third mounting seat and the fourth mounting seat.

The gravity center adjusting mechanism further comprises a fixing seat, the fixing seat is of a T-shaped structure and comprises a cylindrical section and a disc, the cylindrical section is connected with the mounting support, the disc is connected with the end portions of the first optical axis and the second optical axis, and the disc is attached to the first compression spring and the second compression spring.

No. one mount pad, no. two mount pads all include semicircular block and L type piece, semicircular groove has been seted up to the bottom surface of semicircular block, and semicircular block passes through semicircular groove suit in one side of a bush, no. two bush outer walls, semicircular groove has been seted up to a side of L type piece, and L type piece passes through semicircular groove suit at the opposite side of a bush, no. two bush outer walls, and the another side of L type piece is connected with the tip of No. three optical axis, no. four optical axes, and this side is laminated with No. three compression spring, no. four compression spring mutually.

No. three mount pads, no. four mount pads all include the connecting block that installation piece and both ends are connected, the mounting hole has been seted up on the installation piece, and the installation piece passes through the mounting hole suit on the outer wall of No. three bush, no. four bushes, the connecting block is connected with the bottom surface of lift seat.

Spacing spacer sleeve is I shape structure, and spacing spacer sleeve includes a flange holding surface, no. two flange holding surfaces that spacing spacer sleeve body and both ends are connected, spacing spacer sleeve body suit is on the outer wall of an optical axis, no. two optical axes, a flange holding surface laminates with the terminal surface of mount pad mutually, no. two flange holding surfaces laminate with the terminal surface of No. two mount pads mutually.

The installing support includes L type support and reinforcing plate, the diaphragm of L type support is connected with whole frame's bottom surface, and a side of the riser of L type support is connected with optical axis, no. two optical axes, and another side of the riser of L type support is connected with whole frame's side, the reinforcing plate is connected with the riser of L type support is perpendicular, and the reinforcing plate is connected with whole frame's top surface.

Compared with the prior art, the invention has the beneficial effects that:

1. in the center-of-gravity adjusting mechanism of the workpiece transfer machine shared by multiple vehicle types, when an operator uses the transfer machine to grab parts of different vehicle types, the optical axis on the transfer machine is axially moved along the bushing according to the vehicle types to adjust the center of gravity, so that the transfer machine is convenient to integrally move, the problem of center-of-gravity imbalance caused by easy fragmentation of the ball linear bearing is solved by using the bushing instead of the ball linear bearing, the stability is greatly improved, the shutdown maintenance time is shortened, and the maintenance cost is reduced. Therefore, the invention has good stability and low maintenance cost.

2. In the center-of-gravity adjusting mechanism of the workpiece transfer machine shared by multiple vehicle types, the first bush, the second bush, the third bush and the fourth bush are all graphite bushes, so that the service life of the bushes is long, the stability of the center-of-gravity adjusting mechanism is improved, and the maintenance cost of the center-of-gravity adjusting mechanism is reduced; no. one bush, no. two bushes, no. three bushes, no. four bushes all are T style of calligraphy structure for installation and dismantlement are simple and convenient. Therefore, the invention has the advantages of good stability, low maintenance cost and simple and convenient installation and disassembly.

3. The invention relates to a multi-vehicle-type shared workpiece transfer machine gravity center adjusting mechanism.A limiting block is arranged on the outer side of a third mounting seat and the outer side of a fourth mounting seat to prevent the gravity center adjusting mechanism from moving; the fixed plate is connected with the top surfaces of the third mounting seat and the fourth mounting seat, so that the mounting seats and the lifting seat are firmly connected; the fixing base includes cylinder section and disc, and the cylinder section is connected with the installing support, and the disc is connected with the tip of an optical axis, no. two optical axes, and the disc laminates with compression spring, no. two compression springs mutually, adds the fixing base, and the installation of not only being convenient for avoids snatching the interference between part and the whole frame moreover. Therefore, the invention has high reliability and simple installation.

4. In the gravity center adjusting mechanism of the workpiece transfer machine shared by multiple vehicle types, the semicircular block is sleeved on one side of the outer wall of the bushing through the semicircular groove, the L-shaped block is sleeved on the other side of the outer wall of the bushing through the semicircular groove, the other side surface of the L-shaped block is connected with the end part of the optical axis, and the side surface is attached to the compression spring. Therefore, the invention has simple and convenient assembly and disassembly, good motion stability and high reliability.

5. According to the gravity center adjusting mechanism of the workpiece transfer machine shared by multiple vehicle types, the mounting block is provided with the mounting hole, the mounting block is sleeved on the outer walls of the third bushing and the fourth bushing through the mounting hole, the connecting block is connected with the bottom surface of the lifting seat, and the mounting seat with the structure not only enables the mounting seat and the lifting seat to be mounted and dismounted conveniently, but also is good in motion stability. Therefore, the invention has simple and convenient assembly and disassembly and good motion stability.

6. In the gravity center adjusting mechanism of the workpiece transfer machine shared by multiple vehicle types, the limiting spacer sleeve body is sleeved on the outer walls of the first optical axis and the second optical axis, the first flange supporting surface is attached to the end surface of the first mounting seat, and the second flange supporting surface is attached to the end surface of the second mounting seat. Therefore, the invention has high reliability.

7. In the gravity center adjusting mechanism of the workpiece transfer machine shared by multiple vehicle types, the transverse plate of the L-shaped support is connected with the bottom surface of the integral frame, one side surface of the vertical plate of the L-shaped support is connected with the first optical axis and the second optical axis, the other side surface of the vertical plate of the L-shaped support is connected with the side surface of the integral frame, the reinforcing plate is vertically connected with the vertical plate of the L-shaped support, and the reinforcing plate is connected with the top surface of the integral frame. Therefore, the invention has simple and convenient installation and disassembly and firm connection.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic perspective view of the workpiece transfer machine according to the present invention.

Fig. 3 is a plan view of the workpiece transfer device of the present invention.

Fig. 4 is a bottom view of the workpiece transfer device of the present invention.

In the figure: lifting seat 1, optical axis 2, optical axis 3, optical axis 4, optical axis 5, installing support 6, horizontal plate 61, vertical plate 62, reinforcing plate 63, bush 7, bush 8, installing seat 9, semicircular block 91, L type block 92, compression spring 10, installing seat 11, compression spring 12, spacing spacer 13, bush 14, bush 15, installing seat 16, installing block 161, connecting block 162, compression spring 17, installing seat 18, compression spring 19, limiting block 20, fixing plate 21, fixing seat 22, cylindrical section 221, disc 222, transfer machine 23, integral frame 24 and connecting plate 25.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 4, a gravity center adjusting mechanism of a multi-vehicle type shared workpiece transfer machine comprises a lifting seat 1 and optical axes, wherein the optical axes comprise a first optical axis 2, a second optical axis 3, a third optical axis 4 and a fourth optical axis 5, the first optical axis 2 and the second optical axis 3 are symmetrically arranged at two sides of the lifting seat 1, two ends of the first optical axis 2 and the second optical axis 3 are respectively connected with a mounting bracket 6, the mounting brackets 6 are connected with an integral frame 24 of a transfer machine 23, the outer walls of the first optical axis 2 and the second optical axis 3 are respectively sleeved with a first bushing 7 and a second bushing 8, the outer wall of the first bushing 7 is sleeved with a first mounting seat 9, a first compression spring 10 is arranged between the first bushing 7 and the mounting bracket 6, the outer wall of the second bushing 8 is sleeved with a second mounting seat 11, and a second compression spring 12 is arranged between the second bushing 8 and the mounting bracket 6, the novel optical axis adjusting device is characterized in that the first mounting seat 9 and the second mounting seat 11 are symmetrically arranged, a limiting spacer sleeve 13 is arranged between the first mounting seat 9 and the second mounting seat 11, a third optical axis 4 is connected between the first mounting seat 9 of the first optical axis 2 and the first mounting seat 9 of the second optical axis 3, a fourth optical axis 5 is connected between the second mounting seat 11 of the first optical axis 2 and the second mounting seat 11 of the second optical axis 3, the third optical axis 4 and the fourth optical axis 5 are symmetrically arranged, a third bushing 14 and a fourth bushing 15 are sleeved on the outer walls of the third optical axis 4 and the fourth optical axis 5, a third mounting seat 16 is sleeved on the outer wall of the third bushing 14, a third compression spring 17 is arranged between the third bushing 14 and the first mounting seat 9 and the second mounting seat 11, a fourth mounting seat 18 is sleeved on the outer wall of the fourth bushing 15, a fourth bushing 15 and the first mounting seat 9, a fourth bushing 15 and the second mounting seat 9, A fourth compression spring 19 is arranged between the second mounting seat 11, the third mounting seat 16 and the fourth mounting seat 18 are symmetrically arranged, the third mounting seat 16 and the fourth mounting seat 18 are connected with the bottom surface of the lifting seat 1, and the top surface of the lifting seat 1 is connected with a lifting mechanism through a connecting plate 25.

The first bush 7, the second bush 8, the third bush 14 and the fourth bush 15 are all graphite bushes.

The first bush 7, the second bush 8, the third bush 14 and the fourth bush 15 are all of T-shaped structures, and the first bush 7, the second bush 8, the third bush 14 and the fourth bush 15 all comprise bush bodies and flange plates connected with the end parts of the bush bodies; the bush bodies of the first bush 7 and the second bush 8 are sleeved on the outer walls of the first optical axis 2 and the second optical axis 3, the first mounting seat 9 is sleeved on the outer wall of the bush body of the first bush 7, one end face of the flange plate of the first bush 7 is connected with the end face of the first mounting seat 9, and the other end face of the flange plate of the first bush 7 is attached to the first compression spring 10; the second mounting seat 11 is sleeved on the outer wall of the bushing body of the second bushing 8, one end face of the flange plate of the second bushing 8 is connected with the end face of the second mounting seat 11, and the other end face of the flange plate of the second bushing 8 is attached to the second compression spring 12; the bushing bodies of the third bushing 14 and the fourth bushing 15 are sleeved on the outer walls of the third optical axis 4 and the fourth optical axis 5, the third mounting seat 16 is sleeved on the outer wall of the bushing body of the third bushing 14, one end face of a flange plate of the third bushing 14 is connected with the end face of the third mounting seat 16, and the other end face of the flange plate of the third bushing 14 is attached to the third compression spring 17; the fourth mounting seat 18 is sleeved on the outer wall of the bushing body of the fourth bushing 15, one end face of the flange of the fourth bushing 15 is connected with the end face of the fourth mounting seat 18, and the other end face of the flange of the fourth bushing 15 is attached to the fourth compression spring 19.

And the positions, which are positioned at the outer sides of the third mounting seat 16 and the fourth mounting seat 18, on the bottom surface of the lifting seat 1 are respectively provided with a limiting block 20.

The gravity center adjusting mechanism further comprises a fixing plate 21, and the fixing plate 21 is connected with the top surfaces of the third mounting seat 16 and the fourth mounting seat 18.

The gravity center adjusting mechanism further comprises a fixing seat 22, the fixing seat 22 is of a T-shaped structure, the fixing seat 22 comprises a cylindrical section 221 and a disc 222, the cylindrical section 221 is connected with the mounting support 6, the disc 222 is connected with the end portions of the first optical axis 2 and the second optical axis 3, and the disc 222 is attached to the first compression spring 10 and the second compression spring 12.

No. one mount pad 9, no. two mount pads 11 all include semicircular block 91 and L type piece 92, semicircular groove has been seted up to semicircular block 91's bottom surface, and semicircular block 91 passes through the semicircular groove suit in the one side of a bush 7, no. two 8 outer walls of bush, semicircular groove has been seted up to a side of L type piece 92, and L type piece 92 passes through the semicircular groove suit at the opposite side of a bush 7, no. two 8 outer walls of bush, and the another side of L type piece 92 is connected with No. three optical axis 4, no. four optical axis 5's tip, and this side is laminated with No. three compression spring 17, no. four compression spring 19 mutually.

No. three mount pads 16, no. four mount pads 18 all include mounting block 161 and the connecting block 162 that both ends are connected, the mounting hole has been seted up on the mounting block 161, and mounting block 161 passes through the mounting hole suit on No. three bushings 14, no. four bushings 15's outer wall, connecting block 162 is connected with the bottom surface of lift seat 1.

Spacing spacer 13 is I-shaped structure, and spacing spacer 13 includes a flange holding surface, no. two flange holding surfaces that spacing spacer body and both ends are connected, spacing spacer body suit is on the outer wall of optical axis 2, no. two optical axes 3, a flange holding surface is laminated with the terminal surface of mount pad 9 mutually, no. two flange holding surfaces are laminated with the terminal surface of No. two mount pads 11 mutually.

The installing support 6 includes L type support and reinforcing plate 63, the diaphragm 61 of L type support is connected with whole frame 24's bottom surface, and a side of L type support's riser 62 is connected with optical axis 2, no. two optical axes 3, and another side of L type support's riser 62 is connected with whole frame 24's side, reinforcing plate 63 is connected with L type support's riser 62 is perpendicular, and reinforcing plate 63 is connected with whole frame 24's top surface.

The principle of the invention is illustrated as follows:

the designed gravity center adjusting mechanism is applied to a conveying transfer machine in the automobile manufacturing industry and is used for adjusting the gravity center balance when workpieces are hoisted, grabbed and conveyed; by using the gravity center adjusting mechanism, the gravity center can be continuously adjusted due to the change of parts, so that the balance and stability of the mechanism are ensured.

The workpieces to be picked are hung and taken, the gravity centers of the workpieces of different types are different, the gravity centers can move around along with the workpieces of different types, when the gravity centers move, the gravity center adjusting mechanism can adjust the gravity centers of the whole mechanisms through the sliding between the optical axis and the bushing and the balance of the spring force outside the bushing, and therefore stable conveying of the workpieces is guaranteed.

Because the third and fourth mounting seats are inconvenient to position by arranging the cylindrical pin, the limiting block is used for limiting the side edges of the third and fourth mounting seats, so that the optical axis and the graphite bush on the third and fourth mounting seats are prevented from moving, namely the gravity center adjusting mechanism is prevented from moving; and the coaxiality of the graphite bushing is adjusted to ensure that the optical axis moves smoothly.

The traditional transfer machine adopts a ball linear bearing mechanism, because the gravity center balance needs to be adjusted continuously, the ball linear bearing has large stress and is easy to crack, and once the ball linear bearing is cracked, the gravity center balance of the whole transfer machine fails. The graphite bushing is adopted to replace a ball linear bearing, so that the bearing capacity is increased, the stability of the mechanism is ensured, and the service life is prolonged. Meanwhile, in order to ensure the parallelism of the optical axis, the periphery is designed and installed with limit adjustment, thereby being convenient for adjusting the installation precision and being reliable in sliding.

Example 1:

referring to fig. 1 to 4, a gravity center adjusting mechanism of a multi-vehicle shared workpiece transfer machine comprises a lifting seat 1 and optical axes, wherein the optical axes comprise a first optical axis 2, a second optical axis 3, a third optical axis 4 and a fourth optical axis 5, the first optical axis 2 and the second optical axis 3 are symmetrically arranged on two sides of the lifting seat 1, two ends of the first optical axis 2 and the second optical axis 3 are respectively connected with a mounting bracket 6, the mounting brackets 6 are connected with an integral frame 24 of a transfer machine 23, the outer walls of the first optical axis 2 and the second optical axis 3 are respectively sleeved with a first bushing 7 and a second bushing 8, the outer wall of the first bushing 7 is sleeved with a first mounting seat 9, a first compression spring 10 is arranged between the first bushing 7 and the mounting bracket 6, the outer wall of the second bushing 8 is sleeved with a second mounting seat 11, and a second compression spring 12 is arranged between the second bushing 8 and the mounting bracket 6, no. one mount pad 9 and No. two mount pad 11 symmetry set up, are provided with spacing spacer 13 between mount pad 9 and No. two mount pads 11, be connected with No. three optical axis 4 between mount pad 9 of No. one optical axis 2 and No. two mount pads 9 of No. two optical axes 3, be connected with No. four optical axis 5 between No. two mount pads 11 of No. one optical axis 2 and No. two mount pads 11 of No. two optical axes 3, no. three optical axis 4 and No. four optical axis 5 symmetry set up, all overlap on the outer wall of No. three optical axis 4, no. four optical axis 5 and be equipped with No. three bush 14 and No. four bush 15, no. three mount pad 16 is equipped with on the outer wall of No. three bush 14, is provided with No. three compression spring 17 between No. three bush 14 and No. one mount pad 9, no. two mount pad 11, the cover is equipped with No. four mount pad 18 on the outer wall of No. four bush 15, no. four bush 15 and No. one mount pad 9, be provided with compression spring 19 No. four between No. two mount pads 11, no. three mount pad 16 and No. four mount pad 18 symmetry set up, no. three mount pad 16, no. four mount pad 18 all are connected with the bottom surface of lift seat 1, the top surface of lift seat 1 is connected with elevating system through connecting plate 25.

Example 2:

the basic contents are the same as example 1, except that:

the first bush 7, the second bush 8, the third bush 14 and the fourth bush 15 are all graphite bushes; the first bushing 7, the second bushing 8, the third bushing 14 and the fourth bushing 15 are all of T-shaped structures, and the first bushing 7, the second bushing 8, the third bushing 14 and the fourth bushing 15 all comprise bushing bodies and flange plates connected with the end portions of the bushing bodies; the bushing bodies of the first bushing 7 and the second bushing 8 are sleeved on the outer walls of the first optical shaft 2 and the second optical shaft 3, the first mounting seat 9 is sleeved on the outer wall of the bushing body of the first bushing 7, one end face of the flange plate of the first bushing 7 is connected with the end face of the first mounting seat 9, and the other end face of the flange plate of the first bushing 7 is attached to the first compression spring 10; the second mounting seat 11 is sleeved on the outer wall of the bushing body of the second bushing 8, one end face of the flange plate of the second bushing 8 is connected with the end face of the second mounting seat 11, and the other end face of the flange plate of the second bushing 8 is attached to the second compression spring 12; the bushing bodies of the third bushing 14 and the fourth bushing 15 are sleeved on the outer walls of the third optical axis 4 and the fourth optical axis 5, the third mounting seat 16 is sleeved on the outer wall of the bushing body of the third bushing 14, one end face of the flange plate of the third bushing 14 is connected with the end face of the third mounting seat 16, and the other end face of the flange plate of the third bushing 14 is attached to the third compression spring 17; the fourth mounting seat 18 is sleeved on the outer wall of the bushing body of the fourth bushing 15, one end face of the flange of the fourth bushing 15 is connected with the end face of the fourth mounting seat 18, and the other end face of the flange of the fourth bushing 15 is attached to the fourth compression spring 19.

Example 3:

the basic contents are the same as example 1, except that:

the bottom surface of the lifting seat 1 is provided with a limiting block 20 at the outer side of the third mounting seat 16 and the fourth mounting seat 18; the gravity center adjusting mechanism further comprises a fixing plate 21, and the fixing plate 21 is connected with the top surfaces of the third mounting seat 16 and the fourth mounting seat 18; the gravity center adjusting mechanism further comprises a fixing seat 22, the fixing seat 22 is of a T-shaped structure, the fixing seat 22 comprises a cylindrical section 221 and a disc 222, the cylindrical section 221 is connected with the mounting support 6, the disc 222 is connected with the end portions of the first optical axis 2 and the second optical axis 3, and the disc 222 is attached to the first compression spring 10 and the second compression spring 12.

Example 4:

the basic contents are the same as example 1, except that:

no. one mount pad 9, no. two mount pads 11 all include semicircle piece 91 and L type piece 92, the semicircle groove has been seted up to semicircle piece 91's bottom surface, and semicircle piece 91 is through the one side of semicircle groove suit at a bush 7, no. two bush 8 outer walls, the semicircle groove has been seted up to a side of L type piece 92, and L type piece 92 is connected at the opposite side of a bush 7, no. two bush 8 outer walls through the semicircle groove suit, another side of L type piece 92 and No. three optical axis 4, no. four optical axis 5's tip, and this side is laminated with No. three compression spring 17, no. four compression spring 19 mutually.

Example 5:

the basic contents are the same as example 1, except that:

no. three mount pads 16, no. four mount pads 18 all include mounting block 161 and the connecting block 162 that both ends are connected, the mounting hole has been seted up on the mounting block 161, and mounting block 161 passes through the mounting hole suit on No. three bushings 14, no. four bushings 15's outer wall, connecting block 162 is connected with the bottom surface of lift seat 1.

Example 6:

the basic contents are the same as example 1, except that:

spacing spacer 13 is the I shape structure, and spacing spacer 13 includes a flange holding surface, no. two flange holding surfaces that spacing spacer body and both ends are connected, spacing spacer body suit is on the outer wall of optical axis 2, no. two optical axes 3, a flange holding surface is laminated with the terminal surface of mount pad 9 mutually, no. two flange holding surfaces are laminated with the terminal surface of No. two mount pads 11 mutually.

Example 7:

the basic contents are the same as example 1, except that:

the mounting bracket 6 comprises an L-shaped bracket and a reinforcing plate 63, a transverse plate 61 of the L-shaped bracket is connected with the bottom surface of the whole frame 24, one side surface of a vertical plate 62 of the L-shaped bracket is connected with a first optical axis 2 and a second optical axis 3, the other side surface of the vertical plate 62 of the L-shaped bracket is connected with the side surface of the whole frame 24, the reinforcing plate 63 is perpendicularly connected with the vertical plate 62 of the L-shaped bracket, and the reinforcing plate 63 is connected with the top surface of the whole frame 24.

Claims (4)

1. The utility model provides a work piece that multi-vehicle type shared moves and carries quick-witted focus guiding mechanism, a serial communication port, including lift seat (1) and optical axis, the optical axis includes optical axis (2), no. two optical axis (3), no. three optical axis (4) and No. four optical axis (5), optical axis (2) and No. two optical axis (3) symmetry set up in the both sides of lift seat (1), and the both ends of optical axis (2), no. two optical axis (3) all are connected with installing support (6), installing support (6) are connected with whole frame (24) that move and carry machine (23), all overlap on the outer wall of optical axis (2), no. two optical axis (3) and be equipped with No. one bush (7) and No. two bush (8), the cover is equipped with No. one mount pad (9) on the outer wall of No. one bush (7), is provided with a compression spring (10) between No. one bush (7) and installing support (6), the cover is equipped with No. two mount pad (11) on the outer wall of No. two bush (8), is provided with No. two compression spring (11) and No. 12) between No. two optical axis (11) and the mount pad (11) the spacing mount pad (11) set up one compression spring (11) between mount pad (9), the mounting pad (11) and No. 2) the mounting pad (9) the mounting pad (13) the installation base (11) the installation, be provided with one compression spring (11) the optical axis (9) and No. one compression spring (9) the mounting pad (9) the installation A third optical axis (4) is connected between the mounting seats (9), a fourth optical axis (5) is connected between the second mounting seat (11) of the first optical axis (2) and the second mounting seat (11) of the second optical axis (3), the third optical axis (4) and the fourth optical axis (5) are symmetrically arranged, a third bushing (14) and a fourth bushing (15) are sleeved on the outer walls of the third optical axis (4) and the fourth optical axis (5), a third mounting seat (16) is sleeved on the outer wall of the third bushing (14), a fourth compression spring (19) is arranged between the third bushing (14) and the first mounting seat (9) as well as between the second mounting seat (11), a fourth mounting seat (18) is sleeved on the outer wall of the fourth bushing (15), the fourth bushing (15) is connected with the first mounting seat (9) and the second mounting seat (11), the third mounting seat (16) and the fourth mounting seat (18) are symmetrically arranged, and the fourth mounting seat (15) is connected with a lifting mechanism (1) through a lifting mechanism (25);

the first bush (7), the second bush (8), the third bush (14) and the fourth bush (15) are graphite bushes; the first bushing (7), the second bushing (8), the third bushing (14) and the fourth bushing (15) are of T-shaped structures, and the first bushing (7), the second bushing (8), the third bushing (14) and the fourth bushing (15) comprise bushing bodies and flange plates connected with the end parts of the bushing bodies; the bushing bodies of the first bushing (7) and the second bushing (8) are sleeved on the outer walls of the first optical shaft (2) and the second optical shaft (3), the first mounting seat (9) is sleeved on the outer wall of the bushing body of the first bushing (7), one end face of a flange plate of the first bushing (7) is connected with the end face of the first mounting seat (9), and the other end face of the flange plate of the first bushing (7) is attached to the first compression spring (10); the second mounting seat (11) is sleeved on the outer wall of the bushing body of the second bushing (8), one end face of a flange plate of the second bushing (8) is connected with the end face of the second mounting seat (11), and the other end face of the flange plate of the second bushing (8) is attached to the second compression spring (12); the bushing bodies of the third bushing (14) and the fourth bushing (15) are sleeved on the outer walls of the third optical axis (4) and the fourth optical axis (5), the third mounting seat (16) is sleeved on the outer wall of the bushing body of the third bushing (14), one end face of a flange plate of the third bushing (14) is connected with the end face of the third mounting seat (16), and the other end face of the flange plate of the third bushing (14) is attached to the third compression spring (17); the fourth mounting seat (18) is sleeved on the outer wall of the bushing body of the fourth bushing (15), one end face of a flange plate of the fourth bushing (15) is connected with the end face of the fourth mounting seat (18), and the other end face of the flange plate of the fourth bushing (15) is attached to the fourth compression spring (19);

limiting blocks (20) are arranged on the bottom surface of the lifting seat (1) and are positioned at the outer sides of the third mounting seat (16) and the fourth mounting seat (18);

the gravity center adjusting mechanism further comprises a fixing seat (22), the fixing seat (22) is of a T-shaped structure, the fixing seat (22) comprises a cylindrical section (221) and a disc (222), the cylindrical section (221) is connected with the mounting support (6), the disc (222) is connected with the end portions of the first optical axis (2) and the second optical axis (3), and the disc (222) is attached to the first compression spring (10) and the second compression spring (12);

the first mounting seat (9) and the second mounting seat (11) respectively comprise a semicircular block (91) and an L-shaped block (92), a semicircular groove is formed in the bottom surface of the semicircular block (91), the semicircular block (91) is sleeved on one side of the outer walls of the first bushing (7) and the second bushing (8) through the semicircular groove, a semicircular groove is formed in one side surface of the L-shaped block (92), the L-shaped block (92) is sleeved on the other side of the outer walls of the first bushing (7) and the second bushing (8) through the semicircular groove, the other side surface of the L-shaped block (92) is connected with the end portions of the third optical axis (4) and the fourth optical axis (5), and the side surface is attached to the third compression spring (17) and the fourth compression spring (19);

no. three mount pads (16), no. four mount pads (18) all include mounting block (161) and connecting block (162) that both ends are connected, the mounting hole has been seted up on mounting block (161), and mounting block (161) are on the outer wall of No. three bush (14), no. four bush (15) through the mounting hole suit, connecting block (162) are connected with the bottom surface of lift seat (1).

2. The mechanism of claim 1, wherein the center of gravity of the workpiece transfer machine is adjustable by: the gravity center adjusting mechanism further comprises a fixing plate (21), and the fixing plate (21) is connected with the top surfaces of the third mounting seat (16) and the fourth mounting seat (18).

3. The mechanism of claim 1, wherein the center of gravity of the workpiece transfer machine is adjustable by: spacing spacer (13) are I-shaped structure, and spacing spacer (13) include a flange holding surface, no. two flange holding surfaces that spacing spacer body and both ends are connected, spacing spacer body suit is on the outer wall of optical axis (2), no. two optical axes (3), a flange holding surface laminates with the terminal surface of mount pad (9) mutually, no. two flange holding surfaces laminate with the terminal surface of No. two mount pads (11) mutually.

4. The mechanism of claim 1, wherein the center of gravity of the workpiece transfer machine is adjustable by: installing support (6) include L type support and reinforcing plate (63), diaphragm (61) of L type support are connected with the bottom surface of whole frame (24), and a side of riser (62) of L type support is connected with optical axis (2), no. two optical axis (3), and the another side of riser (62) of L type support is connected with the side of whole frame (24), reinforcing plate (63) are connected with riser (62) of L type support are perpendicular, and reinforcing plate (63) are connected with the top surface of whole frame (24).

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