CN218578826U - Transfer device - Google Patents

Abstract

The utility model relates to the technical field of lamp aging tests, in particular to a transfer device, which comprises a lifting unit and a conveying unit, wherein the lifting unit comprises a support frame, a lifting frame and a lifting mechanism, the lifting mechanism is arranged on the support frame, the lifting frame is in transmission connection with the lifting mechanism, the lifting mechanism is used for driving the lifting frame to do lifting motion, the lifting frame is provided with a first transfer mechanism, and the first transfer mechanism is used for transferring a tool structure to a test layer of a test frame; the conveying unit comprises a track and a conveying plate, a conveying mechanism in transmission connection with the track is arranged on the conveying plate, the conveying mechanism is used for driving the conveying plate to move along the length direction of the track, a second conveying mechanism is arranged on the conveying plate, and the second conveying mechanism is used for conveying the tool structure to the first conveying mechanism; this application through set up conveying unit and lift unit with the frock structure move to the test bed of test jig on, greatly reduced place the degree of difficulty on the test bed with frock structure lifting, labour saving and time saving.

Description

Transfer device

Technical Field

The utility model relates to a lamps and lanterns aging testing technical field, in particular to transfer device.

Background

In the lamp lighting industry, the lamp can be subjected to aging test for hours before leaving factory, and various aging test frames are various in types and different in functions, because the lamp needs normal power or even power is increased to age and test the performance of the lamp before leaving factory. In the prior art, a group of workers is generally responsible for mounting a plurality of lamps on a tool structure, another group of workers is responsible for transferring the tool structure to the test frame, then a power supply of the tool structure is switched on, and the lamps are electrified through the tool structure to carry out long-time aging test; in order to improve the service efficiency of test jig, the test jig generally sets up the multilayer test layer, because structural a plurality of lamps and lanterns of having installed of frock, whole comparatively heavily, the workman will carry the frock structure lifting of full lamps and lanterns and place on the test layer that the test jig corresponds comparatively difficultly, waste time and energy.

It is seen that improvements and enhancements to the prior art are needed.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art, an object of the utility model is to provide a transfer device, can reduce the degree of difficulty, labour saving and time saving on placing the test layer that the test jig corresponds with frock structure lifting.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the technical scheme of this application has provided a transfer device, and it includes:

the lifting unit comprises a support frame, a lifting frame and a lifting mechanism, the lifting mechanism is arranged on the support frame, the lifting frame is in transmission connection with the lifting mechanism, the lifting mechanism is used for driving the lifting frame to do lifting motion, a first transfer mechanism is arranged on the lifting frame, and the first transfer mechanism is used for transferring the tool structure to a test layer of the test frame;

the conveying unit comprises a rail and a conveying plate, a conveying mechanism connected with the rail in a transmission mode is arranged on the conveying plate and used for driving the conveying plate to move along the length direction of the rail, a second conveying mechanism is arranged on the conveying plate and used for conveying the tool structure to the first conveying mechanism.

The transfer device in, elevating system includes elevator motor, first action wheel, the first follow driving wheel and first chain, elevator motor with first action wheel sets up respectively the bottom of support frame, just elevator motor with first action wheel transmission is connected, the first follow driving wheel setting is in the top of support frame, the first follow driving wheel with connect through first chain transmission between the first action wheel, the one end of first chain with the crane is connected, the other end of first chain is provided with the weight box.

The transfer device, the both sides of crane are provided with respectively and are provided with at least a set of direction wheelset, be provided with two symmetrical guide rails on the support frame, the direction wheelset with guide rail sliding connection.

In the transfer device, the bottom and the top of the support frame are respectively provided with a first limit frame and a second limit frame, the first limit frame and the second limit frame are respectively provided with a first blocking piece, and the first blocking piece on the first limit frame and the first blocking piece on the second limit frame are respectively abutted against the bottom and the top of the lifting frame.

The transfer device in, first transfer mechanism with the second transfer mechanism is all including the conveyer belt of transferring motor, two symmetry settings and the deflector that two symmetries set up, two the conveyer belt is located two respectively between the deflector, two connect through the pivot transmission between the conveyer belt, the pivot with it connects to transfer motor drive, last motor, two conveyer belts and the two deflectors of transferring of first transfer mechanism set up respectively on the crane, last motor, two conveyer belts and the two deflectors of transferring of second transfer mechanism set up respectively on the conveying plate.

In the transfer device, a plurality of groups of pulley blocks are arranged at the bottom of the transfer plate, the pulley blocks are abutted against the track, the pulley blocks are in transmission connection with the transfer mechanism, and the transfer mechanism is used for driving the pulley blocks to rotate.

In the transfer device, the transfer mechanism comprises a transfer motor, a second driving wheel, a second driven wheel and a second chain, the transfer motor, the second driving wheel and the second driven wheel are respectively arranged at the bottom of the transfer plate, the transfer motor is in transmission connection with the second driving wheel, the second driving wheel is in transmission connection with the second driven wheel through the second chain, and the second driven wheel is in transmission connection with the pulley block through a transmission shaft.

In the transfer device, the transfer unit further includes a frame body, and the rail is provided on the frame body.

In the transfer device, second stoppers are respectively arranged on two sides of the frame body and are abutted against the side faces of the conveying plate.

In the transfer device, a handle is provided on the transfer plate.

Has the advantages that:

the utility model provides a transfer device, place on the second transfer mechanism of conveying board through the frock structure that will carry full lamps and lanterns, utilize conveying mechanism to carry the elevating unit along the track with the frock structure, rethread support frame cooperation elevating system makes the crane correspond with the position of conveying board, second transfer mechanism shifts the frock structure to first transfer mechanism after that, then make the crane move to the corresponding test layer of test jig through support frame cooperation elevating system on, and transfer the test layer with the frock structure through the first transfer mechanism on the crane, thereby greatly reduced place the degree of difficulty on the test layer that the test jig corresponds with frock structure lifting, time saving and labor saving.

Drawings

Fig. 1 is a perspective view of a transfer device provided in the present invention;

fig. 2 is a perspective view of the lifting unit provided by the present invention;

FIG. 3 is an enlarged view of area A of FIG. 2;

fig. 4 is a combined state diagram of the lifting frame and the lifting mechanism provided by the utility model;

fig. 5 is a perspective view of a transfer unit provided by the present invention;

FIG. 6 is an enlarged view of region B in FIG. 5;

fig. 7 is a combined state diagram of the conveying plate, the pulley block and the conveying mechanism provided by the present invention.

Description of the main element symbols: 1-tooling structure, 31-lifting unit, 311-supporting frame, 312-lifting frame, 313-lifting mechanism, 3131-lifting motor, 3132-first driving wheel, 3133-first driven wheel, 3134-first chain, 3135-counterweight box, 314-guide wheel set, 315-guide rail, 316-first limiting frame, 317-second limiting frame, 318-first blocking piece, 32-transmission unit, 321-track, 322-transmission plate, 3221-pulley block, 3222-handle, 323-transmission mechanism, 3231-transmission motor, 3232-second driving wheel, 3233-second driven wheel, 3234-transmission shaft, 324-frame body, 325-second blocking piece, 301-transfer motor, 302-conveying belt, 303-guide plate and 304-rotating shaft.

Detailed Description

The utility model provides a transfer device, for making the utility model discloses a purpose, technical scheme and effect are clearer, make clear and definite, and it is right to refer to the attached drawing below and to lift the embodiment the utility model discloses do further detailed description.

In the description of the present invention, it should be understood that the terms "upper" and "lower" indicate the orientation or the positional relationship based on the orientation or the positional relationship shown in the drawings, which are only for the convenience of describing the present invention and simplifying the description, and should not be construed as limiting the present invention; in addition, the terms "mounted," "connected," and the like are to be construed broadly, and those skilled in the art can understand the specific meaning of the terms in the present invention according to specific situations.

Referring to fig. 1, 2 and 3, the present invention provides a transfer device, which includes a lifting unit 31 and a transmission unit 32, wherein the lifting unit 31 includes a support frame 311, a lifting frame 312 and a lifting mechanism 313, the lifting mechanism 313 is disposed on the support frame 311, the lifting frame 312 is in transmission connection with the lifting mechanism 313, the lifting mechanism 313 is used for driving the lifting frame 312 to perform lifting movement, the lifting frame 312 is provided with a first transfer mechanism, and the first transfer mechanism is used for transferring a tooling structure 1 to a test layer of a test rack; the conveying unit 32 comprises a rail 321 and a conveying plate 322, a conveying mechanism 323 in transmission connection with the rail 321 is arranged on the conveying plate 322, the conveying mechanism 323 is used for driving the conveying plate 322 to move along the length direction of the rail 321, and a second transfer mechanism is arranged on the conveying plate 322 and used for transferring the tool structure 1 to the first transfer mechanism.

In the actual use process, the tool structure 1 fully loaded with the lamps is placed on the second transfer mechanism of the conveying plate 322, the tool structure 1 is conveyed to the lifting unit 31 along the rail 321 through the conveying mechanism 323, the lifting frame 312 corresponds to the conveying plate 322 in position through the support frame 311 matched with the lifting mechanism 313, then the tool structure 1 is transferred to the first transfer mechanism through the second transfer mechanism, then the lifting frame 312 is moved to the corresponding test layer of the test frame through the support frame 311 matched with the lifting mechanism 313, and the tool structure 1 is transferred to the test layer through the first transfer mechanism on the lifting frame 312, so that the difficulty of lifting and placing the tool structure 1 on the corresponding test layer of the test frame is greatly reduced, time and labor are saved, and time and labor are saved.

In some embodiments, as shown in fig. 3, the lifting mechanism 313 includes a lifting motor 3131, a first driving wheel 3132, a first driven wheel 3133 and a first chain 3134, the lifting motor 3131 and the first driving wheel 3132 are respectively disposed at the bottom of the supporting frame 311, the lifting motor 3131 is in transmission connection with the first driving wheel 3132, the first driven wheel 3133 is disposed at the top of the supporting frame 311, the first driven wheel 3133 and the first driving wheel 3132 are in transmission connection through the first chain 3134, one end of the first chain 3134 is connected with the lifting frame 312, and the other end of the first chain 3134 is provided with a weight box 3135.

Further, as shown in fig. 4, at least one set of guide wheel set 314 is respectively disposed on two sides of the lifting frame 312, two symmetrical guide rails 315 are disposed on the supporting frame 311, and the guide wheel set 314 abuts against the guide rails 315. The lifting frame 312 can lift and fall more stably under the guiding action of the guide wheel set 314 and the guide rail 315.

In some embodiments, as shown in fig. 4, the bottom and the top of the supporting frame 311 are respectively provided with a first limiting frame 316 and a second limiting frame 317, the first limiting frame 316 and the second limiting frame 317 are respectively provided with a first stopping member 318, and the first stopping member 318 on the first limiting frame 316 and the first stopping member 318 on the second limiting frame 317 are respectively abutted against the bottom and the top of the lifting frame 312, so that the lifting range of the lifting bracket is limited between the first stopping member 318 on the first limiting frame 316 and the first stopping member 318 on the second limiting frame 317 through the stopping function of the first stopping member 318, thereby avoiding the safety hazard caused by the lifting bracket being separated from the first chain 3134, and greatly improving the operation safety of the lifting unit 31.

Optionally, referring to fig. 1 and fig. 2, each of the first transfer mechanism and the second transfer mechanism includes a transfer motor 301, two symmetrically arranged conveyor belts 302, and two symmetrically arranged guide plates 303, the two conveyor belts 302 are respectively located between the two guide plates 303, the two conveyor belts 302 are in transmission connection with each other through a rotating shaft 304, the rotating shaft 304 is in transmission connection with the transfer motor 301, the two conveyor belts 302, and the two guide plates 303 on the first transfer mechanism are respectively arranged on the lifting frame 312, and the transfer motor 301, the two conveyor belts 302, and the two guide plates 303 on the second transfer mechanism are respectively arranged on the transfer plate 322; by the guiding action of the guide plate 303, the tooling structure 1 can be smoothly transferred from the second transfer mechanism to the first transfer mechanism.

In some embodiments, as shown in fig. 6, a plurality of sets of pulley blocks 3221 are disposed at the bottom of the transfer plate 322, the pulley blocks 3221 are abutted against the track 321, and the transfer plate 322 is moved on the track 321 by the matching connection between the pulley blocks 3221 and the track 321; the pulley block 3221 is in transmission connection with a transmission mechanism 323, and the transmission mechanism is used for driving the pulley block 3221 to rotate, so that the transmission plate 322 can automatically move on the track 321.

For example, as shown in fig. 7, the transmission mechanism 323 includes a transmission motor 3231, a second driving wheel 3232, a second driven wheel 3233, and a second chain, the transmission motor 3231, the second driving wheel 3232, and the second driven wheel 3233 are respectively disposed at the bottom of the transmission plate 322, the transmission motor 3231 is in transmission connection with the second driving wheel 3232, the second driving wheel 3232 is in transmission connection with the second driven wheel 3233 through the second chain, and the second driven wheel 3233 is in transmission connection with the pulley block 3221 through the transmission shaft 3234. In an actual operation process, the transmission motor 3231 drives the second driving wheel 3232 to rotate, so that the driving wheel drives the second driven wheel 3233 to rotate through the second chain, the transmission shaft 3234 drives the pulley block 3221 to rotate, and the automatic movement of the transmission plate 322 is realized.

For example, as shown in fig. 5, the lifting motor 3131, the transfer motor 301, and the conveying motor 3231 are all controlled by a PLC, that is, the PLC controls the lifting motor 3131, the transfer motor 301, and the conveying motor 3231 to rotate forward and backward, so as to transfer and lift the tooling structure 1.

In some embodiments, the conveying unit 32 further includes a frame 324, the rail 321 is disposed on the frame 324, and the position of the rail 321 is raised by the frame 324, so that the bending range of a worker is reduced during the process of installing the lamp on the tooling structure 1, the worker is more comfortable in working, and the comfort of using the transfer device is improved.

In some embodiments, the two sides of the frame 324 are respectively provided with a second stopper 325, the second stoppers 325 abut against the side surfaces of the conveying plate 322, and the conveying plate 322 is prevented from sliding off the track 321 of the frame 324 by the stopping effect of the second stoppers 325 on the conveying plate 322.

In some embodiments, the conveying plate 322 is provided with a handle 3222, and in an actual use process, the conveying plate 322 can be manually moved by holding the handle 3222, so that the conveying plate 322 can be automatically moved and also manually moved, and the use convenience of the transfer device is further improved.

In summary, in the present application, the fixture structure 1 loaded with the lamps is placed on the second transfer mechanism of the transfer plate 322, the fixture structure 1 is conveyed to the lifting unit 31 along the rail 321 by the transfer mechanism 323, the lifting frame 312 corresponds to the transfer plate 322 by matching the support frame 311 with the lifting mechanism 313, then the fixture structure 1 is transferred to the first transfer mechanism by the second transfer mechanism, the lifting frame 312 is moved to the corresponding test layer of the test rack by matching the support frame 311 with the lifting mechanism 313, and the fixture structure 1 is transferred to the test layer by the first transfer mechanism on the lifting frame 312, thereby greatly reducing the difficulty of placing the fixture structure 1 on the test layer corresponding to the test rack in lifting manner, and saving time and labor.

It should be understood that equivalent substitutions or changes can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such changes or substitutions should be considered as the protection scope of the present invention.

Claims (10)

1. A transfer device, comprising:

the lifting unit comprises a support frame, a lifting frame and a lifting mechanism, the lifting mechanism is arranged on the support frame, the lifting frame is in transmission connection with the lifting mechanism, the lifting mechanism is used for driving the lifting frame to do lifting motion, a first transfer mechanism is arranged on the lifting frame, and the first transfer mechanism is used for transferring the tool structure to a test layer of the test frame;

the conveying unit, the conveying unit includes track and conveying board, be provided with on the conveying board with the transport mechanism that the track transmission is connected, transport mechanism is used for the drive the conveying board is followed orbital length direction removes, be provided with second transfer mechanism on the conveying board, second transfer mechanism is used for transporting the frock structure to on the first transfer mechanism.

2. The transfer device of claim 1, wherein the lifting mechanism comprises a lifting motor, a first driving wheel, a first driven wheel and a first chain, the lifting motor and the first driving wheel are respectively disposed at the bottom of the supporting frame, the lifting motor is in transmission connection with the first driving wheel, the first driven wheel is disposed at the top of the supporting frame, the first driven wheel is in transmission connection with the first driving wheel through the first chain, one end of the first chain is connected with the lifting frame, and the other end of the first chain is provided with a weight box.

3. The transfer device of claim 2, wherein at least one set of guide wheel sets are respectively arranged on two sides of the lifting frame, two symmetrical guide rails are arranged on the support frame, and the guide wheel sets are slidably connected with the guide rails.

4. The transfer device of claim 3, wherein the bottom and the top of the support frame are respectively provided with a first limit frame and a second limit frame, the first limit frame and the second limit frame are respectively provided with a first stopper, and the first stopper on the first limit frame and the first stopper on the second limit frame are respectively abutted against the bottom and the top of the lifting frame.

5. The transfer device of any one of claims 1 to 4, wherein the first transfer mechanism and the second transfer mechanism each comprise a transfer motor, two symmetrically arranged conveyor belts and two symmetrically arranged guide plates, the two conveyor belts are respectively located between the two guide plates, the two conveyor belts are in transmission connection with each other through a rotating shaft, the rotating shaft is in transmission connection with the transfer motor, the two conveyor belts and the two guide plates on the first transfer mechanism are respectively arranged on the lifting frame, and the transfer motor, the two conveyor belts and the two guide plates on the second transfer mechanism are respectively arranged on the conveying plates.

6. The transfer device of claim 5, wherein a plurality of sets of pulley blocks are disposed on a bottom of the transfer plate, the pulley blocks are abutted against the rail, the pulley blocks are in transmission connection with the transfer mechanism, and the transfer mechanism is used for driving the pulley blocks to rotate.

7. The transfer device of claim 6, wherein the conveying mechanism comprises a conveying motor, a second driving wheel, a second driven wheel and a second chain, the conveying motor, the second driving wheel and the second driven wheel are respectively arranged at the bottom of the conveying plate, the conveying motor is in transmission connection with the second driving wheel, the second driving wheel is in transmission connection with the second driven wheel through the second chain, and the second driven wheel is in transmission connection with the pulley block through a transmission shaft.

8. The transfer device of any of claims 1-4, wherein the transfer unit further comprises a shelf on which the track is disposed.

9. The transfer device of claim 8, wherein second stoppers are provided on both sides of the rack body, respectively, and the second stoppers abut against the side surfaces of the transfer plate.

10. The take-off device of any of claims 1 to 4, wherein the transfer plate is provided with a handle.

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