CN216467079U

CN216467079U - Electromechanical device for imprinting

Info

Publication number: CN216467079U
Application number: CN202122198249.6U
Authority: CN
Inventors: 尹鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-10
Filing date: 2021-09-10
Publication date: 2022-05-10
Anticipated expiration: 2031-09-10

Abstract

The utility model relates to an electromechanical device for imprinting, which comprises a supporting table, a rack, a machine frame, a vertical moving unit, a turnover structure and a position adjusting assembly. The rack on the supporting table is used for clamping and fixing the energy accumulator, the vertical moving unit is sleeved on the rack, the vertical moving unit can realize that the overturning structure moves in the longitudinal direction, the overturning structure drives the position adjusting assembly to perform overturning motion, the adjusting assembly is provided with the marking pen, and the adjusting assembly can adjust the marking pen to move transversely and longitudinally, so that the marking pen can move at multiple angles.

Description

Electromechanical device for imprinting

Technical Field

The utility model particularly relates to electromechanical equipment for engraving, in particular to an engraving device capable of adjusting the positions of an energy accumulator and an engraving pen.

Background

Accumulators have very important applications in devices such as automobiles. Its basic function is to provide an energy storage device for a hydropneumatic system. The accumulator can store energy originally in a compressed state under some conditions, and when the system needs the energy, the energy stored through compression can be gradually released and converted into hydraulic energy or air pressure energy for application. That is to say, the energy storage device absorbs and stores the instantaneous energy generated in the system, plays a role in buffering, and then can release the energy to the surrounding environment for use when needed, and plays a role in maintaining the working balance of the system.

After the energy storage device has been manufactured, in order to record basic information, such as factory information, model information, etc., on the energy storage device, an engraving operation is required on the surface of the energy storage device in industrial production. However, the marking pen in the prior art is single, mechanical degree is not enough, the marking process is often required to be manually operated, and the multi-angle movable marking technology is not enough, so that precise work cannot be completed, and great inconvenience is brought to industrial production.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a device structure which can fix and transversely move an energy accumulator and can rotate 360 degrees and move an engraving pen in multiple angles.

In order to accomplish the above object, the present invention provides an electromechanical apparatus for imprinting, which includes a support table, a stage, a frame, a vertical moving unit, a flipping structure, and a position adjusting assembly.

The rack is arranged on the support table and used for clamping and fixing the energy accumulator; the rack is arranged on the support table and is positioned on one side of the rack; the vertical moving unit is arranged on the rack; the overturning structure is connected to the vertical moving unit, and the vertical moving unit can drive the overturning structure to move in the vertical direction; the position adjusting assembly is arranged on the overturning structure, an imprinting pen is arranged on the position adjusting assembly, and the adjusting assembly is used for adjusting the imprinting position of the imprinting pen.

The beneficial effect of the scheme is that; in concrete operation, the rack on the supporting table is fixed to the energy accumulator clamping, the vertical moving unit is sleeved on the rack, the vertical moving unit can realize that the overturning structure moves in the longitudinal direction, the overturning structure drives the position adjusting assembly to perform overturning motion, the adjusting assembly is provided with the imprinting pen, the adjusting assembly can adjust the imprinting pen to move transversely and longitudinally, and therefore the multi-angle movement of the imprinting pen can be realized.

A preferred scheme is that, the rack has stabilizer blade, sliding platform, sliding tray, sliding block, mobile station, rack motor, drive wheel, conveyer belt, installation piece, follows driving wheel, dwang and clamping piece, the stabilizer blade supports sliding platform, sliding platform has the sliding tray, the sliding block set up in the sliding tray, the mobile station is connected the sliding block top, the installation piece is fixed on the mobile station, the rack motor is fixed on the installation piece, the motor connects gradually drive wheel, conveyer belt, follow driving wheel, the dwang is connected on the clamping piece, the clamping piece is used for pressing from both sides tight energy storage ware.

The beneficial effect of the scheme is that; the accumulator can be adjusted in position in the lateral direction and can be rotated 360 degrees.

One preferred scheme is that the clamping piece has the rotation post, presss from both sides tight guide way, presss from both sides tight piece and fixed orifices, the rotation post set up in the dwang upper end, press from both sides tight guide way set up in rotate the post upper end, press from both sides tight piece slide set up in press from both sides tight guide way in, press from both sides tight guide way with press from both sides tight piece and be three groups, the fixed orifices is established rotate post upper end central point and put, the fixed orifices is used for fixing the energy storage ware.

Preferably, the housing has an open portion.

One preferred scheme is that vertical mobile unit includes lift frame, elevator, lead screw, litter, rotates wheel and handle, the lift frame cover is established in the frame, the elevator set up in opening the portion, the elevator is connected the lift frame, be provided with on lead screw, the litter the elevator, the lead screw connects gradually the rotation wheel, be provided with the handle on the rotation wheel.

One preferred scheme is that the overturning structure comprises an overturning motor and an overturning frame, and an output shaft of the overturning motor is connected with the overturning frame.

One preferred scheme is that the adjusting component comprises an adjusting mounting block, a first guide groove, a second lead screw, a first guide sliding block, a second guide sliding block, a first adjusting motor, a longitudinal moving plate, a third guide groove, a third guide sliding block, a second adjusting motor, a driving wheel, a driven wheel, a conveying belt, an imprinting pen and a guide conveying belt, wherein the first guide groove is arranged on the adjusting mounting block, the first guide sliding block is sleeved on the first guide groove, the first adjusting motor is arranged on the adjusting mounting block and connected with the second lead screw, the second sliding block is sleeved on the second lead screw, the longitudinal moving plate is sequentially connected with the first guide sliding block and the second guide sliding block, the third guide groove is arranged on the longitudinal moving plate, and the third guide sliding block is sleeved on the third guide groove, adjust the second motor and fix on the longitudinal shifting board, adjust the second motor and connect gradually adjust the drive wheel, adjust the conveyer belt, adjust from the driving wheel, the direction third sliding block with the direction conveyer belt is connected, the imprinting pen is fixed the direction third sliding block.

Preferably, a computer control host is further arranged on the support table.

Drawings

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

FIG. 1 is a schematic diagram of a first perspective of an electromechanical device for imprinting in accordance with the present invention;

FIG. 2 is a schematic diagram of a second perspective of the electromechanical device for imprinting in accordance with the present invention;

FIG. 3 is an enlarged schematic view of region A in FIG. 2;

FIG. 4 is a schematic diagram of a portion of an electromechanical device for imprinting in accordance with the present invention from a third perspective;

FIG. 5 is a schematic view of a top wall-removed portion of the lift frame of the electromechanical device for imprinting in accordance with the present invention;

FIG. 6 is a schematic diagram of a portion of the flip structure and position adjustment assembly of the electromechanical device for imprinting in accordance with the present invention;

fig. 7 is a schematic view of the structure of fig. 6 with the flip frame removed.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1 to 7, the present invention provides an electromechanical apparatus for imprinting, which includes a support table 10, a stage 20, a frame 40, a vertical moving unit 50, a flipping structure 60, and a position adjusting assembly 70;

the rack 20 is arranged on the support table 10 and used for clamping and fixing the energy accumulator 1;

the frame 40 is arranged on the support table 10 and is positioned at one side of the table frame 20;

the vertical moving unit 50 is provided on the frame 40;

the turnover structure 60 is connected to the vertical moving unit 50, and the vertical moving unit 50 can drive the turnover structure 60 to move in the vertical direction;

the position adjusting assembly 70 is disposed on the turnover structure 60, the position adjusting assembly 70 is disposed with an imprinting pen 71, and the adjusting assembly 70 is used for adjusting an imprinting position of the imprinting pen 71.

The energy accumulator 1 is clamped and fixed through the rack 20 on the supporting table 10, the vertical moving unit 50 is sleeved on the rack 40, the vertical moving unit 50 can realize that the overturning structure 60 moves in the longitudinal direction, the overturning structure 60 drives the position adjusting assembly 70 to perform overturning motion, the adjusting assembly 70 is provided with the imprinting pen 71, and the adjusting assembly 70 can adjust the imprinting pen 71 to move in the transverse direction and the longitudinal direction, so that the multi-angle movement of the imprinting pen 71 can be realized. By this multi-dimensional or angular movement, the marking pen 71 can be moved to different positions and angles, which makes it very easy to mark the outer wall of the energy store 1 with the desired information.

The rack 20 comprises a support leg 21, a sliding platform 22, a sliding groove 23, a sliding block 24, a moving platform 25, a rack motor 26, a driving wheel 27, a conveying belt 28, a mounting block 29, a driven wheel 30, a rotating rod 31 and a clamping piece 32, wherein the support leg 21 supports the sliding platform 22, the sliding platform 22 comprises the sliding groove 23, the sliding block 24 is arranged in the sliding groove 23, the moving platform 25 is connected above the sliding block 24, the mounting block 29 fixes the moving platform 25, the rack motor 26 is fixed on the mounting block 29, the rack motor 26 is sequentially connected with the driving wheel 27, the conveying belt 28 and the driven wheel 30, the rotating rod 31 is connected on the clamping piece 32, and the clamping piece 32 is used for clamping the energy accumulator 1.

The slide block 24 moves the movable stage 25 by sliding the slide block 24. Drive rack motor 26, then rack motor 26 can drive wheel 27 and rotate, and drive wheel 27 drives through conveyer belt 28 and rotates from driving wheel 30, then drives dwang 31 from driving wheel 30 and rotates, and further dwang 31 drives clamping piece 32 and rotates, and energy storage ware 1 places on clamping piece 32, realizes like this that energy storage ware 1 can adjust the position removal in horizontal to can 360 degrees rotate.

The clamping member 32 is provided with a rotating column 320, a clamping guide groove 321, a clamping block 322 and a fixing hole 323, the rotating column 320 is arranged at the upper end of the rotating rod 31, the clamping guide groove 321 is arranged at the upper end of the rotating column 320, the clamping block 322 is slidably arranged in the clamping guide groove 321, the clamping guide groove 321 and the clamping block 322 are all three groups, the fixing hole 323 is arranged at the central position of the upper end of the rotating column 320, and the fixing hole 323 is used for fixing the energy accumulator 1.

The clamping block 322 slides in the clamping guide groove 321, and the clamping block 322 slides in the fixing hole 323, whereby the accumulator 1 can be clamped. Alternatively, other clamping arrangements known in the art may be used to accomplish the clamping action for the accumulator 1.

The chassis 40 has an open portion 41.

The vertical moving unit 50 comprises a lifting frame 51, a lifting block 52, a screw 53, a sliding rod 54, a rotating wheel 55 and a handle 56, wherein the lifting frame 51 is sleeved on the rack 40, the lifting block 52 is arranged in the opening part 41, the lifting block 52 is connected with the lifting frame 51, the lifting block is arranged on the screw 53 and the sliding rod 54, the screw 53 is sequentially connected with the rotating wheel 55, and the handle 56 is arranged on the rotating wheel 55.

The handle 56 is rotated to drive the rotating wheel 55, the rotating wheel 55 drives the screw 53 to rotate, and the lifting block 52 is sleeved on the screw 53 and the sliding rod 54, so that the lifting frame 51 moves in the longitudinal direction.

The turnover structure 60 includes a turnover motor 61 and a turnover frame 62, and an output shaft of the turnover motor 61 is connected to the turnover frame 62.

By driving the turnover motor 61, the output shaft of the turnover motor 61 rotates to drive the turnover frame 62 to perform turnover movement.

The adjusting assembly 70 comprises an adjusting mounting block 72, a first guide groove 73, a second screw 74, a guiding first sliding block 75, a guiding second sliding block 76, an adjusting first motor 77, a longitudinal moving plate 78, a third guide groove 79, a guiding third sliding block 80, an adjusting second motor 81, an adjusting driving wheel 82, an adjusting driven wheel 83, an adjusting transmission belt 84, an imprinting pen 71 and a guiding transmission belt 84, wherein the adjusting mounting block 72 is provided with the first guide groove 73, the guiding first sliding block 75 is sleeved on the first guide groove 43, the adjusting first motor 77 is arranged on the adjusting mounting block 72 and connected with the second screw 74, the guiding second sliding block 76 is sleeved on the second screw 74, the longitudinal moving plate 78 is sequentially connected with the guiding first sliding block 75 and the guiding second sliding block 76, the longitudinal moving plate 78 is provided with the third guide groove 79, the guiding third sliding block 80 is sleeved on the third guide groove 79, the adjusting second motor 81 is fixed on the longitudinal moving plate 78, the adjusting second motor 81 is sequentially connected with an adjusting driving wheel 82, an adjusting conveying belt 84 and an adjusting driven wheel 83, the guiding third sliding block 80 is connected with the guiding conveying belt 84, and the marking pen 81 is fixed on the guiding third sliding block 80.

The first motor 77 is driven and adjusted to drive the second screw rod 74 to rotate, the first guide slider 75 is sleeved on the first sliding groove 73, the second slider 76 is sleeved on the second screw rod 74, the longitudinal moving plate 78 is fixed on the first guide slider 75 and the second guide slider 76, so that the longitudinal moving plate 78 can be adjusted in position in the longitudinal direction, the second adjusting motor 81 is further driven, the second adjusting motor 81 drives the driving wheel 82, the driving wheel 82 drives the adjusting driven wheel 83 through the adjusting conveyor belt 84, the third guide slider 80 is sleeved on the third guide groove 79, the third guide slider 80 is connected to the adjusting conveyor belt 84 and can move in the transverse direction along with the adjusting conveyor belt 84, the imprinting pen 71 is fixed on the third guide slider 80, and therefore the imprinting pen 71 can move in the transverse and longitudinal directions.

The support table 10 is further provided with a computer control host 11. The engraving pen is a laser type engraving pen, the specific structure adopts the prior art, and the details are not repeated here.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. An electromechanical device for imprinting, comprising:

a support table;

the rack is arranged on the support table and used for clamping and fixing the energy accumulator;

the rack is arranged on the support table and is positioned on one side of the rack;

the vertical moving unit is arranged on the rack;

the overturning structure is connected to the vertical moving unit, and the vertical moving unit can drive the overturning structure to move in the vertical direction;

the position adjusting assembly is arranged on the overturning structure, an imprinting pen is arranged on the position adjusting assembly, and the position adjusting assembly is used for adjusting the imprinting position of the imprinting pen.

2. The electromechanical device for imprinting according to claim 1, wherein: the rack has stabilizer blade, sliding platform, sliding tray, sliding block, mobile station, rack motor, drive wheel, conveyer belt, installation piece, follows driving wheel, dwang, clamping piece, the stabilizer blade supports sliding platform, sliding platform has the sliding tray, the sliding block set up in the sliding tray, the mobile station is connected the sliding block top, the installation piece is fixed on the mobile station, the rack motor is fixed on the installation piece, the motor connects gradually drive wheel, conveyer belt, follows the driving wheel, the dwang is connected on the clamping piece, the clamping piece is used for pressing from both sides tight energy storage ware.

3. The electromechanical device for imprinting according to claim 2, wherein: the clamping piece has the rotation post, presss from both sides tight guide way, presss from both sides tight piece, fixed orifices, the rotation post set up in the dwang upper end, press from both sides tight guide way set up in rotate the post upper end, press from both sides tight piece slide set up in press from both sides tight guide way in, press from both sides tight guide way with press from both sides tight piece and be three groups, the fixed orifices is established rotate post upper end central point and put, the fixed orifices is used for fixing the energy storage ware.

4. The electromechanical device for imprinting according to claim 1, wherein: the chassis has an open portion.

5. The electromechanical device for imprinting according to claim 4, wherein: the vertical mobile unit comprises a lifting frame, a lifting block, a lead screw, a sliding rod, a rotating wheel and a handle, wherein the lifting frame is sleeved on the rack, the lifting block is arranged in the opening part and connected with the lifting frame, the lifting block and the sliding rod are provided with the lifting block, the lead screw is connected with the rotating wheel in sequence, and the rotating wheel is provided with the handle.

6. The electromechanical device for imprinting according to claim 1, wherein: the turnover structure comprises a turnover motor and a turnover frame, and an output shaft of the turnover motor is connected with the turnover frame.

7. The electromechanical device for imprinting according to claim 1, wherein: the adjusting component comprises an adjusting installation block, a first guide groove, a second lead screw, a guiding first sliding block, a guiding second sliding block, an adjusting first motor, a longitudinal moving plate, a third guide groove, a guiding third sliding block, an adjusting second motor, an adjusting driving wheel, an adjusting driven wheel, an adjusting conveying belt, an imprinting pen and a guiding conveying belt, wherein the adjusting installation block is provided with the first guide groove, the guiding first sliding block is sleeved on the first guide groove, the adjusting first motor is arranged on the adjusting installation block and connected with the second lead screw, the second sliding block is sleeved on the second lead screw, the longitudinal moving plate is sequentially connected with the guiding first sliding block and the guiding second sliding block, the longitudinal moving plate is provided with the third guide groove, the guiding third sliding block is sleeved on the third guide groove, the adjusting second motor is fixed on the longitudinal moving plate, adjust the second motor and connect gradually adjust the drive wheel, adjust the conveyer belt, adjust from the driving wheel, direction third sliding block with the direction conveyer belt is connected, the imprinting pen is fixed direction third sliding block.

8. The electromechanical device for imprinting according to claim 1, wherein: and the support table is also provided with a computer control host.