CN219727705U - Material processing auxiliary device and imprinting system - Google Patents

Abstract

The utility model provides a material processing auxiliary device and a marking system, wherein the material processing auxiliary device comprises: the rotary platform is provided with a plurality of partition boards, the upper surface of the rotary platform is divided into a plurality of working spaces by the plurality of partition boards, the working spaces are arranged in the rotation direction of the rotary platform, and the upper surface of the rotary platform corresponding to each working space is respectively fixed with a material positioning device. The working spaces can be combined with different equipment to enable the materials on the working spaces to be subjected to different working procedures such as feeding, measuring, imprinting and discharging, so that the feeding, measuring, imprinting and discharging work can be simultaneously carried out, the imprinting efficiency is improved, and the working time is shortened.

Description

Material processing auxiliary device and imprinting system

Technical Field

The utility model relates to the field of machining, in particular to a material processing auxiliary device and an engraving system.

Background

For the machining industry, after finishing the final inspection, all mechanical parts are required to be marked with identification information or traceability information such as part numbers, serial numbers, vendor names and the like through marking equipment. The imprinting is usually performed on a workbench, after the material to be imprinted is placed on the workbench and positioned, the imprinting equipment operates to complete the imprinting identification work, and the material after imprinting is taken out for the next process. In the process, the next material to be imprinted can be provided after the imprinting of the previous material is completed, the waiting time is long, and the imprinting efficiency is low.

Disclosure of Invention

In order to solve the problems, the utility model provides a material processing auxiliary device and an imprinting system, which can enable imprinting and feeding to be performed synchronously by arranging a plurality of working spaces, and solve the technical problem that the imprinting efficiency is low due to the existing feeding mode.

The utility model provides a material processing auxiliary device, which comprises: the rotary platform is provided with a plurality of partition boards, the upper surface of the rotary platform is divided into a plurality of working spaces by the plurality of partition boards, the working spaces are arranged in the rotation direction of the rotary platform, and the upper surface of the rotary platform corresponding to each working space is respectively fixed with a material positioning device.

The working spaces can be combined with different equipment to enable the materials on the working spaces to be subjected to different working procedures (such as feeding, measuring, imprinting and discharging), so that the feeding, measuring, imprinting and discharging work can be simultaneously carried out, the imprinting efficiency is improved, and the working time is shortened.

In an alternative technical scheme of the utility model, the partition plates are rectangular partition plates, the bottom edge of each partition plate extends to at least one side of each partition plate to form a supporting plate, a plurality of positioning grooves are formed in the length direction of each supporting plate in a spaced mode, positioning holes are formed in the upper surface of the rotating platform, and the partition plates and the rotating platform penetrate through the positioning grooves and the positioning holes to be positioned through the positioning pieces.

According to the technical scheme, the partition plate and the fixing mode thereof are simple and easy to realize, so that the processing difficulty of the material processing auxiliary device is reduced, and the manufacturing cost is reduced.

In an alternative technical scheme of the utility model, a part of the outer edge of the partition plate is coated with a protective sleeve.

According to the technical scheme, the sharp cutting of the corners of the partition board can be prevented from rubbing the surrounding objects.

In an alternative technical scheme of the utility model, the rotating platform is an electric rotating platform.

According to the technical scheme, the electric rotating platform can reduce the labor capacity of workers, improve the automation degree and the processing efficiency and shorten the processing time.

In the alternative technical scheme of the utility model, the electric rotating platform further comprises a control button which is electrically connected with the electric rotating platform, and the electric rotating platform rotates by pressing the button.

According to the technical scheme, the electric rotating platform is controlled to rotate or stop rotating by pressing the button, so that the electric rotating platform is simple and convenient, and the operation difficulty is reduced.

In an alternative technical scheme of the utility model, the bottom plate, the positioning plate, the first clamping plate, the second clamping plate and the telescopic connecting piece are arranged in a telescopic manner, the bottom plate is fixed on the upper surface of the rotating platform, the first clamping plate is opposite to the positioning plate and is fixed on the bottom plate at intervals, and the second clamping plate is connected between the positioning plate and the first clamping plate through the telescopic connecting piece so as to be close to or far away from the first clamping plate.

According to the technical scheme, the material positioning device can be suitable for different sizes of materials to be processed, and has strong applicability.

In an alternative technical scheme of the utility model, the telescopic connecting piece comprises a guide sleeve, a guide rod, a spring and a limiting piece, wherein the guide sleeve is fixed on one side, far away from the first clamping plate, of the positioning plate along the telescopic direction of the second clamping plate, the guide rod penetrates through the guide sleeve, the first end of the guide rod is fixed with the second clamping plate, the second end of the guide rod is fixed with the limiting piece, the limiting piece is telescopically fixed on one side, far away from the second clamping plate, of the positioning plate, and the spring is sleeved on one side, connected with the second clamping plate, of the guide rod.

According to this technical scheme, through tensile guide bar or locating part, the guide bar is rectilinear motion along the guide sleeve under the effect of guide sleeve and locating part, and then makes the second splint keep away from or be close to first splint, realizes the change in centre gripping space to according to material size centre gripping material, simple, convenient, easily realize, and the cost is lower.

The utility model further provides an imprinting system which comprises imprinting equipment and the auxiliary device for processing materials.

In an alternative technical scheme of the utility model, the working spaces comprise three, and the imprinting system further comprises a material supply device, a measuring device and imprinting equipment which are sequentially arranged on the outer side of the circumferential direction of the rotating platform, wherein the material supply device, the measuring device and the imprinting equipment are respectively arranged corresponding to the three working spaces.

According to the technical scheme, the material positioning devices of the three working spaces are all used for processing materials, wherein the materials in the first working space are in a feeding or taking-out state, the materials in the second working space are subjected to a measuring procedure, the materials in the third working space are in a marked state, the rotating platform continues to rotate, the materials in the working spaces finish the corresponding procedures and are transferred to the next procedure, feeding/taking-out, measuring and marking work are automatically performed at the same time, waiting time is shortened, and marking efficiency is improved.

In an alternative technical scheme of the utility model, a monitoring device and a display screen are also arranged above the rotating platform, the monitoring device is used for observing the real-time condition of each working space, and the display screen monitoring device is connected for displaying the real-time condition.

According to the technical scheme, the intelligent degree of the imprinting system is improved, and the working process of the imprinting system can be observed in real time conveniently through the monitoring equipment and the display equipment, so that problems can be found out in time and solved in time.

Drawings

Fig. 1 is a schematic perspective view of a material processing auxiliary device according to an embodiment of the present utility model.

Fig. 2 is a schematic top view of a material processing auxiliary device according to an embodiment of the present utility model.

Reference numerals:

rotating the platform 1; a separator 2; a support plate 21; a positioning member 22; a material positioning device 3; a bottom plate 31; a positioning plate 32; a first clamping plate 33; a second clamping plate 34; a paddle 341; a telescopic link 35; a guide sleeve 351; a guide bar 352; a stopper 353; a telescopic rod 3531; a connector 3532.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 and 2, the present utility model provides a material processing auxiliary device, including: the rotary platform 1 is provided with a plurality of partition boards 2, the upper surface of the rotary platform 1 is divided into a plurality of working spaces by the plurality of partition boards 2, the working spaces are arranged in the rotation direction of the rotary platform (the central shaft of the rotary platform 1 is taken as the shaft to rotate in the plane), and the upper surface of the rotary platform 1 corresponding to each working space is respectively fixed with a material positioning device 3.

The working spaces can be combined with different equipment to enable the materials on the working spaces to be subjected to different working procedures (such as feeding, measuring, imprinting and discharging), so that the feeding, measuring, imprinting and discharging work can be simultaneously carried out, the imprinting efficiency is improved, and the working time is shortened.

In the preferred embodiment of the utility model, the rotating platform 1 is circular, the circumferential edge of the circular rotating platform is smooth and flat, the distances from the circle center to the outer edge of the platform are equal, the occupied space can be saved, two adjacent partition boards 2 are preferably enclosed to form a fan-shaped working space, the circle center of the fan-shaped working space coincides with the circle center of the rotating platform 1, the size of each fan-shaped working space can be set to be the same or different according to practical conditions, and the fan-shaped working space with the same size is preferred, so that the rotating platform can rotate to the next working space and stay for a specified duration for being convenient to be executed in every fixed angle, and the rotating control program of the rotating platform is simplified. In a preferred embodiment of the utility model, the rotating platform 1 is an electric rotating platform. The electric rotating platform can reduce the labor capacity of workers, improve the automation degree and the processing efficiency and shorten the processing time. Further preferably, a control button (not shown) is further included and electrically connected to the electric rotating platform, and the electric rotating platform rotates by pressing the button. The electric rotating platform controls the electric rotating platform to rotate or stop rotating by pressing the button, so that the electric rotating platform is simple and convenient and is beneficial to reducing the operation difficulty.

In the preferred embodiment of the present utility model, the partition plates 2 are rectangular partition plates, the bottom edge of each partition plate 2 extends to at least one side thereof to form a supporting plate 21, a plurality of positioning grooves are spaced apart in the length direction of the supporting plate 21, positioning holes (not shown in the figure) are formed in the upper surface of the rotating platform, and the partition plates 2 and the rotating platform are positioned by penetrating the positioning grooves and the positioning holes through positioning pieces 22. In this embodiment, baffle 2 and fixed mode are simple, and easily realize, are favorable to reducing the processing degree of difficulty of material processing auxiliary device, reduce manufacturing cost. Preferably, part of the outer edge of the partition board 2 is covered with a protective cover (not shown in the figure). For example, the L-shaped protective sleeve can prevent the corners of the partition plate 2 from being scratched and rubbed with surrounding objects.

In a preferred embodiment of the present utility model, the material positioning device 3 includes a base plate 31, a positioning plate 32, a first clamping plate 33, a second clamping plate 34 and a telescopic connecting member 35, wherein the base plate 31 is fixed on the upper surface of the rotating platform 1, the first clamping plate 33 is opposite to the positioning plate 32 and is fixed on the base plate 31 at a certain interval, and the second clamping plate 34 is connected between the positioning plate 32 and the first clamping plate 33 in a telescopic manner through the telescopic connecting member 35. By the above mode, the distance between the first clamping plate 33 and the second clamping plate 34 can be adjusted by changing the telescopic degree of the telescopic connecting piece 35, so that the material positioning device 3 can be suitable for different sizes of materials to be processed, and has strong applicability.

In a preferred embodiment of the present utility model, the telescopic connecting member 35 includes a guide sleeve 351, a guide rod 352, a spring and a limiting member 353, wherein the guide sleeve 351 is fixed on one side of the positioning plate 32 away from the first clamping plate 33 along the telescopic direction of the second clamping plate 34, the guide rod 352 penetrates through the positioning plate 32 and is arranged in the guide sleeve 351 in a penetrating manner, the first end of the guide rod 352 is fixed with the second clamping plate 34, the second end of the guide rod 352 penetrates out of the guide sleeve 351 to be fixed with the limiting member 353, the limiting member 353 is telescopically fixed on one side of the positioning plate 32 away from the second clamping plate 34, and the spring is sleeved on one side of the guide rod 352 connected with the second clamping plate 34. Through tensile guide bar 352 or locating part 353, guide bar 352 is along guide sleeve 351 rectilinear motion under the effect of guide sleeve 351 and locating part 353, and then makes second splint 34 keep away from or be close to first splint 33, realizes the change in clamping space to according to the material size centre gripping material, simple, convenient, easily realize, and the cost is lower. Further, the limiting member 353 includes a telescopic rod 3531 and a connecting member 3532, the first end of the telescopic rod 3531 is fixed to the positioning plate, the second end of the telescopic rod 3531 is fixed to the middle portion of the connecting member 3532, and two ends of the connecting member 3532 are fixed to the second ends of the two guide rods 352. The number of the guide bars 352 may be one or more as needed, which is not limited in this embodiment.

Preferably, the top of the second clamping plate 34 is further provided with a pulling piece 341, and the pulling piece 341 is pulled to enable the second clamping plate 34 to move away from the first clamping plate 33, so that the clamping space between the first clamping plate 33 and the second clamping plate 34 is increased, and the convenience of operation is improved. The second clamping plate 34 compresses the spring when moving in a direction away from the first clamping plate 33, the spring accumulates a certain elastic potential energy, and after the pulling piece 341 is loosened, the second clamping plate 34 automatically moves towards the first clamping plate 33 under the action of the elastic force of the spring so as to clamp the materials between the first clamping plate 33 and the second clamping plate 34; preferably, the spring is always in a compressed state, so that the clamping force between the second clamping plate 34 and the first clamping plate 33 can be increased, and the position stability of the material in the imprinting process can be maintained.

The utility model further provides an imprinting system (not shown in the figure) comprising an imprinting device and the above-mentioned material processing auxiliary device.

In a preferred embodiment of the present utility model, the working space includes three, and the imprint system further includes a material supply device, a measurement device, an imprint apparatus, and a material take-out device sequentially disposed outside the circumferential direction of the rotating platform, the material supply device, the measurement device, and the imprint apparatus being disposed corresponding to the three working spaces, respectively, the material take-out device and the material supply device being disposed corresponding to one working space, the material supply device providing a material to be processed after the material is taken out, and in some embodiments, the material supply device and the material take-out device being the same device, simultaneously realizing the supply and the take-out of the material, saving the occupied space of the system, and simplifying the structure of the imprint system. Specifically, the material positioning devices of the three working spaces all have materials to be processed, wherein the materials in the first working space are in a feeding or taking-out state, the materials in the second working space are subjected to a measuring procedure, the materials in the third working space are in a marked state, the rotating platform 1 continues to rotate, the materials in each working space complete the corresponding procedure and are transferred to the next procedure, feeding/taking-out, measuring and marking work are automatically performed at the same time, waiting time is shortened, and marking efficiency is improved.

In the preferred embodiment of the utility model, a monitoring device and a display screen are also arranged above the rotary platform 1, the monitoring device is used for observing the real-time condition of each working space, and the display screen is connected with the monitoring device for displaying the real-time condition. Through the mode, the intelligent degree of the imprinting system is improved, and the working process of the imprinting system can be observed in real time through the monitoring equipment and the display equipment, so that the problems can be found out in time and solved in time.

It should be noted that, the structures of the material supply device, the measuring device, the imprinting device, the material taking device, the monitoring device, the display screen and the like can refer to the prior art, and are not described herein again.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A material processing auxiliary device, comprising:

the device comprises a rotating platform, wherein a plurality of partition plates are arranged on the rotating platform, the partition plates divide the upper surface of the rotating platform to form a plurality of working spaces, the working spaces are arranged in the rotating direction of the rotating platform, and a material positioning device is fixed on the upper surface of the rotating platform corresponding to each working space.

2. The material processing auxiliary device according to claim 1, wherein the partition plates are rectangular partition plates, the bottom edges of each partition plate extend to two opposite sides of the partition plates to form supporting plates, a plurality of positioning grooves are formed in the length direction of each supporting plate in a spaced mode, positioning holes are formed in the upper surface of the rotating platform, and the partition plates and the rotating platform penetrate through the positioning grooves and the positioning holes through positioning pieces to be positioned.

3. The material processing auxiliary device according to claim 2, wherein a part of the outer edge of the partition plate is covered with a protective sleeve.

4. The material processing auxiliary device according to claim 1, wherein the rotating platform is an electric rotating platform.

5. The material processing auxiliary device according to claim 4, further comprising a control button electrically connected to the electric rotating platform, wherein the electric rotating platform rotates by pressing the button.

6. The material processing auxiliary device according to claim 1, wherein the material positioning device comprises a bottom plate, a positioning plate, a first clamping plate, a second clamping plate and a telescopic connecting piece, the bottom plate is fixed on the upper surface of the rotating platform, the first clamping plate and the positioning plate are opposite and fixed on the bottom plate at intervals, and the second clamping plate is connected between the positioning plate and the first clamping plate in a telescopic manner through the telescopic connecting piece so as to be close to or far away from the first clamping plate.

7. The auxiliary device for processing materials according to claim 6, wherein the telescopic connecting piece comprises a guide sleeve, a guide rod, a spring and a limiting piece, the guide sleeve is fixed on one side, far away from the first clamping plate, of the positioning plate along the telescopic direction of the second clamping plate, the guide rod is arranged in the guide sleeve in a penetrating mode, the first end of the guide rod is fixed with the second clamping plate, the second end of the guide rod is fixed with the limiting piece, the limiting piece is telescopically fixed on one side, far away from the second clamping plate, of the positioning plate, and the spring is sleeved on one side, connected with the second clamping plate, of the guide rod.

8. An imprinting system comprising an imprinting device and a material processing aid according to any one of claims 1 to 7.

9. The imprint system according to claim 8, wherein the working spaces include three, and the imprint system further includes a material supply device, a measurement device, and an imprint apparatus that are sequentially provided outside the circumferential direction of the rotary stage, the material supply device, the measurement device, and the imprint apparatus being provided corresponding to the three working spaces, respectively.

10. The imprinting system according to claim 8, wherein a monitoring device and a display screen are further arranged above the rotating platform, the monitoring device is used for observing real-time conditions of each working space, and the display screen is connected with the monitoring device for displaying the real-time conditions.