CN214727287U - Printing machine steel mesh aligning device - Google Patents

Abstract

The utility model relates to the technical field of printing equipment, in particular to a steel mesh aligning device of a printing machine, which comprises a mobile station and a steel mesh structure, and also comprises a fixed component, a first X-axis adjusting component, a second X-axis adjusting component, a Y-axis adjusting component and a pressing component, wherein the mobile station comprises a mobile part and a fixed part, the mobile part is provided with a placing groove, and the steel mesh structure is arranged in the placing groove, the utility model has simple structure, reasonable design and accurate alignment, when in use, the steel mesh is firstly placed, the steel mesh structure is fixed by the fixed component, when a product is laminated with the steel mesh, the pressing component is loosened, the left and right positions of the X-axis and the up and down positions of the Y-axis are adjusted for the mobile part by the three adjusting components, and then the steel mesh structure arranged in the placing groove is driven to synchronously adjust the positions, thereby realizing the accurate alignment of the steel mesh, when readjustment is needed, the adjusting steps are repeated, and the repeated positioning precision is effectively guaranteed.

Description

Printing machine steel mesh aligning device

Technical Field

The utility model relates to a lithography apparatus technical field especially relates to a printing machine steel mesh aligning device.

Background

Traditional printing machine, in the printing process, the counterpoint of steel mesh net and product adopts manual counterpoint usually, during the counterpoint, need the position of manual repetition adjustment steel mesh net, make it finally align with the product, this kind of traditional method counterpoint speed is very slow, and counterpoint precision is poor, also have some among the prior art and carry out the printing machine that steel mesh and product counterpoint through the motor, but the price is all higher, consequently, design a section easy and simple to handle, counterpoint quick accurate, and steel mesh counterpoint structure with low costs, seem very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the utility model provides a steel mesh alignment structure of a printing machine, which has simple and reasonable structure design, rapid and accurate alignment, convenient use and low cost.

The utility model adopts the technical proposal that:

a steel mesh contraposition device of a printing machine comprises a mobile platform, a steel mesh structure, a fixing assembly, a first X-axis adjusting assembly, a second X-axis adjusting assembly, a Y-axis adjusting assembly and a pressing assembly, the moving platform comprises a moving part and a fixing part, the moving part is provided with a placing groove, the steel mesh structure is arranged in the placing groove, the fixing component is connected with the moving part, the fixed component is positioned above the placing groove, the first X-axis adjusting component, the second X-axis adjusting component and the Y-axis adjusting component are respectively connected with the moving part and the fixed part, and the first X-axis adjusting component and the second X-axis adjusting component are positioned at two parallel sides of the moving part, the movable portion is further provided with a sliding connecting piece, the fixed portion is provided with a connecting column matched with the sliding connecting piece, and the compressing assembly is located above the sliding connecting piece and the connecting column.

Further, first X axle adjusting part, second X axle adjusting part with Y axle adjusting part is equipped with extension spring and knob device respectively, the removal portion with the fixed part is equipped with the mount pad respectively, the extension spring both ends respectively with the mount pad is connected, knob device one end with removal portion fixed connection, the other end stretches out the fixed part.

Furthermore, the mounting seat is provided with a circular groove, and the tension spring is clamped in the circular groove.

Further, the knob device is a micrometer screw.

Furthermore, the number of the sliding connection pieces is four, the four sliding connection pieces are respectively located at four corners of the moving portion, and the connecting column and the pressing assembly are matched with the number of the sliding connection pieces.

Furthermore, the number of the pressing assemblies is four, and the four pressing assemblies are respectively arranged on two parallel sides of the moving part.

Further, the fixing assembly and the pressing assembly respectively adopt cylinder structures.

Furthermore, a supporting sheet is arranged at the bottom of the placing groove.

Furthermore, one side of the compressing component, which is close to the sliding connection piece, is provided with an elastic buffer sheet.

Furthermore, the connecting column is cylindrical, and a hemispherical groove is formed in the top end of the connecting column.

The utility model has the advantages as follows:

the utility model comprises a mobile platform and a steel mesh structure, and also comprises a fixing component, a first X-axis adjusting component, a second X-axis adjusting component, a Y-axis adjusting component and a pressing component, the movable table comprises a movable part and a fixed part, the movable part is provided with a placing groove, the steel mesh structure is arranged in the placing groove, the utility model has simple structure and reasonable design, the alignment is convenient and accurate, when the utility model is used, the steel mesh is firstly placed, the steel mesh structure is fixed by the fixing component, when the product is jointed with the steel mesh, the pressing component is loosened, and through the three adjusting components, the left and right positions of the X axis and the up and down positions of the Y axis are adjusted for the moving part, so as to drive the steel mesh structure arranged in the placing groove to synchronously adjust the positions, therefore, accurate alignment of the steel mesh is realized, and when readjustment is needed, the adjusting steps are repeated, so that the repeated positioning precision is effectively guaranteed.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of a viewing angle structure of the present invention;

fig. 3 is a schematic view of another perspective structure of the present invention;

fig. 4 is a schematic view of another perspective structure of the present invention;

description of reference numerals: 1. the device comprises a mobile platform, 11 moving parts, 111 placing grooves, 112 sliding connecting pieces, 113 supporting pieces, 12 fixing parts, 121 connecting columns, 13 mounting seats, 2 steel ring structures, 3 fixing components, 4 first X-axis adjusting components, 5 second X-axis adjusting components, 6Y-axis adjusting components, 7 compressing components, 8 tension springs and 9 knob devices.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 4, the printing machine steel mesh aligning device according to the embodiment includes a moving table 1 and a steel mesh structure 2, and further includes a fixing assembly 3, a first X-axis adjusting assembly 4, a second X-axis adjusting assembly 5, a Y-axis adjusting assembly 6, and a pressing assembly 7, the moving table 1 includes a moving portion 11 and a fixing portion 12, the moving portion 11 has a placing slot 111, the steel mesh structure 2 is disposed in the placing slot 111, the fixing assembly 3 is connected to the moving portion 11, the fixing assembly 3 is located above the placing slot 111, the first X-axis adjusting assembly 4, the second X-axis adjusting assembly 5, and the Y-axis adjusting assembly 6 are respectively connected to the moving portion 11 and the fixing portion 12, the first X-axis adjusting assembly 4 and the second X-axis adjusting assembly 5 are located at two sides of the moving portion 11 in parallel, the moving portion 11 is further provided with a sliding connection piece 112, the fixing part 12 is provided with a connecting column 121 matched with the sliding connecting sheet 112, the compressing component 7 is positioned above the sliding connecting sheet 112 and the connecting column 121, specifically, the compressing component 7 is close to one side of the sliding connecting sheet 112 and is provided with an elastic buffer sheet, the structure of the utility model is simple, the design is reasonable, the alignment is convenient and accurate, when the utility model is used, a steel mesh is firstly placed in the steel mesh structure 2, then the fixing component 3 is used for compressing the moving part 11, the steel mesh structure 2 is fixed, at the moment, the compressing component 7 is also in a state of compressing the sliding connecting sheet 112 and the connecting column 121, when a product is laminated with the steel mesh, the compressing component 7 is loosened, the left and right positions of an X axis and the upper and lower positions of a Y axis are adjusted for the moving part through three adjusting components, and then the steel mesh structure 2 arranged in the placing groove 111 is driven to synchronously carry out the position adjustment, therefore, accurate alignment of the steel mesh is realized, and when readjustment is needed, the adjusting steps are repeated, so that the repeated positioning precision is effectively guaranteed.

In some embodiments, the first X-axis adjusting assembly 4, the second X-axis adjusting assembly 5 and the Y-axis adjusting assembly 6 are respectively provided with a tension spring 8 and a knob device 9, the moving portion 11 and the fixing portion 12 are respectively provided with a mounting seat 13, two ends of the tension spring 8 are respectively connected with the mounting seat 13, one end of the knob device 9 is fixedly connected with the moving portion 11, and the other end of the knob device extends out of the fixing portion 12, specifically, the mounting seat 13 is provided with a circular groove, the tension spring 8 is clamped in the circular groove, in this embodiment, specifically, the two ends of the tension spring 8 are connected with the mounting seats 13 respectively arranged on the moving portion 11 and the fixing portion 12, and the rotation of the knob device 9 drives the moving portion 11 to move relative to the fixing portion 12, in this embodiment, by providing a spring tension structure, under the action of spring force, the position of the moving part 11 is moved to realize positioning, and the position adjustment is convenient and the positioning is accurate.

In some specific examples, the knob device 9 is a micrometer screw, and with the arrangement of this embodiment, the adjustment precision is high, and the knob is convenient to rotate and adjust, so that the alignment can be quickly adjusted.

In other specific embodiments, four sliding connection pieces 112 are arranged, the four sliding connection pieces 112 are respectively located at four corners of the moving portion 411, the connecting column 121 and the pressing component 7 are arranged in a number matching with the number of the sliding connection pieces 112, the periphery of the moving portion 11 can be pressed and positioned by the pressing component 7, the positioning effect is good, and after alignment adjustment is completed, displacement is not caused, so that the positioning accuracy is effectively ensured.

In some embodiments, there are four pressing assemblies 7, the four pressing assemblies 7 are disposed on two sides of the moving portion 11, and this embodiment is equivalent to the arrangement that a group of pressing assemblies 7 is disposed on two sides of the moving portion 11, so that after the steel mesh is placed, the steel mesh structure can be well pressed and fixed, and subsequent alignment adjustment is facilitated.

In other specific examples, the fixing assembly 3 and the pressing assembly 7 respectively adopt an air cylinder structure, so that the operation is stable, the control is convenient, the matching alignment adjustment is convenient, and the pressing and loosening control on the moving part 11 and the sliding connecting piece 112 is realized.

In some embodiments, the supporting plate 113 is disposed at the bottom of the placing slot 111, and the steel mesh structure 2 can be conveniently placed and fixed by the supporting plate 113, which is simple in structure, reasonable in design, and convenient for fixing the steel mesh structure 2.

In other embodiments, the spliced pole 121 is set to be cylindrical, and a hemispherical groove is formed in the top end, in the use process, when the pressing component 7 is in a pressing state, the sliding connection piece 112 and the spliced pole 121 are pressed and are in a completely-fitting state, and the hemispherical groove can provide certain suction, so that the spliced pole 121 and the sliding connection piece 112 are further ensured not to shift when being in a pressing state, the structure design is simple, the fixing effect is good, the weight of the device can be reduced, the cost is saved, and the device is economical and practical.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A steel mesh alignment device of a printing machine comprises a mobile platform and a steel mesh structure, and is characterized by further comprising a fixing component, a first X-axis adjusting component, a second X-axis adjusting component, a Y-axis adjusting component and a pressing component, wherein the mobile platform comprises a mobile part and a fixing part, the mobile part is provided with a placing groove, the steel mesh structure is arranged in the placing groove, the fixing component is connected with the mobile part and is positioned above the placing groove, the first X-axis adjusting component, the second X-axis adjusting component and the Y-axis adjusting component are respectively connected with the mobile part and the fixing part, the first X-axis adjusting component and the second X-axis adjusting component are positioned on two sides parallel to the mobile part, the mobile part is further provided with a sliding connecting piece, and the fixing part is provided with a connecting column matched with the sliding connecting piece, the compressing assembly is located above the sliding connecting piece and the connecting column.

2. The steel mesh aligning device of a printing machine according to claim 1, wherein the first X-axis adjusting assembly, the second X-axis adjusting assembly and the Y-axis adjusting assembly are respectively provided with a tension spring and a knob device, the moving portion and the fixing portion are respectively provided with a mounting seat, two ends of the tension spring are respectively connected with the mounting seat, one end of the knob device is fixedly connected with the moving portion, and the other end of the knob device extends out of the fixing portion.

3. The steel mesh aligning device for the printing machine according to claim 2, wherein the mounting seat is provided with a circular groove, and the tension spring is clamped in the circular groove.

4. The steel mesh aligning device of a printing machine according to claim 2, wherein the knob device is a micrometer screw.

5. The printing machine steel mesh aligning device according to claim 1, wherein the number of the sliding connection pieces is four, the four sliding connection pieces are respectively located at four corners of the moving portion, and the connecting columns and the pressing assemblies are arranged in a manner of matching with the number of the sliding connection pieces.

6. The steel mesh aligning device of a printing machine according to claim 1, wherein four of the pressing assemblies are respectively disposed on two parallel sides of the moving portion.

7. The steel mesh aligning device for printing machine according to claim 1, wherein said fixing assembly and said pressing assembly are respectively configured as a cylinder.

8. The aligning device for the steel mesh of the printing machine according to claim 1, wherein a support piece is provided at the bottom of the placing slot.

9. The device for aligning the steel mesh of the printing machine according to claim 1, wherein an elastic buffer sheet is provided on a side of the pressing member adjacent to the sliding connection sheet.

10. The steel mesh aligning device of a printing machine according to claim 1, wherein the connecting column is formed in a cylindrical shape and has a hemispherical recess formed at a top end thereof.

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