CN210283578U - Product lifting device applied to steel mesh printing equipment - Google Patents

Abstract

The utility model discloses a be applied to product elevating gear of steel mesh lithography apparatus, including elevating platform mechanism, steel mesh printing platform and conveying mechanism, elevating platform mechanism includes lift drive assembly, lift supporting bench and vacuum adsorption component, lift drive assembly is used for driving lift supporting bench to rise and descend, the both sides of lift supporting bench sliding connection respectively have the mount pad, lift supporting bench is located the below of conveying mechanism, be equipped with carrier clamping platform on the lift supporting bench, vacuum adsorption component locates on the lift supporting bench and is located the below of carrier clamping platform, vacuum adsorption component is used for via hole printing work, steel mesh printing platform can reciprocate relative conveying mechanism; the utility model discloses set up the vacuum adsorption subassembly on elevating platform mechanism, the vacuum adsorption subassembly utilizes vacuum adsorption printing ink to the realization can accomplish the printing of treating the printed matter via hole when the printing treats the printed matter surface, improves printing efficiency greatly, simplifies equipment structure, practices thrift manufacturing cost.

Description

Product lifting device applied to steel mesh printing equipment

Technical Field

The utility model relates to a steel mesh lithography apparatus technical field especially relates to a be applied to steel mesh lithography apparatus's product elevating gear.

Background

When the surface of an object and a via hole are printed by the conventional steel mesh printing equipment, the object and the via hole are usually printed separately, namely, the surface of the object and the via hole of the object cannot be printed simultaneously, so that the printing efficiency is seriously influenced, and the printing cost is high.

Disclosure of Invention

An object of the utility model is to overcome above shortcoming, provide a be applied to steel mesh lithography apparatus's product elevating gear.

In order to achieve the above purpose, the specific scheme of the utility model is as follows:

a product lifting device applied to steel mesh printing equipment comprises a lifting platform mechanism, a steel mesh printing platform and a conveying mechanism, wherein the lifting platform mechanism comprises a lifting driving assembly, a lifting supporting platform and a vacuum adsorption assembly, the lifting driving assembly is used for driving the lifting supporting platform to ascend and descend, two sides of the lifting supporting platform are respectively connected with a mounting seat in a sliding mode, the lifting supporting platform is located below the conveying mechanism, a carrier clamping platform is arranged on the lifting supporting platform, the vacuum adsorption assembly is arranged on the lifting supporting platform and located below the carrier clamping platform, and the vacuum adsorption assembly is used for via hole printing; the steel mesh printing platform is connected with the conveying mechanism and is positioned above the conveying mechanism, the steel mesh printing platform can move up and down relative to the conveying mechanism, a steel mesh printing jig matched with the printing carrier is arranged on the steel mesh printing platform, and the steel mesh printing platform is used for bearing steel mesh printing work; and two ends of the conveying mechanism are respectively and fixedly connected to the mounting seat and are used for conveying the printing carrier.

The vacuum adsorption assembly comprises a waste collection box and a vacuum chuck, the waste collection box is arranged on the lifting support platform, the vacuum chuck is arranged at the top of the waste collection box, and the vacuum chuck is connected with an external vacuum pump; the lift supporting platform is provided with a plurality of jacking vacuum adsorption assemblies and jacking assemblies which enable the vacuum suction cups to be in sealing fit with the carrier clamping platform, and the carrier clamping platform is provided with through holes corresponding to the printing carriers.

Wherein, the jacking subassembly includes jacking cylinder, slider and extension spring, the jacking cylinder is fixed on a lift supporting bench, slider sliding connection is on a lift supporting bench, the output of jacking cylinder is connected with the one end of slider, the one end of extension spring is connected with the other end of slider, the top at a lift supporting bench is fixed to the other end of extension spring.

One end of the carrier clamping platform is provided with a first limiting column, and the lifting support platform is provided with a side pushing component which is used for being matched with the first limiting column to clamp the printing carrier.

Wherein, push away limit part including pushing away limit slip table cylinder and the spacing post of second, push away limit slip table cylinder and fix on a lift supporting bench, the spacing post of second is connected with the output that pushes away limit slip table cylinder, carrier clamping platform's the other end is equipped with the breach that is used for providing the removal space for the spacing post of second.

The steel mesh printing platform comprises a printing platform frame, the steel mesh printing jig is arranged on the printing platform frame, and the steel mesh printing platform is provided with a first adjusting assembly used for adjusting the steel mesh printing jig along the x-axis direction and a second adjusting assembly used for adjusting the steel mesh printing jig along the y-axis direction.

The printing platform frame comprises a first printing frame and a second printing frame, the first printing frame is movably connected with the conveying mechanism, the second printing frame is connected to the first printing frame in a sliding mode, the steel mesh printing jig is connected to the second printing frame in a sliding mode, the first adjusting assembly is fixed to the second printing frame, the output end of the first adjusting assembly is connected with the first printing frame, the second adjusting assembly is fixed to the second printing frame, and the output end of the second adjusting assembly is connected with the steel mesh printing jig.

The printing device comprises a first printing frame, a lifting support platform, a lifting guide rod and a lifting guide rod, wherein the lifting guide rod is connected between the first printing frame and the lifting support platform and used for providing guidance for the lifting support platform.

The conveying mechanism comprises a conveying supporting seat, a conveying driving piece and a conveying track, the two ends of the conveying supporting seat are respectively fixed on the mounting seat, the conveying driving piece is arranged on the conveying supporting seat, the conveying track is arranged on the conveying supporting seat, and the output end of the conveying driving piece is in transmission connection with the conveying track.

The utility model has the advantages that: compared with the prior art, the utility model discloses set up the vacuum adsorption subassembly on elevating platform mechanism, the vacuum adsorption subassembly utilizes vacuum adsorption printing ink to the realization can accomplish the printing of treating the printed matter via hole when the printing treats the printed matter surface, improves printing efficiency greatly, simplifies equipment structure, practices thrift manufacturing cost.

Drawings

Fig. 1 is a schematic structural diagram of a first view angle of a product lifting device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second view angle of the product lifting device according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of an elevating platform mechanism provided in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an elevating support platform provided in an embodiment of the present invention;

fig. 5 is a schematic view of a part of the structure of the elevating support platform provided in the embodiment of the present invention;

FIG. 6 is an enlarged partial schematic view at I of FIG. 5;

fig. 7 is a schematic structural diagram of a vacuum adsorption assembly provided by an embodiment of the present invention;

fig. 8 is a schematic structural view of a steel mesh printing platform according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a conveying mechanism provided in an embodiment of the present invention;

description of reference numerals: 1-a lifting platform mechanism; 11-a lifting drive assembly; 12-a lifting support platform; 121-carrier clamping platform; 1211-a first limit post; 122-a jacking assembly; 1221-jacking cylinder; 1222-a slider; 1223-tension spring; 123-a trimming member; 1231-push side slipway cylinder; 1232-a second restraint post; 13-a vacuum adsorption assembly; 131-a waste collection box; 132-vacuum chuck; 2-steel mesh printing platform; 21-steel screen printing jig; 22-a printing deck frame; 221-a first print frame; 222-a second print frame; 23-a first adjustment assembly; 24-a second adjustment assembly; 25-lifting guide rods; 26-a sliding stopper; 3-a conveying mechanism; 31-conveying a supporting seat; 32-transport drive; 33-a conveying track; 4-mounting seat.

Detailed Description

The following detailed description of the present invention, taken in conjunction with the accompanying drawings and specific examples, is not intended to limit the scope of the invention.

As shown in fig. 1 to 9, the product lifting device applied to a steel mesh printing apparatus in this embodiment includes a lifting table mechanism 1, a steel mesh printing platform 2 and a conveying mechanism 3, wherein the lifting table mechanism 1 includes a lifting driving component 11, a lifting supporting table 12 and a vacuum adsorbing component 13, the lifting driving component 11 is used for driving the lifting supporting table 12 to ascend and descend, two sides of the lifting supporting table 12 are respectively connected with a mounting seat 4 in a sliding manner, the lifting supporting table 12 is located below the conveying mechanism 3, the lifting supporting table 12 is provided with a carrier clamping platform 121, the vacuum adsorbing component 13 is arranged on the lifting supporting table 12 and located below the carrier clamping platform 121, and the vacuum adsorbing component 13 is used for via hole printing work; the steel mesh printing platform 2 is connected with the conveying mechanism 3 and is positioned above the conveying mechanism 3, the steel mesh printing platform 2 can move up and down relative to the conveying mechanism 3, the steel mesh printing platform 2 is provided with a steel mesh printing jig 21 matched with the printing carrier, and the steel mesh printing platform 2 is used for bearing steel mesh printing work; and two ends of the conveying mechanism 3 are respectively and fixedly connected to the mounting seat 4 and are used for conveying the printing carrier.

Specifically, during installation, the mounting seat 4 is fixed on a frame of the steel mesh printing apparatus, during operation, the steel mesh printing apparatus transfers a printing carrier bearing an object to be printed (such as a ceramic wafer) to the conveying mechanism 3, at this time, the conveying mechanism 3 conveys the printing carrier to a position right above the lifting support 12, then the lifting drive assembly 11 drives the lifting support 12 to ascend, the carrier clamping platform 121 on the lifting support 12 contacts with the printing carrier and drives the printing carrier to ascend, the printing carrier is transited from the conveying mechanism 3 to the lifting platform mechanism 1 at this time until the printing carrier is matched with the steel mesh printing jig 21, then under the continuous drive of the lifting drive assembly 11, the lifting support 12 can lift the steel mesh printing platform, so that the steel mesh printing platform 2 moves upwards relative to the conveying mechanism 3 and ascends to a printing station, and then surface printing work is performed on the steel mesh printing platform 2, meanwhile, the vacuum adsorption component 13 works to adsorb the ink through vacuum, so that the ink flows through the via holes of the object to be printed, the coating of the via holes is formed, the surface of the object to be printed and the via holes are printed simultaneously, and the printing efficiency is greatly improved; after the printing is completed, the lifting driving assembly 11 drives the lifting support platform 12 to descend, when the height of the carrier clamping platform 121 is lower than that of the third conveying mechanism 3, the printing carrier is supported by the third conveying mechanism 3, the steel mesh printing platform 2 returns under the self-weight, then the third conveying mechanism 3 drives the printing carrier to be conveyed out of the printing station, and then the next printing carrier is waited to enter.

This embodiment sets up vacuum adsorption component 13 on elevating platform mechanism 1, and vacuum adsorption component 13 utilizes vacuum adsorption printing ink to the realization can accomplish the printing of treating the printed matter via hole when the printing treats the printed matter surface, improves printing efficiency greatly, simplifies equipment structure, practices thrift manufacturing cost.

Based on the above embodiment, further, as shown in fig. 7, the vacuum suction assembly 13 includes a waste collection box 131 and a vacuum chuck 132, the waste collection box 131 is disposed on the lifting support platform 12, the vacuum chuck 132 is disposed on the top of the waste collection box 131, and the vacuum chuck 132 is connected to an external vacuum pump; the lifting support table 12 is provided with a plurality of lifting components 122 for lifting the vacuum adsorption component 13 and enabling the vacuum chuck 132 to be in sealing fit with the carrier clamping platform 121, and the carrier clamping platform 121 is also provided with through holes corresponding to the printing carriers; specifically, during operation, the vacuum chuck 132 is connected to an external vacuum pump through a vacuum pipeline (not shown), the jacking assembly 122 jacks the vacuum adsorption assembly 13, so that the top of the vacuum chuck 132 is in sealing fit with the bottom surface of the carrier clamping platform 121, and then under the action of an external vacuum pump, ink applied to the printing carrier passes through a via hole of an object to be printed, so that the via hole is coated, and further printing of the via hole can be completed, and the residual ink falls into the waste collection box 131 under the self-weight, so that the ink is recovered, the environment is prevented from being polluted, and the structure is simple; preferably, the number of the jacking assemblies 122 is four, and the jacking assemblies are distributed in a rectangular shape.

Based on the above embodiment, as shown in fig. 6, the jacking assembly 122 includes a jacking cylinder 1221, a slider 1222, and a tension spring 1223, the jacking cylinder 1221 is fixed on the lifting support platform 12, the slider 1222 is slidably connected to the lifting support platform 12, an output end of the jacking cylinder 1221 is connected to one end of the slider 1222, one end of the tension spring 1223 is connected to the other end of the slider 1222, and the other end of the tension spring 1223 is fixed on the top of the lifting support platform 12; specifically, during installation, the jacking cylinder 1221 pulls the slider 1222 downward to make room for installing the garbage collection box 131 and the vacuum cup 132, and then the garbage collection box 131 is put in, the slider 1222 supports the garbage collection box 131, and simultaneously the vacuum cup 132 covers the top of the garbage collection box 131, and then the jacking cylinder 1221 jacks the slider 1222 to jack the garbage collection box 131 and the vacuum cup 132 until the top of the vacuum cup 132 is in sealing fit with the bottom surface of the carrier clamping platform 121, and the tension spring 1223 always provides upward tension for the vacuum cup 132 and the garbage collection box 131, so that the vacuum cup 132 is in sealing fit with the garbage collection box 131 and the vacuum cup 132 is in sealing fit with the carrier clamping platform 121, thereby realizing collection and treatment of the paint and waste of the through hole of the object to be printed by means of vacuum pumping, and having a more reasonable structure.

Based on the above embodiment, as shown in fig. 4, a first limiting column 1211 is disposed at one end of the carrier clamping platform 121, and an edge pushing component 123 for clamping the printing carrier in cooperation with the first limiting column 1211 is disposed on the lifting support platform 12; during operation, the conveying mechanism 3 conveys the printing carrier to the position right above the lifting support platform 12, then the lifting support platform 12 is lifted under the action of the lifting driving component 11, so that the top of the carrier clamping platform 121 is contacted with the bottom surface of the printing carrier, at the moment, the printing carrier is positioned between the first limit column 1211 and the edge pushing component 123, then the edge pushing component 123 works, the printing carrier is pushed to the first limit column 1211 to move, and the printing carrier is clamped between the first limit column 1211 and the edge pushing component 123, thereby fixing the position of the printing carrier, preventing the printing carrier from deviating or shaking in the printing operation, facilitating the matching of the printing carrier and the steel mesh printing jig 21, enabling the surface of an object to be printed on the printing carrier to be coated with ink, and having a firmer structure.

In this embodiment, specifically, as shown in fig. 4, the edge pushing component 123 includes an edge pushing sliding table cylinder 1231 and a second limiting column 1232, the edge pushing sliding table cylinder 1231 is fixed on the lifting support platform 12, the second limiting column 1232 is connected to an output end of the edge pushing sliding table cylinder 1231, a notch for providing a moving space for the second limiting column 1232 is disposed at the other end of the carrier clamping platform 121, when the carrier clamping platform 121 holds the printing carrier, the edge pushing sliding table cylinder 1231 drives the second limiting column 1232 to push the printing carrier to move toward the first limiting column 1211, so as to clamp the printing carrier between the first limiting column 1211 and the second limiting column 1232, and then the printing carrier is matched with the steel mesh printing jig 21 under the driving of the lifting support platform 12, at this time, the printing carrier is combined with the steel mesh printing jig 21, and continues to rise to the printing station under the jacking action of the lifting support platform 12, then, the printing work is performed, after the printing is completed, the lifting support table 12 drives the printing carrier to descend until the carrier clamping platform 121 and the conveying mechanism 3 are located on the same horizontal plane, then the side-pushing sliding table cylinder 1231 drives the second limiting column 1232 to move away from the first limiting column 1211, so that the printing carrier is loosened, when the lifting support table 12 continues to descend, the conveying mechanism 3 supports the printing carrier, the printing carrier cannot continue to descend along with the lifting support table 12, the transition of the printing carrier between the conveying mechanism 3 and the lifting support table 12 is realized, and then the printing carrier is moved out under the driving of the conveying mechanism 3.

Based on the above embodiment, as shown in fig. 1, 2 and 8, the steel mesh printing platform 2 includes a printing platform frame 22, the printing platform frame 22 is connected to the conveying mechanism 3, the steel mesh printing jig 21 is disposed on the printing platform frame 22, and the steel mesh printing platform 2 is provided with a first adjusting component 23 for adjusting the steel mesh printing jig 21 along the x-axis direction and a second adjusting component 24 for adjusting the steel mesh printing jig 21 along the y-axis direction; specifically, when the printing carrier is clamped on the carrier clamping platform 121, the first adjusting component 23 adjusts the position of the printing platform frame 22 along the x-axis direction and the second adjusting component 24 along the y-axis direction, so that the steel mesh printing jig 21 is opposite to the printing carrier, and the printing carrier is accurately matched with the steel mesh printing jig 21, thereby ensuring the printing effect of the object to be printed.

In this embodiment, specifically, as shown in fig. 1, fig. 2 and fig. 8, the printing platform frame 22 includes a first printing frame 221 and a second printing frame 222, the first printing frame 221 is movably connected to the conveying mechanism 3, the second printing frame 222 is slidably connected to the first printing frame 221, the steel mesh printing jig 21 is slidably connected to the second printing frame 222, the first adjusting assembly 23 is fixed to the second printing frame 222, an output end of the first adjusting assembly 23 is connected to the first printing frame 221, the second adjusting assembly 24 is fixed to the second printing frame 222, and an output end of the second adjusting assembly 24 is connected to the steel mesh printing jig 21; specifically, the four sliding position limiters 26 are arranged on the bottom surface of the first printing frame 221, the four sliding position limiters 26 are distributed in a rectangular shape, and when the printing device is installed, the four sliding position limiters 26 are fixed on the conveying mechanism 3, so that the first printing frame 221 can move up and down, and the first printing frame 221 can drive the second printing frame 222 and the steel mesh printing jig 21 to move up and down; when the steel mesh printing jig 21 is adjusted along the x-axis direction, the first adjusting assembly 23 directly pushes the steel mesh printing jig 21 to move along the x-axis direction; when the steel mesh printing jig 21 is adjusted along the y-axis direction, the second adjusting component 24 drives the second printing frame 222 to move along the y-axis direction, so as to adjust the displacement of the steel mesh printing jig 21 along the y-axis direction, preferably, the second adjusting components 24 are respectively arranged at two opposite ends of the second printing frame 222, so that the second printing frame 222 is stressed more uniformly, and the displacement is more accurate. In this embodiment, the first adjusting assembly 23 and the second adjusting assembly 24 both use cylinders, which is lower in cost.

Based on the above embodiment, further, as shown in fig. 8, a lifting guide rod 25 is connected between the first printing frame 221 and the lifting support platform 12, and the lifting guide rod 25 is used for providing guidance for the lifting support platform 12, so that the lifting support platform 12 is more stable in the lifting and lowering processes, and is beneficial to the matching of the printing carrier and the steel mesh printing jig 21, thereby reducing the displacement adjustment times of the steel mesh printing jig 21 and achieving higher efficiency; preferably, the number of the lifting guide rods 25 is four, and the lifting guide rods 25 are distributed in a rectangular shape, and the lifting guide rods 25 are spaced apart from the sliding stoppers 26.

Based on the above embodiment, as shown in fig. 9, the conveying mechanism 3 includes a conveying support seat 31, a conveying driving member 32, and a conveying track 33, two ends of the conveying support seat 31 are respectively fixed on the mounting seat 4, the conveying driving member 32 is disposed on the conveying support seat 31, the conveying track 33 is disposed on the conveying support seat 31, and an output end of the conveying driving member 32 is in transmission connection with the conveying track 33; specifically, the four sliding stoppers 26 are respectively fixed on the conveying support seat 31, the conveying track 33 supports the printing carrier, and the conveying track 33 drives the printing carrier to move under the driving of the conveying driving member 32, so that the transfer of the printing carrier is realized, and the automatic production is facilitated. In this embodiment, the conveying driving member 32 is a servo motor, and the servo motor drives the conveying rail 33 to rotate through a synchronous pulley set and a transmission rod.

In this embodiment, lift drive assembly 11 includes lift driving motor, motor fixing base and screw nut, lift driving motor installs on the motor fixing base, fixes the motor fixing base in steel mesh lithography apparatus's frame, and the one end of screw rod of screw nut is connected with lift driving motor's output, screw nut's nut and lift brace table 12 fixed connection, and in operation, lift driving motor drives the screw rod and rotates, makes the nut remove along the screw rod to drive lift brace table 12 and remove, realize lift brace table 12's rising and decline.

The above is only a preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the protection scope of the present invention.

Claims (9)

1. A product lifting device applied to steel mesh printing equipment is characterized by comprising a lifting platform mechanism (1), a steel mesh printing platform (2) and a conveying mechanism (3), the lifting platform mechanism (1) comprises a lifting driving component (11), a lifting support platform (12) and a vacuum adsorption component (13), the lifting driving component (11) is used for driving the lifting supporting platform (12) to ascend and descend, the two sides of the lifting support platform (12) are respectively connected with a mounting seat (4) in a sliding way, the lifting support platform (12) is positioned below the conveying mechanism (3), a carrier clamping platform (121) is arranged on the lifting support platform (12), the vacuum adsorption component (13) is arranged on the lifting support platform (12) and is positioned below the carrier clamping platform (121), and the vacuum adsorption component (13) is used for via hole printing work; the steel mesh printing platform (2) is connected with the conveying mechanism (3) and is positioned above the conveying mechanism (3), the steel mesh printing platform (2) can move up and down relative to the conveying mechanism (3), a steel mesh printing jig (21) matched with the printing carrier is arranged on the steel mesh printing platform (2), and the steel mesh printing platform (2) is used for bearing steel mesh printing work; and two ends of the conveying mechanism (3) are respectively and fixedly connected to the mounting seat (4) and are used for conveying the printing carrier.

2. The product lifting device applied to the steel mesh printing equipment is characterized in that the vacuum adsorption assembly (13) comprises a waste collection box (131) and a vacuum suction cup (132), the waste collection box (131) is arranged on the lifting support table (12), the vacuum suction cup (132) is arranged at the top of the waste collection box (131), and the vacuum suction cup (132) is connected with an external vacuum pump; the lifting support platform (12) is provided with a plurality of lifting components (122) which are used for lifting the vacuum adsorption components (13) and enabling the vacuum sucker (132) to be in sealing fit with the carrier clamping platform (121), and the carrier clamping platform (121) is further provided with through holes corresponding to the printing carriers.

3. The product lifting device applied to the steel mesh printing equipment is characterized in that the lifting assembly (122) comprises a lifting cylinder (1221), a slider (1222) and a tension spring (1223), the lifting cylinder (1221) is fixed on the lifting support platform (12), the slider (1222) is slidably connected on the lifting support platform (12), the output end of the lifting cylinder (1221) is connected with one end of the slider (1222), one end of the tension spring (1223) is connected with the other end of the slider (1222), and the other end of the tension spring (1223) is fixed at the top of the lifting support platform (12).

4. A product lifting device applied to a steel mesh printing equipment as claimed in claim 1, wherein one end of the carrier clamping platform (121) is provided with a first limit post (1211), and the lifting support platform (12) is provided with a side pushing component (123) for clamping the printing carrier in cooperation with the first limit post (1211).

5. The product lifting device applied to the steel mesh printing equipment, according to claim 4, wherein the edge pushing component (123) comprises an edge pushing sliding table cylinder (1231) and a second limiting column (1232), the edge pushing sliding table cylinder (1231) is fixed on the lifting support table (12), the second limiting column (1232) is connected with an output end of the edge pushing sliding table cylinder (1231), and the other end of the carrier clamping platform (121) is provided with a notch for providing a moving space for the second limiting column (1232).

6. The product lifting device applied to the steel mesh printing equipment is characterized in that the steel mesh printing platform (2) comprises a printing platform frame (22), the steel mesh printing jig (21) is arranged on the printing platform frame (22), and the steel mesh printing platform (2) is provided with a first adjusting assembly (23) for adjusting the steel mesh printing jig (21) along the x-axis direction and a second adjusting assembly (24) for adjusting the steel mesh printing jig (21) along the y-axis direction.

7. The product lifting device applied to the steel mesh printing equipment is characterized in that the printing platform frame (22) comprises a first printing frame (221) and a second printing frame (222), the first printing frame (221) is movably connected with the conveying mechanism (3), the second printing frame (222) is slidably connected onto the first printing frame (221), the steel mesh printing jig (21) is slidably connected onto the second printing frame (222), the first adjusting assembly (23) is fixed onto the second printing frame (222), the output end of the first adjusting assembly (23) is connected with the first printing frame (221), the second adjusting assembly (24) is fixed onto the second printing frame (222), and the output end of the second adjusting assembly (24) is connected with the steel mesh printing jig (21).

8. A product lifting device applied to a steel mesh printing equipment as claimed in claim 7, wherein a lifting guide rod (25) is connected between the first printing frame (221) and the lifting support table (12), and the lifting guide rod (25) is used for providing guidance for the lifting support table (12).

9. The product lifting device applied to the steel mesh printing equipment is characterized in that the conveying mechanism (3) comprises a conveying support seat (31), a conveying driving part (32) and a conveying track (33), wherein two ends of the conveying support seat (31) are respectively fixed on the mounting seat (4), the conveying driving part (32) is arranged on the conveying support seat (31), the conveying track (33) is arranged on the conveying support seat (31), and the output end of the conveying driving part (32) is in transmission connection with the conveying track (33).

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