CN219372237U - Tank bottom paper forming press-fitting detection blanking mechanism - Google Patents

Abstract

The utility model discloses a tank bottom paper forming, press-fitting, detecting and blanking mechanism, which comprises a frame, an upper tank bottom paper feeding and assembling mechanism, a tank bottom paper press-fitting mechanism, a detecting mechanism and a blanking mechanism, wherein the frame is provided with a plurality of grooves; the upper tank bottom paper feeding and assembling mechanism, the lower tank bottom paper feeding and assembling mechanism, the tank bottom paper press-fitting mechanism, the detection mechanism and the blanking mechanism are sequentially arranged on the workbench; the upper tank bottom paper feeding and assembling mechanism and the lower tank bottom paper feeding and assembling mechanism respectively comprise a tank bottom paper feeding and forming assembly and a tank bottom paper assembling assembly which are connected with each other, and the tank bottom paper assembling assemblies are positioned beside the conveying mechanism. Therefore, the bottom paper forming, press-fitting, detecting and blanking mechanism is formed by integrating the upper bottom paper feeding and assembling mechanism, the lower bottom paper feeding and assembling mechanism, the bottom paper secondary press-fitting mechanism, the detecting mechanism and the blanking mechanism on the frame; the equipment realizes the functions of automatic feeding of upper tank bottom paper and lower tank bottom paper, and automatic assembly, forming, detection and blanking of the equipment and a framework.

Description

Tank bottom paper forming press-fitting detection blanking mechanism

Technical Field

The utility model relates to the technical field of motor assembly, in particular to a tank bottom paper forming press-fitting detection blanking mechanism.

Background

The motor is widely applied to the technical field of industry, and is applied to the adjustment of automobile window glass, the adjustment of a skylight and the adjustment of a seat in the automobile field; the automatic assembly of the motor also puts higher and higher requirements; in the motor assembly process, especially the existing motor stator is provided with a plurality of iron cores, when the iron cores are assembled with the framework, groove bottom paper is required to be laid in the framework to prevent wires from wearing when the wires are wound on the framework, and meanwhile, the short circuit phenomenon is avoided. When the conventional assembly equipment is used for assembling the bottom paper, more manual assistance is usually needed for embedding the bottom paper, the efficiency is low, and the reject ratio is high; moreover, it does not have a secondary press-fitting mechanism, and it cannot be ensured that the bottom paper of the tank is completely fitted in place. Therefore, the assembly equipment should be designed for the existing motor slot bottom paper assembly to solve the above problems.

Disclosure of Invention

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and its main objective is to provide a bottom paper forming, press-fitting, detecting and blanking mechanism, which is formed by integrating a conveying mechanism, an upper bottom paper feeding and assembling mechanism, a lower bottom paper feeding and assembling mechanism, a bottom paper secondary press-fitting mechanism, a detecting mechanism and a blanking mechanism on a frame; the equipment realizes the functions of automatic feeding of upper tank bottom paper and lower tank bottom paper, and automatic assembly, forming, detection and blanking of the equipment and a framework.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a tank bottom paper forming, press-fitting, detecting and blanking mechanism comprises a frame, a conveying mechanism for conveying an iron core framework, an upper tank bottom paper feeding and assembling mechanism, a lower tank bottom paper feeding and assembling mechanism, a tank bottom paper press-fitting mechanism, a detecting mechanism and a blanking mechanism, wherein the upper tank bottom paper feeding and assembling mechanism, the lower tank bottom paper feeding and assembling mechanism, the tank bottom paper press-fitting mechanism, the detecting mechanism and the blanking mechanism are arranged on the frame; a workbench is arranged on the frame; the conveying mechanism is transversely arranged on the workbench; the upper tank bottom paper feeding and assembling mechanism, the lower tank bottom paper feeding and assembling mechanism, the tank bottom paper press-fitting mechanism, the detecting mechanism and the blanking mechanism are sequentially arranged on the workbench along the conveying direction of the conveying mechanism; the upper tank bottom paper feeding and assembling mechanism and the lower tank bottom paper feeding and assembling mechanism respectively comprise a tank bottom paper feeding and forming assembly and a tank bottom paper assembling assembly which are connected with each other, and the tank bottom paper assembling assembly is positioned beside the conveying mechanism; the tank bottom paper press-mounting mechanism comprises a pressing block for pressing tank bottom paper into the framework downwards and two pressing blocks for pressing and forming two sides of the tank bottom paper into a tank shape, wherein the two pressing blocks are positioned at two sides of the pressing block.

As a preferred embodiment: the feeding and forming assembly for the bottom paper of the tank comprises a material belt feeding device, a tank bottom paper forming device, a material belt traction device and a paper belt receiving device, wherein the material belt feeding device comprises a material belt feeding support, a material tray arranged on the material belt feeding support, a material belt driving motor for driving the material tray to rotate for discharging and a plurality of rollers for assisting in conveying the material belt, the material belt driving motor is connected with the material tray through a belt transmission assembly, and the material belt sequentially bypasses the rollers after passing through the material tray to reach the inlet of the tank bottom paper forming device; the material belt traction device is arranged at the outlet of the tank bottom paper forming device; the paper tape receiving device is arranged below the tank bottom paper forming device.

As a preferred embodiment: the bottom paper forming device comprises a forming bracket, an upper die, a lower die and an upper die driving electric cylinder, wherein the upper die and the lower die are arranged on the forming bracket, and the upper die driving electric cylinder drives the upper die to lift so as to be matched with or separated from the lower die; the material belt enters between the upper die and the lower die.

As a preferred embodiment: the material belt traction device comprises a traction motor and a plurality of rollers, the traction motor drives the rollers to rotate through belt transmission, and the material belt is pulled out from an outlet of the tank bottom paper forming device and clamped between two adjacent rollers.

As a preferred embodiment: the paper tape collecting device comprises a paper tape collecting reel and a paper tape collecting motor for driving the paper tape collecting reel to rotate, and the paper tape collecting reel corresponds to the roller of the material tape traction device.

As a preferred embodiment: the bottom paper assembly component comprises an assembly bracket, a material belt suction head arranged on the assembly bracket, a suction head lifting driving cylinder for driving the material belt suction head to lift, a suction head longitudinal movement driving device for driving the material belt suction head to longitudinally move and a suction head transverse movement driving device for driving the material belt suction head to transversely move, wherein the assembly bracket is arranged above a conveying mechanism, the suction head longitudinal movement driving device is arranged at the output end of the suction head transverse movement driving device, the suction head lifting driving cylinder is arranged at the output end of the suction head longitudinal movement driving device, and the material belt suction head is arranged at the output end of the suction head lifting driving cylinder and movably moves back and forth between the roller of the material belt traction device and the conveying mechanism.

As a preferred embodiment: the output end of the suction head lifting driving cylinder is provided with a connecting seat, and the material belt suction head is detachably arranged on the connecting seat.

As a preferred embodiment: the bottom paper press-fitting mechanism further comprises an extrusion driving cylinder for driving the two extrusion blocks to fold or open each other, a press-fitting vertical driving cylinder for driving the top pressing block and the extrusion blocks to lift and a press-fitting transverse driving device for driving the top pressing block and the extrusion blocks to transversely move, wherein the press-fitting transverse driving device is arranged on the frame, the press-fitting vertical driving cylinder is arranged at the output end of the press-fitting transverse driving device, the extrusion driving cylinder is arranged at the output end of the press-fitting vertical driving cylinder, the two extrusion blocks are arranged at the output end of the extrusion driving cylinder, and the top pressing block is arranged on the outer wall of the extrusion driving cylinder.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, according to the technical scheme, the bottom paper forming, pressing and detecting blanking mechanism is formed by integrating the upper bottom paper feeding and assembling mechanism, the lower bottom paper feeding and assembling mechanism, the bottom paper secondary pressing and assembling mechanism, the detecting mechanism and the blanking mechanism on the frame; the equipment realizes the functions of automatic feeding of upper tank bottom paper and lower tank bottom paper and automatic assembly, forming, detection and blanking of the upper tank bottom paper and the lower tank bottom paper and an iron core framework, improves the motor assembly efficiency and improves the motor assembly quality; and the secondary press-fitting mechanism with the bottom paper can carry out secondary press-fitting on the bottom paper, so that the bottom paper is tightly attached to the framework, and favorable conditions are provided for subsequent iron core winding.

In order to more clearly illustrate the structural features and efficacy of the present utility model, a detailed description thereof will be given below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic top view of the whole machine of the present utility model;

FIG. 2 is a schematic perspective view of a bottom paper feed assembly mechanism of the present utility model;

FIG. 3 is a schematic perspective view of a bottom paper feed forming assembly of the present utility model;

FIG. 4 is a schematic perspective view of a bottom paper assembly of the present utility model;

FIG. 5 is a schematic perspective view of a secondary press-fitting mechanism for bottom paper of the present utility model;

FIG. 6 is a schematic perspective view of the detecting mechanism of the present utility model.

The attached drawings are used for identifying and describing:

10. a frame; 11. a work table; 20a, an upper tank bottom paper feeding and assembling mechanism; 20b, a lower tank bottom paper feeding and assembling mechanism; 21. a tank bottom paper feeding and forming assembly; 211. a material belt feeding device; 2111. a material belt feeding bracket; 2112. a material tray; 2113. a material belt driving motor; 2114. a roller; 212. a tank bottom paper forming device; 2121. forming a bracket; 2122. an upper die; 2123. a lower die; 2124. an upper die driving cylinder; 213. a material belt traction device; 2131. a traction motor; 2132. a roller; 214. a paper tape receiving device; 2141. a paper tape take-up reel; 2142. a paper tape winding motor; 22. a tank bottom paper assembly component; 221. assembling a bracket; 222. a material belt suction head; 223. a suction head lifting driving cylinder; 224. a suction head longitudinal movement driving device; 225. a suction head lateral movement driving device; 226. a connecting seat; 30. a secondary press-fitting mechanism for bottom paper of the tank; 31. pressing a block; 32. extruding a block; 33. an extrusion driving cylinder; 34. pressing a vertical driving cylinder; 35. press fitting a transverse driving device; 40. a detection mechanism; 41. a lateral drive device; 50. a blanking mechanism; 60. a conveying mechanism; 61. a conveying support; 62. a jig plate; 63. a belt drive; 64. and a guide rail.

Detailed Description

The utility model discloses a bottom paper forming, press-fitting, detecting and blanking mechanism, as shown in fig. 1 to 6, which comprises a frame 10, an upper bottom paper feeding and assembling mechanism 20a, a lower bottom paper feeding and assembling mechanism 20b, a bottom paper secondary press-fitting mechanism 30, a detecting mechanism 40, a blanking mechanism 50 and a conveying mechanism 60, wherein the upper bottom paper feeding and assembling mechanism 20a, the lower bottom paper feeding and assembling mechanism 20b are arranged on the frame 10, and the detecting mechanism 40 comprises:

a workbench 11 is arranged on the frame 10; the upper tank bottom paper feeding and assembling mechanism 20a, the lower tank bottom paper feeding and assembling mechanism 20b, the tank bottom paper secondary press-fitting mechanism 30, the detecting mechanism 40 and the blanking mechanism 50 are sequentially arranged on the workbench 11 along the conveying direction of the conveying mechanism 60; the upper and lower bottom paper feeding and assembling mechanisms 20a and 20b respectively comprise a bottom paper feeding and forming assembly 21 and a bottom paper assembling assembly 22 connected with each other, and the bottom paper assembling assembly 22 is located beside the conveying mechanism 60.

The conveying mechanism 60 is used for conveying an iron core framework assembly, and comprises a conveying bracket 61 transversely arranged on the workbench 11, a jig plate 62 for containing the iron core framework and a belt transmission device 63 for driving the jig plate 62 to transversely move on the conveying bracket 61, wherein a guide rail 64 is arranged on the conveying bracket, and the jig plate 62 is slidably arranged on the guide rail 64; the belt transmission device 63 is positioned below the conveying bracket 61, and a belt of the belt transmission device 63 is transversely positioned on the conveying bracket 61 and is connected with the jig plate 62; the belt transmission device 63 drives the jig plate 62 to slide on the guide rail 64 through the belt, and conveys materials.

The slot bottom paper feeding and forming assembly 21 comprises a material belt feeding device 211, a slot bottom paper forming device 212, a material belt traction device 213 and a paper belt receiving device 214, wherein the material belt feeding device 211 comprises a material belt feeding bracket 2111, a material belt driving motor 2113 which is arranged on the material belt feeding bracket 2111 and drives the material belt 2112 to rotate for discharging, and a plurality of rollers 2114 which are used for assisting in conveying the material belt, the material belt feeding bracket 2111 can transversely move and is arranged on the output end of a transverse driving assembly 2115, the transverse driving assembly 2115 comprises a motor and a screw rod, the shaft end of the motor is connected with the screw rod, the material belt feeding bracket 2111 is in spiral rotatable fit with the screw rod, the motor drives the screw rod to rotate, and the material belt feeding bracket 2111 transversely slides, so that the position of the material belt feeding device 211 can be adjusted. The material belt driving motor 2113 is connected with the material tray 2112 through a belt transmission assembly, and the material belt sequentially bypasses a plurality of rollers 2114 on the material tray 2112 to reach the inlet of the bottom paper forming device 212; the bottom paper forming device 212 comprises a forming bracket 2121, an upper die 2122, a lower die 2123 and an upper die driving cylinder 2124 for driving the upper die 2122 to lift so as to be clamped with or separated from the lower die 2123, wherein the upper die 2122 is arranged at the output end of the upper die driving cylinder 2124; the material belt is gradually separated into a material sheet and a paper tape after entering between an upper die 2122 and a lower die 2123; a protrusion capable of extruding the web into a U-shaped groove structure and a cutter for dividing the web into a plurality of sections are arranged on the matching surface of the upper die 2122 and the lower die 2123. After the upper and lower dies 2122, 2123 are closed, the web can be cut into sections and a U-shaped channel structure can be formed.

The material belt traction device 213 is located at the outlet of the bottom paper forming device 212, and comprises a traction motor 2131 and a plurality of rollers 2132, wherein the traction motor 2131 drives the rollers 2132 to rotate through belt transmission, and the material belt is pulled out from the outlet of the bottom paper forming device 212 and clamped between two adjacent rollers 2132; the tape take-up device 214 is mounted below the tape feed frame 2111, and includes a tape take-up reel 2141 and a tape take-up motor 2142 for driving the tape take-up reel 2141 to rotate, wherein the tape take-up reel 2141 corresponds to the roller 2132 of the tape pulling device 213. The web pulling device 213 provides a pulling force for the web to move between the upper and lower dies 2122, 2123; the paper tape is detachably connected to the edge of the web, and when the web is punched and cut, the paper tape is wound by the paper tape winding disc 2141. Specifically, the web is divided into a plurality of segments, one side of each segment is detachably connected to the paper tape, after the upper die 2122 and the lower die 2123 are closed, the segments are respectively punched into a U-shape, and the punched web, namely, the bottom paper, is pulled by the paper tape, comes out from between the upper die 2122 and the lower die 2123, and is adsorbed, transferred and mounted by the bottom paper assembly 22.

The bottom paper assembly 22 comprises an assembly bracket 221, a material belt suction head 222 arranged on the assembly bracket 221, a suction head lifting driving cylinder 223 for driving the material belt suction head 222 to lift, a suction head longitudinal movement driving device 224 for driving the material belt suction head 222 to longitudinally move and a suction head transverse movement driving device 225 for driving the material belt suction head 222 to transversely move, wherein the assembly bracket 221 is arranged above the conveying mechanism 60, the suction head longitudinal movement driving device 224 is arranged at the output end of the suction head transverse movement driving device 225, the suction head lifting driving cylinder 223 is arranged at the output end of the suction head longitudinal movement driving device 224, and the material belt suction head 222 is arranged at the output end of the suction head lifting driving cylinder 223 and can movably reciprocate between the roller 2132 of the material belt traction device 213 and the conveying mechanism 60. After the suction head 222 is adsorbed (vacuum adsorbed) on the bottom paper of the tank, the suction head can move in the XYZ direction under the driving of the suction head lifting driving cylinder 223, the suction head longitudinal movement driving device 224 and the suction head transverse movement driving device 225, so that the suction head 222 of the tank can flexibly move, and the assembly of the bottom paper of the tank with different types and different positions is satisfied. And a connecting seat 226 is installed on the output end of the suction head lifting driving cylinder 223, and the suction head 222 for material belt is detachably installed on the connecting seat 226. The detachable design of the material belt suction head 222 can enable the material belt suction head 222 to be replaced, so that the utilization rate of the mechanism is improved. The suction head longitudinal movement driving device 224 and the suction head transverse movement driving device 225 respectively comprise a motor, a screw rod and a sliding seat, the shaft end of the motor is connected with the screw rod, the sliding seat is in spiral rotary fit with the screw rod, the motor drives the screw rod to rotate, the sliding seat moves along with the screw rod, and the sliding seat is equivalent to an output end.

The secondary press-fitting mechanism 30 for the bottom paper comprises a pressing block 31 for pressing the bottom paper into the framework downwards, pressing blocks 32 positioned at two sides of the pressing block 31 and used for pressing and shaping two sides of the bottom paper into a groove shape, a pressing driving cylinder 33 used for driving the pressing blocks 32 to fold or open, a pressing vertical driving device 34 used for driving the pressing block 31 and the pressing blocks 32 to lift, and a pressing transverse driving device 35 used for driving the pressing blocks 31 and the pressing blocks 32 to transversely move, wherein the pressing transverse driving device 35 is arranged on the frame 10, the pressing vertical driving device 34 is arranged on an output end of the pressing transverse driving device 35, the pressing driving cylinder 33 is arranged on an output end of the pressing vertical driving device 34, the pressing blocks 32 are arranged on an output end of the pressing driving cylinder 33, and the pressing blocks 31 are arranged on an outer wall of the pressing driving cylinder 33. The pressing block 31 and the two side pressing blocks 32 can further shape the bottom paper, so that the bottom paper is matched with the framework more tightly (the upper framework and the lower framework are respectively provided with U-shaped grooves, the bottom paper is embedded in the grooves), the phenomenon of upwarp caused by the fact that the bottom paper is not embedded in place is prevented, and the subsequent winding quality is improved. The press-fitting vertical driving device 34 and the press-fitting horizontal driving device 35 are both in a motor, screw rod and sliding seat combination mode, and the principle thereof is described in the foregoing, and will not be repeated here.

The detecting mechanism 40 is a CCD photographing detecting device, which is arranged at the output end of a transverse driving device 41, and the transverse driving device 41 can drive the detecting mechanism 40 to transversely move so as to meet photographing detecting requirements of different areas; the transverse drive 41 operates on the same principle as the tip longitudinal drive 224 and the tip transverse drive 225.

The discharging mechanism 50 is an integrated mechanism of a motor, a screw rod, a sliding seat and a material taking clamping jaw, the operation principle of the integrated mechanism is the same as that of the suction head longitudinal movement driving device 224 and the suction head transverse movement driving device 225, the sliding seat is equivalent to an output end, the material taking clamping jaw is arranged on the sliding seat, and under the driving of the motor, the material taking clamping jaw can move to clamp the detected product to a disqualified area or a qualified area for discharging. Specifically, the blanking mechanism 50 can include three directions of XYZ driving sources (a motor, a screw rod and a sliding seat, or can be directly replaced by an air cylinder), so as to realize flexible movement of the material taking clamping jaw in three directions of XYZ, and adapt to clamping blanking in different positions.

The assembling method of the bottom paper forming, press-fitting, detecting and blanking mechanism comprises the following steps: the upper tank bottom paper feeding and assembling mechanism conveys tank bottom paper, and is assembled on the upper framework by extrusion molding; the lower tank bottom paper feeding and assembling mechanism conveys tank bottom paper, and is assembled on the lower framework by extrusion molding; the secondary press-fitting mechanism of the bottom paper carries out secondary extrusion molding on the bottom paper which is already filled in the upper framework and the lower framework; the detection mechanism detects the assembly of the upper framework and the lower framework and the embedding condition of the bottom paper of the tank, and the unqualified products are transferred to an unqualified collecting area and are transferred and discharged.

The design key point of the utility model is that the bottom paper forming, press-fitting, detecting and discharging mechanism is formed by integrating an upper bottom paper feeding and assembling mechanism, a lower bottom paper feeding and assembling mechanism, a bottom paper secondary press-fitting mechanism, a detecting mechanism and a discharging mechanism on a frame; the equipment realizes the functions of automatic feeding of upper tank bottom paper and lower tank bottom paper and automatic assembly, forming, detection and blanking of the upper tank bottom paper and the lower tank bottom paper and an iron core framework, improves the motor assembly efficiency and improves the motor assembly quality; and the secondary press-fitting mechanism with the bottom paper can carry out secondary press-fitting on the bottom paper, so that the bottom paper is tightly attached to the framework, and favorable conditions are provided for subsequent iron core winding.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (8)

1. The utility model provides a tank bottom paper shaping pressure equipment detects unloading mechanism which characterized in that: comprises a frame, a conveying mechanism for conveying an iron core framework, an upper tank bottom paper feeding and assembling mechanism, a lower tank bottom paper feeding and assembling mechanism, a tank bottom paper press-fitting mechanism, a detecting mechanism and a discharging mechanism which are arranged on the frame; a workbench is arranged on the frame; the conveying mechanism is transversely arranged on the workbench; the upper tank bottom paper feeding and assembling mechanism, the lower tank bottom paper feeding and assembling mechanism, the tank bottom paper press-fitting mechanism, the detecting mechanism and the blanking mechanism are sequentially arranged on the workbench along the conveying direction of the conveying mechanism; the upper tank bottom paper feeding and assembling mechanism and the lower tank bottom paper feeding and assembling mechanism respectively comprise a tank bottom paper feeding and forming assembly and a tank bottom paper assembling assembly which are connected with each other, and the tank bottom paper assembling assembly is positioned beside the conveying mechanism; the tank bottom paper press-mounting mechanism comprises a pressing block for pressing tank bottom paper into the framework downwards and two pressing blocks for pressing and forming two sides of the tank bottom paper into a tank shape, wherein the two pressing blocks are positioned at two sides of the pressing block.

2. The tank bottom paper forming press-fitting detection blanking mechanism of claim 1, wherein: the feeding and forming assembly for the bottom paper of the tank comprises a material belt feeding device, a tank bottom paper forming device, a material belt traction device and a paper belt receiving device, wherein the material belt feeding device comprises a material belt feeding support, a material tray arranged on the material belt feeding support, a material belt driving motor for driving the material tray to rotate for discharging and a plurality of rollers for assisting in conveying the material belt, the material belt driving motor is connected with the material tray through a belt transmission assembly, and the material belt sequentially bypasses the rollers after passing through the material tray to reach the inlet of the tank bottom paper forming device; the material belt traction device is arranged at the outlet of the tank bottom paper forming device; the paper tape receiving device is arranged below the tank bottom paper forming device.

3. The tank bottom paper forming press-fitting detection blanking mechanism of claim 2, wherein: the bottom paper forming device comprises a forming bracket, an upper die, a lower die and an upper die driving electric cylinder, wherein the upper die and the lower die are arranged on the forming bracket, and the upper die driving electric cylinder drives the upper die to lift so as to be matched with or separated from the lower die; the material belt enters between the upper die and the lower die.

4. The tank bottom paper forming press-fitting detection blanking mechanism of claim 2, wherein: the material belt traction device comprises a traction motor and a plurality of rollers, the traction motor drives the rollers to rotate through belt transmission, and the material belt is pulled out from an outlet of the tank bottom paper forming device and clamped between two adjacent rollers.

5. The bottom paper forming press-fitting detection blanking mechanism of claim 4, wherein: the paper tape collecting device comprises a paper tape collecting reel and a paper tape collecting motor for driving the paper tape collecting reel to rotate, and the paper tape collecting reel corresponds to the roller of the material tape traction device.

6. The bottom paper forming press-fitting detection blanking mechanism of claim 4, wherein: the bottom paper assembly component comprises an assembly bracket, a material belt suction head arranged on the assembly bracket, a suction head lifting driving cylinder for driving the material belt suction head to lift, a suction head longitudinal movement driving device for driving the material belt suction head to longitudinally move and a suction head transverse movement driving device for driving the material belt suction head to transversely move, wherein the assembly bracket is arranged above a conveying mechanism, the suction head longitudinal movement driving device is arranged at the output end of the suction head transverse movement driving device, the suction head lifting driving cylinder is arranged at the output end of the suction head longitudinal movement driving device, and the material belt suction head is arranged at the output end of the suction head lifting driving cylinder and movably moves back and forth between the roller of the material belt traction device and the conveying mechanism.

7. The tank bottom paper forming press-fitting detection blanking mechanism of claim 6, wherein: the output end of the suction head lifting driving cylinder is provided with a connecting seat, and the material belt suction head is detachably arranged on the connecting seat.

8. The tank bottom paper forming press-fitting detection blanking mechanism of claim 1, wherein: the bottom paper press-fitting mechanism further comprises an extrusion driving cylinder for driving the two extrusion blocks to fold or open each other, a press-fitting vertical driving cylinder for driving the top pressing block and the extrusion blocks to lift and a press-fitting transverse driving device for driving the top pressing block and the extrusion blocks to transversely move, wherein the press-fitting transverse driving device is arranged on the frame, the press-fitting vertical driving cylinder is arranged at the output end of the press-fitting transverse driving device, the extrusion driving cylinder is arranged at the output end of the press-fitting vertical driving cylinder, the two extrusion blocks are arranged at the output end of the extrusion driving cylinder, and the top pressing block is arranged on the outer wall of the extrusion driving cylinder.