CN212121732U - Automatic go up unloading steel pipe perforating device - Google Patents

Abstract

The utility model discloses an automatic go up unloading steel pipe perforating device includes: the punching device comprises a base, an operating platform fixedly arranged above the base, and a material conveying assembly, a material loading assembly and a punching assembly which are fixedly arranged on the operating platform; the material conveying assembly is communicated with the material loading assembly, and the punching assembly and the material conveying assembly are arranged on the same axis; the punching assembly is characterized in that a positioning assembly is arranged at the bottom of the punching assembly and comprises a positioning cylinder fixedly mounted on the operating platform, the positioning cylinder is inserted into a positioning telescopic rod of the positioning cylinder and sleeved with a positioning sleeve of the positioning telescopic rod, the positioning sleeve is fixedly mounted on the periphery of a micro telescopic rod, and the positioning sleeve is fixedly mounted on a limiting head on the micro telescopic rod. The utility model discloses at the bottom design locating component of the subassembly that punches, the mode that adopts the internal stay goes on fixing a position the steel pipe, and then replaces traditional outer clamp formula's clamp to get the location, and then avoids the steel pipe flat phenomenon in appearing when punching.

Description

Automatic go up unloading steel pipe perforating device

Technical Field

The utility model relates to a perforating device specifically is an automatic go up unloading steel pipe perforating device.

Background

The punching process is completed by the mutual cooperation of the four parts. The material is moved to the scanning area of the camera of the automatic punching machine, the camera scans the image and processes the image and sends a signal to the control part, and the control part further processes the image and controls the action of the transmission part after receiving the signal.

The punch moves along the X axis and the Y axis on the plane, the pneumatic part starts to work after the moving action is finished, and the solenoid valve controls the cylinder to punch. The automatic punching machine prints and brushes the locating hole, and whole action is finished in one go, and is quick, accurate, efficient. However, the existing punching device is designed to be of an outer-clamping type, and when the punching assembly punches the steel pipe, the steel pipe needs to be positioned, and the steel pipe is easily clamped and deformed when the steel pipe is punched by the outer-clamping type, so that the steel pipe is deformed due to the clamping, and the steel pipe is further deformed due to the fact that the steel pipe is shriveled and damaged, and the finished product is further influenced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides an automatic go up unloading steel pipe perforating device to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: the utility model provides an automatic go up unloading steel pipe perforating device, includes:

the punching device comprises a base, an operating platform fixedly arranged above the base, and a material conveying assembly, a material loading assembly and a punching assembly which are fixedly arranged on the operating platform; the material conveying assembly is communicated with the material loading assembly, and the punching assembly and the material conveying assembly are arranged on the same axis;

the punching assembly is characterized in that a positioning assembly is arranged at the bottom of the punching assembly and comprises a positioning cylinder fixedly mounted on the operating platform, the positioning cylinder is inserted into a positioning telescopic rod of the positioning cylinder and sleeved with a positioning sleeve of the positioning telescopic rod, the positioning sleeve is fixedly mounted on the periphery of a micro telescopic rod, and the positioning sleeve is fixedly mounted on a limiting head on the micro telescopic rod.

In a further embodiment, the material conveying assembly comprises a material conveying frame fixedly mounted on the operating platform, a material conveying telescopic rod inserted into the material conveying frame, a material conveying cylinder connected with the material conveying telescopic rod, a material conveying head arranged at the end part of the material conveying telescopic rod, and a material discharging opening formed at the end part of the material conveying frame; the material conveying port is provided with a conical material conveying head. Set up fortune material subassembly mainly in order to make the steel pipe can drive the fortune material telescopic link by fortune material cylinder at fortune material frame and move, and then drive fortune stub bar and get into in the steel pipe, and then support the steel pipe and remove, and then enter into the subassembly below that punches, punch.

In a further embodiment, the material loading subassembly include with operation panel fixed connection's material loading fixed block, with the spacing frame that the material loading fixed block is connected, fixed mounting be in the spacing slide rail of material loading fixed block tip, with spacing slide rail sliding connection's elevator, fixed mounting be in the material loading lifter of elevator below, and with the material loading jar that the material loading lifter is connected, the design material loading subassembly mainly in order to make the steel pipe on the material loading subassembly, enter into on the hang plate, and then when the material loading jar drives the material loading lifter and goes up, make the steel pipe get into the material transporting subassembly in.

In a further embodiment, the subassembly of punching includes fixed mounting and is in punching fixed block on the operation panel, with fixed block fixed connection's the cylinder that punches, with the motor that punches the cylinder and connect, and install the drill bit of motor tip that punches, the subassembly of punching of design is mainly in order to punch to the steel pipe, and then the completion is to the work of punching of steel pipe.

In a further embodiment, the drill bit is disposed above the positioning assembly.

Has the advantages that: the utility model discloses an automatic go up unloading steel pipe perforating device designs locating component in the bottom of the subassembly that punches, and the mode that adopts the internal stay goes on fixing a position the steel pipe, and then replaces traditional outer double-layered clamp to get the location, and then avoids the steel pipe flat phenomenon in appearing when punching.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the utility model discloses a subassembly sketch map punches.

Fig. 3 is a schematic view of the feeding assembly of the present invention.

Fig. 4 is the material transporting assembly of the present invention.

Fig. 5 is a schematic view of the positioning assembly of the present invention.

The reference signs are: the automatic punching machine comprises a base 1, an operating platform 2, a punching assembly 3, a punching cylinder 31, a punching fixed block 32, a positioning cylinder 33, a positioning assembly 34, a positioning telescopic rod 341, a positioning sleeve 342, a micro telescopic rod 343, a limiting head 344, a punching drill bit 35, a feeding assembly 4, a feeding fixed block 42, a limiting frame 43, an inclined plate 44, a limiting slide rail 45, a lifting block 46, a feeding lifting rod 47, a feeding cylinder 48, a material transporting assembly 5, a material transporting cylinder 51, a material transporting telescopic rod 52, a material transporting head 53, a material transporting frame 54 and a discharging opening 55.

Detailed Description

Through the research and analysis of the applicant, the reason that this problem (the enough steel pipe that punches appears the circumstances of being flat in the interior) lies in, and current perforating device basic design presss from both sides the formula for outer clamp and gets the location, and when the subassembly that punches to the steel pipe, because need advance line location to the steel pipe, and the clamp that uses outer clamp to press from both sides the location and cause the steel pipe to press from both sides the circumstances of getting the deformation easily when punching the appearance, and then make the steel pipe the circumstances of being flat in the interior appears, and then influence processing finished product, and the utility model discloses design locating component in the bottom of the subassembly that punches, the mode that adopts the internal stay carries out the location to the steel pipe, and then replaces traditional outer clamp formula to press from both sides the location, and then avoids the steel.

The utility model provides an automatic go up unloading steel pipe perforating device, includes: the automatic punching machine comprises a base 1, an operating platform 2, a punching assembly 3, a punching cylinder 31, a punching fixed block 32, a positioning cylinder 33, a positioning assembly 34, a positioning telescopic rod 341, a positioning sleeve 342, a micro telescopic rod 343, a limiting head 344, a punching drill bit 35, a feeding assembly 4, a feeding fixed block 42, a limiting frame 43, an inclined plate 44, a limiting slide rail 45, a lifting block 46, a feeding lifting rod 47, a feeding cylinder 48, a material transporting assembly 5, a material transporting cylinder 51, a material transporting telescopic rod 52, a material transporting head 53, a material transporting frame 54 and a discharging opening 55.

An operating table 2 is fixedly installed above the base 1, and the material conveying assembly 5, the material loading assembly 4 and the punching assembly 3 are fixedly installed above the operating table 2; the material conveying assembly 5 is communicated with the material loading assembly 4, and the punching assembly 3 and the material conveying assembly 5 are arranged on the same axis;

the bottom of the punching component 3 is provided with a positioning component 34, the positioning component 34 comprises a positioning cylinder 33 fixedly installed on the operating platform 2, a positioning telescopic rod 341 inserted into the positioning cylinder 33, a positioning sleeve 342 sleeved with the positioning telescopic rod 341, and a micro telescopic rod 343 fixedly installed around the positioning sleeve 342, and a limiting head 344 fixedly mounted on the micro telescopic rod 343, the positioning assembly 34 is moved by the positioning cylinder 33, thereby driving the positioning telescopic rod 341 to extend and further driving the positioning sleeve 342 to move, thereby driving the micro telescopic rod 343 to move and further driving the limiting head 344 to move until the limiting head 344 stops moving at the middle of the steel tube, at this time, the micro telescopic rod 343 extends, and then drive spacing head 344 and move, accomplish the work of fixing a position the steel pipe when spacing head 344 and steel pipe inner wall butt.

The material conveying assembly 5 comprises a material conveying frame 54 fixedly arranged on the operating platform 2, a material conveying telescopic rod 52 inserted into the material conveying frame 54, a material conveying cylinder 51 connected with the material conveying telescopic rod 52, a material conveying head 53 arranged at the end part of the material conveying telescopic rod 52, and a material discharging opening 55 formed at the end part of the material conveying frame 54; the material conveying opening is a conical material conveying head 53. Set up fortune material subassembly 5 mainly in order to make the steel pipe can drive fortune material telescopic link 52 by fortune material cylinder 51 and move in fortune material frame 54, and then drive fortune stub bar 53 gets into in the steel pipe, and then support the steel pipe and remove, and then enter into the subassembly 3 below that punches, punch, fortune material subassembly 5 is moved by fortune material cylinder 51, and then drive fortune material telescopic link 52 and move, and then drive fortune stub bar 53 and get into in the steel pipe, and then drive the steel pipe and move.

The feeding assembly 4 comprises a feeding fixed block 42 fixedly connected with the operating platform 2, a limiting frame 43 connected with the feeding fixed block 42, a limiting slide rail 45 fixedly arranged at the end part of the feeding fixed block 42, a lifting block 46 connected with the limit slide rail 45 in a sliding way, a feeding lifting rod 47 fixedly arranged below the lifting block 46, and a feeding cylinder 48 connected to the feeding lift rod 47, the feeding assembly 4 is designed mainly so that the steel pipe can be fed onto the feeding assembly 4, into the inclined plate 44, when the feeding cylinder 48 drives the feeding lifting rod 47 to lift, the steel pipe enters the conveying assembly 5, the feeding assembly 4 moves through the feeding cylinder 48, and then the feeding lifting rod 47 is driven to move, and then the lifting block 46 is driven to move upwards along the limiting slide rail 45, and then the steel pipe is driven to move upwards.

The subassembly 3 that punches includes fixed mounting and is in punching fixed block 32 on the operation panel 2, with punch fixed block 32 fixed connection's the cylinder 31 that punches, with the motor that punches that the cylinder 31 is connected, and install the drill bit 35 of motor tip that punches, the subassembly 3 that punches of design mainly is in order to punch to the steel pipe, and then the completion is to the work of punching of steel pipe.

The drill bit 35 is disposed above the positioning assembly 34.

Description of the working principle: when the steel pipe needs to be punched, the steel pipe is placed into the feeding assembly 4, one steel pipe falls off and enters the inclined plate 44, the feeding cylinder 48 moves to drive the feeding lifting rod 47 to move, the lifting block 46 is driven to move upwards along the limiting slide rail 45, the steel pipe is driven to move upwards until the steel pipe falls onto the conveying assembly 5 to complete the work, the conveying cylinder 51 moves to drive the conveying telescopic rod 52 to move, the conveying head 53 is driven to enter the steel pipe, the steel pipe is driven to move until the steel pipe moves below the punching assembly 3, the steel pipe stops moving until the steel pipe moves below the punching assembly 3, the conveying head 53 is a conical head, the steel pipe cannot fall from the blanking opening 55, when the steel pipe moves below the punching assembly 3, the positioning cylinder 33 moves to drive the positioning telescopic rod 341 to extend, then the positioning sleeve 342 is driven to move, and then the micro telescopic rod 343 is driven to move, and then the limiting head 344 is driven to move until the limiting head 344 stops moving in the middle of the steel pipe, at this time, the micro telescopic rod 343 is extended, and then the limiting head 344 is driven to move, and until the limiting head 344 abuts against the inner wall of the steel pipe, the positioning work on the steel pipe is completed, at this time, the punching cylinder 31 is driven to move, and then the punching motor is driven to move downwards, and then the punching bit 35 is driven to move downwards, at this time, the punching bit is driven to rotate by the punching motor, and then the punching work on the steel pipe is completed, when the punching of the steel pipe is completed, the micro telescopic rod 343 drives the limiting head 344 to contract, and then the positioning cylinder 33 drives the positioning telescopic rod 341 to contract, and then the limiting head 344 is driven to separate from the steel pipe, at this time, the limiting head 344 is driven, so that the limiting head 344 is higher than the outer wall of the steel pipe, the positioning cylinder 33 drives the positioning telescopic rod 341 to move, and further drives the limiting head 344 to abut against the steel pipe to move until the steel pipe drops from the feed opening 55 to complete the feeding work.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (5)

1. The utility model provides an automatic go up unloading steel pipe perforating device, characterized by includes:

the punching device comprises a base, an operating platform fixedly arranged above the base, and a material conveying assembly, a material loading assembly and a punching assembly which are fixedly arranged on the operating platform; the material conveying assembly is communicated with the material loading assembly, and the punching assembly and the material conveying assembly are arranged on the same axis;

the punching assembly is characterized in that a positioning assembly is arranged at the bottom of the punching assembly, the positioning assembly comprises a positioning cylinder fixedly mounted on the operating platform, and a positioning telescopic rod of the positioning cylinder is connected with a positioning sleeve of the positioning telescopic rod in a sleeved mode, fixedly mounted on the periphery of the positioning sleeve through a miniature telescopic rod, and fixedly mounted on a limiting head of the miniature telescopic rod.

2. The automatic steel pipe perforating device of unloading of going up of claim 1, characterized by: the material conveying assembly comprises a material conveying frame fixedly arranged on the operating platform, a material conveying telescopic rod inserted into the material conveying frame, a material conveying cylinder connected with the material conveying telescopic rod, a material conveying head arranged at the end part of the material conveying telescopic rod, and a material discharging opening formed at the end part of the material conveying frame; the material conveying port is provided with a conical material conveying head.

3. The automatic steel pipe perforating device of unloading of going up of claim 1, characterized by: the material loading subassembly include with operation panel fixed connection's material loading fixed block, with the spacing frame that the material loading fixed block is connected, fixed mounting be in the spacing slide rail of material loading fixed block tip, with spacing slide rail sliding connection's elevator, fixed mounting be in the material loading lifter of elevator below, and with the material loading cylinder that the material loading lifter is connected.

4. The automatic steel pipe perforating device of unloading of going up of claim 1, characterized by: the subassembly of punching includes fixed mounting and is in punching fixed block on the operation panel, with fixed block fixed connection's the cylinder that punches, with the motor that punches the cylinder and connect, and install the drill bit of motor tip that punches.

5. The automatic steel pipe perforating device of unloading of going up of claim 4, characterized by: the drill bit is disposed above the positioning assembly.

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