CN217534393U - Mica pipe feed mechanism - Google Patents

Abstract

The utility model provides a mica tube feeding mechanism, which comprises a material rack, a lifting device, a blanking control device and a positioning device; a limiting baffle is arranged on the left side of the material rack; a discharge hole is formed in the rear upper part of the material rack; the lifting device comprises a winder, a pull belt and a fixed block; the fixed block is fixed on the material rack and is positioned below the discharge hole; the winder is fixed above the front side of the material rack; two ends of the pull belt are respectively fixed on the fixing block and the winder; blanking controlling means sets up and controls the work piece and carry toward positioner one by one at work or material rest one side, embodies the utility model discloses can carry out the material loading one by one to the mica pipe automatically, improve work efficiency.

Description

Mica pipe feed mechanism

Technical Field

The utility model relates to a mica pipe processing technology field, in particular to mica pipe feed mechanism.

Background

The mica pipe is when production, produces earlier for the long tube, and the long mica pipe that piles up can be binded so that the transport through the bandage, and during the processing product, according to actual demand, cut out specific length, shape and slotted hole in the mica pipe of factory and use, adopt the manual work to pack the clamp one by one on the clamping instrument in the past usually, and efficiency is very low, relies on the labour, consequently still need improve.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mica pipe feed mechanism mentions the problem in order to solve the background art.

In order to achieve the above object, the present invention provides the following technical solutions:

a mica tube feeding mechanism comprises a material rack, a lifting device, a blanking control device and a positioning device; a limiting baffle is arranged on the left side of the material rack; a discharge hole is formed in the rear upper part of the material rack; the lifting device comprises a winder, a pull belt and a fixed block; the fixed block is fixed on the material rack and is positioned below the discharge hole; the winder is fixed above the front side of the material rack; two ends of the pull belt are respectively fixed on the fixed block and the winder; the blanking control device is arranged on one side of the material rack and used for controlling the workpieces to be conveyed to the positioning device one by one.

For further description of the utility model, the blanking control device comprises a guide plate, two sets of first material blocking assemblies and two sets of second material blocking assemblies; the guide plate is fixed on the material rack and is butted at the rear side of the discharge port; the guide plate is arranged obliquely backwards and downwards; the left and right parts of the two groups of first material blocking assemblies are arranged on the two sides of the rear end of the guide plate; the two groups of second material blocking assemblies are arranged on the rear side of the first material blocking assembly; a workpiece can be accommodated between the first material blocking device and the second material blocking component.

For further description of the utility model, the first material blocking device and the second material blocking component have the same structure and comprise a first cylinder, a supporting block and a blocking piece; the supporting block is arranged at the power output end of the first air cylinder; the baffle plate is vertically fixed at the right end of the supporting block.

For further description of the present invention, the positioning device includes two sets of positioning components; the two groups of positioning assemblies are arranged beside the two groups of second material blocking assemblies; the positioning assembly comprises a second cylinder and a positioning block; the power output end of the second cylinder is connected with the positioning block and used for driving the positioning block to move up and down; and a V-shaped groove is formed in the positioning block.

For the further description of the utility model, the winder includes a winding driving motor and a winding roller; the winding driving motor is fixed on the material rack; and the winding roller is fixed at the power output end of the winding driving motor.

The beneficial effects of the utility model are that:

the utility model discloses the whole bundle of long banding mica pipe work piece that will tie up is placed in the work or material rest, and support through the stretching strap, the left end and the limit baffle contact of work piece, carry on spacingly through limit baffle, then loosen the bandage or cut, during the rolling of winder control stretching strap, the pulling work piece up moves, the work piece of the top then falls down from the discharge gate, only need to control the whereabouts that the length in at every turn roll-up material area can be controlled to the work piece, the work piece that lags behind down from the discharge gate then controls through blanking control device, send to positioner one by one, wait for getting the material, this setting can be to this mica pipe work piece stable material loading, reduce the labour, and the work efficiency is improved.

Drawings

FIG. 1 is an overall structure diagram of the present invention

FIG. 2 is a schematic structural view of the present invention after placing a workpiece;

fig. 3 is a structural diagram of the first material blocking assembly or the second material blocking assembly of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

as shown in fig. 1-3, a mica tube feeding mechanism includes a rack 21, a lifting device 22, a blanking control device 23 and a positioning device 24; the lifting device 22 is arranged on the material rack 21 and controls the workpiece to move upwards; the blanking control device 23 is arranged on one side of the material rack 21 and controls the workpieces to be conveyed to the positioning device 24 one by one;

a limiting baffle 211 is arranged at the left side of the material rack 21; a discharge hole 212 is formed in the rear upper part of the material rack 21; the lifting device 22 comprises a winder 221, a pull belt 222 and a fixing block 223; the fixed block 223 is fixed on the material rack 21 and is positioned below the discharge hole 212; the winder 221 is fixed above the front side of the material rack 21; two ends of the pull belt 222 are respectively fixed on the fixing block 223 and the winder 221; the winder 221 comprises a winding driving motor 2211 and a winding roller 2212, one end of the pull belt 222 is fixed on the winding roller 2212, the winding driving motor 2211 drives the winding roller 2212 to rotate, so that the pull belt 222 is controlled to be wound on the winding roller 2212, the bundled long-strip mica tube workpieces are placed in the material rack 21 in a whole bundle and supported by the pull belt 222, the left end of each workpiece is in contact with the limiting baffle 211 and limited by the limiting baffle 211, then the binding belt is loosened or cut off, when the winder 221 controls the winding of the pull belt 222, the workpieces are pulled to move upwards, the uppermost workpiece falls down from the discharge port 212, and the falling of the workpieces can be controlled only by controlling the length of the wound material belt each time.

The blanking control device 23 comprises a guide plate 231, two groups of first material blocking assemblies 232 and two groups of second material blocking assemblies 233; the guide plate 231 is fixed on the material rack 21 and is butted at the rear side of the discharge hole 212; the guide plate 231 is arranged obliquely backward and downward; the two groups of first material blocking assemblies 232 are distributed on the two sides of the rear end of the guide plate 231 in a left-right manner; the two groups of second material blocking assemblies 233 are arranged on the rear side of the first material blocking assembly 232; a workpiece can be accommodated between the first material blocking assembly 232 and the second material blocking assembly 233, the workpiece is guided by the guide plate 231 after falling from the discharge port 212, rolls along the lower back direction of the guide plate 231, and is blocked by the first material blocking assembly 232 before rolling to the first material blocking assembly 232, and the first material blocking device and the second material blocking assembly 233 have the same structure and respectively comprise a first cylinder 2301, a supporting block 2302 and a blocking sheet 2303; the supporting block 2302 is installed at the power output end of the first cylinder 2301; the blocking piece 2303 is vertically fixed at the right end of the supporting block 2302; when the control work piece whereabouts one by one, then its separation blade 2303 whereabouts of first cylinder 2301 control of two sets of first material stopping assemblies 232, the first cylinder 2301 of second material stopping assembly 233 then controls separation blade 2303 and rises simultaneously, then the work piece continues to roll backward, and block through separation blade 2303 of second material stopping assembly 233, then first cylinder 2301 of first material stopping assembly 232 is controller separation blade 2303 again and rises, block the work piece of front side, first material stopping assembly 232 and second material stopping assembly 233 have a work piece between this moment, the first cylinder 2301 of second material stopping assembly 233 controls separation blade 2303 decline back again, this work piece then falls into positioner 24, fix a position through positioner 24.

The positioning device 24 comprises two sets of positioning components 241; the two groups of positioning components 241 are arranged beside the two groups of second material blocking components 233; the positioning assembly 241 comprises a second cylinder 2411 and a positioning block 2412; the power output end of the second cylinder 2411 is connected with the positioning block 2412 and is used for driving the positioning block 2412 to move up and down; the positioning block 2412 is provided with a V-shaped groove 2412-1, after the workpiece falls down, the workpiece enters the V-shaped groove 2412-1 of the positioning block 2412, the workpiece is positioned through the V-shaped groove 2412-1, and then the positioning block 2412 is controlled by the second air cylinder 2411 to ascend to wait for taking the workpiece.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are still within the scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a mica pipe feed mechanism which characterized in that: comprises a material rack, a lifting device, a blanking control device and a positioning device; a limiting baffle is arranged on the left side of the material rack; a discharge hole is formed in the rear upper part of the material rack; the lifting device comprises a winder, a pull belt and a fixed block; the fixed block is fixed on the material rack and is positioned below the discharge hole; the winder is fixed above the front side of the material rack; two ends of the pull belt are respectively fixed on the fixed block and the winder; the blanking control device is arranged on one side of the material rack and used for controlling the workpieces to be conveyed to the positioning device one by one.

2. The mica tube feeding mechanism of claim 1, wherein: the blanking control device comprises a guide plate, two groups of first material blocking assemblies and two groups of second material blocking assemblies; the guide plate is fixed on the material rack and is butted at the rear side of the discharge hole; the guide plate is arranged obliquely backwards and downwards; the left parts and the right parts of the two groups of first material blocking assemblies are arranged on the two sides of the rear end of the guide plate; the two groups of second material blocking assemblies are arranged on the rear side of the first material blocking assembly; a workpiece can be accommodated between the first material blocking device and the second material blocking component.

3. The mica tube feeding mechanism of claim 2, wherein: the first material blocking device and the second material blocking assembly have the same structure and respectively comprise a first cylinder, a supporting block and a blocking piece; the supporting block is arranged at the power output end of the first air cylinder; the baffle plate is vertically fixed at the right end of the supporting block.

4. The mica tube feeding mechanism of claim 2, wherein: the positioning device comprises two groups of positioning components; the two groups of positioning assemblies are arranged beside the two groups of second material blocking assemblies; the positioning assembly comprises a second cylinder and a positioning block; the power output end of the second cylinder is connected with the positioning block and used for driving the positioning block to move up and down; and a V-shaped groove is formed in the positioning block.

5. The mica tube feeding mechanism of claim 1, wherein: the winder comprises a winding driving motor and a winding roller; the winding driving motor is fixed on the material rack; and the winding roller is fixed at the power output end of the winding driving motor.

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