CN218080712U - Automatic feeding and blank cutting device for corrugated pipe - Google Patents

Abstract

The utility model discloses a blank device is cut with autoloading to bellows belongs to bellows blank technical field, including the frame, the top of frame is equipped with the vibration dish, and one side that the top of frame is located the vibration dish is equipped with location pay-off subassembly, and one side of support is equipped with the first liftout subassembly corresponding with the constant head tank lower extreme, and the opposite side of support slides has the pay-off piece, is equipped with the locating hole on the pay-off piece. The utility model discloses a vibration dish carries out the automatic feeding of neat material realization material, realize location and the transport to the material through location pay-off subassembly, through second liftout subassembly with the material propelling movement in the pay-off piece to main shaft assembly in, clip the material through main shaft assembly to drive the material and rotate, carry out blank processing to the material through blank subassembly, the automatic feeding of bellows blank processing has been realized, automatic positioning pay-off and automatic blank cutting, great improvement work efficiency, staff's intensity of labour has been reduced.

Description

Automatic feeding and blank cutting device for corrugated pipe

Technical Field

The utility model belongs to the technical field of the base is cut to the bellows, concretely relates to blank device is cut with autoloading to bellows.

Background

The corrugated pipe is a tubular elastic sensitive element formed by connecting foldable corrugated sheets along the folding and stretching direction, is widely applied to instruments and meters, is mainly used as a measuring element of a pressure measuring instrument to convert pressure into displacement or force, has a thin pipe wall and high sensitivity, has a measuring range of dozens of Pa to dozens of MPa, is fixed at an opening end, is in a free state at a sealing end, and utilizes an auxiliary spiral spring or a reed to increase elasticity.

The blank cutting process is needed in the production process of the corrugated pipe, and at present, the blank cutting of the corrugated pipe is basically carried out or is carried out manually, so that the problems of high labor intensity and low production efficiency exist.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a blank device is cut with autoloading to bellows has the work efficiency who has improved the blank of cutting, has reduced staff intensity of labour's characteristics.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a blank device is cut with autoloading to bellows, which comprises a frame, the top of frame is equipped with the vibration dish, one side that the top of frame is located the vibration dish is equipped with location pay-off subassembly, location pay-off subassembly includes the support, be equipped with the locating piece on the support, be equipped with the constant head tank on the locating piece, be connected through the unloading passageway between vibration dish and the constant head tank, one side of support is equipped with the first liftout subassembly corresponding with the constant head tank lower extreme, the opposite side of support slides there is the feedblock, be equipped with the locating hole on the feedblock, one side of first liftout subassembly is equipped with second liftout subassembly, one side of location pay-off subassembly is equipped with main shaft assembly, main shaft assembly's top is equipped with blank subassembly.

In order to drive the feeding block to move, a feeding cylinder is connected to the support, and the output end of the feeding cylinder is connected with the feeding block.

In order to push the material in the positioning groove to the positioning hole on the feeding block, the first ejection assembly comprises a second slider guide rail, a core rod connecting block is connected onto a slider of the second slider guide rail, a core rod is connected onto the core rod connecting block, an ejection cylinder is arranged at one end of the second slider guide rail, the output end of the ejection cylinder is connected with the core rod connecting block, and the structure of the second ejection assembly is the same as that of the first ejection assembly.

In order to clamp the materials and drive the materials to rotate, the spindle assembly comprises a spindle box, a chuck is arranged in the spindle box, a driving motor is arranged on one side of the spindle assembly, and a clamping cylinder used for controlling the chuck is further arranged on the spindle box.

In order to realize the blank cutting processing of the material, the blank cutting assembly comprises a first sliding block guide rail, a cutter seat is arranged on a sliding block of the first sliding block guide rail, a cutter is arranged on the cutter seat, an electric cylinder is arranged at the upper end of the first sliding block guide rail, and the output end of the electric cylinder is connected with the cutter seat.

In order to realize the automatic blanking of the materials after blank cutting, the blanking device further comprises a discharging channel, the discharging channel is arranged at one end of the feeding block, a material receiving box slides inside the discharging channel, a material receiving cylinder is arranged above the discharging channel, and the output end of the material receiving cylinder is connected with the material receiving box.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a vibration dish carries out the automatic feeding of neat material realization material, realizes location and the transport to the material through location pay-off subassembly, through second liftout subassembly with the material propelling movement in the pay-off piece to the main shaft subassembly in, clip the material through the main shaft subassembly to drive the material and rotate, carry out blank cutting processing to the material through blank cutting subassembly, realized bellows blank cutting processing's automatic feeding, automatic location pay-off and automatic blank cutting, great improvement work efficiency, reduced staff's intensity of labour;

2. the utility model discloses still include discharging channel, discharging channel sets up the one end at the pay-off piece, and discharging channel's inside slides and has the material receiving box, and discharging channel's top is equipped with the material receiving cylinder, and the output that connects the material receiving cylinder is connected with the material receiving box, realizes the automatic unloading of blank-cutting completion back material.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the present invention;

fig. 2 is a schematic structural view of the positioning and feeding assembly of the present invention;

fig. 3 is a schematic structural diagram of the first liftout assembly of the present invention;

FIG. 4 is a schematic structural view of the connection between the positioning feeding assembly and the spindle assembly of the present invention;

FIG. 5 is a schematic structural view of the discharge passage of the present invention;

fig. 6 is a schematic structural view of the blank cutting assembly of the present invention;

in the figure: 1. a frame; 2. a vibrating pan; 3. a blanking channel; 4. cutting the blank assembly; 41. a first slider guide rail; 42. a cutter seat; 43. an electric cylinder; 44. a cutter; 5. a spindle assembly; 51. a main spindle box; 52. a clamping cylinder; 53. a chuck; 54. a drive motor; 6. a discharge channel; 61. a material receiving box; 62. a material receiving cylinder; 7. positioning a feeding component; 71. a support; 72. a feeding cylinder; 73. a first ejector assembly; 731. a second slider guide; 732. a core bar; 733. a core bar connecting block; 734. a material ejection cylinder; 74. a second ejector assembly; 75. positioning a groove; 76. positioning holes; 77. a feeding block; 78. and (5) positioning the blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-6, the present invention provides the following technical solutions: the utility model provides a blank device is cut with autoloading for bellows, which comprises a frame 1, the top of frame 1 is equipped with vibration dish 2, one side that the top of frame 1 is located vibration dish 2 is equipped with location pay-off subassembly 7, location pay-off subassembly 7 includes support 71, be equipped with locating piece 78 on the support 71, be equipped with constant head tank 75 on the locating piece 78, be connected through unloading passageway 3 between vibration dish 2 and the constant head tank 75, one side of support 71 is equipped with the first liftout subassembly 73 corresponding with constant head tank 75 lower extreme, the opposite side of support 71 slides there is feed block 77, be equipped with locating hole 76 on the feed block 77, one side of first liftout subassembly 73 is equipped with second liftout subassembly 74, one side of location pay-off subassembly 7 is equipped with main shaft assembly 5, the top of main shaft assembly 5 is equipped with blank cutting assembly 4.

Through adopting above-mentioned technical scheme, carry out the automatic feeding who expects to realize the material neat through vibration dish 2, realize location and the transport to the material through location pay-off subassembly 7, in second liftout subassembly 74 with the material propelling movement in the pay-off piece 77 to main shaft assembly 5, clip the material through main shaft assembly 5, and drive the material and rotate, blank processing is cut to the material through cutting base subassembly 4, the automatic feeding of bellows blank processing has been realized, automatic positioning pay-off and automatic blank cutting, great improvement work efficiency, staff's intensity of labour has been reduced.

Specifically, the support 71 is connected with a feeding cylinder 72, and an output end of the feeding cylinder 72 is connected with a feeding block 77.

By adopting the technical scheme, the feeding block 77 is driven to act through the feeding air cylinder 72.

Specifically, the first material ejecting assembly 73 comprises a second sliding block guide rail 731, a core rod connecting block 733 is connected to a sliding block of the second sliding block guide rail 731, a core rod 732 is connected to the core rod connecting block 733, an ejecting cylinder 734 is arranged at one end of the second sliding block guide rail 731, the output end of the ejecting cylinder 734 is connected to the core rod connecting block 733, and the structure of the second material ejecting assembly 74 is the same as that of the first material ejecting assembly 73.

By adopting the above technical scheme, the material in the positioning groove 75 is pushed into the positioning hole 76 on the feeding block 77 through the first material ejecting assembly 73.

Specifically, blank cutting assembly 4 includes first slider guide rail 41, is equipped with cutter seat 42 on the slider of first slider guide rail 41, is equipped with cutter 44 on the cutter seat 42, and the upper end of first slider guide rail 41 is equipped with electric jar 43, and the output and the cutter seat 42 of electric jar 43 are connected.

Through adopting above-mentioned technical scheme, realize the blank cutting processing to the material through blank cutting subassembly 4.

Example 2

The present embodiment is different from embodiment 1 in that: concretely, still include discharging channel 6, discharging channel 6 sets up the one end at pay-off block 77, and discharging channel 6's inside slides there is material receiving box 61, and discharging channel 6's top is equipped with material receiving cylinder 62, and material receiving cylinder 62's output is connected with material receiving box 61.

By adopting the technical scheme, automatic blanking of materials after blank cutting is completed is realized.

Example 3

The present embodiment is different from embodiment 1 in that: specifically, the spindle assembly 5 includes a spindle box 51, a chuck 53 is disposed inside the spindle box 51, a driving motor 54 is disposed on one side of the spindle assembly 5, a clamping cylinder 52 for controlling the chuck 53 is further disposed on the spindle box 51, and a spring is disposed inside the chuck 53.

Through adopting above-mentioned technical scheme, clip the material through main shaft assembly 5 to drive the material and rotate.

In this embodiment, the spindle assembly 5 is used for clamping the material and driving the material to rotate, and pushing out the material in the chuck 53 after the blank cutting is completed, and the implementation principle of the self-locking type spring chuck is similar to that of the self-locking type spring chuck disclosed in the chinese patent application No. 201910880502.0 and the self-locking type spring chuck disclosed in the implementation method thereof.

The working steps of the utility model are as follows:

(1) The working personnel pour the materials to be processed into the vibrating disk 2, and the materials are aligned by the vibrating disk 2 and then enter the positioning groove 75 on the positioning block 78 through the blanking channel 3;

(2) The material ejecting cylinder 734 of the first material ejecting assembly 73 drives the core rod 732 to move, so that the material in the positioning groove 75 is pushed into the positioning hole 76 on the feeding block 77;

(3) The feeding cylinder 72 drives the feeding block 77 to act, so that the material in the positioning hole 76 is aligned with the chuck 53, and the ejection cylinder of the second ejection assembly 74 drives the core rod to act to push the material in the positioning hole 76 into the chuck 53;

(4) The clamping cylinder 52 acts to drive the chuck 53 to clamp the material, the driving motor 54 drives the chuck 53 to rotate, and the first material ejecting component 73, the second material ejecting component 74 and the feeding cylinder 72 reset to wait for the next action;

(5) The electric cylinder 43 drives the cutter 44 to move downwards to cut the blank of the material, and the blank is reset after the blank is cut;

(6) The material receiving cylinder 62 drives the material receiving box 61 to extend out, the clamping cylinder 52 resets at the same time, the chuck 53 loosens the material, the material is ejected to the material receiving box 61 under the action of the spring, the material receiving cylinder 62 resets, and the material enters the finished product box through the material discharging channel 6.

To sum up, the utility model discloses a vibration dish 2 carries out the automatic feeding of neat material realization material, realizes the location and the transport to the material through location pay-off subassembly 7, in second liftout subassembly 74 with the material propelling movement in the pay-off piece 77 to main shaft assembly 5, cliies the material through main shaft assembly 5 to drive the material rotation, carries out blank cutting processing to the material through blank cutting subassembly 4, has realized automatic feeding, automatic location pay-off and the automatic blank cutting of bellows blank cutting processing, great improvement work efficiency, reduced staff's intensity of labour; the utility model discloses still include discharging channel 6, discharging channel 6 sets up the one end at pay-off piece 77, and discharging channel 6's inside slides there is material receiving box 61, and discharging channel 6's top is equipped with and connects material cylinder 62, and the output that connects material cylinder 62 is connected with material receiving box 61, realizes the automatic unloading of blank completion back material.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a blank device is cut with autoloading, includes the frame, its characterized in that: the top of frame is equipped with the vibration dish, one side that the top of frame is located the vibration dish is equipped with location pay-off subassembly, location pay-off subassembly includes the support, be equipped with the locating piece on the support, be equipped with the constant head tank on the locating piece, be connected through unloading passageway between vibration dish and the constant head tank, one side of support is equipped with the first liftout subassembly corresponding with the constant head tank lower extreme, the opposite side of support slides has the pay-off piece, be equipped with the locating hole on the pay-off piece, one side of first liftout subassembly is equipped with second liftout subassembly, one side of location pay-off subassembly is equipped with the main shaft subassembly, the top of main shaft subassembly is equipped with blank cutting assembly.

2. The automatic feeding and blank cutting device for the corrugated pipe as claimed in claim 1, wherein: and the support is connected with a feeding cylinder, and the output end of the feeding cylinder is connected with the feeding block.

3. The automatic feeding and blank cutting device for the corrugated pipe as claimed in claim 1, wherein: the first ejection assembly comprises a second slider guide rail, a core rod connecting block is connected onto a slider of the second slider guide rail, a core rod is connected onto the core rod connecting block, an ejection cylinder is arranged at one end of the second slider guide rail, the output end of the ejection cylinder is connected with the core rod connecting block, and the structure of the second ejection assembly is the same as that of the first ejection assembly.

4. The automatic feeding and blank cutting device for the corrugated pipe as claimed in claim 1, wherein: the spindle assembly comprises a spindle box, a chuck is arranged in the spindle box, a driving motor is arranged on one side of the spindle assembly, and a clamping cylinder used for controlling the chuck is further arranged on the spindle box.

5. The automatic feeding and blank cutting device for the corrugated pipe as claimed in claim 1, wherein: the blank cutting assembly comprises a first sliding block guide rail, a cutter seat is arranged on a sliding block of the first sliding block guide rail, a cutter is arranged on the cutter seat, an electric cylinder is arranged at the upper end of the first sliding block guide rail, and the output end of the electric cylinder is connected with the cutter seat.

6. The automatic feeding and blank cutting device for the corrugated pipe as claimed in claim 1, wherein: still include discharging channel, discharging channel sets up the one end at the pay-off piece, and discharging channel's inside slides there is the material receiving box, and discharging channel's top is equipped with the material receiving cylinder, and the output and the material receiving box that connect the material receiving cylinder are connected.

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