CN218802563U - Bar barrel cutting equipment - Google Patents

Abstract

The utility model discloses a bar barrel cutting equipment, including loading attachment, the cutting device who sets up below loading attachment's output and the blevile of push that sets up in blank device's periphery, loading attachment configures to the output that is used for carrying the barrel raw materials to loading attachment, carry blank device with the barrel raw materials through loading attachment, accept by the bar groove on the rotary mechanism, utilize blevile of push to push the barrel raw materials of bar inslot to blank mechanism, there is blank mechanism to accomplish cutting off to the barrel, thereby realize the barrel and cut off mechanization, cut off the processing with replacing the manual work, do benefit to the quantization.

Description

Bar barrel cutting equipment

Technical Field

The utility model relates to a fireworks equipment technical field, in particular to bar barrel cutting equipment.

Background

At present, the traditional firework barrel slitting utilizes the manual work to cut off the long-strip-shaped barrel one by one through manual feeding, so that the follow-up firework processing and use are facilitated, the existing manual cutting-off efficiency is low, the quantitative production is difficult to realize, and a certain design space is provided on the basis of cutting off the firework barrel by utilizing mechanical equipment under the mechanical condition.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bar barrel cutting equipment aims at solving the technical problem who mentions in the background art to realize that the mechanization of fireworks barrel cuts off, do benefit to the quantization.

In order to achieve the above purpose, the technical scheme of the utility model has:

a strip-shaped barrel cutting apparatus comprising:

a charging device configured for delivering the barrel raw material to an output of the charging device;

the blanking device is arranged below the output end of the feeding device; the cutting device comprises a cutting mechanism and a rotating mechanism arranged on one side of the cutting mechanism, and a plurality of strip-shaped grooves for bearing the gun barrel are formed in the rotating mechanism; when the rotating mechanism rotates, each strip-shaped groove can rotate to be aligned with the output end of the feeding device;

the material pushing device is arranged on the periphery of the material cutting device and comprises a material pushing cylinder and a material pressing mechanism, and the material pressing mechanism is used for pressing a gun barrel loaded on the rotating mechanism; the material pushing cylinder drives the material pressing mechanism to move towards the material cutting mechanism, and the material cutting mechanism cuts off the gun barrel raw material.

The utility model provides a bar barrel cutting equipment, including loading attachment, the cutting device who sets up below loading attachment's output and the blevile of push that sets up in the periphery of blank, loading attachment configures into the output that is used for carrying the barrel raw materials to loading attachment, carry the blank device with the barrel raw materials through loading attachment, accept by the bar groove on the rotary mechanism, utilize the blevile of push to push the barrel raw materials of bar inslot to blank mechanism, there is blank mechanism to accomplish cutting off to the barrel, thereby realize the barrel and cut off mechanizedly, with the processing of cutting off of replacing the manual work, do benefit to the quantization.

In an embodiment of the present application, the feeding device includes:

the charging frame is provided with a temporary storage part for gun barrel raw materials and a raw material guide part connected with the temporary storage part for gun barrel raw materials; the charging chain belt is arranged on the raw material guiding part, a plurality of charging grooves are arranged on the charging chain belt, and the charging grooves are used for bearing raw materials of the gun barrel; the positioning plate is arranged at the joint of the temporary storage part of the gun barrel raw materials and is used for pre-positioning one gun barrel raw material; the material pressing assembly is installed at the tail end of the raw material guiding portion, the input end of the material pressing assembly is connected with the output end of the feeding chain belt in an abutting mode, and the material pressing assembly is used for receiving gun barrel raw materials conveyed by the feeding chain belt and pressing the gun barrel raw materials into the strip-shaped groove.

Further, the material pressing component comprises: the sliding plate is provided with flanges on two sides; the lower end of the pressing piece is arranged close to the lower end of the sliding plate, and the pressing piece can move relative to the sliding plate; the driving end of the material pressing cylinder is connected with the material pressing piece, and the material pressing cylinder is used for driving the material pressing piece to move and pressing the gun barrel raw material into the strip-shaped groove.

In an embodiment of the present application, the rotation mechanism includes:

the material groove roller is provided with a plurality of strip-shaped grooves, a first driving motor is arranged on one side of the material groove roller, and the first driving motor is used for driving the material groove roller to rotate.

In an embodiment of the present application, the blanking mechanism comprises:

the material guide box assembly comprises a material guide box and a positioning air cylinder, the driving end of the positioning air cylinder is connected with the material guide box, and the driving shaft of the positioning air cylinder pushes the material guide box to approach the material groove roller; the cutter is arranged close to the trough roller, is driven to rotate by the rotation of the cutter shaft, and is driven to rotate by the transmission of a belt through a cutter motor so as to rotate the cutter; the material clamping assembly is arranged at the edge of the cutter and comprises a material clamping cylinder and material clamping plates, and the upper material clamping plate and the lower material clamping plate are driven by the material clamping cylinder to be close to each other so as to clamp the gun barrel raw materials tightly.

Further, the guide box subassembly still includes:

the material guiding dial is arranged on the material guiding box, and a plurality of material guiding box moving cylinders which are arranged at intervals are arranged on the material guiding dial; and the positioning pin is arranged at one position on the material guide box, and when the material guide box rotates to the position where one material guide box moves to the positioning pin, the positioning pin temporarily positions the current position of the front material guide box.

In an embodiment of the present application, the pusher device includes:

a material pushing frame; the pushing cylinder is arranged on one side of the pushing frame and used for pushing the pushing frame to move along the horizontal extending direction of the rotating mechanism; and the pressing plate component is arranged on the material pushing frame and is used for pressing the gun barrel raw materials stored in the strip-shaped groove.

Further, the material pushing frame is in a streamline configuration, and the material pushing frame is installed around the rotating mechanism; the pressing plate components are arranged in a plurality of numbers, and two adjacent pressing plate components are arranged on the streamlined material pushing frame in a spaced and staggered mode.

Further, the platen assembly includes: the pressing plate comprises a pressing plate body, a convex part protruding downwards is arranged below the pressing plate body, and a notch is formed after the convex part is combined with the pressing plate body; the driving shaft of the pressing plate cylinder is connected with the pressing plate, and the pressing plate cylinder is used for driving the pressing plate to move up and down; when the pressing plate cylinder drives the pressing plate to move downwards to press the gun barrel raw material in the strip-shaped groove, the cut tightly abuts against the tail end of the gun barrel raw material.

In an embodiment of the present application, the strip-shaped barrel cutting apparatus further includes: and the recovery device is arranged below the cutting device.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a bar-shaped barrel cutting apparatus of the present application;

fig. 2 is a schematic view showing a structure in which a cutting device is combined with a pusher in a bar-shaped barrel cutting apparatus of the present application;

fig. 3 is a schematic view showing the structure of a charging device in a bar-shaped barrel cutting apparatus of the present application;

fig. 4 is a schematic configuration view showing another angle of the cutting device combined with the pusher in a bar-shaped barrel cutting apparatus of the present application;

fig. 5 is a schematic structural view showing a pressing plate mechanism in a pusher in a bar-shaped barrel cutting apparatus of the present application.

Detailed Description

In order to better illustrate the present invention, the following detailed description of the present invention is made with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments in the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the present application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the claims that follow. In the description of the present application, it is to be understood that the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not necessarily used to describe a particular order or sequence, nor are they to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

At present, the traditional firework barrel slitting utilizes the manual work to cut off the long-strip-shaped barrel one by one through manual feeding, so that the follow-up firework processing and use are facilitated, the existing manual cutting-off efficiency is low, the quantitative production is difficult to realize, and a certain design space is provided on the basis of cutting off the firework barrel by utilizing mechanical equipment under the mechanical condition.

Therefore, the utility model discloses the technical problem that actually solves lies in can realizing cutting off processing machineization when realizing cutting off the barrel.

As a preferred embodiment in the present application, as shown in fig. 1 to 2, a stick type barrel cutting apparatus includes: a charging device 1, the charging device 1 being configured for delivering a raw material for a gun barrel to an output end of the charging device 1; the blanking device 2 is arranged below the output end of the feeding device 1; the cutting device 2 comprises a cutting mechanism 21 and a rotating mechanism 22 arranged on one side of the cutting mechanism 21, and a plurality of strip-shaped grooves 220 for bearing the gun barrel are formed in the rotating mechanism 22; when the rotating mechanism 22 rotates, each strip-shaped groove 220 can rotate to be aligned with the output end of the feeding device 1; the pushing device 3 is arranged on the periphery of the cutting device 2, the pushing device 3 comprises a pushing cylinder 31 and a pressing mechanism 32, and the pressing mechanism 32 is used for pressing the gun barrel loaded on the rotating mechanism 22; the material pushing cylinder 31 drives the material pressing mechanism 32 to move toward the material cutting mechanism 21, and the material cutting mechanism 21 cuts the raw material for the gun barrel.

The bar-shaped gun barrel cutting equipment in the embodiment comprises a feeding device 1, a cutting device 2 arranged below the output end of the feeding device 1 and a material pushing device 3 arranged on the periphery of the cutting device 2, wherein the feeding device 1 is configured to be used for conveying gun barrel raw materials to the output end of the feeding device 1, the gun barrel raw materials are conveyed to the cutting device 2 through the feeding device 1 and are received by a bar-shaped groove 220 on a rotating mechanism 22, the gun barrel raw materials in the bar-shaped groove 220 are pushed to a cutting mechanism 21 by the material pushing device 3, and the cutting of the gun barrel is completed by the material cutting mechanism 21, so that the gun barrel cutting mechanization is realized, the manual cutting processing is replaced, and the quantitative processing is facilitated.

Specifically, the feeding device 1 adopts a chain feeding mode, the feeding device 1 conveys the gun barrel raw material to the output end of the feeding device 1, after the gun barrel raw material is positioned at the output end of the feeding device 1, the feeding device 1 continues to convey, the gun barrel raw material falls into the strip-shaped groove 220 of the rotating mechanism 22, and the gun barrel raw material is positioned in the strip-shaped groove 220; the barrel raw materials in the strip-shaped groove 220 are further fixed by the material pressing mechanism 32 of the material pushing device 3, the barrel raw materials are moved horizontally by the material pushing device 3 through the material pressing mechanism 32 so that the barrel raw materials are partially moved out of the strip-shaped groove 220, and the barrel raw materials are cut off through the material cutting mechanism 21.

Further, in the rotating mechanism 22 of this embodiment, the strip-shaped grooves 220 can continuously receive the raw material of the gun barrel through the continuous rotation of the rotating mechanism 22, the raw material of the gun barrel on each strip-shaped groove 220 can be gradually aligned with the cutting mechanism through the rotation of the rotating mechanism 22, and the raw material of the gun barrel is pushed by the pushing device 3, so that the raw material of the gun barrel is continuously cut off, and the cutting efficiency of the raw material of the gun barrel is improved.

In an embodiment of the present application, as a specific configuration structure of a bar-shaped gun barrel cutting device for implementing the present solution, as shown in fig. 3, the feeding device 1 includes:

a loading frame, on which a gun barrel raw material temporary storage part 111 and a raw material guide part 112 connected with the gun barrel raw material temporary storage part 111 are arranged; a feeding chain belt 12, wherein the feeding chain belt 12 is installed on the raw material guide part 112, a plurality of feeding grooves 121 are installed on the feeding chain belt 12, and the feeding grooves 121 are used for supporting the raw material of the gun barrel; the positioning plate 13 is arranged at the joint of the temporary storage part 111 of the gun barrel raw material and the temporary storage part 111 of the gun barrel raw material, and the positioning plate 13 is used for pre-positioning one gun barrel raw material; the material pressing component 14 is installed at the tail end of the raw material guiding portion 112, the input end of the material pressing component 14 is connected with the output end of the feeding chain belt 12 in an abutting mode, and the material pressing component 14 is used for receiving the gun barrel raw materials conveyed by the feeding chain belt 12 and pressing the gun barrel raw materials into the strip-shaped groove 220.

Firstly, the gun barrel raw material to be processed is placed on the gun barrel raw material temporary storage part 111 in advance, in the embodiment, the gun barrel raw material temporary storage part 111 is obliquely arranged, and the gun barrel raw material can fall into each feeding groove 121 one by one through the rotation of the feeding chain belt 12, so that the gun barrel raw material is continuously conveyed from the gun barrel raw material temporary storage part 111 to the position of the raw material guide part 112; in addition, because the feeding groove 121 has a certain height when being mounted on the feeding chain belt 12, in order to realize accurate dropping of the gun barrel raw material, the positioning plate 13 is arranged to pre-position the gun barrel raw material on a path of the feeding groove 121, which rotates along with the feeding chain belt 12; preferably, the height of the positioning plate 13 is equivalent to that of the feeding trough 121; when the gun barrel raw material is brought to the end of the feeding chain belt 12 by the feeding chute 121, the opening of the feeding chute 121 horizontally faces the swaging assembly 14, and the gun barrel raw material falls into the swaging assembly 14 due to the inertia, is received by the swaging assembly 14, and is pressed into the strip groove 220.

In this embodiment, as shown in fig. 3, preferably, the swaging assembly 14 includes: the sliding plate 141, both sides of the sliding plate 141 are provided with flanges; the lower end of the pressing piece 142 is arranged close to the lower end of the sliding plate 141, and the pressing piece 142 can move relative to the sliding plate 141; the driving end of the material pressing cylinder is connected with the material pressing piece 142, and the material pressing cylinder is used for driving the material pressing piece 142 to move and pressing the gun barrel raw material into the strip-shaped groove 220.

Specifically, the sliding plate 141 is used for guiding the raw material of the gun barrel to reach the bottom of the sliding plate 141 and placing the raw material of the gun barrel above the strip-shaped groove 220, the flanges at the two sides of the sliding plate 141 are used for preventing the raw material of the gun barrel from being dislocated and separated during blanking, and preferably, the width between the two baffles is equal to the length of the raw material of the gun barrel; similarly, the temporary storage unit 111 for gun barrel raw material can limit the placement position of the gun barrel raw material, so that the gun barrel raw material can accurately fall onto the sliding plate 141 when being conveyed by the feeding chain belt 12; when the barrel raw material is arranged above the strip-shaped groove 220, the material pressing cylinder starts to work to drive the material pressing piece 142 to move downwards so as to press the barrel raw material into the strip-shaped groove 220.

Preferably, the opening of the strip-shaped groove 220 is narrowed, the width of the strip-shaped groove is slightly smaller than the diameter of the raw material of the gun barrel, and after the raw material of the gun barrel is pressed in, the strip-shaped groove 220 can also have a certain positioning effect on the raw material of the gun barrel.

In an embodiment of the present application, the rotation mechanism 22 includes:

the material groove roller 221 is provided with a plurality of strip-shaped grooves 220, one side of the material groove roller 221 is provided with a first driving motor 222, and the first driving motor 222 is used for driving the material groove roller 221 to rotate.

In addition, preferably, the first driving cylinder is a pawl cylinder, and the pawl cylinder drives the chute roller 221 to rotate through a pawl and a ratchet.

In the embodiment of the present application, as shown in fig. 4, the blanking mechanism 21 includes:

the material guide box assembly 211 comprises a material guide box 2111 and a positioning air cylinder 2112, wherein the driving end of the positioning air cylinder 2112 is connected with the material guide box 2111, and the driving shaft of the positioning air cylinder 2112 pushes the material guide box 2111 to approach the material groove roller 221; the cutter 212 is arranged close to the trough roller 221, the cutter 212 is driven to rotate by the rotation of a cutter 212 shaft, and the cutter 212 is driven to rotate by a cutter 212 motor through the transmission of a belt so as to enable the cutter 212 to rotate; the material clamping assembly 213 is arranged at the edge of the cutter 212, the material clamping assembly 213 comprises a material clamping cylinder 2132 and material clamping plates 2131, and the material clamping cylinder 2132 drives the upper material clamping plate 2131 and the lower material clamping plate 2131 to approach each other so as to clamp the raw materials of the gun barrel.

Specifically, initially, a certain distance is reserved between the material guiding box assembly 211 and the rotating mechanism 22, after the pushing device 3 pushes the barrel raw material in the strip-shaped groove 220 to move horizontally so that the barrel raw material is partially moved away to a certain distance, the material guiding box assembly 211 starts to work, the material guiding box 2111 is integrally pushed to the rotating mechanism 22 through the positioning cylinder 2112, at the moment, the barrel raw material is clamped by the material clamping assembly 213 through the material clamping cylinder 2132 and the material clamping plate 2131, and the barrel raw material is cut off.

Further, the material guiding box assembly 211 further includes:

a material guiding dial 2112 arranged on the material guiding box 2111, wherein a plurality of material guiding box moving cylinders 2114 arranged at intervals are arranged on the material guiding dial 2112; and the positioning needle 2115 is arranged at one position on the material guiding box 2111, and when the material guiding box 2111 rotates to the position from one material guiding box moving cylinder 2114 to the positioning needle 2115, the positioning needle 2115 temporarily positions the current position of the material guiding box 2111.

In order to realize the fixed-length and continuous cutting of the gun barrel, the controller is used for realizing the fixed-length and continuous cutting of the gun barrel raw material, when the gun barrel raw material is continuously cut, firstly, the controller sends a signal to the pushing device to push the gun barrel raw material in one strip-shaped groove 220 to a set length from the strip-shaped groove 220, at the moment, the positioning cylinder 2112 integrally pushes the material guide box 2111 to the rotating mechanism 22, at the moment, the clamping assembly 213 clamps the gun barrel raw material through the clamping cylinder 2132 and the clamping plate 2131, the cutting of the gun barrel raw material is completed through the cutting, and after the cutting is completed, the driving shaft of the positioning cylinder 2112 returns to drive the material guide box 2111 to integrally return; the controller sends a signal to the material guiding box moving cylinder 2114, the material guiding box moving cylinder 2114 drives the material guiding box 2111 to rotate, when one material guiding box moving cylinder 2114 reaches the positioning needle 2115, the controller receives the signal and sends a signal to the pushing device, the rotating mechanism 22 is rotated, the gun barrel raw material in the next strip-shaped groove 220 is aligned with the cutter 212, the positioning cylinder 2112 is utilized to push the whole material guiding box 2111 to the rotating mechanism 22, at the moment, the clamping assembly 213 clamps the gun barrel raw material through the clamping cylinder 2132 and the clamping plate 2131, and the cutting of the gun barrel raw material is completed; the above steps are repeated until all the raw materials of the gun barrel in the strip-shaped groove 220 are cut off.

In the embodiment of the present application, as shown in fig. 2, the material pushing device 3 includes:

a material pushing frame 30; the pushing cylinder 31 is installed on one side of the pushing frame 30, and the pushing cylinder 31 is used for pushing the pushing frame 30 to move along the horizontal extending direction of the rotating mechanism 22; the material pressing mechanism 32 is arranged on the material pushing frame 30, and the material pressing mechanism 32 is used for pressing the gun barrel raw materials stored in the strip-shaped groove 220.

Preferably, the material pushing frame 30 is in a streamline configuration, and the material pushing frame 30 is installed around the rotating mechanism 22; the pressing mechanisms 32 are provided in plurality, and two adjacent pressing mechanisms 32 are arranged on the streamlined material pushing frame 30 in a mutually spaced and staggered manner.

Specifically, in the present embodiment, the number of the nip mechanisms 32 is equal to the number of the strip-shaped grooves 220, and only the partial area of the rotating mechanism 22 where the nip assembly 14 is aligned is not provided with the nip mechanisms 32, for example, if the number of the strip-shaped grooves 220 is 20, the number of the nip mechanisms 32 is 17.

In addition, preferably, the pushing cylinder 31 is a ratchet cylinder,

the material pushing cylinder 31 is controlled by a controller to push the gun barrel raw material in the strip-shaped groove 220 to a fixed length, and the gun barrel raw material is cut off at the fixed length by the material cutting assembly.

Because the material pushing frame 30 is in a streamline configuration, and the material pushing frame 30 is installed around the rotating mechanism 22; the pressing mechanisms 32 are provided in plurality, and two adjacent pressing mechanisms 32 are arranged on the streamlined material pushing frame 30 in a mutually spaced and staggered manner.

The swaging mechanism 32 includes: the pressing plate 321 comprises a pressing plate body 3211, a protrusion protruding downwards is arranged below the pressing plate body 3211, and a notch is formed after the protrusion is combined with the pressing plate body 3211; the driving shaft of the pressing plate cylinder 322 is connected with the pressing plate 321, and the pressing plate cylinder 322 is used for driving the pressing plate 321 to move up and down; when clamp plate cylinder 322 drive clamp plate 321 moved down and compressed tightly the barrel raw materials in bar groove 220, the incision tightly supports the tail end of barrel raw materials, does benefit to push away material cylinder 31 and promotes when pushing away the removal of work or material rest 30, and swager 32 can realize promoting the barrel raw materials in bar groove 220.

In an embodiment of the present application, the strip-shaped barrel cutting apparatus further includes: recovery unit 4, recovery unit 4 sets up in blank device 2's below, recovery unit 4 includes belt drive assembly and retrieves the box, retrieves the box and arranges belt drive assembly top in, when the barrel raw materials recovery that cuts off, retrieves the one end of box with its transmission by belt drive assembly, does benefit to the arrangement and accomodates.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, such terms are used for convenience of description and are not to be construed as limiting the invention in any way.

Claims (10)

1. A strip-shaped barrel cutting apparatus, comprising:

a charging device configured for delivering the barrel raw material to an output of the charging device;

the blanking device is arranged below the output end of the feeding device; the cutting device comprises a cutting mechanism and a rotating mechanism arranged on one side of the cutting mechanism, and a plurality of strip-shaped grooves for bearing the gun barrel are formed in the rotating mechanism; when the rotating mechanism rotates, each strip-shaped groove can rotate to be aligned with the output end of the feeding device;

the material pushing device is arranged on the periphery of the material cutting device and comprises a material pushing cylinder and a material pressing mechanism, and the material pressing mechanism is used for pressing a gun barrel loaded on the rotating mechanism; the material pushing cylinder drives the material pressing mechanism to move towards the material cutting mechanism, and the material cutting mechanism cuts off the gun barrel raw material.

2. Strip-shaped barrel cutting apparatus according to claim 1, wherein said loading means comprises:

the charging frame is provided with a temporary storage part for gun barrel raw materials and a raw material guide part connected with the temporary storage part for gun barrel raw materials;

the charging chain belt is arranged on the raw material guiding part, a plurality of charging grooves are arranged on the charging chain belt, and the charging grooves are used for bearing raw materials of the gun barrel;

the positioning plate is arranged at the joint of the temporary storage part of the gun barrel raw materials and is used for pre-positioning one gun barrel raw material;

the material pressing assembly is installed at the tail end of the raw material guiding portion, the input end of the material pressing assembly is connected with the output end of the feeding chain belt in an abutting mode, and the material pressing assembly is used for receiving gun barrel raw materials conveyed by the feeding chain belt and pressing the gun barrel raw materials into the strip-shaped groove.

3. Strip-shaped barrel cutting apparatus according to claim 2, wherein said swaging assembly comprises:

the sliding plate is provided with flanges on two sides;

the lower end of the pressing piece is arranged close to the lower end of the sliding plate, and the pressing piece can move relative to the sliding plate;

the driving end of the material pressing cylinder is connected with the material pressing piece, and the material pressing cylinder is used for driving the material pressing piece to move and pressing the gun barrel raw material into the strip-shaped groove.

4. The strip-type barrel cutting apparatus as claimed in claim 1, wherein said rotating mechanism comprises:

the material groove roller is provided with a plurality of strip-shaped grooves, and a first driving motor is arranged on one side of the material groove roller and used for driving the material groove roller to rotate.

5. The strip-shaped barrel cutting apparatus as claimed in claim 1, wherein said blanking mechanism comprises:

the guide box assembly comprises a guide box and a positioning cylinder, the driving end of the positioning cylinder is connected with the guide box, and the guide box is pushed by the driving shaft of the positioning cylinder to approach the feed groove roller;

the cutter is arranged close to the trough roller, is driven to rotate by the rotation of the cutter shaft, and is driven to rotate by the transmission of a belt through a cutter motor so as to rotate the cutter;

the material clamping assembly is arranged at the edge of the cutter and comprises a material clamping cylinder and material clamping plates, and the upper material clamping plate and the lower material clamping plate are driven by the material clamping cylinder to be close to each other so as to clamp the gun barrel raw materials tightly.

6. The strip-shaped barrel cutting apparatus as claimed in claim 5, wherein said magazine assembly further comprises:

the material guide dial is arranged on the material guide box, and a plurality of material guide box moving cylinders which are arranged at intervals are arranged on the material guide dial;

and the positioning pin is arranged at one position on the material guide box, and when the material guide box rotates to the position where one material guide box moves to the positioning pin, the positioning pin temporarily positions the current position of the front material guide box.

7. The strip-shaped barrel cutting apparatus as claimed in claim 1, wherein said pusher means comprises:

a material pushing frame;

the pushing cylinder is arranged on one side of the pushing frame and used for pushing the pushing frame to move along the horizontal extending direction of the rotating mechanism;

and the pressing plate component is arranged on the material pushing frame and is used for pressing the gun barrel raw materials stored in the strip-shaped groove.

8. A strip-shaped barrel cutting apparatus as claimed in claim 7, wherein:

the material pushing frame is in streamline configuration and is installed around the rotating mechanism;

the pressing plate assemblies are arranged in a plurality of positions, and two adjacent pressing plate assemblies are arranged on the streamlined material pushing frame at intervals and in a staggered mode.

9. Strip-shaped barrel cutting apparatus according to claim 7, wherein said pressure plate assembly comprises:

the pressing plate comprises a pressing plate body, a convex part protruding downwards is arranged below the pressing plate body, and a notch is formed after the convex part is combined with the pressing plate body;

the driving shaft of the pressing plate cylinder is connected with the pressing plate, and the pressing plate cylinder is used for driving the pressing plate to move up and down;

when the pressing plate cylinder drives the pressing plate to move downwards to press the gun barrel raw material in the strip-shaped groove, the cut tightly abuts against the tail end of the gun barrel raw material.

10. The strip-shaped barrel cut-off apparatus as claimed in claim 1, further comprising:

and the recovery device is arranged below the cutting device.

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