CN211763848U - Double-station pipe coiling device for paper cone - Google Patents

Abstract

The utility model discloses a duplex position reelpipe device of pagoda paper tube, include: the paper cutting machine comprises a rack, a paper cutting machine and a paper cutting machine, wherein the rack is horizontally arranged and is used for supporting two S-shaped fan-shaped paper sheets to pass through; two reelpipe subassemblies, two reelpipe subassemblies are first reelpipe subassembly and second reelpipe subassemblies respectively and are used for winding two fan-shaped scraps of paper into the conical paper pipe, be equipped with in the frame and send fan-shaped scraps of paper into first reelpipe subassembly in around the first paper feeding mechanism who rolls into the conical paper pipe, second reelpipe subassembly top is equipped with and sends fan-shaped scraps of paper into first reelpipe subassembly or second reelpipe subassembly in around the second paper feeding mechanism who rolls into the conical paper pipe, compares with prior art, the utility model discloses realize that duplex position processing or only by simplex position processing, not only double promotion machining efficiency utilizes its characteristic that can adapt to two fan-shaped scraps of paper processing of paper of arranging simultaneously, has guaranteed resource utilization, has reduced the waste material and has produced.

Description

Double-station pipe coiling device for paper cone

[ technical field ] A method for producing a semiconductor device

The utility model relates to a technical field of weaving equipment accessory processing especially relates to a duplex position reelpipe device of pagoda paper tube.

[ background of the invention ]

The pagoda paper tube is widely applied to the textile industry, is a carrier for winding yarns in the textile industry, is in a hollow conical shape with one large end and one small end, and is usually made by winding a fan-shaped paper sheet for a plurality of circles through a pipe winding assembly.

The reelpipe station in the pagoda paper tube forming machine in the prior art is set to be a single station, which has the problems of finished product yield and low processing efficiency, and moreover, because only one finished product is processed in a single time in the original paperboard, a large amount of triangular paper waste is generated, the resource utilization rate is low, and the production cost of enterprises is increased.

[ Utility model ] content

The utility model aims at solving the problem among the prior art, providing a duplex position reelpipe device of pagoda paper tube, can realize duplex position processing or only by simplex position processing to the two sheets of paper that are S-shaped and arrange, promote machining efficiency, reduce the waste material and produce.

In order to achieve the above object, the utility model provides a duplex position reelpipe device of pagoda paper tube, include:

the paper cutting machine comprises a rack, a paper cutting machine and a paper cutting machine, wherein the rack is horizontally arranged and is used for supporting two S-shaped fan-shaped paper sheets to pass through;

two reel pipe components which are respectively a first reel pipe component and a second reel pipe component and are used for winding two fan-shaped paper sheets into a conical paper pipe,

the frame is provided with a first paper feeding mechanism which sends fan-shaped paper sheets into the first pipe coiling assembly and winds the fan-shaped paper sheets into a conical paper pipe, and a second paper feeding mechanism which sends the fan-shaped paper sheets into the first pipe coiling assembly or the second pipe coiling assembly and winds the fan-shaped paper sheets into the conical paper pipe is arranged above the second pipe coiling assembly.

Preferably, the two reel pipe assemblies are arranged at one end of the rack in the same direction and are distributed in a front-back staggered manner.

Preferably, the second paper feeding mechanism comprises a first x-direction guide rail, a y-direction guide rail and a paper inserting and needle removing assembly, wherein the y-direction guide rail extends from one end of the second roller pipe assembly to one end of the first roller pipe assembly, the paper inserting and needle removing assembly is used for completing the paper inserting and needle removing actions on the fan-shaped paper sheets, the first x-direction guide rail and the y-direction guide rail are respectively perpendicular to and parallel to the distribution directions of the two roller pipe assemblies on the horizontal plane, the paper inserting and needle removing assembly forms a rotary paper inserting assembly through a rotating assembly and is fixed on the y-direction guide rail in a sliding mode, and the rotating assembly can enable the fan-shaped paper sheets to rotate 180 degrees and slide along the y-direction guide rail and the first x-direction guide rail so that the fan-shaped paper sheets.

Preferably, the first paper feeding assembly comprises a second x-direction guide rail perpendicular to the distribution direction of the two roller pipe assemblies on a horizontal plane and a paper inserting and needle removing assembly for completing paper inserting and needle removing actions on the fan-shaped paper sheets, the paper inserting and needle removing assembly is arranged on the second x-direction guide rail in a sliding mode, and the paper inserting and needle removing assembly can move back and forth along the second x-direction guide rail so that the fan-shaped paper sheets enter the first roller pipe assembly from the frame.

Preferably, the rotating assembly comprises a servo motor and a suspension arm used for being slidably mounted on the y-direction guide rail, the servo motor is fixed on the suspension arm, an output shaft of the servo motor is connected with a rotating seat, the paper insertion and removal needle assembly is fixed on the rotating seat, and the servo motor can drive the paper insertion and removal needle assembly to rotate 180 degrees.

Preferably, the paper inserting and removing assembly comprises paper inserting cylinders and paper inserting needles, the paper inserting cylinders are vertically distributed and are in driving connection with the paper inserting needles, and the paper inserting cylinders can drive the paper inserting needles to move in a reciprocating mode in the vertical direction so as to insert or remove fan-shaped paper sheets.

Preferably, the number of the paper removing needle assemblies in the second paper feeding mechanism is two, and the two paper removing needle assemblies are diagonally distributed at the bottom of the rotating seat.

The utility model has the advantages that: the utility model discloses to two fan-shaped scraps of paper, utilize its structure that is the distribution of s-shaped, reduce the production of triangle waste material, and utilize first paper feeding mechanism to pay off for first coil pipe subassembly, pay off for first coil pipe subassembly or second coil pipe subassembly by the second paper feeding mechanism, when first coil pipe subassembly and second coil pipe subassembly open simultaneously, reach the duplex position and process; after one of them pause work of first reelpipe subassembly and second reelpipe subassembly, can be by second paper feeding mechanism for another station feed, it is nimble convenient to use, compares with prior art, the utility model discloses realize that duplex position processing or only by simplex position processing, not only double promotion machining efficiency utilizes its characteristic that can adapt to two fan-shaped scraps of paper processing of arranging of s shape simultaneously, has guaranteed resource utilization, has reduced the waste material and has produced.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

[ description of the drawings ]

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

fig. 2 is a schematic structural view of another view angle of the present invention;

FIG. 3 is a schematic structural view of a rotary paper inserting assembly according to the present invention;

in the figure: the automatic paper feeding device comprises a machine frame 1, a first reel pipe assembly 2, a second reel pipe assembly 3, a first x-direction guide rail 4, a first y-direction guide rail 5, a second x-direction guide rail 6, a servo motor 7, a suspension arm 8, a rotary seat 9, a paper inserting cylinder 10 and a paper inserting needle 11.

[ detailed description ] embodiments

Referring to fig. 1 to 3, the present invention includes:

the paper cutting machine comprises a rack 1, wherein the rack 1 is horizontally arranged and is used for supporting two S-shaped fan-shaped paper sheets to pass through; one of the fan-shaped sheets is distributed in the forward direction, and the other is opposite to the forward direction.

Two reelpipe subassemblies, two reelpipe subassemblies are first reelpipe subassembly 2 and second reelpipe subassembly 3 respectively and are used for becoming the conical paper pipe with two fan-shaped scraps of paper around rolling up, and the concrete structure of first reelpipe subassembly 2 and second reelpipe subassembly 3 is prior art, and it includes that the reelpipe awl takes place rotatory power supply with the drive reelpipe awl to and adsorb the suction source on the reelpipe awl with fan-shaped scraps of paper.

The frame 1 is provided with a first paper feeding mechanism which sends fan-shaped paper sheets into the first reel pipe assembly 2 and winds the paper sheets into a conical paper pipe, and a second paper feeding mechanism which sends the fan-shaped paper sheets into the first reel pipe assembly 2 or the second reel pipe assembly 3 and winds the paper sheets into the conical paper pipe is arranged above the second reel pipe assembly 3.

When double-station processing is carried out, the first paper feeding mechanism sends the fan-shaped paper sheets positioned above the first reel component 2 into the first reel component 2, and the second paper feeding mechanism rotates the fan-shaped paper sheets positioned above the second reel component 3 by 180 degrees and sends the fan-shaped paper sheets into the second reel component 3; when the second roller pipe assembly 3 stops working, the first paper feeding mechanism feeds the fan-shaped paper sheets above the first roller pipe assembly 2 into the first roller pipe assembly 2, and the second paper feeding mechanism rotates the fan-shaped paper sheets above the second roller pipe assembly 3 by 180 degrees and then feeds the fan-shaped paper sheets into the first roller pipe assembly 2; when the first reel pipe assembly 2 stops working, the second paper feeding mechanism sends the fan-shaped paper sheets above the first reel pipe assembly 2 into the second reel pipe assembly 3, and the second paper feeding mechanism sends the fan-shaped paper sheets above the second reel pipe assembly 3 into the second reel pipe assembly 3 after rotating 180 degrees.

Specifically, the two pipe coiling assemblies are arranged at one end of the rack 1 in the same direction and are distributed in a front-back staggered manner. The conveying distance of the first paper feeding mechanism and the second paper feeding mechanism to the fan-shaped paper sheets can be shortened by utilizing the equidirectional arrangement structure, and the output of the formed paper tubes of the pagoda can be facilitated by utilizing the staggered distribution structure.

Specifically, the second paper feeding mechanism comprises a first x-direction guide rail 4, a y-direction guide rail 5 and a paper inserting and needle releasing assembly, wherein one end of the second reel pipe assembly 3 extends to one end of the first reel pipe assembly 2, the paper inserting and needle releasing assembly is used for completing paper inserting and needle releasing actions on fan-shaped paper sheets, the first x-direction guide rail 4 and the y-direction guide rail 5 are respectively perpendicular to and parallel to the distribution directions of the two reel pipe assemblies on the horizontal plane, the paper inserting and needle releasing assembly forms a rotary paper inserting assembly through a rotating assembly and is fixed on the y-direction guide rail 5 in a sliding mode, and the rotating assembly can enable the fan-shaped paper sheets to rotate by 180 degrees and slide along the y-direction guide rail 5 and the first x-direction guide rail 4 so that the fan-shaped paper sheets can be fed into the first reel pipe assembly 2. The paper inserting and needle releasing assembly completes paper inserting of the fan-shaped paper sheets and can drive the fan-shaped paper sheets to move, and when the fan-shaped paper sheets enter the pipe coiling assembly, the fan-shaped paper sheets are released after needle releasing is completed.

Specifically, the first paper feeding assembly comprises a second x-direction guide rail 6 perpendicular to the distribution direction of the two reel pipe assemblies on the horizontal plane and a paper inserting and needle releasing assembly used for completing paper inserting and needle releasing actions on the fan-shaped paper sheets, the paper inserting and needle releasing assembly is arranged on the second x-direction guide rail 6 in a sliding mode, and the paper inserting and needle releasing assembly can move back and forth along the second x-direction guide rail 6 so that the fan-shaped paper sheets enter the first reel pipe assembly 2 from the rack 1.

When the double-station machining is carried out, the paper inserting and needle removing assembly is inserted into fan-shaped paper sheets distributed in the forward direction, namely the fan-shaped paper sheets above the first pipe coiling assembly 2, and moves back and forth along the second X-direction guide rail 6 to finish the feeding of the fan-shaped paper sheets into the first pipe coiling assembly 2, the paper inserting and needle removing assembly of the second paper feeding mechanism is inserted into fan-shaped paper sheets distributed in the reverse direction, namely the fan-shaped paper sheets above the second pipe coiling assembly 3 rotate 180 degrees, the paper inserting and needle removing assembly becomes forward, the X-axis and the Y-axis are moved by means of the first X-direction guide rail 4 and the Y-direction guide rail 5, and the fan-shaped paper.

Specifically, the rotating assembly comprises a servo motor 7 and a suspension arm 8 which is used for being slidably mounted on the y-direction guide rail 5, the servo motor 7 is fixed on the suspension arm 8, an output shaft of the servo motor 7 is connected with a rotating seat 9, the paper insertion and needle removal assembly is fixed on the rotating seat 9, and the servo motor 7 can drive the paper insertion and needle removal assembly to rotate for 180 degrees.

Specifically, the paper inserting and needle removing assembly comprises paper inserting cylinders 10 and paper inserting needles 11, the paper inserting cylinders 10 are vertically distributed and are in driving connection with the paper inserting needles 11, and the paper inserting cylinders 10 can drive the paper inserting needles 11 to move in a reciprocating mode in the vertical direction so as to insert fan-shaped paper sheets or remove the fan-shaped paper sheets.

Specifically, the number of the paper-removing needle assemblies in the second paper feeding mechanism is two, and the two paper-removing needle assemblies are diagonally distributed at the bottom of the rotating seat 9. The two paper inserting and needle releasing assemblies are utilized, so that the fan-shaped paper sheets can rotate conveniently.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (7)

1. A double-station pipe coiling device for a paper cone comprises:

the paper cutting machine comprises a rack (1), wherein the rack (1) is horizontally arranged and is used for supporting two S-shaped fan-shaped paper sheets to pass through;

two reelpipe subassemblies, two reelpipe subassemblies are first reelpipe subassembly (2) and second reelpipe subassembly (3) respectively and are used for two fan-shaped scraps of paper around rolling up into the conical paper pipe, its characterized in that:

the paper feeding device is characterized in that a first paper feeding mechanism which is used for feeding fan-shaped paper sheets into the first pipe coiling assembly (2) and winding the paper sheets into a conical paper pipe is arranged on the rack (1), and a second paper feeding mechanism which is used for feeding the fan-shaped paper sheets into the first pipe coiling assembly (2) or the second pipe coiling assembly (3) and winding the paper sheets into the conical paper pipe is arranged above the second pipe coiling assembly (3).

2. The double-station pipe coiling device for the paper cone of the pagoda as claimed in claim 1, characterized in that: the two pipe coiling assemblies are arranged at one end of the rack (1) in the same direction and are distributed in a front-back staggered manner.

3. The double-station pipe coiling device for the paper cone of the pagoda as claimed in claim 2, wherein: the second paper feeding mechanism comprises a first x guide rail (4), a y guide rail (5) and a paper inserting and needle removing assembly, wherein one end of the second reel pipe assembly (3) extends to one end of the first reel pipe assembly (2) from one end of the second reel pipe assembly (3), the paper inserting and needle removing assembly is used for completing paper inserting and needle removing actions to fan-shaped paper sheets, the first x guide rail (4) and the y guide rail (5) are perpendicular to and parallel to the distribution directions of the two reel pipe assemblies respectively on a horizontal plane, the paper inserting and needle removing assembly forms a rotary paper inserting assembly through a rotating assembly and is fixed on the y guide rail (5) in a sliding mode, the rotating assembly can enable the fan-shaped paper sheets to rotate 180 degrees and slide to the guide rail (5) and the first x guide rail (4) along the y direction so that the fan-shaped paper sheets are fed into the first reel pipe assembly (2) or the second reel.

4. The double-station pipe coiling device for the paper cone of the pagoda as claimed in any one of claims 1 to 3, characterized in that: first paper feeding assembly includes second x to guide rail (6) and be used for accomplishing to insert paper and the slip needle subassembly of inserting of the action of taking off the needle fan-shaped scraps of paper to two reelpipe subassemblies direction of distribution of perpendicular to on the horizontal plane, insert paper and take off the slip needle subassembly and slide and set up on second x is to guide rail (6), insert paper and take off the slip needle subassembly and can follow second x to guide rail (6) reciprocating motion to make fan-shaped scraps of paper enter into first reelpipe subassembly (2) by frame (1).

5. The double-station pipe coiling device for the paper cone of the pagoda as claimed in claim 3, wherein: the rotary component comprises a servo motor (7) and a suspension arm (8) used for being slidably mounted on the y-direction guide rail (5), the servo motor (7) is fixed on the suspension arm (8), a rotary seat (9) is connected to an output shaft of the servo motor (7), the paper insertion needle removal component is fixed on the rotary seat (9), and the servo motor (7) can drive the paper insertion needle removal component to rotate 180 degrees.

6. The double-station pipe coiling device for the paper cone of the pagoda as claimed in claim 5, wherein: the paper inserting and needle removing assembly comprises paper inserting cylinders (10) and paper inserting needles (11), the paper inserting cylinders (10) are vertically distributed and are in driving connection with the paper inserting needles (11), and the paper inserting cylinders (10) can drive the paper inserting needles (11) to move in a reciprocating mode in the vertical direction so as to insert fan-shaped paper sheets or remove the fan-shaped paper sheets.

7. The double-station pipe coiling device for the paper cone of the pagoda as claimed in claim 6, wherein: the number of the paper inserting and needle removing assemblies in the second paper feeding mechanism is two, and the two paper inserting and needle removing assemblies are diagonally distributed at the bottom of the rotating seat (9).

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