CN212049604U - Multi-thread material loading distributor is used in geothermal pipe production - Google Patents

Abstract

The utility model discloses a multi-line feeding and distributing device for geothermal pipe production, which belongs to the technical field of PE pipe production and processing and is used for solving the technical problems that the feeding and distributing device in the prior art has single function, can not break up the existing caking material blocks in the raw materials or the auxiliary agents of a PE pipe, influences the sufficient mixing of the raw materials and the auxiliary agents and reduces the processing quality; the utility model is provided with a mixing hopper, a conveying feeder, a pipeline of the conveying feeder and the mixing hopper is communicated, and a distributing hopper for distributing materials for a plurality of production lines is arranged on the conveying feeder; and at least a set of blender, blender swivelling joint be inside mixing hopper and through its rotation of first motor drive, blender cloth has laid the tooth group of dialling that the multirow spilled the material along length direction to adjacent two rows are dialled the tooth group and are staggered arrangement, dial the end of tooth group and install the material turning plate that can turn the material, the utility model discloses have can break up the raw materials caking and intensive mixing raw materials, improve product quality, beneficial effect that production efficiency is high.

Description

Multi-thread material loading distributor is used in geothermal pipe production

Technical Field

The utility model relates to a PE pipe production and processing technology field especially relates to a geothermal pipe production is with multi-thread material loading distributor.

Background

The PE-RT pipe is a special linear medium-density ethylene copolymer prepared by copolymerizing ethylene and octene, is added with a proper amount of auxiliary agent, and is a thermoplastic heating pipe formed by extrusion, has good flexibility, small bending radius which is 5 times of the outer diameter of the pipe, does not rebound after being bent due to special stress relaxation, is convenient for laying operation, has good impact resistance and thermal stability, can be connected by hot melting, is convenient for installation and maintenance, and has excellent forming and processing performances, so the PE-RT pipe is usually suitable for a ground heating pipeline system on the basis of the excellent performances;

at present, in the prior art, a raw material feeding and distributing device for producing a PE-RT pipe has a single function, and can not break up the existing caked material blocks in the raw materials or the auxiliary agents of the PE-RT pipe, so that the raw materials and the auxiliary agents are fully mixed, and the processing quality is reduced;

therefore, in view of the above problems, it is necessary to provide a multi-line feeding and distributing device for producing a geothermal pipe, which can break up the blocks, sufficiently mix the raw materials, and improve the product quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defect that prior art exists, provide one kind can break up the raw materials caking and intensive mixing raw materials, improve product quality's a geothermal pipe production is with multi-thread material loading distributor.

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

the utility model discloses a production of geothermal pipe is with multi-thread material loading distributor, include:

a mixing hopper;

the conveying feeder is communicated with the mixing hopper pipeline, and a distributing hopper for distributing materials for a plurality of production lines is arranged on the conveying feeder; and

at least a set of blender, its swivelling joint be in it is inside and rotate through first motor drive mixing hopper, blender cloth is laid the tooth group of dialling that the multirow spilled the material along length direction to adjacent two rows it is staggered arrangement to dial the tooth group, dial the end of tooth group and install the material turning plate that can turn over the material.

Further, the mixer comprises a mixer body which is rotationally connected with the mixing hopper and the set of poking teeth which are formed on the mixer body;

the mixer body is of a cylindrical structure, and a plurality of rows of poking tooth groups for scattering materials are distributed along the length direction;

the stirring tooth group is uniformly distributed with three stirring teeth along the circumferential direction of the mixer body, and the stirring teeth of two adjacent rows of the stirring tooth groups are arranged in a staggered manner.

Further, the shifting tooth comprises a first split body and a second split body;

one end of the first split body is fixedly connected with the mixer body, and the other end of the first split body is fixedly connected with the second split body;

the tail end of the second sub-body is fixedly connected with the material turning plate.

Furthermore, the axes of the first and second sub-bodies in the length direction are not collinear and are bent;

the axial line of the first split in the length direction and the axial line of the cross section of the mixer body are not smaller than an included angle, and the axial line of the first split in the length direction and the axial line of the second split in the length direction are not smaller than an included angle in the same cross section of the mixer body.

Furthermore, a main electromagnetic valve is arranged on a pipeline for communicating the mixing hopper with the conveying feeder and is used for blocking or opening the communication between the mixing hopper and the conveying feeder.

Further, a feeding shaft is arranged in the conveying feeder, and helical blades for conveying materials are formed on the feeding shaft;

and the end part of the conveying feeder is provided with a second motor for driving the feeding shaft to rotate.

Furthermore, a distribution hopper electromagnetic valve is arranged at the material inlet of the distribution hopper and used for blocking or opening the communication between the materials in the distribution hopper and the conveying feeder.

Further, the blenders comprise two groups;

the shifting tooth groups between the two groups of mixers are arranged in a staggered manner;

the two groups of material mixers are in transmission through gears and rotate in opposite directions.

In the technical scheme, the utility model provides a pair of geothermal pipe production is with multi-thread material loading distributor, beneficial effect:

1. the utility model relates to a mixing hopper installs the blender in the mixing hopper, and the blender is formed with group's tooth group and material turnover plate, and through group's tooth group to the material of caking stir the change caking material position through the material turnover plate when scattering, make group's tooth fully scatter the material to and after scattering the material can fully mix the material to make the material even, and then realize improving product quality;

2. the conveying feeder is sequentially provided with a plurality of distributing hoppers, so that the conveying feeder can feed a plurality of production lines;

in addition, the material distributing hopper is also provided with a material distributing hopper electromagnetic valve, and the material conveying feeder is controlled to be blocked or opened to be communicated with the material distributing hopper through the material distributing hopper electromagnetic valve, so that the production efficiency is improved or reduced according to the production requirement, the energy consumption is saved, and the resource waste is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

FIG. 1 is a front view of a multi-line feeding and distributing device for geothermal pipe production disclosed by the present invention;

FIG. 2 is a top view of a mixing hopper of the multi-line feeding and distributing device for geothermal pipe production disclosed by the present invention;

FIG. 3 is an isometric view of a multi-line feeding and distributing device mixer for geothermal pipe production disclosed by the present invention;

FIG. 4 is a left side view of the mixer of the multi-line feeding and distributing device for geothermal pipe production disclosed by the present invention;

FIG. 5 is a front view of another embodiment of the multi-line feeding and distributing device for geothermal pipe production disclosed by the present invention;

fig. 6 is a top view of another embodiment mixing hopper of multi-thread material loading distributor for geothermal pipe production disclosed by the utility model.

Description of reference numerals:

a mixing hopper 1; conveying the feeder 2; a first motor 3; a second motor 4; a mixer 5; a gear 6;

a main electromagnetic valve 101;

a helical blade 201; a hopper distributing electromagnetic valve 202; a hopper 203;

a mixer body 501; a shifting tooth 502; the material turning plate 503.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in FIGS. 1-4;

the utility model relates to a production of geothermal pipe is with multi-thread material loading distributor, include:

a mixing hopper 1;

the conveying feeder 2 is communicated with the mixing hopper 1 through a pipeline, and a distributing hopper 203 for distributing materials for a plurality of production lines is arranged on the conveying feeder 2; and

at least a set of blender 5, its swivelling joint is inside mixing hopper 1, and drives its rotation through first motor 3, and blender 5 cloth is equipped with the tooth group of dialling that the multirow spilled the material along length direction to adjacent two rows of dialling the tooth group and being staggered arrangement, dial the end of tooth group and install the material turning plate 503 that can turn over the material.

Specifically, as shown in fig. 1, the structure comprises a mixing hopper 1, a conveying feeder 2, a first motor 3, a second motor 4 and a mixer 5;

referring to fig. 1, the lower part of the mixing hopper 1 is connected with a conveying feeder 2 through a pipeline, the conveying feeder 2 is sequentially provided with three distributing hoppers 203, the conveying feeder 2 can feed a plurality of production lines, the simultaneous operation of the production lines is convenient, the production efficiency is improved,

referring to fig. 2, a mixer 5 is rotationally connected in a mixing hopper 1, a first motor 3 for driving the mixer 5 to rotate is mounted at one end of the mixing hopper 1, a plurality of rows of shifting tooth groups are distributed on the mixer 5 along the length direction, two adjacent rows of shifting tooth groups are arranged in a staggered manner, and a material turning plate 503 is mounted at the tail end of each shifting tooth group;

referring to fig. 3, preferably, the mixer 5 includes a mixer body 501 rotatably connected to the mixing hopper 1 and a set of teeth formed on the mixer body 501;

the mixer body 501 is a cylindrical structure, and is provided with a plurality of rows of poking tooth groups for scattering materials along the length direction;

the poking tooth groups are evenly distributed with three poking teeth 502 along the circumferential direction of the mixer body 501, and the poking teeth 502 of two adjacent rows of poking tooth groups are arranged in a staggered manner.

Specifically, blender 5 includes blender body 501 and dials the tooth group, blender body 501 is the cylinder structure, 1 swivelling joint of blender body 501 both ends all with mixing hopper, and one end and 3 output shaft fixed connection of first motor, blender body 501 outer wall extension degree direction is formed with the multiunit and dials the tooth group, two adjacent rows dial the tooth 502 of dialling the tooth group and be the staggered arrangement, every group dials the tooth group and includes three tooth 502, dial tooth 502 along blender body 501 circumference evenly distributed, be convenient for fully break up the caking material. Preferably, finger 502 includes a first body and a second body; one end of the first split body is fixedly connected with the mixer body 501, and the other end of the first split body is fixedly connected with the second split body; the end of the second segment is fixedly connected with a material turning plate 503.

Referring to fig. 4, preferably, the axes of the first and second sub-bodies in the length direction are not collinear and are bent; specifically, in the structure, the axial line of the first split body in the length direction forms an included angle of not less than 30 degrees with the axial line of the cross section of the mixer body, the axial lines of the first split body and the second split body in the length direction form an included angle of not less than 30 degrees in the same cross section of the mixer body 501, when the mixer 5 rotates, the material can be subjected to centrifugal force while being stirred by the stirring teeth 502, and then the material is fully stirred for mixing;

as shown in fig. 1; preferably, a main solenoid valve 101 is disposed on a pipeline connecting the mixing hopper 1 and the delivery feeder 2, and is used for blocking or opening the communication between the mixing hopper 1 and the delivery feeder 2.

Specifically, in the structure, a main electromagnetic valve 101 is arranged on a pipeline for communicating the mixing hopper 1 with the conveying feeder 2, when the main electromagnetic valve 101 is opened, the mixing hopper 1 is communicated with the conveying feeder 2, and when the main electromagnetic valve 101 is closed, the communication between the mixing hopper 1 and the conveying feeder 2 is blocked, so that the materials in the mixing hopper 1 can be controlled to enter the conveying feeder 2 after being fully mixed;

referring to fig. 1, preferably, a feeding shaft is arranged in the feeding feeder 2, and a helical blade 201 for conveying materials is formed on the feeding shaft; the end part of the conveying feeder 2 is provided with a second motor 4 for driving the feeding shaft to rotate.

Specifically, in the structure, one end of the conveying feeder 2 is fixedly connected with the second motor 4, the power output end of the second motor 4 is fixedly and electrically connected with a feeding shaft arranged in the conveying feeder 2, and a spiral blade 201 is formed on the outer wall of the feeding shaft;

referring to fig. 1, preferably, the material inlet of the distributing hopper 203 is provided with a distributing hopper solenoid valve 202 for blocking or opening the communication between the material of the distributing hopper 203 and the conveying loader 2.

Specifically, in the structure, a distributing hopper electromagnetic valve 202 is distributed at a material inlet of a distributing hopper 203, the communicating between the materials in the distributing hopper 203 and a conveying feeder 2 is blocked or opened through the distributing hopper electromagnetic valve 202, when the yield needs to be increased, a plurality of distributing hoppers 203 can be opened simultaneously, a plurality of production lines work simultaneously, the yield is improved, when the yield needs to be reduced, the yield can be controlled by closing one or more distributing hoppers 203, the energy consumption is saved, and the resource waste is avoided;

referring to fig. 5 and 6, it is further preferred that the blender 5 comprises two sets;

the shifting tooth groups between the two groups of mixers 5 are arranged in a staggered way;

wherein, the two groups of mixers 5 are driven by a gear 6 and rotate in opposite directions.

Specifically, blender 5 is including two sets ofly, first blender and second blender, when first blender is as the driving shaft, first blender and first motor 3 drive end fixed connection, when first blender anticlockwise rotation, the second blender is clockwise rotation, it is staggered arrangement to dial tooth group between two sets of blendors 5, this structure is through two sets of blendors 5 simultaneous workings, reduce and dial the interval between the tooth group, can further improve and break up caking material efficiency, reduce the churning time, increase production efficiency.

In the technical scheme, the utility model provides a multi-line feeding distributor for geothermal pipe production;

the working principle is as follows: the main electromagnetic valve 101 and the material separating hopper electromagnetic valve 202 of the feeding and distributing device, and the first motor 3 and the second motor 4 are all connected with an external control system circuit;

when the mixer works, the main electromagnetic valve 101 and the distribution hopper electromagnetic valve 202 are in a closed state, materials enter the mixing hopper 1 from the storage bin, the first motor 3 drives the mixer body 501 of the mixer 5 to rotate, the poking teeth 502 break the materials, and the material stirring plate 503 mixes the materials;

after the materials are uniformly mixed, the main electromagnetic valve 101 is opened, the materials enter the conveying feeder 2, the second motor 4 drives the conveying shaft of the conveying feeder 2 to rotate, the materials reach the positions of the distributing hoppers 203 under the action of the helical blades 201 of the conveying shaft, the distributing hopper electromagnetic valves 202 at the inlet positions of the distributing hoppers 203 are opened, the materials enter the distributing hoppers 203, and the distributing hoppers 203 convey the materials to respective production lines for next process operation.

Has the advantages that:

1. the utility model relates to a mixing hopper installs the blender in the mixing hopper, and the blender is formed with group's tooth group and material turnover plate, and through group's tooth group to the material of caking stir the change caking material position through the material turnover plate when scattering, make group's tooth fully scatter the material to and after scattering the material can fully mix the material to make the material even, and then realize improving product quality;

2. the conveying feeder is sequentially provided with a plurality of distributing hoppers, so that the conveying feeder can feed a plurality of production lines;

in addition, the material distributing hopper is also provided with a material distributing hopper electromagnetic valve, and the material conveying feeder is controlled to be blocked or opened to be communicated with the material distributing hopper through the material distributing hopper electromagnetic valve, so that the production efficiency is improved or reduced according to the production requirement, the energy consumption is saved, and the resource waste is avoided.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (8)

1. The utility model provides a multi-thread material loading distributor for geothermal pipe production which characterized in that includes:

a mixing hopper (1);

the conveying feeder (2) is communicated with the mixing hopper (1) through a pipeline, and distributing hoppers (203) for distributing materials for a plurality of production lines are distributed on the conveying feeder (2); and

at least a set of blender (5), its swivelling joint be in it is rotatory inside mixing hopper (1) and through its rotation of first motor (3) drive, blender (5) cloth is equipped with the multirow and spills the group of the tooth of dialling of material along length direction to adjacent two rows it is staggered arrangement to dial the tooth group, dial the end of tooth group and install material panel (503) of turning over the material.

2. The multi-line feeding and distributing device for geothermal pipe production as recited in claim 1, wherein;

the mixer (5) comprises a mixer body (501) rotationally connected with the mixing hopper (1) and the set of poking teeth formed on the mixer body (501);

the mixer body (501) is of a cylindrical structure, and a plurality of rows of poking tooth groups for scattering materials are distributed along the length direction;

the stirring teeth groups are uniformly distributed with three stirring teeth (502) along the circumferential direction of the mixer body (501), and the stirring teeth (502) of the adjacent two rows of the stirring teeth groups are arranged in a staggered manner.

3. The multi-line feeding and distributing device for geothermal pipe production as recited in claim 2, wherein;

the shifting tooth (502) comprises a first split body and a second split body;

one end of the first split body is fixedly connected with the mixer body (501), and the other end of the first split body is fixedly connected with the second split body;

the tail end of the second sub-body is fixedly connected with the material turning plate (503).

4. The multi-line feeding and distributing device for geothermal pipe production as recited in claim 3, wherein;

the axes of the first and second split bodies in the length direction are not collinear and are bent;

the axial line of the first split in the length direction and the axial line of the cross section of the mixer body (501) form an included angle of not less than 30 degrees, and the axial line of the first split and the axial line of the second split in the length direction form an included angle of not less than 30 degrees in the same cross section of the mixer body (501).

5. The multi-line feeding and distributing device for geothermal pipe production as recited in claim 1, wherein;

and a main electromagnetic valve (101) is arranged on a pipeline for communicating the mixing hopper (1) with the conveying feeder (2) and is used for blocking or opening the communication between the mixing hopper (1) and the conveying feeder (2).

6. The multi-line feeding and distributing device for geothermal pipe production as recited in claim 1, wherein;

a feeding shaft is arranged in the conveying feeder (2), and a helical blade (201) for conveying materials is formed on the feeding shaft;

and a second motor (4) is arranged at the end part of the conveying feeder (2) and is used for driving the feeding shaft to rotate.

7. The multi-line feeding and distributing device for geothermal pipe production as recited in claim 1, wherein;

a material distributing hopper electromagnetic valve (202) is distributed at the material inlet of the material distributing hopper (203) and is used for blocking or opening the communication between the materials of the material distributing hopper (203) and the conveying feeder (2).

8. The multi-line feeding and distributing device for geothermal pipe production as recited in any one of claims 1 to 7, wherein;

the blender (5) comprises two groups;

the poking tooth groups between the two groups of mixers (5) are arranged in a staggered manner;

the two groups of mixers (5) are driven by gears (6) and rotate in opposite directions.

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