CN211279353U - Conductive polymer material forming and guiding device - Google Patents

Abstract

The utility model belongs to the technical field of the guiding device technique and specifically relates to a conductive polymer material shaping guiding device, including placing the seat, the top of placing the seat is connected with a plurality of fortune material pipes through a plurality of first supporting seats, fortune material pipe is equipped with one of discharging pipe and serves coaxially and is equipped with first motor, be connected with the pivot on the output of first motor, and fixedly connected with helical blade on the outer wall of pivot, fortune intraductal rotation seat that is equipped with of material, rotate and follow a plurality of stiffeners of axially fixed connection on the seat outer wall, the other end fixed connection of stiffener is on fortune material pipe's inner wall, the other end coaxial rotation of pivot is connected in rotating the seat, the coaxial rotating tube that is equipped with on fortune material pipe's the outer wall, coaxial connection has a plurality of annular heater strips on the inner wall of rotating tube, a plurality of annular heater. The utility model discloses simple structure and very big accelerated the transport speed of material, improved the security that the device used simultaneously.

Description

Conductive polymer material forming and guiding device

Technical Field

The utility model relates to a guiding device technical field especially relates to a conductive polymer material shaping guiding device.

Background

The polymer material is a material formed by compounds with relatively high molecular mass, the polymer is a form in which life exists, all life bodies can be regarded as a polymer set, the polymer is required to be drained through the flow guide device in the process of polymer transmission, and the flowability of different polymer materials is different, so that the polymer material is condensed in the flow guide cylinder, and the flow guide speed is influenced. Therefore, we propose a conductive polymer material forming and guiding device.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a conductive polymer material forming and guiding device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the design is a conductive high polymer material forming and guiding device, which comprises a placing seat, wherein the top of the placing seat is connected with a plurality of material conveying pipes through a plurality of first supporting seats, the bottom of one end of each material conveying pipe is provided with a material discharging pipe, the other end of each material conveying pipe is provided with a material discharging port, one end of each material conveying pipe provided with the material discharging pipe is coaxially provided with a first motor, the output end of each first motor is connected with a rotating shaft, the rotating shaft is coaxially arranged in each material conveying pipe, the outer wall of each rotating shaft is fixedly connected with a helical blade, each material conveying pipe is internally provided with a rotating seat, the outer wall of each rotating seat is fixedly connected with a plurality of reinforcing rods along the axial direction, the other ends of the reinforcing rods are fixedly connected to the inner wall of each material conveying pipe, the other ends of the rotating shafts are coaxially rotatably connected into the rotating seats, the outer wall of, the annular heating wires are connected to the inner wall of the rotating pipe in an equidistant mode, an annular connecting seat is coaxially connected to one end of the outer wall of the rotating pipe, a second annular sliding groove is coaxially formed in the outer portion of the annular connecting seat, an annular metal block is coaxially and fixedly connected to the inner portion of the second annular sliding groove, a connecting seat is fixedly connected to the top of the placing seat and located right below the annular connecting seat, a metal sliding block is fixedly connected to the top of the connecting seat and is connected to the second annular sliding groove in a sliding mode, the metal sliding block is in contact with the annular metal block, the annular heating wires are connected with the annular metal block through wires, a plurality of toothed plates are axially connected to two ends of the outer wall of the rotating pipe, a second motor is arranged at a position corresponding to the top of the placing seat, and a gear is coaxially connected to the output, the gear is meshed with the toothed plate at the corresponding position.

Preferably, the one end that the rotating tube is close to the discharging pipe is connected with the motor case, first motor coaxial coupling is in the motor incasement, one side that motor case and rotating tube are close each other all is connected with annular mounting panel, and two connect through a plurality of bolts between the annular mounting panel.

Preferably, the top of the placing seat is fixedly connected with a second supporting seat, and the second motor is connected to the top of the second supporting seat.

Preferably, the outer wall of the rotating pipe is fixedly connected with a plurality of heat dissipation plates, and the plurality of heat dissipation plates are obliquely connected to the outer wall of the rotating pipe.

Preferably, a plurality of first annular sliding grooves are coaxially arranged on the outer wall of the material conveying pipe, the first annular sliding grooves are arranged on the outer wall of the material conveying pipe at equal intervals, and the annular heating wires are coaxially connected in the first annular sliding grooves at corresponding positions.

The utility model provides a pair of electrically conductive macromolecular material shaping guiding device, beneficial effect lies in: the utility model discloses under the operation of heating and inside pivoted helical blade's combined action, can effectually avoid inside macromolecular material to bond on the inner wall of fortune material pipe, simple structure and very big quickening the transport speed of material, simultaneously, the setting of heating panel can effectually avoid the rotating-tube surface overheated, has improved the security of using.

Drawings

Fig. 1 is a schematic structural view of a conductive polymer material molding diversion device provided by the present invention.

Fig. 2 is a sectional view of a structural part of a conductive polymer material molding flow guiding device provided by the present invention.

Fig. 3 is a partial enlarged view of a portion a of the conductive polymer material molding diversion device of the present invention.

Fig. 4 is a connection diagram of the annular connecting seat and the metal slider of the conductive polymer material molding flow guiding device provided by the utility model.

In the figure: first motor 1, annular mounting panel 2, pinion rack 3, annular connecting seat 4, motor case 5, discharging pipe 6, first supporting seat 7, gear 8, second supporting seat 9, second motor 10, rotating tube 11, heating panel 12, place seat 13, fortune material pipe 14, discharge gate 15, first annular sliding tray 16, rotating seat 17, stiffener 18, annular heater strip 19, pivot 20, helical blade 21, metal slide 22, connecting seat 23, second annular sliding tray 24, annular metal block 25.

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.

Referring to fig. 1-4, a conductive polymer material forming and guiding device comprises a placing seat 13, the top of the placing seat 13 is connected with a plurality of material conveying pipes 14 through a plurality of first supporting seats 7, the bottom of one end of each material conveying pipe 14 is provided with a material discharging pipe 6, the other end of each material conveying pipe 14 is provided with a material discharging port 15, one end of each material conveying pipe 14 provided with the material discharging pipe 6 is coaxially provided with a first motor 1, the output end of each first motor 1 is connected with a rotating shaft 20, the rotating shaft 20 is coaxially arranged in each material conveying pipe 14, the outer wall of each rotating shaft 20 is fixedly connected with a spiral blade 21, a rotating seat 17 is arranged in each material conveying pipe 14, a plurality of reinforcing rods 18 are fixedly connected to the outer wall of each rotating seat 17 along the axial direction, the other ends of the reinforcing rods 18 are fixedly connected to the inner wall of each material conveying pipe 14, the arrangement of the reinforcing rods 18 improves the connection stability of the rotating seats 17 in the, the other end coaxial rotation of pivot 20 is connected in rotating seat 17, under the effect of pivot 20 and first motor 1, can drive helical blade 21 and carry out the effect of fine stirring and fortune material in fortune material pipe 14, and then has guaranteed that macromolecular material carries out normal transportation in fortune material pipe 14, can effectually avoid the emergence of macromolecular material adhesion to appear in fortune material pipe 14.

A rotating pipe 11 is coaxially arranged on the outer wall of the material conveying pipe 14, a plurality of annular heating wires 19 are coaxially connected on the inner wall of the rotating pipe 11, the annular heating wires 19 are equidistantly connected on the inner wall of the rotating pipe 11, one end of the outer wall of the rotating pipe 11 is coaxially connected with an annular connecting seat 4, a second annular sliding groove 24 is coaxially arranged outside the annular connecting seat 4, an annular metal block 25 is coaxially and fixedly connected in the second annular sliding groove 24, a connecting seat 23 is fixedly connected at the top of the placing seat 13, the connecting seat 23 is positioned under the annular connecting seat 4, a metal sliding block 22 is fixedly connected at the top of the connecting seat 23, the metal sliding block 22 is slidably connected in the second annular sliding groove 24, the metal sliding block 22 is contacted with the annular metal block 25, the arranged metal sliding block 22 is connected with a power supply device through a lead, and the arranged metal sliding block, meanwhile, the normal electrical connection of the device can be ensured through the matching connection between the metal sliding block 22 and the annular metal block 25.

The annular heating wires 19 are connected with the annular metal block 25 through wires, the two ends of the outer wall of the rotating pipe 11 are both connected with the toothed plates 3 along the axial direction, the second motor 10 is arranged at the position corresponding to the top of the placing seat 13, the output end of the second motor 10 is coaxially connected with the gear 8, the gear 8 is meshed with the toothed plates 3 at the corresponding positions, the second motor 10 is electrically connected through wires and a switch, the gear 8 is driven to rotate through the second motor 10, and the gear 8 and the toothed plates 3 are connected in a matched manner, so that the rotating pipe 11 can be driven to stably rotate on the outer wall of the conveying pipe 14, the annular heating wires 19 can be driven to rotate on the outer wall of the conveying pipe 14 while rotating, the conveying pipe 14 can be heated, and the heat dissipation plate 12 arranged on the outer wall of the rotating pipe 11 can dissipate heat of the outer wall of the rotating pipe 11, and the use safety is ensured, avoid the damage of the surface overheating to the operator.

The utility model discloses the rotating tube 11 that sets up can be at gear 8, under the combined action of second motor 10, can realize fine rotation effect on fortune material pipe 14's outer wall, can heat fortune material pipe 14's outer wall at pivoted in-process annular heating wire 19, and annular heating wire 19's outside still is equipped with the inoxidizing coating, can effectually play fine guard action to annular heating wire 19, can extension fixture's life, under the operation of heating and inside pivoted helical blade 21's combined action, can effectually avoid inside macromolecular material to bond on fortune material pipe 14's inner wall, simple structure and very big acceleration the transportation speed of material.

Specifically, when the device is in use, the device is connected with a power supply device through a wire, meanwhile, the device can be opened through a set switch, a high polymer material to be guided flows into a material conveying pipe 14 through a material outlet 15, the high polymer material inside the material conveying pipe 14 can be driven to move out of the material conveying pipe 14 through the material outlet 15, the gear 8 can be driven to rotate in the rotating process of the second motor 10, the gear 8 is meshed with the toothed plate 3 to be connected, the rotating pipe 11 can be driven to rotate on the outer wall of the material conveying pipe 14, the metal sliding block 22 can slide on the annular metal block 25 in the rotating process, meanwhile, under the combined action of the annular metal block 25 and the metal sliding block 22, the electrical connection of the device can be realized, the annular heating wire 19 can heat the material conveying pipe 14, and meanwhile, the first motor 1 can drive the spiral blade 21 to stir in the material conveying pipe 14 when rotating, the high polymer material can be effectively prevented from being adhered to the inner wall of the material conveying pipe 14.

Referring to fig. 1 and 2, further, one end of the rotating pipe 11 close to the discharging pipe 6 is connected with a motor box 5, the first motor 1 is coaxially connected in the motor box 5, one side of the motor box 5 close to the rotating pipe 11 is connected with an annular mounting plate 2, and the two annular mounting plates 2 are connected through a plurality of bolts.

Can realize dismantling the connection between motor case 5 and the rotating tube 11 through the mounting panel 2 that sets up, when the installation with dismantle, through dismantle behind a plurality of bolts can, easy operation and the operation of being convenient for have brought very big facility for staff's installation and maintenance.

Referring to fig. 1 and 2, a second supporting seat 9 is fixedly connected to the top of the placing seat 13, and a second motor 10 is connected to the top of the second supporting seat 9.

The provision of the second support 9 improves the stability of the mounting of the second motor 19 on top of the placing seat 13.

Referring to fig. 1 and 2, a plurality of heat dissipation plates 12 are fixedly connected to an outer wall of the rotating pipe 11, and the plurality of heat dissipation plates 12 are obliquely connected to the outer wall of the rotating pipe 11.

The arrangement of the heat dissipation plate 12 can well play a role in heat dissipation on the outer wall of the rotating pipe 11, damage to operators due to surface overheating is avoided, and use safety is improved.

Referring to fig. 2 and 3, further, a plurality of first annular sliding grooves 16 are coaxially arranged on the outer wall of the material conveying pipe 14, the plurality of first annular sliding grooves 16 are equidistantly arranged on the outer wall of the material conveying pipe 14, and a plurality of annular heating wires 19 are coaxially connected in the first annular sliding grooves 16 at corresponding positions.

Under the cooperation connection between first annular sliding groove 16 and annular heating wire 19, guaranteed that rotating tube 11 is in fortune material pipe 14 outside pivoted stability, and then guaranteed the normal clear of instant heating for the device can carry out quick water conservancy diversion.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The conductive polymer material forming and flow guiding device comprises a placing seat (13) and is characterized in that the top of the placing seat (13) is connected with a plurality of conveying pipes (14) through a plurality of first supporting seats (7), a discharging pipe (6) is arranged at the bottom of one end of each conveying pipe (14), a discharging port (15) is formed in the other end of each conveying pipe (14), a first motor (1) is coaxially arranged at one end of each conveying pipe (14) provided with the discharging pipe (6), a rotating shaft (20) is connected to the output end of each first motor (1), the rotating shaft (20) is coaxially arranged in each conveying pipe (14), a spiral blade (21) is fixedly connected to the outer wall of each rotating shaft (20), a rotating seat (17) is arranged in each conveying pipe (14), and a plurality of reinforcing rods (18) are fixedly connected to the outer wall of each rotating seat (17) along the axial direction, the other end of the reinforcing rod (18) is fixedly connected to the inner wall of the material conveying pipe (14), the other end of the rotating shaft (20) is coaxially connected to the rotating seat (17) in a rotating mode, the outer wall of the material conveying pipe (14) is coaxially provided with the rotating pipe (11), the inner wall of the rotating pipe (11) is coaxially connected with a plurality of annular heating wires (19), the annular heating wires (19) are connected to the inner wall of the rotating pipe (11) in an equidistant mode, one end of the outer wall of the rotating pipe (11) is coaxially connected with the annular connecting seat (4), the outer portion of the annular connecting seat (4) is coaxially provided with a second annular sliding groove (24), an annular metal block (25) is coaxially and fixedly connected to the inner portion of the second annular sliding groove (24), the top of the placing seat (13) is fixedly connected with the connecting seat (23), and the connecting seat (23) is located under the, the top fixedly connected with metal sliding block (22) of connecting seat (23), metal sliding block (22) sliding connection is in second annular sliding groove (24), just metal sliding block (22) and annular metal piece (25) contact, and is a plurality of annular heater strip (19) are connected through wire and annular metal piece (25), the both ends of rotating tube (11) outer wall all are connected with a plurality of pinion racks (3) along the axial, the top of placing seat (13) corresponds position department and is equipped with second motor (10), the output coaxial coupling of second motor (10) has gear (8), gear (8) and pinion rack (3) meshing connection that corresponds position department.

2. The forming and flow guiding device for the conductive polymer material as claimed in claim 1, wherein a motor box (5) is connected to one end of the rotating pipe (11) close to the discharging pipe (6), the first motor (1) is coaxially connected in the motor box (5), annular mounting plates (2) are connected to one sides of the motor box (5) and the rotating pipe (11) close to each other, and the two annular mounting plates (2) are connected through a plurality of bolts.

3. The device for forming and guiding the conductive polymer material according to claim 1, wherein a second supporting base (9) is fixedly connected to the top of the placing base (13), and the second motor (10) is connected to the top of the second supporting base (9).

4. The forming and guiding device of the conductive polymer material as claimed in claim 1, wherein a plurality of heat dissipation plates (12) are fixedly connected to the outer wall of the rotating tube (11), and the plurality of heat dissipation plates (12) are obliquely connected to the outer wall of the rotating tube (11).

5. The forming and flow guiding device for the conductive polymer material as claimed in claim 1, wherein a plurality of first annular sliding grooves (16) are coaxially formed in the outer wall of the material conveying pipe (14), the plurality of first annular sliding grooves (16) are equidistantly formed in the outer wall of the material conveying pipe (14), and a plurality of annular heating wires (19) are coaxially connected in the first annular sliding grooves (16) at corresponding positions.

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