CN107934601B

CN107934601B - Feeding system and feeding method adopting air compressor waste heat circulation preheating

Info

Publication number: CN107934601B
Application number: CN201711330293.XA
Authority: CN
Inventors: 洪猛
Original assignee: Fuqing Hongyu Plastic Co ltd
Current assignee: Fuqing Hongyu Plastic Co ltd
Priority date: 2017-12-13
Filing date: 2017-12-13
Publication date: 2023-06-30
Anticipated expiration: 2037-12-13
Also published as: CN107934601A

Abstract

The invention discloses a waste heat circulation preheating feeding system adopting an air compressor, which comprises a three-phase asynchronous motor, a feeding device main body and a rotating disc, wherein the three-phase asynchronous motor is arranged at the center of the feeding device main body, the three-phase asynchronous motor is rotationally connected with the rotating disc through a rotating bearing at the side end, a connecting frame is arranged at the lower end of the rotating bearing, a communicating pipe is arranged at one side of the connecting frame, one end of the communicating pipe is communicated with a connecting sleeve opening, a sleeve is arranged at the center of an inner cavity of the connecting sleeve opening, a splicing ring is welded at one end of the sleeve, a fastening ring is wound at one end of the sleeve, which is deviated from the splicing ring, the other end of the communicating pipe is communicated with the rotating disc, a transmission frame is rotationally connected at the bottom end of the inner cavity of the rotating disc, a chassis is connected with the upper end of the transmission frame, and a protective layer is arranged at the lower end of the inner cavity of the chassis. The invention adopts the waste heat circulation preheating feeding system of the air compressor, and realizes the purpose of rotation heating through the arrangement of the rotating disc.

Description

Feeding system and feeding method adopting air compressor waste heat circulation preheating

Technical Field

The invention relates to the technical field of feeding equipment, in particular to a feeding system and a feeding method adopting waste heat circulation preheating of an air compressor.

Background

Adopt the air compressor machine waste heat circulation to preheat and throw the material system and can help carrying out the material work of throwing in advance, solve traditional material supercooled inconvenience of throwing, can conveniently remove simultaneously, adapt to more topography, reached labour saving and time saving's purpose, conveniently carry out maintenance work, guarantee the quality of product, but adopt the air compressor machine waste heat circulation to preheat at present and throw the material system and have following problem:

firstly, the switching work is inconvenient, and the inner end is heated and uneven, which causes certain inconvenience, secondly, the air compressor can not be stably connected with the air compressor, and the improvement is needed.

Disclosure of Invention

The invention aims to provide a preheating feeding system adopting waste heat circulation of an air compressor so as to solve the problems in the background technology.

The invention further aims at providing a preheating feeding method by adopting the waste heat circulation of the air compressor.

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

scheme one

The utility model provides an adopt air compressor machine waste heat circulation to preheat feeding system, includes three-phase asynchronous motor, feeding device main part and rolling disc, three-phase asynchronous motor installs in feeding device main part central point put, three-phase asynchronous motor rotates with the rolling disc through the antifriction bearing of side, the link is installed to the antifriction bearing lower extreme, link one side is equipped with communicating pipe, and communicating pipe one end intercommunication has the linking sleeve mouth, linking sleeve mouth inner chamber center is equipped with the sleeve pipe, sleeve pipe one end welding has the grafting ring, the one end round of sleeve pipe deviating from the grafting ring has the fastening ring, the communicating pipe other end is linked together with the rolling disc, rolling disc inner chamber bottom rotates and is connected with the drive frame, the drive frame upper end is connected with the chassis, chassis inner chamber lower extreme is equipped with the inoxidizing coating, inoxidizing coating upper end round connection has first heating pipe, first heating pipe has the second heating pipe through the link intercommunication, first heating pipe, link and second heating pipe lateral wall all have seted up the second heating mouth, the chassis side end rotates and is connected with the dispersion frame, and dispersion frame outside end is connected with the shell, and dispersion frame looks shell, and protection shell is laminated with the protection shell, a fixed connection center has a rolling disc.

Preferably, the fastening ring is of a double-layer design.

Preferably, the connection sleeve opening is fastened with the communicating pipe through a fastening ring.

Preferably, the arc diameter of the second heating pipe is smaller than that of the first heating pipe.

Preferably, the first heating pipe and the second heating pipe are both laid at the top end of the inner cavity of the chassis.

Preferably, the three-phase asynchronous motor is connected with the transmission frame through a communicating pipe.

Preferably, the side end protection shell of the rotating disc is made of stainless steel alloy materials.

Preferably, the side end of the rotating disc is provided with a groove.

The scheme I is that the material feeding system adopts the waste heat circulation preheating of the air compressor, and the material feeding method comprises the following steps:

s1: assembling the feeding device main body: the transmission frame at the bottom end of the inner cavity of the rotating disc is connected with the three-phase asynchronous motor, the three-phase asynchronous motor drives the transmission rod, the transmission frame rotates, the chassis at the upper end is driven to rotate through the clamping teeth at the inner end, the dispersion frame is rotationally connected with the side end of the chassis, the dispersion frame is attached to the protective shell, the upper end of the chassis is connected with the dispersion frame through screws, and the dispersion frame is driven to rotate along with the rotation of the chassis;

s2: installing a connecting sleeve opening, connecting a sleeve in the center of an inner cavity of the connecting sleeve opening, connecting the sleeve with an air compressor through the connecting sleeve opening, carrying out high-temperature steam transferring work through the sleeve, connecting a plug ring at one end of the sleeve with the air compressor through a latch at the outer end, sealing the inner end, and protecting a protection plate at the side end to help to carry out protection work; the other end of the sleeve is connected with a fastening ring in a winding way, a user can connect the connecting sleeve opening with the connecting pipe in a spiral way through the fastening ring, and the protective layer at the lower end of the inner cavity of the chassis is arranged through the mounting chassis,

s3: the first heating pipe of inoxidizing coating upper end wiring is connected the second heating pipe through the intercommunication frame, and the user is connected first heating pipe and second heating pipe with the connection sleeve mouth, through the transmission of connecting the sleeve mouth for the inner high temperature steam enters into first heating pipe inner, and first heating pipe and second heating pipe are linked together, and high temperature steam discharges outside first heating pipe through the second heating mouth, with the material body direct contact.

Compared with the prior art, the invention has the beneficial effects that:

1. through the installation rolling disc, the drive frame and the three-phase asynchronous motor of rolling disc inner chamber bottom are connected, through three-phase asynchronous motor's drive, through the transfer pole, make the drive frame rotate, the rotation of drive frame, through the latch of inner, the chassis of drive upper end rotates, and the chassis side rotates and is connected with the dispersion frame, the dispersion frame is laminated with protecting sheathing, the chassis upper end is connected with the dispersion frame through the screw, rotate through the rotation on chassis, drive the dispersion frame and follow the rotation, make and conveniently carry out the wiping of inner material body even, make the inner be heated more abundant, be convenient for carry out switching work.

2. Through the installation connection sleeve mouth, connect sleeve mouth inner chamber center's sleeve pipe, realize the purpose of connection, be connected with the air compressor machine through connecting the sleeve mouth, carry out the transportation work of high temperature steam through the sleeve pipe, the grafting ring of sleeve pipe one end, be connected with the air compressor machine through the latch of outside end, and realize the sealed of inner, the guard plate help of side carries out protection work, the sleeve pipe other end round joint has the fastening ring, the user can be with connecting sleeve mouth and connecting pipe screwed connection through the fastening ring, the compactness of reinforcing inner, and conveniently dismantle the work, realize carrying out firm connection with the air compressor machine.

3. Through the installation chassis, the inoxidizing coating of chassis inner chamber lower extreme realizes the protection work of bottom, prevent that the temperature from being too high from causing the damage of throw material device main part, first heating pipe of inoxidizing coating upper end wiring is connected second heating pipe through the intercommunication frame, the user is connected first heating pipe and second heating pipe and connection sleeve mouth, pass through the transmission of connection sleeve mouth, make inner high temperature steam enter into first heating pipe inner, and first heating pipe and second heating pipe are linked together, realize the purpose of joint work, high temperature steam is outside through second heating mouth discharge first heating pipe, with the material body direct contact, make the material body heat, conveniently throw the work in advance, and through the setting of disk type, make the inner be heated more evenly, the better use of throwing material device main part.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic view of a rotating disc structure according to the present invention;

FIG. 3 is a schematic view of the chassis structure of the present invention;

fig. 4 is a schematic view of the structure of the connecting sleeve according to the present invention.

In the figure: 1-a supporting seat; 2-three-phase asynchronous motor; 3-connecting the sleeve opening; 4-communicating pipe; 5-connecting frames; 6-a rotating bearing; 7-a feeding device main body; 8-rotating a disc; 9-a first heating port; 10-a protective housing; 11-a transmission frame; 12-a dispersion frame; 13-chassis; 14-a first heating tube; 15-connecting frames; 16-a second heating port; 17-a protective layer; 18-a second heating tube; 19-a sleeve; 20-a plug ring; 21-a fastening ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an adopt air compressor machine waste heat circulation to preheat feeding system, including three-phase asynchronous motor 2, feeding device main part 7 and rolling disc 8, three-phase asynchronous motor 2 installs in feeding device main part 7 central point put, three-phase asynchronous motor 2 rotates with rolling disc 8 through the rolling bearing 6 of side, connecting frame 5 is installed to rolling bearing 6 lower extreme, connecting frame 5 one side is equipped with communicating pipe 4, and communicating pipe 4 one end intercommunication has the junction box mouth 3, junction box mouth 3 inner chamber center is equipped with sleeve 19, sleeve 19 one end welding has jack collar 20, sleeve 19 deviates from the one end round connection of jack collar 20 has fastening ring 21, through installing junction box mouth 3, the sleeve 19 at junction box mouth 3 inner chamber center, realize the purpose of connection, be connected with the air compressor machine through the junction box mouth 3, carry out the transportation work of high temperature steam through sleeve 19, sleeve 19 one end's jack collar 20, the air compressor is connected with the outside end through the latch and realizes the sealing of the inner end, the protection plate of the side end helps to carry out the protection work, the other end of the sleeve 19 is connected with the fastening ring 21 in a winding way, a user can connect the connecting sleeve opening 3 with the connecting pipe through the fastening ring 21 in a spiral way, the tightness of the inner end is enhanced, and the disassembly work is convenient, the stable connection with the air compressor is realized, the other end of the communicating pipe 4 is communicated with the rotating disc 8, the bottom end of the inner cavity of the rotating disc 8 is rotationally connected with the transmission frame 11, the upper end of the transmission frame 11 is connected with the chassis 13, the lower end of the inner cavity of the chassis 13 is provided with the protection layer 17, the upper end of the protection layer 17 is connected with the first heating pipe 14 in a winding way, the first heating pipe 14 is communicated with the second heating pipe 18 through the communication frame 15, the side walls of the first heating pipe 14, the communication frame 15 and the second heating pipe 18 are all provided with the second heating opening 16, the protection layer 17 at the lower end of the inner cavity of the chassis 13 is installed through the chassis 13, the protection work of bottom is realized, prevent that the too high temperature from causing the damage of throw material device main part 7, the first heating pipe 14 of inoxidizing coating 17 upper end wiring communicates the second heating pipe 18 through the intercommunication frame 15, the user is connected first heating pipe 14 and second heating pipe 18 with connect the loop 3, pass through the transmission of connecting the loop 3, make the inner high temperature steam enter into first heating pipe 14 inner, and first heating pipe 14 and second heating pipe 18 are linked together, realize the mesh of joint work, the high temperature steam is outside through second heating mouth 16 discharge first heating pipe 14, with the material body direct contact, make the material body heat, conveniently carry out the pre-throw work, and through the setting of dish formula, make the inner be heated more evenly, the better use of throw material device main part 7 that carries out, chassis 13 side end rotation is connected with dispersion frame 12, and dispersion frame 12 outside end is connected with shell 10, and dispersion frame 12 is laminated with shell 10, shell 10 central point put the wiring has first heating mouth 9, the rolling disc 8 lower extreme is fixed with supporting seat 1.

The fastening ring 21 adopts double-deck design, and the connection sleeve mouth 3 is fastened mutually with communicating pipe 4 through fastening ring 21, and second heating pipe 18 arc footpath is less than first heating pipe 14 arc footpath, and first heating pipe 14 and second heating pipe 18 all lay on chassis 13 inner chamber top, and three-phase asynchronous motor 2 is connected with drive frame 11 through communicating pipe 4, and rotor 8 side end protecting sheathing 10 adopts stainless steel alloy material to set up, and rotor 8 side end is seted up flutedly.

The method for preheating and feeding by adopting the waste heat circulation of the air compressor adopts the waste heat circulation and preheating and feeding system of the air compressor, and the feeding method comprises the following steps:

s1: assembling the feeding device main body 7: through installing the rotating disc 8, a transmission frame 11 at the bottom end of the inner cavity of the rotating disc 8 is connected with the three-phase asynchronous motor 2, the three-phase asynchronous motor 2 drives a transmission rod, so that the transmission frame 11 rotates, a chassis 13 at the upper end is driven to rotate through a latch at the inner end, the side end of the chassis 13 is rotationally connected with a dispersion frame 12, the dispersion frame 12 is attached to a protective shell 10, the upper end of the chassis 13 is connected with the dispersion frame 12 through a screw, and the dispersion frame 12 is driven to rotate along with the rotation through the rotation of the chassis 13;

s2: the connecting sleeve opening 3 is installed, the sleeve 19 in the center of the inner cavity of the connecting sleeve opening 3 is connected with the air compressor through the connecting sleeve opening 3, high-temperature steam transferring work is carried out through the sleeve 19, the plug ring 20 at one end of the sleeve 19 is connected with the air compressor through the latch teeth at the outer side end, sealing of the inner end is realized, and the protection plate at the side end helps to carry out protection work; the other end of the sleeve 19 is connected with a fastening ring 21 in a winding way, a user can connect the connecting sleeve opening 3 with the connecting pipe in a spiral way through the fastening ring 21, and the protective layer 17 at the lower end of the inner cavity of the chassis 13 is arranged through the mounting chassis 13,

s3: the first heating pipe 14 of inoxidizing coating 17 upper end wiring communicates the second heating pipe 18 through the intercommunication frame 15, and the user is connected first heating pipe 14 and second heating pipe 18 with the connection sleeve mouth 3, through the transmission of connection sleeve mouth 3 for inner high temperature steam enters into the inner of first heating pipe 14, and first heating pipe 14 and second heating pipe 18 are linked together, and high temperature steam discharges outside first heating pipe 14 through second heating mouth 16, with the material body direct contact.

Working principle: when in need of working, a user assembles the feeding device main body 7, the rotating disc 8 is installed, the transmission frame 11 at the bottom end of the inner cavity of the rotating disc 8 is connected with the three-phase asynchronous motor 2, the transmission frame 11 rotates through the transmission rod under the drive of the three-phase asynchronous motor 2, the transmission frame 11 rotates, the chassis 13 at the upper end is driven to rotate through the clamping teeth at the inner end, the side end of the chassis 13 rotates and is connected with the dispersing frame 12, the dispersing frame 12 is attached with the protective shell 10, the upper end of the chassis 13 is connected with the dispersing frame 12 through a screw, the dispersing frame 12 is driven to follow the rotation through the rotation of the chassis 13, so that the inner end material body is conveniently smeared evenly, the inner end is heated more fully, the transfer work is conveniently carried out, the connecting sleeve 19 at the center of the inner cavity of the connecting sleeve 3 is installed, the connecting aim is realized, the air compressor is connected through the connecting sleeve 3, the high-temperature steam transferring work is carried out through the sleeve 19, the plug ring 20 at one end of the sleeve 19 is connected with the air compressor through the latch at the outer end, the sealing of the inner end is realized, the protection plate at the side end helps to carry out the protection work, the fastening ring 21 is wound at the other end of the sleeve 19, the connecting sleeve 3 can be spirally connected with the connecting pipe through the fastening ring 21 by a user, the tightness of the inner end is enhanced, the disassembly work is convenient, the stable connection with the air compressor is realized, the protection work at the bottom end is realized through the mounting chassis 13 and the protection layer 17 at the lower end of the inner cavity of the chassis 13, the damage of the main body 7 of the feeding device caused by overhigh temperature is prevented, the first heating pipe 14 wound at the upper end of the protection layer 17 is communicated with the second heating pipe 18 through the communication frame 15, the user connects the first heating pipe 14 and the second heating pipe 18 with the connecting sleeve 3, and the transmission of the connecting sleeve 3 is carried out, the inner high-temperature steam enters into the inner end of the first heating pipe 14, the first heating pipe 14 and the second heating pipe 18 are communicated, the purpose of common work is achieved, the high-temperature steam is discharged out of the first heating pipe 14 through the second heating port 16 and is in direct contact with a material body, the material body is heated, the pre-casting work is convenient to conduct, and the inner end is heated more evenly through the disc-shaped arrangement, the material casting device main body 7 is used better, and the work is completed.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Adopt air compressor machine waste heat circulation to preheat feeding system, including three-phase asynchronous motor (2), throw material device main part (7) and rolling disc (8), its characterized in that: the three-phase asynchronous motor (2) is arranged at the center of the feeding device main body (7), the three-phase asynchronous motor (2) is rotationally connected with the rotating disc (8) through a rotating bearing (6) at the side end, a connecting frame (5) is arranged at the lower end of the rotating bearing (6), a communicating pipe (4) is arranged on one side of the connecting frame (5), a connecting sleeve opening (3) is communicated with one end of the communicating pipe (4), a sleeve (19) is arranged at the center of an inner cavity of the connecting sleeve opening (3), a splicing ring (20) is welded at one end of the sleeve (19), one end of the sleeve (19) deviating from the splicing ring (20) is connected with a fastening ring (21) in a winding manner, the other end of the communicating pipe (4) is communicated with the rotating disc (8), a transmission frame (11) is rotationally connected at the bottom end of the inner cavity of the rotating disc (8), a chassis (13) is connected with the upper end of the transmission frame, a protective layer (17) is connected with a first heating pipe (14) in a winding manner, the upper end of the protective layer (17) is provided with a second heating pipe (16) through a communicating frame (15), the first heating pipe (14) is communicated with a second heating pipe (16) through a second heating pipe (18), the device is characterized in that a dispersing frame (12) is rotatably connected to the side end of the chassis (13), a protective shell (10) is connected to the outer side end of the dispersing frame (12), the dispersing frame (12) is attached to the protective shell (10), a first heating port (9) is wound at the central position of the protective shell (10), and a supporting seat (1) is fixed to the lower end of the rotating disc (8);

the fastening ring (21) adopts a double-layer design;

the connecting sleeve opening (3) is fastened with the communicating pipe (4) through a fastening ring (21).

2. The preheating feeding system adopting air compressor waste heat circulation according to claim 1, wherein: the arc diameter of the second heating pipe (18) is smaller than that of the first heating pipe (14).

3. The preheating feeding system adopting air compressor waste heat circulation according to claim 1, wherein: the first heating pipe (14) and the second heating pipe (18) are both paved at the top end of the inner cavity of the chassis (13).

4. The preheating feeding system adopting air compressor waste heat circulation according to claim 1, wherein: the three-phase asynchronous motor (2) is connected with the transmission frame (11) through the communicating pipe (4).

5. The preheating feeding system adopting air compressor waste heat circulation according to claim 1, wherein: the side end protection shell (10) of the rotating disc (8) is made of stainless steel alloy materials.

6. The preheating feeding system adopting air compressor waste heat circulation according to claim 1, wherein: the side end of the rotating disc (8) is provided with a groove.

7. A method for preheating and feeding materials by adopting waste heat circulation of an air compressor is characterized in that: the method for preheating the feeding system by adopting the waste heat circulation of the air compressor according to claim 1 comprises the following steps:

s1: assembling a feeding device main body (7): through installing the rotating disc (8), a transmission frame (11) at the bottom end of an inner cavity of the rotating disc (8) is connected with the three-phase asynchronous motor (2), so that the transmission frame (11) rotates, a chassis (13) at the upper end is driven to rotate through a latch at the inner end, a dispersion frame (12) is rotationally connected to the side end of the chassis (13), the dispersion frame (12) is attached to a protective shell (10), the upper end of the chassis (13) is connected with the dispersion frame (12) through a screw, and the dispersion frame (12) is driven to rotate along with the rotation of the chassis (13);

s2: the connecting sleeve opening (3) is installed, the sleeve (19) at the center of the inner cavity of the connecting sleeve opening (3) is connected with the air compressor through the connecting sleeve opening (3), high-temperature steam transferring work is carried out through the sleeve (19), the inserting ring (20) at one end of the sleeve (19) is connected with the air compressor through the clamping teeth at the outer end, sealing of the inner end is achieved, and the protection plate at the side end helps to carry out protection work; the other end of the sleeve (19) is connected with a fastening ring (21) in a winding way, a user can connect the connecting sleeve opening (3) with the connecting pipe in a spiral way through the fastening ring (21), and the protective layer (17) at the lower end of the inner cavity of the chassis (13) is arranged through the mounting chassis (13),

s3: the first heating pipe (14) of inoxidizing coating (17) upper end wiring communicates second heating pipe (18) through intercommunication frame (15), and the user is connected first heating pipe (14) and second heating pipe (18) with connect the sleeve mouth (3), through the transmission of connecting sleeve mouth (3), makes the inner high temperature steam enter into the inner of first heating pipe (14), and first heating pipe (14) and second heating pipe (18) are linked together, and high temperature steam is outside through second heating mouth (16) discharge first heating pipe (14), with the material body direct contact.