CN209649270U - Heat recovery equipment is used in a kind of production of synthetic material - Google Patents
Heat recovery equipment is used in a kind of production of synthetic material Download PDFInfo
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- CN209649270U CN209649270U CN201920214005.2U CN201920214005U CN209649270U CN 209649270 U CN209649270 U CN 209649270U CN 201920214005 U CN201920214005 U CN 201920214005U CN 209649270 U CN209649270 U CN 209649270U
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- tube
- superheater
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- pipe
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
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Abstract
Originally practical to belong to synthetic material manufacture field, specially a kind of synthetic material production heat recovery equipment, including hollow base, superheater tube, product heat cal rod, the first insulating tube, the hollow base upper end is provided with the superheater tube, spiral pusher pipe is arranged on the inside of the superheater tube, and incubation cavity is arranged between the superheater tube and the spiral pusher pipe.Through the utility model synthetic material after high temperature process, it is reached inside screw charging ram by transfer tube, water will be filled inside incubation cavity, it ensure that the cooling effect of material after processing, improve the cooling efficiency of synthetic material, because of the first insulating tube, second insulating tube can effectively save heat, the raw material inside hot water preheating feed pipe inside heat-conducting copper pipe, so that raw material obtain initial temperature, to which heating time tails off, because cooling tube is mono-layer tube, good heat conduction effect, cooling velocity is fast, after returning to incubation cavity, it is recycled, improve the utilization rate of water, improve the effect for saving water resource.
Description
Technical field
The utility model belongs to synthetic material manufacture field, is specifically related to a kind of synthetic material production and is set with recuperation of heat
It is standby.
Background technique
Synthetic material is the material for being combined by two or more substance and being had certain comprehensive performances.It divides
For two class of structural composite material and functional composite material.Composite material is one to grow up with material science and technology progress
Kind brand-new material.It is exactly with glass fibre or carbon fiber, graphite fibre, boron fibre, oxidation such as the reinforced plastics in engineering plastics
Aluminium etc. makees the composite material that reinforcing agent and plastics are combined.This composite material has many advantages, such as that light, intensity is high, wear-resisting.
Composite material is a kind of up-and-coming brand-new material, is widely used for aviation, aerospace, chemical industry, shipbuilding, automobile, Electric Manufacture
Etc. industries.
Because synthetic material needs different steps in Processing Room, needing to cool down after carrying out the first step carries out next step
Processing, but condensation water condensation is used, the waste of thermal resource is caused, while increasing processing cost, it is cooling using air
But processing efficiency is slowed down.
Utility model content
The purpose of this utility model, which is that, provides a kind of synthetic material production heat recovery equipment.
Technical solution used by the utility model is as follows:
A kind of synthetic material production heat recovery equipment, including hollow base, superheater tube, product heat cal rod, the first insulating tube, institute
It states hollow base upper end and is provided with the superheater tube;
Spiral pusher pipe is arranged on the inside of the superheater tube, and incubation cavity is arranged in the superheater tube and the spiral pusher pipe
Between, screw charging ram is arranged inside the spiral pusher pipe, and screw rod motor is arranged in spiral pusher pipe side,
Transfer tube is mounted on spiral pusher pipe upper end, reaction kettle setting in the transfer tube upper end, the reaction kettle and it is described in
Support frame is provided between empty pedestal, controller is arranged in support frame as described above front end, the controller model FX3G;
First insulating tube setting is in the superheater tube front end, and circulating pump setting is in the hollow base side, and second
Insulating tube setting is in the circulating pump upper end, and in second insulating tube upper end, feed pipe is arranged in institute for the product heat cal rod setting
It states on the inside of product heat cal rod, heat-conducting copper pipe is provided between the product heat cal rod and the feed pipe, cooling tube is arranged in the product heat cal rod
Temperature sensor, the temperature sensor model are provided with inside rear end, the product heat cal rod and the superheater tube
MBT3720, first insulating tube, second insulating tube include inner tube, insulating layer, outer tube, setting outside said inner tube
There is the outer tube, the insulating layer is arranged between said inner tube and the outer tube.
Preferably: the outer tube is connected by welding with said inner tube, and the insulating layer is filled in the outer tube and described
Between inner tube, the insulating layer material is polyurethane foam.
So set, the outer tube plays support and installation, said inner tube plays transmitting effect, and the insulating layer plays heat preservation
Effect ensure that thermal insulation property by filling.
Preferably: the cooling tube by flanged joint in the product heat cal rod and the superheater tube, the cooling tube it is straight
Diameter is 30mm.
So set, the cooling tube plays cooling effect, leakproofness ensure that by flanged joint.
Preferably: the superheater tube is connected by welding with the spiral pusher pipe, and the superheater tube is bolted
In the hollow base, the material of the superheater tube is carbon pipe.
So set, the superheater tube plays cooling and heat-absorbing action, the spiral pusher pipe plays transmission material, passes through
Welding ensure that leakproofness.
Preferably: the screw rod motor is connected to the screw charging ram, the screw charging ram by shaft coupling
It is rotationally connected with the spiral pusher pipe, the transfer tube is by flanged joint in the spiral pusher pipe.
So set, the screw rod motor plays function, the screw charging ram plays transmitting effect, the transmission
Transmitting effect has been managed, connective stability ensure that by flanged joint.
Preferably: first insulating tube is protected by flanged joint in the superheater tube and the circulating pump, described second
Temperature pipe is by flanged joint in the circulating pump and the product heat cal rod.
So set, first insulating tube and second insulating tube play heat preservation and transmitting effect, it is described to pass through method
Orchid connection ensure that connection sealing.
Preferably: the controller is connected to the circulating pump, the screw rod motor, the temperature by conducting wire and passes
Sensor.
So set, the controller plays control action, each electric elements are connected to by conducting wire, ensure that at information
The actual effect of reason.
The utility model has the following beneficial effects:
1, synthetic material is reached inside screw charging ram after high temperature process by transfer tube, will be infused inside incubation cavity
Full water, controller control screw rod motor start-up, and screw rod motor drives screw charging ram rotation, and screw charging ram pushes
Synthetic material advances, and ensure that the cooling effect of material after processing, improves the cooling efficiency of synthetic material;
2, circulating pump is opened, water reaches the first insulating tube by incubation cavity, then reaches by circulating pump and the second insulating tube
Heat-conducting copper pipe in product heat cal rod can be effectively because the first insulating tube, the second insulating tube are inner tube, insulating layer, outer tube are constituted
Heat is saved, water takes heat inside heat-conducting copper pipe to, hot water preheating when again by feed tube, inside heat-conducting copper pipe
Raw material inside feed pipe, so that raw material obtain initial temperature, so that heating time tails off;
3, water starts to cool down after pre- hot log, then is returned in the incubation cavity to inside superheater tube by cooling tube, because
Cooling tube is mono-layer tube, and good heat conduction effect, cooling velocity is fast, after returning to incubation cavity, is recycled, and the utilization rate of water is improved,
Improve the effect for saving water resource.
Detailed description of the invention
Attached drawing is to be used to provide a further understanding of the present invention, and constitute part of specification, and following
Specific embodiment be used to explain the utility model together, but do not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is a kind of first structure diagram of synthetic material production heat recovery equipment described in the utility model;
Fig. 2 is a kind of the second structural schematic diagram of synthetic material production heat recovery equipment described in the utility model;
Fig. 3 is a kind of superheater tube internal structure signal of synthetic material production heat recovery equipment described in the utility model
Figure;
Fig. 4 is a kind of product heat cal rod internal structure signal of synthetic material production heat recovery equipment described in the utility model
Figure;
Fig. 5 is a kind of the first insulating tube sectional view of synthetic material production heat recovery equipment described in the utility model;
Fig. 6 is a kind of circuit structure flow diagram of synthetic material production heat recovery equipment described in the utility model.
The reference numerals are as follows:
1, hollow base;2, spiral pusher pipe;3, superheater tube;4, circulating pump;5, the first insulating tube;6, the second insulating tube;
7, product heat cal rod;8, feed pipe;9, reaction kettle;10, support frame;11, controller;12, screw rod motor;13, cooling tube;14,
Transfer tube;15, incubation cavity;16, screw charging ram;17, temperature sensor;18, heat-conducting copper pipe;19, inner tube;20, insulating layer;
21, outer tube.
Specific embodiment
The utility model is further illustrated below by embodiment combination attached drawing.
Embodiment
As shown in figs 1 to 6, a kind of synthetic material production heat recovery equipment, including hollow base 1, superheater tube 3, backheat
Pipe 7, the first insulating tube 5,1 upper end of hollow base are provided with superheater tube 3, and hollow base 1 plays cushioning effect, and superheater tube 3 plays cooling
Effect;
For the setting of spiral pusher pipe 2 in 3 inside of superheater tube, spiral pusher pipe 2 plays transmitting effect, and the setting of incubation cavity 15 is overheating
Between pipe 3 and spiral pusher pipe 2, incubation cavity 15 plays water reservation, and screw charging ram 16 is arranged inside spiral pusher pipe 2, spiral shell
Rotation charging ram 16, which serves, pushes material, and screw rod motor 12 is arranged in 16 side of screw charging ram, screw rod motor 12
Play energy supply, transfer tube 14 is mounted on 2 upper end of spiral pusher pipe, and transfer tube 14 plays connection function, and the setting of reaction kettle 9 is being transmitted
14 upper end of pipe, reaction kettle 9 play elaboration, and support frame 10 is provided between reaction kettle 9 and hollow base 1, and support frame 10 plays branch
Support effect, controller 11 are arranged in 10 front end of support frame;
First insulating tube 5 is arranged in 3 front end of superheater tube, and the first insulating tube 5 plays transmission and insulation effect, and circulating pump 4 is arranged
In 1 side of hollow base, circulating pump 4 plays energy supply, and the second insulating tube 6 is arranged in 4 upper end of circulating pump, and the second insulating tube 6 rises
Heat preservation and transmitting effect, product heat cal rod 7 are arranged in 6 upper end of the second insulating tube, and product heat cal rod 7 plays pre- heat effect, and the setting of feed pipe 8 is being returned
7 inside of heat pipe, is provided with heat-conducting copper pipe 18, heat-conducting copper pipe 18 plays preheating and transmitting effect, cold between product heat cal rod 7 and feed pipe 8
But pipe 13 is arranged in 7 rear end of product heat cal rod, and cooling tube 13 plays cooling and transmitting effect, is provided with inside product heat cal rod 7 and superheater tube 3
Temperature sensor 17, temperature sensor 17 play detection temperature action, the first insulating tube 5, the second insulating tube 6 include inner tube 19,
Insulating layer 20, outer tube 21, outer tube 21 is provided with outside inner tube 19, and insulating layer 20 is arranged between inner tube 19 and outer tube 21.
Working principle: synthetic material is reached inside spiral pusher pipe 2 by transfer tube 14, will be protected after high temperature process
Water is filled inside warm chamber 15, controller 11 controls screw rod motor 12 and starts, and screw rod motor 12 drives screw charging ram
16 rotations, screw charging ram 16 push synthetic material to advance, and ensure that the cooling effect of material after processing, improve synthetic material
Cooling efficiency, at this time open circulating pump 4, water by incubation cavity 15 reach the first insulating tube 5, then pass through circulating pump 4 and second
Insulating tube 6 reaches the heat-conducting copper pipe 18 in product heat cal rod 7, because the first insulating tube 5, the second insulating tube 6 are inner tube 19, insulating layer
20, outer tube 21 constitute, can effectively save heat, water takes heat inside heat-conducting copper pipe 18 to, again by feed pipe 8 into
When material, the hot water inside heat-conducting copper pipe 18 preheats the raw material inside feed pipe 8, so that raw material obtain initial temperature, thus
Heating time tails off, and water starts to cool down after pre- hot log, then is returned to by cooling tube 13 to the incubation cavity inside superheater tube 3
In 15, because cooling tube 13 is mono-layer tube, good heat conduction effect, cooling velocity is fast, after returning to incubation cavity 15, is recycled, and improves
The utilization rate of water improves the effect for saving water resource.
Outer tube 21 is connected by welding and inner tube 19, and insulating layer 20 is filled between outer tube 21 and inner tube 19, insulating layer 20
Material is polyurethane foam, and outer tube 21 plays support and installation, and inner tube 19 plays transmitting effect, and insulating layer 20 plays insulation effect,
It ensure that thermal insulation property by filling, cooling tube 13 is by flanged joint in product heat cal rod 7 and superheater tube 3, the diameter of cooling tube 13
For 30mm, cooling tube 13 plays cooling effect, ensure that leakproofness by flanged joint, superheater tube 3 passes through welding and spiral pusher
Pipe 2 connects, and the material that superheater tube 3 is bolted to 1 superheater tube 3 of hollow base is carbon pipe, and superheater tube 3 rises cooling and inhales
Heat effect, spiral pusher pipe 2 play transmission material, ensure that leakproofness by welding, screw rod motor 12 passes through shaft coupling
Device is connected to screw charging ram 16, and screw charging ram 16 is rotationally connected with spiral pusher pipe 2, transfer tube 14 by flanged joint in
Spiral pusher pipe 2, screw rod motor 12 play function, and screw charging ram 16 plays transmitting effect, and transfer tube 14 plays transmission and makees
With, connective stability ensure that by flanged joint, the first insulating tube 5 by flanged joint in superheater tube 3 and circulating pump 4, the
Two insulating tubes 6 play heat preservation and biography in circulating pump 4 and product heat cal rod 7, the first insulating tube 5 and the second insulating tube 6 by flanged joint
Defeated effect ensure that connection sealing by flanged joint, and it is electronic that controller 11 by conducting wire is connected to circulating pump 4, screw rod
Machine 12, temperature sensor 17, controller 11 play control action, are connected to each electric elements by conducting wire, ensure that at information
The actual effect of reason.
Preferred embodiments of the present invention are elaborated in conjunction with attached drawing above, but the utility model and unlimited
In above embodiment, skilled artisan within the scope of knowledge, can also do not depart from it is practical
It is made a variety of changes under the premise of novel objective.
Claims (7)
1. a kind of synthetic material production heat recovery equipment, it is characterised in that: including hollow base (1), superheater tube (3), backheat
(7), the first insulating tube (5) are managed, hollow base (1) upper end is provided with the superheater tube (3);
Spiral pusher pipe (2) setting is on the inside of the superheater tube (3), and incubation cavity (15) setting is in the superheater tube (3) and described
Between spiral pusher pipe (2), screw charging ram (16) setting is internal in the spiral pusher pipe (2), screw rod motor (12)
It is arranged in the screw charging ram (16) side, transfer tube (14) is mounted on spiral pusher pipe (2) upper end, reaction kettle (9)
It is arranged in the transfer tube (14) upper end, support frame (10) is provided between the reaction kettle (9) and the hollow base (1),
Controller (11) is arranged in support frame as described above (10) front end;
In the superheater tube (3) front end, circulating pump (4) is arranged in the hollow base (1) one for first insulating tube (5) setting
Side, the second insulating tube (6) setting are arranged in the circulating pump (4) upper end, the product heat cal rod (7) in second insulating tube (6)
Upper end, feed pipe (8) setting are provided between the product heat cal rod (7) and the feed pipe (8) on the inside of the product heat cal rod (7)
Heat-conducting copper pipe (18), cooling tube (13) setting is in the product heat cal rod (7) rear end, the product heat cal rod (7) and the superheater tube (3)
Portion is provided with temperature sensor (17), and first insulating tube (5), second insulating tube (6) include inner tube (19), protect
Warm layer (20), outer tube (21), said inner tube (19) is external to be provided with the outer tube (21), and the insulating layer (20) is arranged described
Between inner tube (19) and the outer tube (21).
2. a kind of synthetic material production heat recovery equipment according to claim 1, it is characterised in that: the outer tube (21)
By welding and said inner tube (19) connection, the insulating layer (20) be filled in the outer tube (21) and said inner tube (19) it
Between, insulating layer (20) material is polyurethane foam.
3. a kind of synthetic material production heat recovery equipment according to claim 2, it is characterised in that: the cooling tube
(13) by flanged joint in the product heat cal rod (7) and the superheater tube (3), the diameter of the cooling tube (13) is 30mm.
4. a kind of synthetic material production heat recovery equipment according to claim 3, it is characterised in that: the superheater tube
(3) by welding and the spiral pusher pipe (2) connection, the superheater tube (3) is bolted to the hollow base
(1), the material of the superheater tube (3) is carbon pipe.
5. a kind of synthetic material production heat recovery equipment according to claim 4, it is characterised in that: the screw rod electricity
Motivation (12) is connected to the screw charging ram (16) by shaft coupling, and the screw charging ram (16) is rotationally connected with the spiral shell
It revolves pusher pipe (2), the transfer tube (14) is by flanged joint in the spiral pusher pipe (2).
6. a kind of synthetic material production heat recovery equipment according to claim 5, it is characterised in that: first heat preservation
(5) are managed by flanged joint in the superheater tube (3) and the circulating pump (4), second insulating tube (6) passes through flanged joint
In the circulating pump (4) and the product heat cal rod (7).
7. a kind of synthetic material production heat recovery equipment according to claim 6, it is characterised in that: the controller
(11) circulating pump (4), the screw rod motor (12), the temperature sensor (17) are connected to by conducting wire.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920214005.2U CN209649270U (en) | 2019-02-20 | 2019-02-20 | Heat recovery equipment is used in a kind of production of synthetic material |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920214005.2U CN209649270U (en) | 2019-02-20 | 2019-02-20 | Heat recovery equipment is used in a kind of production of synthetic material |
Publications (1)
Publication Number | Publication Date |
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CN209649270U true CN209649270U (en) | 2019-11-19 |
Family
ID=68524480
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201920214005.2U Active CN209649270U (en) | 2019-02-20 | 2019-02-20 | Heat recovery equipment is used in a kind of production of synthetic material |
Country Status (1)
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CN (1) | CN209649270U (en) |
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2019
- 2019-02-20 CN CN201920214005.2U patent/CN209649270U/en active Active
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