CN206608931U - Boiler plant with heat recovery and utilization mechanism - Google Patents
Boiler plant with heat recovery and utilization mechanism Download PDFInfo
- Publication number
- CN206608931U CN206608931U CN201720320635.9U CN201720320635U CN206608931U CN 206608931 U CN206608931 U CN 206608931U CN 201720320635 U CN201720320635 U CN 201720320635U CN 206608931 U CN206608931 U CN 206608931U
- Authority
- CN
- China
- Prior art keywords
- apopore
- opening
- inlet opening
- closing
- pipeline
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Quick-Acting Or Multi-Walled Pipe Joints (AREA)
Abstract
The utility model provides a kind of boiler plant with heat recovery and utilization mechanism, including:Boiler, it includes being provided with the heating chamber for storing water in body of heater and firing equipment, body of heater, and firing equipment is arranged in body of heater, to be heated to water in heating chamber;Transmission pipeline, its one end is fixed with body of heater and with being connected at the top of heating chamber;And heat exchanger, it includes exchanging housing, exchanges pipeline, water inlet pipe and outlet pipe, exchanging pipeline, it is wound on transmission pipeline, exchanging housing will exchange in pipeline and transmission pipeline be wrapped in by the section portion that exchange pipeline is wound, clamping arm is provided with inlet opening and apopore, exchanges and is provided with driving mechanism for compressing on housing.Both the beneficial effects of the utility model:Realize using the heat passed on transmission pipeline, the detachable of heat exchanger and water inlet pipe and outlet pipe is realized again, and realize only water inlet pipe and outlet pipe are pressed on exchange housing by a driving mechanism for compressing.
Description
Technical field
The utility model is related to the oily production equipment of edible flavouring, and in particular to a kind of pot with heat recovery and utilization mechanism
Furnace apparatus.
Background technology
Edible flavouring oil is included:Chinese prickly ash (essence) oil and capsicum (essence) oil etc..During edible flavouring oil is made, need
The powder such as Chinese prickly ash are extracted, with the edible flavouring oil needed, vapours is needed to use to powder in extraction process
The mixed liquor formed with oil is heated, and the source of vapours is boiler plant.Vapours is delivered to extraction in boiler plant
In tank, because transmission pipeline has the effect of radiating, therefore there is in transmitting procedure amount of heat heat transfer from transmission pipeline
Walk, the heat particularly lost on place's transmission pipeline by the body of heater of boiler plant is excessive, adds in boiler plant
The energy that firing equipment is used, adds production cost, and be unfavorable for making full use of for the energy
Utility model content
The utility model provides a kind of boiler plant with heat recovery and utilization mechanism, had both realized and has utilized transfer tube
The heat passed on road, realizes the detachable of heat exchanger and water inlet pipe and outlet pipe, and realize only by a pressure again
Water inlet pipe and outlet pipe are pressed on exchange housing by tight drive mechanism.
To achieve the above object, the utility model employs following technical scheme:
A kind of boiler plant with heat recovery and utilization mechanism, including:
Boiler, it includes being provided with the heating chamber for storing water in body of heater and firing equipment, body of heater, and firing equipment is set
It is placed in body of heater, to be heated to water in heating chamber;
Transmission pipeline, its one end is fixed with body of heater and with being connected at the top of heating chamber;And
Heat exchanger, it includes exchanging housing, exchanges pipeline, water inlet pipe and outlet pipe, and exchanging pipeline, it is wound in biography
On defeated pipeline, exchange housing will exchange pipeline and transmission pipeline and interior, exchange housing is wrapped in by the section portion that exchange pipeline is wound
On be provided with exchange pipeline water inlet end connect inlet opening and with exchanges pipeline water side connect apopore, intake
Hole is inserted for water inlet pipe, and apopore is confessed and is provided with clamping arm at water pipe insertion, inlet opening and apopore, exchanges on housing
Driving mechanism for compressing is provided with, driving mechanism for compressing can act on the clamping arm of inlet opening and the clamping arm of apopore simultaneously, with
Water inlet pipe and outlet pipe are pressed on inlet opening inwall and apopore inwall respectively, managed in inlet opening and apopore close to exchange
The section portion diameter in road is less than inlet opening and apopore away from the diameter for exchanging duct section portion, with the middle part of inlet opening and apopore
Formed on step, step and be provided with sealing ring, sealing ring is pressed on step by water inlet pipe and outlet pipe, and water inlet pipe is not inserted into
End connection running water in inlet opening, the end that outlet pipe is not inserted into apopore is communicated to heating chamber bottom.
Preferably, two clamping arms are respectively positioned between inlet opening and apopore, and each clamping arm includes:
Compact heap, it can be stretched in apopore or inlet opening;
Expansion link, is installed with connected with place apopore or inlet opening flexible on apopore and inlet opening inwall
Chamber, telescopic cavity is located at apopore close to inlet opening side or inlet opening close to apopore side, and expansion link shuttles flexible in place
In intracavitary, compact heap energy retraction to telescopic cavity;
Erecting bed, it is arranged on flexible cavity wall, apopore or water inlet that erecting bed is connected towards telescopic cavity where it
Hole is set;
Mounting ring, it is arranged on expansion link, and mounting ring is located at erecting bed close to place telescopic cavity is close to apopore or enters
Water hole;And
Adjustable spring, its one end is connected with mounting ring, and its other end is connected with erecting bed, and expansion link passes through adjustable spring,
When adjustable spring is in nature extended length, compact heap is located in telescopic cavity.
Preferably, hold-down mechanism is arranged between two clamping arms, and driving mechanism for compressing includes:
Guide cylinder, is provided with the driving chamber connected with two telescopic cavities between two expansion links, and guide cylinder is inserted into driving chamber
Interior, point-blank, guide cylinder is vertical with two expansion links for the center line of two expansion links, and guide cylinder is located in two expansion links
On heart line of symmetry, the endoporus of guide cylinder connects with driving chamber and internal thread, two expansion links is provided with guide cylinder endoporus inwall
The end of not connected compact heap is stretched in driving chamber;
Drive screw, it is threadedly coupled with guide cylinder;And
Head is compressed, it is triangle columnar structures, compresses end face of the one side of head with drive screw close to driving chamber and fixes
Connection, the end face that the other two sides that head is compressed in the presence of drive screw can be respectively with two expansion links in driving chamber is tight
Patch.
Preferably, it is provided with inlet opening and apopore for switching station in inlet opening or the opening and closing knot of apopore
Structure.
Preferably, opening and closing structure includes:
Piece is opened and closed, the opening and closing connected with place inlet opening or apopore is offered on inlet opening and apopore inwall
Chamber, opening and closing piece shuttles in opening and closing intracavitary;
Mounting blocks, it is fixedly installed in opening and closing piece and is located on the end of opening and closing intracavitary;
Slide block, offers the sliding groove connected with opening and closing chamber on housing is exchanged, and slide block is located at opening and closing with opening and closing piece
Intracavitary end is connected, and slide block passes the external world after being connected with opening and closing piece from sliding groove;And
Spring is opened and closed, its one end is connected with mounting blocks, its other end is connected with opening and closing cavity wall, is opened and closed the flexible side of spring
To vertical with the direction of insertion of water inlet pipe or outlet pipe, when being opened and closed spring in nature extended length, opening and closing piece enters place
Water hole or apopore closing;Sliding slide block can make opening and closing piece all be slipped into opening and closing intracavitary.
Compared to prior art, the utility model has the advantages that:
1) by setting heat exchanger, realize and exchange the heat that steam is passed out in water and transmission pipeline in pipeline and carry out
Exchange, carried out preliminary heating to entering the water in body of heater, then realized and utilize the heat passed on transmission pipeline, it is ensured that
Making full use of for heat, has reached and has saved the energy that firing equipment is used, and saves production cost;
2) by setting compressed part and driving mechanism for compressing, the removable of heat exchanger and water inlet pipe and outlet pipe is realized
Unload, the setting of sealing ring, it is to avoid water is excessive from junction, and realize water inlet pipe only by driving mechanism for compressing and
Outlet pipe is pressed on exchange housing, has saved the use of driving mechanism for compressing, reduces cost, and only drives a compression to drive
Water inlet pipe and outlet pipe can be just pressed in the inlet opening at respective place or apopore by motivation structure simultaneously, and keep compressing sealing
The state of circle, brings conveniently to installation.
Brief description of the drawings
Fig. 1 is the structural representation of the boiler plant with heat recovery and utilization mechanism;
Fig. 2 is the sectional view of water inlet pipe and outlet pipe with exchanging housing junction in Fig. 1.
Embodiment
As shown in Figure 1 and Figure 2, the present embodiment proposes a kind of boiler plant with heat recovery and utilization mechanism, bag
Include:
Boiler, it includes being provided with the heating chamber for storing water in body of heater 11 and firing equipment, body of heater 11, and heating is set
It is standby to be arranged in body of heater 11, to be heated to water in heating chamber;
Transmission pipeline 2, its one end is fixed with body of heater 11 and with being connected at the top of heating chamber;And
Heat exchanger 3, it includes exchanging housing 31, exchanges pipeline (not shown), water inlet pipe 32 and outlet pipe 33, hands over
Changing pipeline, it is wound on transmission pipeline 2, and the section that pipeline and transmission pipeline 2 are wound by exchange pipeline will be exchanged by exchanging housing 31
In portion is wrapped in, exchanges and be provided with housing 31 with the inlet opening 311 of the water inlet end connection that exchanges pipeline and with exchanging pipeline
Water side connection apopore 312, inlet opening 311 inserted for water inlet pipe 32, and apopore 312 is confessed water pipe 33 and inserted, water inlet
Clamping arm 34 is provided with hole 311 and apopore 312, exchanges and driving mechanism for compressing 35 is provided with housing 31, compresses and drives
Motivation structure 35 can act on the clamping arm 34 of inlet opening 311 and the clamping arm 34 of apopore 312 simultaneously, water inlet pipe 32 and will go out
Water pipe 33 is pressed on the inwall of inlet opening 311 and the inwall of apopore 312 respectively, in inlet opening 311 and apopore 312 close to exchange
The section portion diameter of pipeline is less than inlet opening 311 and apopore 312 away from the diameter for exchanging duct section portion, with the He of inlet opening 311
The middle part of apopore 312 forms on step 36, step 36 and is provided with sealing ring 37, and water inlet pipe 32 and outlet pipe 33 are by sealing ring
37 are pressed on step 36, water inlet pipe 32 be not inserted into in inlet opening 311 end connect running water, outlet pipe 33 be not inserted into
End in apopore 312 is communicated to heating chamber bottom.
For the simple and easy to use clamping arm 34 of design structure, and clamping arm 34 will not stop water inlet pipe in insertion
32 and the insertion of outlet pipe 33, two clamping arms 34 are respectively positioned between inlet opening 311 and apopore 312, and each clamping arm 34 is equal
Including:
Compact heap 341, it can be stretched in apopore 312 or inlet opening 311;
Expansion link 342, is installed with and place apopore 312 or inlet opening on apopore 312 and the inwall of inlet opening 311
The telescopic cavity 313 of 311 connections, telescopic cavity 313 is located at apopore 312 close to the side of inlet opening 311 or inlet opening 311 close to water outlet
The side of hole 312, expansion link 342 shuttles in place telescopic cavity 313, and compact heap 341 can be in retraction to telescopic cavity 313;
Erecting bed 343, it is arranged on the inwall of telescopic cavity 313, and erecting bed 343 is connected towards telescopic cavity 313 where it
Apopore 312 or inlet opening 311 are set;
Mounting ring 344, it is arranged on expansion link 342, and mounting ring 344 is located at erecting bed 343 close to place telescopic cavity 313
Close to apopore 312 or inlet opening 311;And
Adjustable spring 345, its one end is connected with mounting ring 344, and its other end is connected with erecting bed 343, and expansion link 342 is worn
Adjustable spring 345 is crossed, when adjustable spring 345 is in nature extended length, compact heap 341 is located in telescopic cavity 313.
For the simple and easy to use driving mechanism for compressing 35 of design structure, and realize to two expansion links 342 simultaneously
The function of driving, hold-down mechanism is arranged between two clamping arms 34, and driving mechanism for compressing 35 includes:
Guide cylinder 351, is provided with the driving chamber 314 connected with two telescopic cavities 313, guide cylinder between two expansion links 342
351 are inserted into driving chamber 314, and point-blank, the expansion link 342 of guide cylinder 351 and two hangs down the center line of two expansion links 342
Directly, and guide cylinder 351 be located at two expansion links 342 centre symmetry line on, the endoporus of guide cylinder 351 connected with driving chamber 314 and
Internal thread is provided with the endoporus inwall of guide cylinder 351, the end that two expansion links 342 are not connected with compact heap 341 stretches to drive
In dynamic chamber 314;
Drive screw 352, it is threadedly coupled with guide cylinder 351;And
First 353 are compressed, it is triangle columnar structures, compress first 353 one side with drive screw 352 close to driving chamber
314 end face is fixedly connected, compressed in the presence of drive screw 352 first 353 other two sides can respectively with two expansion links
342 end faces being located in driving chamber 314 are close to.
In order to avoid there is debris to enter in inlet opening 311 and apopore 312 in transportation, in the He of inlet opening 311
It is provided with apopore 312 for switching station in inlet opening 311 or the opening and closing structure of apopore 312.
For the simple and easy to use opening and closing structure of design structure, opening and closing structure includes:
Piece 41 is opened and closed, is offered and place inlet opening 311 or apopore on inlet opening 311 and the inwall of apopore 312
The opening and closing chamber of 312 connections, opening and closing piece 41 shuttles in opening and closing chamber 315;
Mounting blocks 42, it is fixedly installed on the end that opening and closing piece 41 is located in opening and closing chamber 315;
Slide block 43, offers the sliding groove 316 connected with opening and closing chamber 315, slide block 43 is with opening on housing 31 is exchanged
Close piece 41 and be located at the inner end connection of opening and closing chamber 315, slide block 43 passes the external world after being connected with opening and closing piece 41 from sliding groove 316;With
And
Spring 44 is opened and closed, its one end is connected with mounting blocks 42, its other end is connected with the opening and closing inwall of chamber 315, is opened and closed spring
44 telescopic direction is vertical with the direction of insertion of water inlet pipe 32 or outlet pipe 33, and nature extended length is in opening and closing spring 44
When, opening and closing piece 41 closes place inlet opening 311 or apopore 312;Sliding slide block 43 can be such that opening and closing piece 41 is all slipped into
It is opened and closed in chamber 315.
Finally illustrate, above example is only unrestricted to illustrate the technical solution of the utility model, although ginseng
The utility model is described in detail according to preferred embodiment, it will be understood by those within the art that, can be to this
The technical scheme of utility model is modified or equivalent substitution, without departing from the objective and model of technical solutions of the utility model
Enclose, it all should cover among right of the present utility model.
Claims (5)
1. a kind of boiler plant with heat recovery and utilization mechanism, it is characterised in that including:
Boiler, it includes being provided with the heating chamber for storing water in body of heater and firing equipment, body of heater, and firing equipment is arranged at
In body of heater, to be heated to water in heating chamber;
Transmission pipeline, its one end is fixed with body of heater and with being connected at the top of heating chamber;And
Heat exchanger, it includes exchanging housing, exchanges pipeline, water inlet pipe and outlet pipe, and exchanging pipeline, it is wound in transfer tube
On road, exchanging housing will exchange in pipeline and transmission pipeline be wrapped in by the section portion that exchange pipeline is wound, and exchange and be set on housing
Be equipped with exchange pipeline water inlet end connect inlet opening and with exchanges pipeline water side connect apopore, inlet opening confession
Water inlet pipe is inserted, and apopore is confessed and is provided with clamping arm at water pipe insertion, inlet opening and apopore, exchanges and is set on housing
There is driving mechanism for compressing, driving mechanism for compressing can act on the clamping arm of inlet opening and the clamping arm of apopore simultaneously, will enter
Water pipe and outlet pipe are pressed on inlet opening inwall and apopore inwall respectively, in inlet opening and apopore close to exchange pipeline
Section portion diameter is less than inlet opening and apopore away from the diameter for exchanging duct section portion, is formed with the middle part in inlet opening and apopore
Sealing ring is provided with step, step, sealing ring is pressed on step by water inlet pipe and outlet pipe, water inlet pipe is not inserted into entering
End connection running water in water hole, the end that outlet pipe is not inserted into apopore is communicated to heating chamber bottom.
2. the boiler plant according to claim 1 with heat recovery and utilization mechanism, it is characterised in that two clamping arms
It is respectively positioned between inlet opening and apopore, each clamping arm includes:
Compact heap, it can be stretched in apopore or inlet opening;
Expansion link, the telescopic cavity connected with place apopore or inlet opening is installed with apopore and inlet opening inwall, is stretched
Contracting chamber is located at apopore close to inlet opening side or inlet opening close to apopore side, and expansion link shuttles in the telescopic cavity of place,
In compact heap energy retraction to telescopic cavity;
Erecting bed, it is arranged on flexible cavity wall, and erecting bed is set towards the apopore of telescopic cavity connection or inlet opening where it
Put;
Mounting ring, it is arranged on expansion link, and mounting ring is located at erecting bed close to place telescopic cavity close to apopore or inlet opening;
And
Adjustable spring, its one end is connected with mounting ring, and its other end is connected with erecting bed, and expansion link passes through adjustable spring, is stretching
When contracting spring is in nature extended length, compact heap is located in telescopic cavity.
3. the boiler plant according to claim 2 with heat recovery and utilization mechanism, it is characterised in that hold-down mechanism is set
It is placed between two clamping arms, driving mechanism for compressing includes:
Guide cylinder, is provided with the driving chamber connected with two telescopic cavities between two expansion links, and guide cylinder is inserted into driving chamber, and two
Point-blank, guide cylinder is vertical with two expansion links for the center line of expansion link, and guide cylinder is located at the center pair of two expansion links
Claim on line, the endoporus of guide cylinder connects with driving chamber and internal thread is provided with guide cylinder endoporus inwall, and two expansion links do not connect
The end for connecing compact heap is stretched in driving chamber;
Drive screw, it is threadedly coupled with guide cylinder;And
Head is compressed, it is triangle columnar structures, compresses end face of the one side of head with drive screw close to driving chamber and is fixedly connected,
Compressed in the presence of drive screw head other two sides can respectively with two expansion links be located at driving chamber in end face be close to.
4. the boiler plant according to claim 3 with heat recovery and utilization mechanism, it is characterised in that in inlet opening and
It is provided with apopore for switching station in inlet opening or the opening and closing structure of apopore.
5. the boiler plant according to claim 4 with heat recovery and utilization mechanism, it is characterised in that opening and closing structure bag
Include:
Piece is opened and closed, the opening and closing chamber connected with place inlet opening or apopore is offered on inlet opening and apopore inwall, is opened
Piece is closed to shuttle in opening and closing intracavitary;
Mounting blocks, it is fixedly installed in opening and closing piece and is located on the end of opening and closing intracavitary;
Slide block, offers the sliding groove connected with opening and closing chamber on housing is exchanged, and slide block is located at opening and closing intracavitary with opening and closing piece
End is connected, and slide block passes the external world after being connected with opening and closing piece from sliding groove;And
Be opened and closed spring, its one end be connected with mounting blocks, its other end is connected with being opened and closed cavity wall, the telescopic direction of opening and closing spring and
The direction of insertion of water inlet pipe or outlet pipe is vertical, when being opened and closed spring in nature extended length, is opened and closed piece by place inlet opening
Or apopore closing;Sliding slide block can make opening and closing piece all be slipped into opening and closing intracavitary.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720320635.9U CN206608931U (en) | 2017-03-29 | 2017-03-29 | Boiler plant with heat recovery and utilization mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720320635.9U CN206608931U (en) | 2017-03-29 | 2017-03-29 | Boiler plant with heat recovery and utilization mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206608931U true CN206608931U (en) | 2017-11-03 |
Family
ID=60174468
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720320635.9U Active CN206608931U (en) | 2017-03-29 | 2017-03-29 | Boiler plant with heat recovery and utilization mechanism |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206608931U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108758588A (en) * | 2018-06-04 | 2018-11-06 | 丁启芳 | A kind of chemical industry waste heat boiler |
-
2017
- 2017-03-29 CN CN201720320635.9U patent/CN206608931U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108758588A (en) * | 2018-06-04 | 2018-11-06 | 丁启芳 | A kind of chemical industry waste heat boiler |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN206608931U (en) | Boiler plant with heat recovery and utilization mechanism | |
CN208595796U (en) | A kind of energy-saving air energy heat pump drying device | |
CN207158787U (en) | A kind of nitrogen purification equipment | |
CN207276208U (en) | A kind of dry-ice machine gaseous state CO2Device for recovering tail gas | |
CN109502146B (en) | A kind of low tempertaure storage device of Pulp Citrulli Pollen | |
CN206478889U (en) | Rise the air injection enthalpy-increasing heat pump of water temperature defrosting | |
CN209354383U (en) | A kind of immersible pump cooling device | |
CN205401035U (en) | Gas hydraulic pressure compression collection device | |
CN109210833B (en) | Compression type heat exchanger assembly for refrigeration | |
CN207715345U (en) | A kind of exhaust structure of oil-free piston type air compressor | |
CN109588822A (en) | A kind of drying and shaping device for shoes production | |
CN208451873U (en) | A kind of still kettle and its vapour-recovery unit | |
CN208635256U (en) | A kind of dedicated water power air-conditioning in workshop | |
CN207261212U (en) | A kind of exhaust equipment on air compressor machine | |
CN208808569U (en) | A kind of Novel cranial drill | |
CN206299547U (en) | Opening natural gas compression system | |
CN220487792U (en) | Preheating recovery device of high-energy-efficiency air compressor | |
CN108678952A (en) | A kind of vacuum pump with water circle device | |
CN205000173U (en) | Steam type hangs and scalds electric iron with water pump belt cleaning device | |
CN208330735U (en) | A kind of Large-scale High-Pressure twin-stage liquid rotary compressor device | |
CN211261868U (en) | Natural gas heat exchange separation system | |
CN207487174U (en) | The good Air-Cooled Heat Pump Unit of recuperation of heat effect | |
CN219354037U (en) | Double-passage negative pressure anorectal ligation device | |
CN215522869U (en) | Liquefied natural gas gasification device | |
CN208308674U (en) | A kind of high temperature thermal-collecting tube tail pipe lock sealing device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder |
Address after: 401120 Yubei District, Chongqing Patentee after: Chongqing Hua Cai biotechnology Limited by Share Ltd Address before: 401120 Yubei District, Chongqing Patentee before: Chongqing Huacui Bio-Tech Co., Ltd. |
|
CP01 | Change in the name or title of a patent holder |