CN108317757A - A kind of geothermal industry processing unit (plant) - Google Patents
A kind of geothermal industry processing unit (plant) Download PDFInfo
- Publication number
- CN108317757A CN108317757A CN201810125854.0A CN201810125854A CN108317757A CN 108317757 A CN108317757 A CN 108317757A CN 201810125854 A CN201810125854 A CN 201810125854A CN 108317757 A CN108317757 A CN 108317757A
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- atrium
- cavity
- end walls
- sliding shoe
- sliding
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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
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/10—Geothermal energy
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- Electrically Driven Valve-Operating Means (AREA)
Abstract
The invention discloses a kind of geothermal industry processing unit (plant)s,Including the shell being fixedly arranged on holder,Opening up atrium D is provided in the shell,Opening is provided in the atrium D left end walls towards right atrium C and atrium B,It is provided with spring cavity B in the atrium C lower end walls,The sliding shoe B for stretching into the atrium C and offseting with the atrium C upper end walls is slidably provided in the spring cavity B,It is elasticly connected with spring between the sliding shoe B lower end walls and the spring cavity B lower end walls,It is provided with spring cavity A in the atrium B lower end walls,The sliding shoe A for stretching into the atrium B and offseting with the atrium B upper end walls is slidably provided in the spring cavity A,It is elasticly connected with spring between the sliding shoe A lower end walls and the spring cavity A lower end walls,Apparatus of the present invention are simple in structure,It is easy to use,This device is using geothermal waste heat by ice melting for liquid water,Effectively increase the utilization ratio of geothermal waste heat.
Description
Technical field
The present invention relates to underground heat fields, and in particular to a kind of geothermal industry processing unit (plant).
Background technology
With the development of science and technology, social progress, country promotes always high-tech development, also has largely in severe cold area
Geothermal energy resources, the collection of underground heat is always an industrial problem with processing, and there are a large amount of ice cubes for severe cold area, become in the whole world
It is warm today, ice melting to enter sea, it can directly be used ice melting for locality for fresh water, and in underground heat collection often
A large amount of waste heats are generated, waste heat volatilizees naturally, does not carry out the recycling of waste heat, this device efficiently solves the problems, such as this.
Invention content
The purpose of the present invention is to provide a kind of geothermal industry processing unit (plant)s, can overcome the drawbacks described above of the prior art.
According to the present invention, a kind of geothermal industry processing unit (plant) of apparatus of the present invention, including the shell that is fixedly arranged on holder, institute
State and be provided with opening up atrium D in shell, be provided in the atrium D left end walls opening towards right atrium C and
Atrium B, be provided in spring cavity B, the spring cavity B in the atrium C lower end walls be slidably provided with stretch into it is described
Atrium C and the sliding shoe B to offset with the atrium C upper end walls, the sliding shoe B lower end walls and the lower ends the spring cavity B
It is elasticly connected with spring between wall, is provided in the atrium B lower end walls in spring cavity A, the spring cavity A and slidably sets
Be equipped with the sliding shoe A for stretching into the atrium B and offseting with the atrium B upper end walls, the sliding shoe A lower end walls with it is described
It is elasticly connected with spring between spring cavity A lower end walls, be provided with symmetrical above and below in the atrium D right end walls and is open to the left
It is provided with and communicated with the drive cavity in the shell between sliding cavity A, the sliding cavity A, consolidates in the drive cavity left end wall
Equipped with power motor, the output shaft of the power motor is rotatably assorted company through the drive cavity and the drive cavity right end wall
It connects, the output shaft outer surface thread mating connection of the power motor is provided with link block, and the link block upper and lower end face is fixed
There are sliding shoe C, the sliding shoe C to be slidably connected with the sliding cavity A front/rear ends, is set in the atrium D left end walls
It is equipped with the atrium A being open towards the right side, opening is provided in the atrium D right end walls towards left atrium E, the atrium E
The sliding cavity B that lower section is provided in the shell and is connected to the atrium E, it is fixed in the sliding cavity B right end walls
There is motor A, the output shaft of the motor A is rotatably assorted with the sliding cavity B left end walls and connect, outside the output shaft of the motor A
Thread surface mating connection is provided with sliding shoe, and the sliding shoe upper surface is installed with sliding sealing plate, the sliding sealing plate and institute
End wall is slidably connected before and after stating atrium E and atrium A, is provided with below the sliding cavity B and is communicated with the atrium D
Cavity, be provided with and communicated with the atrium F in the shell below the cavity, be provided with out in the cavity aft bulkhead
Mouthful towards being slidably provided with sliding shoe D, the right sides the sliding shoe D and the bullet in left spring cavity C, the spring cavity C
It is provided with spring between spring chamber C right end walls, is installed with motor B in the atrium D lower end walls, outside the output shaft of the motor B
Surface is installed with cam, and the cam offsets with the sliding shoe D, is provided in the atrium F lower end walls and exterior space
Connection and the pipeline C in the atrium F, the left sides pipeline C, which are provided with and communicated on the right side of switch valve C, the pipeline C, to be connected
It is logical to be provided with switch valve B, it is provided with and communicated with the pipeline B for extending exterior space to the right, the pipe in the atrium F right end walls
The road right sides B are provided with and communicated with the right sides switch valve A, the switch valve A and are provided with and communicated with pipeline A, to constitute completely
Hot industrial process plant realizes the use of snowmelt runoff.
Further technical solution, the center line of the sliding shoe D is orthogonal with the output shaft centre line of motor B, and
The output shaft center of circle of the excessively described motor B of the center line of the sliding shoe D, the cavity is located on front side of the sliding shoe D, to carry
High device transfer efficiency.
Further technical solution, the left sides the sliding shoe C are provided with tapered boss, and boss can smash ice cube,
To improve ice cube melt water efficiency.
Further technical solution, the maximum radius of the cam is identical as the maximum radius of atrium D, described convex
The maximum cambered surface of wheel is rolled with the atrium D appearance walls and is connected, to improve the reliability of device.
Further technical solution, the outer surfaces atrium F package are provided with antirust heat-transfer matcrial, to improve dress
The thermal conductivity set.
The beneficial effects of the invention are as follows:
In the initial state due to apparatus of the present invention, the motor B and power motor are in stop working state, the switch valve
A, switch valve B and switch valve C are closed, and the spring in the spring cavity A and spring cavity B is in the raw, described
Spring in spring cavity C is in the raw, described to be slided in the atrium A and with atrium A or more the end walls
It is connected, to be conducive to the installation and maintenance of device.
When device is run, ice cube is toppled over into the atrium D, be deposited in the upper surface, the driving company
It connects block to be moved to the left, so that the sliding shoe C is moved to the left and punch ice cube and enter in the atrium C and atrium B, it will be described
Sliding shoe B and sliding shoe A are pressed downward, and make the left side of the sliding shoe C completely into the atrium C and atrium B, thorough
Ice cube is smashed at bottom, described to drive the sliding shoe C returns again, and above-mentioned steps are repeated, after ice cube smashes, the motor
It moves right described in A drivings, trash ice is let out downwards, fall in the cam upper surface, the motor B drives the cam by trash ice
Imported into the cavity and under fall in the atrium F, the switch valve C and switch valve B is opened, into the pipeline C
It is passed through geothermal waste heat, the trash ice in the atrium F is made to be melted into liquid water, the switch valve A is opened, and makes liquid water along institute
It states pipeline B, switch valve A and pipeline A and enters container, liquefaction work is carried out to ice cube using geothermal waste heat to realize
Industry improves the utilization of geothermal waste heat.
When the cam rotates, the sliding shoe D offsets with the cam, and the sliding shoe D turns the cam
It is moved left and right under dynamic, trash ice enters under the blocking of the sliding shoe D in the cavity, to improve the practicability of device.
When the sliding shoe C is moved to the left, since the intensity of ice cube is lower than tapered boss, so the sliding shoe C is left
The tapered boss of end face smashes ice cube, to improve the reliability of device.
Apparatus of the present invention are simple in structure, easy to use, this device will be ice melting for liquid water using geothermal waste heat, effectively
Improve the utilization ratio of geothermal waste heat.
The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Description of the drawings
It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art
Attached drawing is briefly described needed in technology description, it should be apparent that, the accompanying drawings in the following description is only to invent
Some embodiments for those of ordinary skill in the art without creative efforts, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is a kind of overall structure diagram of geothermal industry processing unit (plant) of the present invention;
Fig. 2 is the schematic diagram in the directions A in Fig. 1;
Fig. 3 is the schematic diagram in the directions B-B in Fig. 1.
Specific implementation mode
All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
This specification(Including any accessory claim, abstract and attached drawing)Disclosed in any feature, except non-specifically chatting
It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only
It is an example in a series of equivalent or similar characteristics.
As shown in Figs. 1-3, a kind of geothermal industry processing unit (plant) of the invention, including the shell 100 that is fixedly arranged on holder, institute
It states and is provided with opening up atrium D109 in shell 100, opening is provided in the atrium D109 left end walls towards the right side
Atrium C107 and atrium B105 is provided with spring cavity B106, the spring cavity B106 in the atrium C107 lower end walls
It is interior to be slidably provided with the sliding shoe B108 for stretching into the atrium C107 and offseting with the atrium C107 upper end walls, institute
It states and is elasticly connected with spring between sliding shoe B108 lower end walls and the spring cavity B106 lower end walls, the lower ends the atrium B105
Be provided in wall in spring cavity A103, the spring cavity A103 be slidably provided with stretch into the atrium B105 and with it is described
The sliding shoe A104 that atrium B105 upper end walls offset, the sliding shoe A104 lower end walls and the spring cavity A103 lower end walls it
Between be elasticly connected with spring, symmetrical above and below and opening sliding cavity A110 to the left is provided in the atrium D109 right end walls,
The drive cavity 112 in the shell 100,112 left end wall of the drive cavity are provided with and communicated between the sliding cavity A110
It is inside installed with power motor 130, the output shaft of the power motor 130 is right with the drive cavity 112 through the drive cavity 112
End wall is rotatably assorted connection, and the output shaft outer surface thread mating connection of the power motor 130 is provided with link block 113, institute
It states 113 upper and lower end face of link block and is installed with sliding shoe C111, the sliding shoe C111 and sliding cavity A110 front/rear ends cunning
It is dynamic to be connected, it is right towards right atrium A102, the atrium D109 that opening is provided in the atrium D109 left end walls
Opening is provided in end wall towards being provided in the shell 100 below left atrium E114, the atrium E114 and
The sliding cavity B116 being connected to the atrium E114 is installed with motor A115, the electricity in the sliding cavity B116 right end walls
The output shaft of machine A115 is rotatably assorted with the sliding cavity B116 left end walls and connect, the output shaft outer surface spiral shell of the motor A115
Line mating connection is provided with sliding shoe 129, and 129 upper surface of the sliding shoe is installed with sliding sealing plate 128, the sliding sealing plate
128 are slidably connected with end wall before and after the atrium E114 and atrium A102, are provided with below the sliding cavity B116
The cavity 117 communicated with the atrium D109,117 lower section of the cavity are provided with and communicated with opening in the shell 100
Oral cavity F123, be provided in 117 aft bulkhead of the cavity opening towards in left spring cavity C125, the spring cavity C125 slidably
Be provided with sliding shoe D126, be provided with spring between the right sides the sliding shoe D126 and the spring cavity C125 right end walls,
Motor B127 is installed in the atrium D109 lower end walls, the output shaft outer surface of the motor B127 is installed with cam 101,
The cam 101 offsets with the sliding shoe D126, be provided in the atrium F123 lower end walls be connected to exterior space and
It is provided with and communicated with switch valve C124, the pipeline on the left of pipeline C121, the pipeline C121 in the atrium F123
It is provided with and communicated with switch valve B122 on the right side of C121, is provided with and communicated in the atrium F123 right end walls and extends external sky to the right
Between the right sides pipeline B120, the pipeline B120 be provided with and communicated with the right sides switch valve A119, the switch valve A119 connection
It is provided with pipeline A118, to constitute complete geothermal industry processing unit (plant), realizes the use of snowmelt runoff.
Valuably, wherein the center line of the sliding shoe D126 is orthogonal with the output shaft centre line of motor B127, and
The output shaft center of circle of the excessively described motor B127 of the center line of the sliding shoe D126, the cavity 117 are located at the sliding shoe
On front side of D126, to improve device transfer efficiency.
Valuably, wherein the left sides the sliding shoe C111 are provided with tapered boss, and boss can smash ice cube, from
And improve ice cube melt water efficiency.
Valuably, wherein the maximum radius of the cam 101 is identical as the maximum radius of atrium D109, described
The maximum cambered surface of cam 101 is rolled with the atrium D109 appearance walls and is connected, to improve the reliability of device.
Valuably, wherein the outer surfaces atrium F123 package is provided with antirust heat-transfer matcrial, to improve device
Thermal conductivity.
In the initial state, the motor B127 and power motor 130 are in stop working state to apparatus of the present invention, described
Switch valve A119, switch valve B122 and switch valve C124 are closed, in the spring cavity A103 and spring cavity B106
In the raw, in the raw, the sliding sealing plate 128 is in described and opens the spring in the spring cavity C125 spring
It is slidably connected in the A102 of oral cavity and with atrium A102 or more the end walls.
When device is run, ice cube is toppled over into the atrium D109, be deposited in 128 upper surface of sliding sealing plate,
The power motor 130 drives the link block 113 to be moved to the left, and so that the sliding shoe C111 is moved to the left and punches ice cube and go forward side by side
Enter in the atrium C107 and atrium B105, the sliding shoe B108 and sliding shoe A104 are pressed downward, the sliding is made
Thoroughly ice cube is smashed, the power electric completely into the atrium C107 and atrium B105 the left side of block C111
Machine 130 drives the sliding shoe C111 returns again, and above-mentioned steps are repeated, after ice cube smashes, the motor A115 drivings
The sliding sealing plate 128 moves right, and trash ice is let out downwards, falls in 101 upper surface of the cam, the motor B127 drives institute
State cam 101 by trash ice imported into the cavity 117 and under fall in the atrium F123, open the switch valve C124
With switch valve B122, it is passed through geothermal waste heat into the pipeline C121, the trash ice in the atrium F123 is made to be melted into liquid
Water, the switch valve A119 are opened, and liquid water is made to enter and hold along the pipeline B120, switch valve A119 and pipeline A118
Container.
When the cam 101 rotates, the sliding shoe D126 offsets with the cam 101, and the sliding shoe D126 exists
It is moved left and right under the rotation of the cam 101, trash ice enters under the blocking of the sliding shoe D126 in the cavity 117.
When the sliding shoe C111 is moved to the left, since the intensity of ice cube is lower than tapered boss, so the sliding shoe
The tapered boss of the left sides C111 smashes ice cube.
The beneficial effects of the invention are as follows:In the initial state due to apparatus of the present invention, the motor B and power motor are in
Stop working state, the switch valve A, switch valve B and switch valve C are closed, in the spring cavity A and spring cavity B
Spring in the raw, the spring in the spring cavity C in the raw, it is described in the atrium A and with
Atrium A or more the end walls sliding connection, to be conducive to the installation and maintenance of device.
When device is run, ice cube is toppled over into the atrium D, be deposited in the upper surface, the driving company
It connects block to be moved to the left, so that the sliding shoe C is moved to the left and punch ice cube and enter in the atrium C and atrium B, it will be described
Sliding shoe B and sliding shoe A are pressed downward, and make the left side of the sliding shoe C completely into the atrium C and atrium B, thorough
Ice cube is smashed at bottom, described to drive the sliding shoe C returns again, and above-mentioned steps are repeated, after ice cube smashes, the motor
It moves right described in A drivings, trash ice is let out downwards, fall in the cam upper surface, the motor B drives the cam by trash ice
Imported into the cavity and under fall in the atrium F, the switch valve C and switch valve B is opened, into the pipeline C
It is passed through geothermal waste heat, the trash ice in the atrium F is made to be melted into liquid water, the switch valve A is opened, and makes liquid water along institute
It states pipeline B, switch valve A and pipeline A and enters container, liquefaction work is carried out to ice cube using geothermal waste heat to realize
Industry improves the utilization of geothermal waste heat.
When the cam rotates, the sliding shoe D offsets with the cam, and the sliding shoe D turns the cam
It is moved left and right under dynamic, trash ice enters under the blocking of the sliding shoe D in the cavity, to improve the practicability of device.
When the sliding shoe C is moved to the left, since the intensity of ice cube is lower than tapered boss, so the sliding shoe C is left
The tapered boss of end face smashes ice cube, to improve the reliability of device.
Apparatus of the present invention are simple in structure, easy to use, this device will be ice melting for liquid water using geothermal waste heat, effectively
Improve the utilization ratio of geothermal waste heat.
The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Claims (5)
1. a kind of geothermal industry processing unit (plant), including the shell that is fixedly arranged on holder, it is provided in the shell opening up
Atrium D is provided with opening in the atrium D left end walls towards right atrium C and atrium B, the atrium C lower end walls
Inside be provided in spring cavity B, the spring cavity B be slidably provided with stretch into the atrium C and with the upper ends the atrium C
The sliding shoe B that wall offsets, spring is elasticly connected between the sliding shoe B lower end walls and the spring cavity B lower end walls, described to open
Be provided in the B lower end walls of oral cavity in spring cavity A, the spring cavity A be slidably provided with stretch into the atrium B and with it is described
The sliding shoe A that atrium B upper end walls offset, is elasticly connected between the sliding shoe A lower end walls and the spring cavity A lower end walls
Spring is provided in the atrium D right end walls between symmetrical above and below and the sliding cavity A, the sliding cavity A of opening to the left and is connected to
It is provided with the drive cavity being located in the shell, power motor is installed in the drive cavity left end wall, the power motor
Output shaft is rotatably assorted with the drive cavity right end wall through the drive cavity and connect, the output shaft outer surface of the power motor
Screw-thread fit is connected with link block, and the link block upper and lower end face is installed with sliding shoe C, the sliding shoe C and the cunning
Dynamic chamber A front/rear ends are slidably connected, and opening is provided in the atrium D left end walls towards right atrium A, the opening
Be provided in chamber D right end walls opening towards be provided in the shell below left atrium E, the atrium E and with institute
State the sliding cavity B of atrium E connection, be installed with motor A in the sliding cavity B right end walls, the output shaft of the motor A with it is described
Sliding cavity B left end walls are rotatably assorted connection, and the output shaft outer surface thread mating connection of the motor A is provided with sliding shoe, institute
It states sliding shoe upper surface and is installed with sliding sealing plate, the sliding sealing plate is matched with end wall sliding before and after the atrium E and atrium A
Connection is closed, the cavity communicated with the atrium D is provided with below the sliding cavity B, position is provided with and communicated with below the cavity
In being provided with opening in the atrium F in the shell, the cavity aft bulkhead towards can in left spring cavity C, the spring cavity C
Sliding is provided with sliding shoe D, and spring is provided between the right sides the sliding shoe D and the spring cavity C right end walls, described to open
The output shaft outer surface that motor B, the motor B are installed in the D lower end walls of oral cavity is installed with cam, the cam and the sliding
Block D offsets, and the pipeline C being connected to exterior space and in the atrium F, institute are provided in the atrium F lower end walls
It states to be provided with and communicated on the left of pipeline C on the right side of switch valve C, the pipeline C and is provided with and communicated with switch valve B, the atrium F right end walls
It is inside provided with and communicated with and extends the right sides pipeline B, the pipeline B of exterior space to the right and be provided with and communicated with switch valve A, it is described to open
It closes the right sides valve A and is provided with and communicated with pipeline A.
2. a kind of geothermal industry processing unit (plant) as described in claim 1, it is characterised in that:The center line of the sliding shoe D with
The output shaft centre line of the motor B is orthogonal, and the output shaft center of circle of the excessively described motor B of the center line of the sliding shoe D, described
Cavity is located on front side of the sliding shoe D.
3. a kind of geothermal industry processing unit (plant) as described in claim 1, it is characterised in that:The left sides the sliding shoe C are arranged
There are tapered boss, boss that can smash ice cube.
4. a kind of geothermal industry processing unit (plant) as described in claim 1, it is characterised in that:The maximum radius of the cam and institute
The maximum radius for stating atrium D is identical, and the maximum cambered surface of the cam is rolled with the atrium D appearance walls and is connected.
5. a kind of geothermal industry processing unit (plant) as described in claim 1, it is characterised in that:It wraps up the outer surfaces the atrium F
It is provided with antirust heat-transfer matcrial.
Priority Applications (1)
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CN201810125854.0A CN108317757A (en) | 2018-02-08 | 2018-02-08 | A kind of geothermal industry processing unit (plant) |
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CN201810125854.0A CN108317757A (en) | 2018-02-08 | 2018-02-08 | A kind of geothermal industry processing unit (plant) |
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Family
ID=62903767
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CN201810125854.0A Withdrawn CN108317757A (en) | 2018-02-08 | 2018-02-08 | A kind of geothermal industry processing unit (plant) |
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CN206800306U (en) * | 2017-04-15 | 2017-12-26 | 陈超玲 | A kind of highway ice cube recycle device |
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JP2003240396A (en) * | 2002-02-13 | 2003-08-27 | Sanyo Electric Co Ltd | Ice crusher, and equipment for producing beverage using the same |
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