CN112484328B

CN112484328B - Shallow geothermal energy city application energy-saving corollary equipment

Info

Publication number: CN112484328B
Application number: CN202011555265.XA
Authority: CN
Inventors: 李婷婷
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2022-03-01
Anticipated expiration: 2040-12-25
Also published as: CN112484328A

Abstract

The invention relates to the technical field of shallow geothermal energy, in particular to energy-saving corollary equipment for applying shallow geothermal energy in cities, which comprises a water tank in the shape of a tank shell, wherein a plurality of inverted V-shaped support frames, a control seat and a mainboard are uniformly distributed in the water tank, the control seat is arranged between every two adjacent support frames, a hinge column is fixedly connected onto the control seat, part of the hinge column protrudes into the end part of the control seat, the mainboard is arranged right below the support frames and is fixed on the inner wall of the water tank, and a columnar through hole is formed in the mainboard.

Description

Shallow geothermal energy city application energy-saving corollary equipment

Technical Field

The invention relates to the technical field of shallow geothermal energy, in particular to energy-saving corollary equipment for urban application of shallow geothermal energy.

Background

Shallow geothermal energy city application among the prior art can utilize the underground temperature to carry out temperature control to the surface water, for example winter through the water pump with the water on the ground pour into the water tank of burying underground into, through certain heat preservation, with the rivers of leaving in the water tank in the beginning ejecting and discharge to the ground, realize the heating of water to a certain extent, how to improve the anti deformability of underground water tank, is a problem all the time.

If the water tank can be invented, the problem can be solved if the water tank has the capability of self-deformation recovery, and therefore an energy-saving corollary device for shallow geothermal energy city application is provided.

Disclosure of Invention

The invention aims to provide energy-saving corollary equipment for shallow geothermal energy city application, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving corollary device for city application by shallow geothermal energy comprises a water tank in the shape of a tank shell, wherein a plurality of inverted V-shaped support frames, a control seat and a mainboard are uniformly distributed in the water tank, the control seat is arranged between two adjacent support frames, a hinge column is fixedly connected to the control seat, the hinge column partially protrudes into the end part of the control seat, the mainboard is arranged under the support frames and is fixed on the inner wall of the water tank, a columnar through hole is formed in the mainboard, a control column is arranged in the through hole of the mainboard, one end of the control column protrudes out of the mainboard, one side of the mainboard is contacted with a spring, one end of the spring is contacted with a clamping ring, the spring and the clamping ring are sleeved on the control column, one end of the control column, which is far away from the mainboard, is fixedly connected with a positioning seat, a spring leaf I is arranged in the positioning seat, a main pipe cavity and a branch pipe cavity are formed in the bottom shell of the water tank, one side of the main pipe cavity is communicated with a plurality of branch pipe cavities which are uniformly distributed, one end of each branch pipe cavity extends into a through hole of the main board, a cylindrical groove is formed in a shell on one side of the water tank, one end of each main pipe cavity is connected with the bottom surface of the cylindrical groove in the water tank, a power column, a pushing column, a sealing cylinder and a power shaft are arranged in the cylindrical groove of the water tank, the pushing column is contacted with one end of the power column, the sealing cylinder is arranged at the other end of the power column, the power shaft is arranged in the middle of the sealing cylinder, one end of the power shaft protrudes into the power column, an outer box is fixedly connected to one side of the water tank, one end of the power shaft protrudes into the outer box, a main shaft and a turbine are arranged in the outer box, the turbine is fixedly connected to one end of the main shaft, the other end of the main shaft is in transmission connection with a bevel gear of the power shaft, a supporting block is fixedly connected to the inner wall of the outer box, the main shaft penetrates through the supporting block, and an auxiliary pipe cavity is formed in the water tank, one end of the auxiliary pipe cavity extends to the inner cavity of the water tank, the other end of the auxiliary pipe cavity extends to the main pipe cavity, the main pipe cavity and the auxiliary pipe cavity are internally provided with a control valve, a water hole is formed in the water tank shell, and the water hole is communicated with the inner cavity of the outer box and the water tank.

Preferably, the control valve comprises an intercepting cylinder, a guide sliding plate and a sealing column, a plurality of guide sliding plates which are uniformly distributed are annularly arranged around the sealing column, the intercepting cylinder is arranged at one end of the sealing column, and the guide sliding plate partially protrudes into a sliding groove formed in the side wall of the sealing column.

Preferably, the first spring piece is in a U-shaped plate shape, two end parts of the plate body are respectively bent towards two sides of the U-shaped plate, the first spring piece is arranged in a T-shaped groove formed in the positioning seat in a matched mode, and one part of the first spring piece protrudes into a cambered surface groove formed in the wall of the inner cavity of the water tank.

Preferably, the propulsion column is cylindrical, a plurality of chutes which are uniformly distributed are annularly arranged on the outer side wall of the column body, a wavy plate-shaped spring piece II and a guide sliding block are arranged in the chute of the propulsion column, one end of the spring piece II is in contact with the guide sliding block, and the guide sliding block is fixed on the inner wall of the cylindrical groove on the water tank.

Preferably, the power column is in a shape that one end of the power column is integrally connected with the circular truncated cone, a prism groove is formed in the circular truncated cone of the power column, one end of the power shaft protrudes into the prism groove of the power column, the other end of the power column is fixedly provided with a plurality of protruding blocks which are uniformly distributed, and the protruding blocks on the power column partially extend into clamping grooves formed in the bottom surface of the propelling column.

Preferably, the control post activity cup joints in the cylinder hole of mainboard, is fixed with the protrusion slider on the cylinder hole inner wall of mainboard, and protrusion slider part extends to the spout of seting up on the lateral wall of control post, and the one end and the mainboard contact of spring, screens ring fixed cover are on the control post.

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

1. the structural design of the invention realizes the purpose of automatic deformation recovery of the water tank, if the water tank is subjected to unexpected pressure, the supporting state of the supporting frame is broken, after the impact pressure is over, water is injected into the water tank, water flow drives the turbine to rotate, and further a part device in the water tank is triggered to control transmission, so that the effect of automatic recovery is realized;

2. the device rotates through the power shaft and drives the power post, and the power post rotates the in-process and continuously stirs the propulsion post, and the removal of propulsion post provides power for the fluid flow in the main pipe chamber, and then the back is poured into the mainboard into, has water pressure to use on the control post, and then supports the positioning seat, and two adjacent positioning seats cooperation centre gripping control seats, powerful and stable in function.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

fig. 3 is a schematic view of a supporting frame structure.

In the figure: the water tank comprises a water tank 1, a support frame 2, a control seat 3, a main board 4, a hinge column 5, a control column 6, a spring 7, a clamping ring 8, a positioning seat 9, a first spring piece 10, a main pipe cavity 11, a branch pipe cavity 12, a power column 13, a pushing column 14, a sealing cylinder 15, a power shaft 16, an outer box 17, a main shaft 18, a turbine 19, a supporting block 20, an auxiliary pipe cavity 21, a control valve 22, a water hole 23, an intercepting cylinder 24, a guide sliding plate 25, a sealing column 26, a second spring piece 27 and a guide sliding block 28.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art without creative efforts based on the technical solutions of the present invention belong to the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: an energy-saving corollary device for urban application of shallow geothermal energy comprises a water tank 1 in the shape of a tank shell, wherein a plurality of inverted V-shaped support frames 2, control seats 3 and main boards 4 are uniformly distributed in the water tank 1, a control seat 3 is arranged between every two adjacent support frames 2, a hinge column 5 is fixedly connected to the control seat 3, part of the hinge column 5 protrudes into the end part of the control seat 3, a main board 4 is arranged under the support frames 2, the main board 4 is fixed on the inner wall of the water tank 1, a columnar through hole is formed in the main board 4, a control column 6 is arranged in the through hole of the main board 4, one end of the control column 6 protrudes out of the main board 4, one side of the main board 4 is contacted with a spring 7, one end of the spring 7 is contacted with a clamping ring 8, the spring 7 and the clamping ring 8 are sleeved on the control column 6, one end of the control column 6 far away from the main board 4 is fixedly connected with a positioning seat 9, a first spring piece 10 is arranged in the positioning seat 9, a main pipe cavity 11 and branch pipe cavities 12 are arranged in a bottom shell of a water tank 1, one side of the main pipe cavity 11 is communicated with a plurality of branch pipe cavities 12 which are uniformly distributed, one end of each branch pipe cavity 12 extends into a through hole of a main board 4, a cylindrical groove is arranged on one side shell of the water tank 1, one end of the main pipe cavity 11 is connected with the bottom surface of the cylindrical groove on the water tank 1, a power column 13, a propelling column 14, a sealing cylinder 15 and a power shaft 16 are arranged in the cylindrical groove of the water tank 1, one end of the power column 13 is contacted with the propelling column 14, the other end of the power column 13 is provided with the sealing cylinder 15, the middle part of the sealing cylinder 15 is provided with the power shaft 16, one end of the power shaft 16 protrudes into the power column 13, one side of the water tank 1 is fixedly connected with an outer box 17, one end of the power shaft 16 protrudes into the outer box 17, a main shaft 18 and a turbine 19 are arranged in the outer box 17, one end of the main shaft 18 is fixedly connected with the turbine 19, and the other end of the main shaft 18 is connected with the power shaft 16 in a bevel gear transmission way, fixedly connected with supporting shoe 20 on the inner wall of outer box 17, main shaft 18 runs through supporting shoe 20, vice lumen 21 has been seted up on the water tank 1, the one end of vice lumen 21 extends to the inner chamber of water tank 1, the other end of vice lumen 21 extends to in the main lumen 11, and all be provided with control valve 22 in main lumen 11 and the vice lumen 21, water hole 23 has been seted up on the water tank 1 casing, water hole 23 communicates the inner chamber of outer box 17 and water tank 1, refer to figure 1 and understand the position of vice lumen 21, all be provided with control valve 22 in vice lumen 21 and the main lumen 11, a one-way pilot control for realizing the air current, namely fluid passes through control valve 22, only can be fluid jack-up sealing column 26, later through control valve 22, fluid directly drives control valve 22 interception section of thick bamboo 24, the inlet tube is connected to the one end of outer box 17, the one end of keeping away from outer box 17 on the water tank 1 is connected the drain pipe.

The control valve 22 comprises an intercepting cylinder 24, a guide sliding plate 25 and a sealing column 26, wherein a plurality of guide sliding plates 25 which are uniformly distributed are annularly arranged around the sealing column 26, the intercepting cylinder 24 is arranged at one end of the sealing column 26, and the guide sliding plate 25 partially protrudes into a sliding groove formed in the side wall of the sealing column 26.

The first spring piece 10 is in a U-shaped plate shape, two end parts of the plate body are bent towards two sides of the U-shaped plate respectively, the first spring piece 10 is arranged in a T-shaped groove formed in the positioning seat 9 in a matching mode, and part of the first spring piece 10 protrudes into a cambered surface groove formed in the wall of the inner cavity of the water tank 1.

The shape of the propelling column 14 is a cylinder, a plurality of sliding grooves which are uniformly distributed are annularly arranged on the outer side wall of the cylinder, a second wavy plate-shaped spring piece 27 and a guide sliding block 28 are arranged in the sliding groove of the propelling column 14, one end of the second spring piece 27 is in contact with the guide sliding block 28, and the guide sliding block 28 is fixed on the inner wall of the cylinder groove on the water tank 1.

The power column 13 is in a shape of a cylinder, one end of the cylinder is integrally connected with a circular truncated cone, a circular truncated cone groove is formed in the circular truncated cone of the power column 13, one end of a power shaft 16 protrudes into the circular truncated cone groove of the power column 13, a plurality of protruding blocks which are uniformly distributed are fixedly and annularly arranged at the other end of the power column 13, and the protruding blocks on the power column 13 partially extend into clamping grooves formed in the bottom surface of the propelling column 14.

The activity of control post 6 cup joints in the cylinder hole of mainboard 4, is fixed with the protrusion slider on the cylinder hole inner wall of mainboard 4, and protrusion slider part extends to the spout of seting up on the lateral wall of control post 6, and spring 7's one end and mainboard 4 contact, and the fixed cover of screens ring 8 is on control post 6.

The working principle is as follows: in the process of injecting water into the water tank 1, the water needs to flow through the outer box 17, the fluid drives the main shaft 18 to slowly rotate, the turbine 19 drives the main shaft 18 to further drive the power shaft 16, the power shaft 16 rotates to drive the power column 13, the power column 13 rotates to stir the pushing column 14, the pushing column 14 approaches the main pipe cavity 11, the fluid in the main pipe cavity 11 is pushed into a plurality of branch pipe cavities 12, the main pipe cavity 11 approaches the power column 13 under the rebounding pushing of the spring piece II 27, the fluid needs to be supplemented into the main pipe cavity 11 in the process, namely, the water in the inner cavity of the water tank 1 is sucked into the main pipe cavity 11 through the auxiliary pipe cavity 21, the circulation is carried out, the piston of the pushing column 14 moves to cause part of the water to be continuously injected into the branch pipe cavities 12, the fluid is injected into the main board 4 subsequently, the water pressure control column 6 acts on the control column 6, the control column 6 supports the positioning seats 9, so that the positioning seats 9 on two sides of the control seat 3 are matched with the clamping control seat 3, and then realize the control to support frame 2, even the water tank 1 pressurized takes place certain deformation, arouses the deformation of support frame 2, under the propulsion of control post 6 is supported, control seat 3 resumes initial position gradually, and support frame 2 resumes to normal support state promptly, makes water tank 1 have the ability of automatic deformation recovery like this.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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. The utility model provides a shallow geothermal energy city application energy-conserving corollary equipment, includes water tank (1) of case body form, its characterized in that: the water tank is characterized in that a plurality of inverted V-shaped support frames (2), control seats (3) and main boards (4) are uniformly distributed in the water tank (1), the control seats (3) are arranged between every two adjacent support frames (2), hinged columns (5) are fixedly connected to the control seats (3), parts of the hinged columns (5) protrude into the end parts of the control seats (3), the main boards (4) are arranged under the support frames (2), the main boards (4) are fixed on the inner wall of the water tank (1), columnar through holes are formed in the main boards (4), control columns (6) are arranged in the through holes of the main boards (4), one ends of the control columns (6) protrude out of the main boards (4), springs (7) are contacted with one sides of the main boards (4), clamping rings (8) are contacted with one ends of the springs (7), the springs (7) and the clamping rings (8) are sleeved on the control columns (6), and positioning seats (9) are fixedly connected to one ends, far away from the main boards (4), of the control columns (6), a first spring piece (10) is arranged in the positioning seat (9), a main pipe cavity (11) and branch pipe cavities (12) are arranged in a bottom shell of the water tank (1), one side of the main pipe cavity (11) is communicated with the branch pipe cavities (12) which are uniformly distributed, one ends of the branch pipe cavities (12) extend into through holes of the main board (4), a cylindrical groove is formed in the shell of one side of the water tank (1), one end of the main pipe cavity (11) is connected with the bottom surface of the cylindrical groove in the water tank (1), a power column (13), a propelling column (14), a sealing barrel (15) and a power shaft (16) are arranged in the cylindrical groove of the water tank (1), one end of the power column (13) is in contact with the propelling column (14), the other end of the power column (13) is provided with the sealing barrel (15), the middle of the sealing barrel (15) is provided with the power shaft (16), and one end of the power shaft (16) protrudes into the power column (13), one side of the water tank (1) is fixedly connected with an outer box (17), one end of the power shaft (16) is projected into the outer box (17), a main shaft (18) and a turbine (19) are arranged in the outer box (17), the turbine (19) is fixedly connected at one end of the main shaft (18), the end part of the other end of the main shaft (18) is in transmission connection with a bevel gear of the power shaft (16), a supporting block (20) is fixedly connected on the inner wall of the outer box (17), the main shaft (18) penetrates through the supporting block (20), an auxiliary pipe cavity (21) is formed in the water tank (1), one end of the auxiliary pipe cavity (21) extends to the inner cavity of the water tank (1), the other end of the auxiliary pipe cavity (21) extends to the main pipe cavity (11), and control valves (22) are arranged in the main pipe cavity (11) and the auxiliary pipe cavity (21), a water hole (23) is formed in the shell of the water tank (1), and the water hole (23) is communicated with the inner cavities of the outer box (17) and the water tank (1).

2. The shallow geothermal energy city application energy-saving corollary equipment according to claim 1, characterized in that: the control valve (22) comprises an intercepting cylinder (24), a guide sliding plate (25) and a sealing column (26), wherein the guide sliding plate (25) which is uniformly distributed is annularly arranged around the sealing column (26), the intercepting cylinder (24) is arranged at one end of the sealing column (26), and part of the guide sliding plate (25) protrudes into a sliding groove formed in the side wall of the sealing column (26).

3. The shallow geothermal energy city application energy-saving corollary equipment according to claim 1, characterized in that: the spring piece I (10) is in a U-shaped plate shape, two end parts of the plate body are bent towards two sides of the U-shaped plate respectively, the spring piece I (10) is arranged in a T-shaped groove formed in the positioning seat (9) in a matching mode, and part of the spring piece I (10) protrudes into a cambered surface groove formed in the wall of an inner cavity of the water tank (1).

4. The shallow geothermal energy city application energy-saving corollary equipment according to claim 1, characterized in that: the propulsion column (14) is cylindrical, a plurality of evenly distributed sliding grooves are annularly arranged on the outer side wall of the column body, a wavy plate-shaped spring piece II (27) and a guide sliding block (28) are arranged in the sliding grooves of the propulsion column (14), one end of the spring piece II (27) is in contact with the guide sliding block (28), and the guide sliding block (28) is fixed on the inner wall of a cylindrical groove in the water tank (1).

5. The shallow geothermal energy city application energy-saving corollary equipment according to claim 1, characterized in that: the power column (13) is in a shape of a circular cone integrally connected with one end of a cylinder, a prism groove is formed in the circular cone of the power column (13), one end of a power shaft (16) protrudes into the prism groove of the power column (13), a plurality of uniformly distributed protruding blocks are arranged on the other end of the power column (13) in a fixing mode, and the protruding blocks on the power column (13) partially extend into clamping grooves formed in the bottom surface of the propelling column (14).

6. The shallow geothermal energy city application energy-saving corollary equipment according to claim 1, characterized in that: the control post (6) activity cup joints in the cylinder hole of mainboard (4), is fixed with the protrusion slider on the cylinder hole inner wall of mainboard (4), and protrusion slider part extends to the spout of seting up on the lateral wall of control post (6), and the one end and the mainboard (4) contact of spring (7), and clamping ring (8) fixed cover is on control post (6).