CN218821072U - Flow control device for geothermal recharge - Google Patents

Abstract

The utility model relates to a geothermol power recharge technical field just discloses a flow control device for geothermol power recharge, which comprises a tank body, jar body top surface is provided with control mechanism, the internal portion of jar is provided with guiding mechanism, control mechanism includes fixed plate three, three bottom surfaces of fixed plate and jar body top surface fixed connection, three right sides of fixed plate are provided with dwang two through a bearing frame rotation, two fixed surface covers of dwang are equipped with gear two. Geothermal water enters the pipeline through the water inlet groove, so that the piston plate moves up and down, the piston plate drives the connecting rod to move down, the second toothed plate can move down along with the connecting rod synchronously, the first gear can be driven to rotate, the second rotating rod drives the second gear to rotate along with the first gear, the first toothed plate is driven to move up and down, the first toothed plate can drive the first extrusion block to move, and the second extrusion block is extruded.

Description

Flow control device for geothermal recharge

Technical Field

The utility model relates to a geothermol power recharge technical field specifically is a flow control device for geothermol power recharge.

Background

The geothermal energy is clean natural heat energy, the utilization of the geothermal energy is realized in an underground water mode, high-temperature lava heats the nearby underground water, the heated water can be finally seeped out of the ground, geothermal recharge is a measure for avoiding thermal pollution and chemical pollution caused by direct discharge of geothermal wastewater, in order to prevent geothermal water from causing recharge, a flow control device recharge well for geothermal recharge is published by a Chinese patent network, the flow control device recharge well is published by the Chinese patent network, the flow control device recharge well is CN215490420U, a first slide block is attached to the upper end of the flow control device recharge well, the first slide block is symmetrically distributed about the center of a suspension plate, and the suspension plate is made of light PVC (polyvinyl chloride) materials; the connecting pipe is fixedly connected with the middle position of the suspension plate; the method comprises the following steps: the filter box is arranged on the connecting pipe, and a filter plate is arranged in the filter box; and the fastening screw penetrates through the filter box. This a flow control device for in geothermol power recharge, through installing the rose box, thereby realize filtering the recharge water, it contains more impurity to avoid in the recharge water, be convenient for follow-up use the recharge water, and through the control panel, first stagnant water board can realize controlling the flow with the second stagnant water board, adopt the mode of multiple control, thereby can effectual assurance control effect, nevertheless still there is following shortcoming, monitor the water level through the suspension board, thereby the suspension board can probably reciprocate because the undulant emergence of rivers, can lead to the unsafe condition of monitoring.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flow control device for geothermol power recharge to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a flow control device for geothermal recharging comprises a tank body, wherein a control mechanism is arranged on the top surface of the tank body, and an adjusting mechanism is arranged in the tank body;

control mechanism includes fixed plate three, three bottom surfaces of fixed plate and jar body top surface fixed connection, three right sides of fixed plate rotate through bearing frame one and are provided with dwang two, two fixed surface covers of dwang are equipped with gear two, the fixed plate two that is provided with of jar body top surface, two right sides of fixed plate slide and are provided with pinion rack one, pinion rack one openly meshes with gear two sides, a fixed extrusion piece one that is provided with of pinion rack right side, the fixed inlet tube that runs through of jar internal portion top surface is provided with and extends to jar body top, the inside sealed slip of inlet tube runs through and is provided with the baffle and extends to the inlet tube left, the fixed extrusion piece two that is provided with of baffle left surface, two inclined planes of extrusion piece and an inclined plane sliding connection of extrusion piece.

Preferably, guiding mechanism includes the pipeline, the terminal surface is fixed connection about the pipeline is inside with jar respectively about the terminal surface, the intake chamber has been seted up on the pipeline surface, jar internal portion seals to slide and is provided with the piston plate, can make rivers get into inside the pipeline through pipeline, intake chamber and piston plate for the piston plate descends, thereby can make jar internal portion rivers control.

Preferably, the fixed connecting rod that is provided with of piston plate top surface, the connecting rod top surface runs through the internal portion top surface of jar and extends to jar body top, the pipeline surface slides and is provided with the sliding sleeve, reciprocates through the sliding sleeve, can seal the intake chamber, can control jar internal geothermal water height.

Preferably, connecting rod fixed surface is provided with pinion rack two, two fixed surface covers of dwang are equipped with gear one, pinion rack two openly meshes with a gear side, two fixed bottom surfaces of pinion rack are provided with spring one, and the spring other end and jar body top surface fixed connection, an initial state of spring are the extending state, rise through the connecting rod, can make the pinion rack follow the connecting rod and reciprocate in step to can make gear one rotate, make control mechanism can work.

Preferably, a T-shaped block is fixedly arranged on the left side face of the first toothed plate, a T-shaped groove is formed in the right side face of the second fixing plate, the inner wall of the T-shaped groove is in sliding connection with the surface of the T-shaped block, and the first toothed plate can not be separated from the second fixing plate when sliding on the right side face of the second fixing plate.

Preferably, the fixed plate that is provided with of jar internal portion top surface, a fixed plate right side rotates to run through and is provided with a dwang one and extends to a fixed plate left, a dwang left side rotates to run through a jar internal portion surface and extends to a jar body left, can play a supporting effect to dwang two through fixed plate one for dwang two can not take place the slope.

Preferably, jar internal portion top surface of body is provided with the threaded rod through two rotations of bearing frame, the fixed cover in threaded rod surface is equipped with bevel gear two, a fixed cover in dwang surface has bevel gear one, the meshing of two inclined planes of bevel gear one inclined plane and bevel gear can make dwang one pivoted through bevel gear one and bevel gear two, drives the threaded rod and rotates.

Preferably, threaded sleeve is equipped with to threaded rod surface thread bush, threaded sleeve fixed surface is provided with the spliced pole, spliced pole right flank and sliding sleeve fixed surface are connected, rotate through the threaded rod, can make the threaded sleeve reciprocate, and then through the spliced pole for the sliding sleeve can follow the threaded sleeve and reciprocate in step.

Preferably, the fixed connecting plate that is provided with in baffle back, the fixed spring two that is provided with of connecting plate left surface, the two other ends of spring and the two right sides fixed connection of fixed plate, two initial state of spring are compression state, through spring two, can make extrusion piece one rise the time for the baffle can remove to the right side, thereby stops intake inside rivers.

Preferably, the top surface of the tank body is provided with a sliding groove, the bottom surfaces of the two extrusion blocks are fixedly provided with sliding blocks, the surfaces of the sliding blocks are connected with the inner wall of the sliding groove in a sliding mode, the two extrusion blocks can be supported through the sliding blocks, the two extrusion blocks are prevented from inclining, and the sliding blocks can slide in the sliding groove through the sliding groove, so that the two extrusion blocks can move.

Compared with the prior art, the beneficial effects of the utility model are that: the flow control device for geothermal recharge, geothermal water enters the inside of a pipeline through the water inlet groove, so that the piston plate moves up and down, the piston plate drives the connecting rod to move downwards, the toothed plate II can move downwards synchronously along with the connecting rod, the first gear can be driven to rotate, the second rotating rod can rotate synchronously along with the first gear, the second rotating rod drives the second gear to rotate, the first toothed plate is driven to move up and down, the first toothed plate can drive the first extrusion block to move, the second extrusion block can be extruded, the second extrusion block can move to the right side, the baffle can move to the right side, geothermal water in the water inlet pipe can be isolated, the aim of controlling the height of geothermal water in the tank body is fulfilled, the baffle can move to the right side when the first extrusion block rises through the second spring, water flow in the water inlet pipe is blocked, the second toothed plate can move downwards through the first spring, the baffle can move to the left side, and geothermal water can enter the tank body;

through dwang one rotation, dwang one drives bevel gear one and rotates, through bevel gear one and the meshing of bevel gear two, can make bevel gear two rotate to make the threaded rod follow the bevel gear two and rotate in step, the threaded rod rotates and can drive the thread bush and reciprocate, and then through the spliced pole, can make the sliding sleeve follow the thread bush and reciprocate in step, reciprocate through the sliding sleeve, can seal the intake chamber, thereby can control jar internal geothermal water height.

Drawings

FIG. 1 is a schematic view of the front three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the front side of the present invention showing a three-dimensional structure;

FIG. 3 is a schematic view of the front cross-sectional three-dimensional structure of the present invention;

FIG. 4 is a schematic view of the back side of the utility model;

fig. 5 is a schematic perspective view of the enlarged structure of the area a in fig. 1 according to the present invention.

In the figure: 1 tank body, 2 adjusting mechanisms, 201 connecting rods, 202 piston plates, 203 sliding sleeves, 204 pipelines, 206 water inlet grooves, 207 bevel gear I, 208 fixing plate I, 209 bevel gear II, 210 threaded rods, 211 threaded sleeves, 212 connecting columns, 213 rotating rod I, 3 control devices, 301 water inlet pipes, 302 fixing plate II, 303 toothed plate I, 304 toothed plate II, 305 fixing plate III, 307 rotating rod II, 308 gear I, 309 gear II, 310T-shaped grooves, 311 sliding blocks, 312 sliding grooves, 313 extrusion block I, 314 extrusion block II, 315T-shaped blocks, 316 spring II, 317 connecting plates and 318 baffle plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a flow control device for geothermal recharge comprises a tank body 1, wherein a control mechanism 3 is arranged on the top surface of the tank body 1, and an adjusting mechanism 2 is arranged in the tank body 1;

the control mechanism 3 comprises a third fixed plate 305, the bottom surface of the third fixed plate 305 is fixedly connected with the top surface of the tank body 1, the right side surface of the third fixed plate 305 is rotatably provided with a second rotating rod 307 through a first bearing seat, the surface of the second rotating rod 307 is fixedly sleeved with a second gear 309, the top surface of the tank body 1 is fixedly provided with a second fixed plate 302, the right side surface of the second fixed plate 302 is slidably provided with a first toothed plate 303, the left side surface of the first toothed plate 303 is fixedly provided with a T-shaped block 315, the right side surface of the second fixed plate 302 is provided with a T-shaped groove 310, the inner wall of the T-shaped groove 310 is slidably connected with the surface of the T-shaped block 315, the front surface of the first toothed plate 303 is meshed with the side surface of the second gear 309, the right side surface of the first toothed plate 303 is fixedly provided with a first extrusion block 313, the top surface inside the tank body 1 is fixedly provided with a water inlet pipe 301 extending to the upper side of the tank body 1 in a sealing and sliding way, a baffle 318 is provided with a baffle 314 extending to the left side surface of the baffle 318 in a sliding way, the inclined plane of the second extrusion block 314 is slidably connected with the inclined plane of the first extrusion block 313, the back of the baffle plate 318 is fixedly provided with a connecting plate 317, the left side of the connecting plate 317 is fixedly provided with a second spring 316, the other end of the second spring 316 is fixedly connected with the right side of the second fixed plate 302, the initial state of the second spring 316 is a compression state, the first extrusion block 313 can be lifted through the second spring, and simultaneously, the baffle plate 318 can move towards the right side, so as to block the water flow in the water inlet pipe 301, the top surface of the tank body 1 is provided with a chute 312, the bottom surface of the second extrusion block 314 is fixedly provided with a slide block 311, the surface of the slide block 311 is slidably connected with the inner wall of the chute 312, the adjusting mechanism 2 comprises a pipeline 206, the upper end surface and the lower end surface of the pipeline 206 are respectively and fixedly connected with the upper surface and the lower surface in the tank body 1, the surface of the pipeline 206 is provided with a water inlet groove 206, the piston plate 202 is hermetically and slidably arranged in the tank body 1, the top surface of the piston plate 202 is fixedly provided with a connecting rod 201, the top surface of the connecting rod 201 penetrates through the inner top surface of the tank body 1 and extends to the upper side of the tank body 1, the surface of the connecting rod 201 is fixedly provided with a toothed plate two 304, the surface of a rotating rod two 307 is fixedly sleeved with a gear one 308, the front surface of the toothed plate two 304 is meshed with the side surface of the gear one 308, geothermal water enters the pipeline 204 through the water inlet groove 206 to enable the piston plate 202 to move up and down, the piston plate 202 drives the connecting rod 201 to move down, the toothed plate two 304 can move down along with the connecting rod 201 synchronously, the gear one 308 can be driven to rotate, the rotating rod two 307 can rotate along with the gear one 308 synchronously, the rotating rod two 307 drives the gear two 309 to rotate, the toothed plate one 303 is driven to move up and down, the toothed plate one 303 can drive the extrusion block one 313 to move, the extrusion block two 314 can be extruded, the extrusion block two 314 can move to the right side, and the baffle 318 can move to the right side, the geothermal water in the water inlet pipe 301 can be separated to achieve the purpose of controlling the height of the geothermal water in the tank body 1, the first spring is fixedly arranged on the bottom surface of the second toothed plate, the other end of the first spring is fixedly connected with the top surface of the tank body 1, the initial state of the first spring is an extension state, the second toothed plate 304 can move downwards through the first spring, so that the baffle 318 can move towards the left side, so that the geothermal water can enter the tank body 1, the sliding sleeve 203 is slidably arranged on the surface of the pipeline 206, the second toothed plate 304 is fixedly arranged on the surface of the connecting rod 201, the first gear 308 is fixedly sleeved on the surface of the second rotating rod 307, the front surface of the second toothed plate 304 is meshed with the side surface of the first gear 308, the first fixing plate 208 is fixedly arranged on the top surface in the tank body 1, the right side surface of the first fixing plate 208 is rotatably provided with the first rotating rod 213 to extend to the left side of the first fixing plate 208, the left side surface of the first rotating rod 213 extends to the left side of the tank body 1, the top surface in the tank body 1 is provided with a threaded rod 210 through a bearing seat II in a rotating mode, a bevel gear II 209 is sleeved on the surface of the threaded rod 210 in a fixed mode, a bevel gear I207 is sleeved on a rotating rod I213 in a fixed mode, the bevel gear I207 is in bevel engagement with the bevel gear II 209 in a inclined mode, a threaded sleeve 211 is sleeved on the surface of the threaded rod 210 in a threaded sleeve 211 in a threaded mode, a connecting column 212 is arranged on the right side surface of the connecting column 212 in a fixed mode, the rotating rod I213 rotates to drive the bevel gear I207 to rotate, the bevel gear I207 is meshed with the bevel gear II 209 through the bevel gear I207, the bevel gear II 209 can rotate, the threaded rod 210 can rotate synchronously along with the bevel gear II 209, the threaded sleeve 211 can be driven to move up and down through the connecting column 212, the sliding sleeve 203 can move up and down synchronously along with the threaded sleeve 211, the water inlet groove 206 can be sealed, and the height of geothermal water in the tank body 1 can be controlled.

During the use, geothermal water enters into inside the pipeline 204 through the water inlet tank 206, make the piston plate 202 reciprocate, the piston plate 202 drives the connecting rod 201 and moves down, can make the pinion rack two 304 follow the connecting rod 201 and move down synchronously, thereby can drive the gear one 308 and rotate, make the pinion rack two 307 follow the gear one 308 and rotate synchronously, make the pinion rack two 307 drive the gear two 309 and rotate, drive the pinion rack one 303 and move up and down, the pinion rack one 303 can drive the extrusion block one 313 and move, thereby extrude the block two 314, make the extrusion block two 314 can move to the right side, thereby make the baffle 318 move to the right side, through spring two, can make the extrusion block one 313 rise simultaneously, make the baffle 318 can move to the right side, through spring one, can make the pinion rack two 304 move down, thereby make the baffle 318 can move to the left side, drive the bevel gear one 207 to rotate through the pinion rack one 213, through the pinion rack one 213 meshing with the bevel gear 209, can make the bevel gear two 209 rotate, thereby make the threaded rod 210 rotate along with the threaded rod set 209, and then can drive the threaded sleeve 211 to move up and down through the synchronous follow screw thread sleeve 211.

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 the 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 (10)

1. A flow control device for geothermal recharging, comprising a tank (1), characterized in that: the top surface of the tank body (1) is provided with a control mechanism (3), and the tank body (1) is internally provided with an adjusting mechanism (2);

control mechanism (3) are including fixed plate three (305), fixed plate three (305) bottom surface and jar body (1) top surface fixed connection, fixed plate three (305) right flank is provided with dwang two (307) through the rotation of bearing frame one, dwang two (307) fixed surface cover is equipped with gear two (309), jar body (1) fixed surface is provided with fixed plate two (302), fixed plate two (302) right flank slides and is provided with pinion rack one (303), pinion rack one (303) openly meshes with gear two (309) side, pinion rack one (303) right side is fixed and is provided with extrusion piece one (313), the fixed running through of jar body (1) inside top surface is provided with inlet tube (301) and extends to jar body (1) top, inlet tube (301) inside seal slides and is provided with baffle (318) and extends to inlet tube (301) left, baffle (318) left side is fixed and is provided with extrusion piece two (314), extrusion piece two (314) inclined plane and extrusion piece one (313) inclined plane sliding connection.

2. A flow control device for geothermal recharging, as claimed in claim 1, wherein: the adjusting mechanism (2) comprises a pipeline (204), the upper end face and the lower end face of the pipeline (204) are fixedly connected with the upper surface and the lower surface inside the tank body (1) respectively, a water inlet groove (206) is formed in the surface of the pipeline (204), and a piston plate (202) is arranged inside the tank body (1) in a sealing and sliding mode.

3. A flow control device for geothermal recharging, as claimed in claim 2, wherein: the fixed connecting rod (201) that is provided with of piston board (202) top surface, connecting rod (201) top surface runs through jar body (1) inside top surface and extends to jar body (1) top, pipeline (204) surface slip is provided with sliding sleeve (203).

4. A flow control device for geothermal recharging, as claimed in claim 3, wherein: connecting rod (201) fixed surface is provided with pinion rack two (304), dwang two (307) fixed surface cover is equipped with gear one (308), pinion rack two (304) openly and gear one (308) side engagement, two fixed bottom surfaces of pinion rack are provided with spring one, and a spring other end and jar body (1) top surface fixed connection, a spring initial condition is the extension state.

5. A flow control device for geothermal recharging, as claimed in claim 1, wherein: the fixed T type piece (315) that is provided with of pinion rack (303) left surface, T type groove (310) have been seted up to fixed plate two (302) right flank, T type groove (310) inner wall and T type piece (315) surface sliding connection.

6. A flow control device for geothermal recharging as defined in claim 1 wherein: the fixed plate (208) that is provided with of the inside top surface of the jar body (1), fixed plate (208) right flank rotates to run through and is provided with dwang (213) and extends to fixed plate (208) left, dwang (213) left flank rotates to run through jar body (1) inside surface and extends to jar body (1) left.

7. A flow control device for geothermal recharging, as claimed in claim 6, wherein: the inside top surface of jar body (1) is rotated through bearing frame two and is provided with threaded rod (210), threaded rod (210) fixed surface cover is equipped with bevel gear two (209), the fixed surface cover of dwang one (213) has bevel gear one (207), bevel gear one (207) inclined plane and bevel gear two (209) inclined plane meshing.

8. A flow control device for geothermal recharging as defined in claim 7 wherein: threaded sleeve is equipped with thread bush (211) on threaded rod (210) surface, thread bush (211) fixed surface is provided with spliced pole (212), spliced pole (212) right flank and sliding sleeve (203) fixed surface are connected.

9. A flow control device for geothermal recharging as defined in claim 1 wherein: the back of the baffle (318) is fixedly provided with a connecting plate (317), the left side of the connecting plate (317) is fixedly provided with a second spring (316), the other end of the second spring (316) is fixedly connected with the right side of the second fixing plate (302), and the initial state of the second spring (316) is a compression state.

10. A flow control device for geothermal recharging, as claimed in claim 1, wherein: the top surface of the tank body (1) is provided with a sliding groove (312), the bottom surface of the second extrusion block (314) is fixedly provided with a sliding block (311), and the surface of the sliding block (311) is in sliding connection with the inner wall of the sliding groove (312).

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