CN113338870A

CN113338870A - Geothermal energy converter convenient to separate detritus and retrieve high temperature distilled water

Info

Publication number: CN113338870A
Application number: CN202110744110.9A
Authority: CN
Inventors: 范志华
Original assignee: Individual
Current assignee: Henan Yida Heat Exchanger Equipment Co ltd
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2021-09-03
Anticipated expiration: 2041-06-30
Also published as: CN113338870B

Abstract

The invention relates to a geothermal energy converter, in particular to a geothermal energy converter which is convenient for separating rock debris and recovering high-temperature distilled water, comprising a box body, a cover plate, a return frame, a thermal energy conversion assembly, a collection assembly and the like; the box body is rotatably connected with a cover plate, the top of the box body is provided with a back-shaped frame, the heat energy conversion assembly is arranged on the back-shaped frame, and the collecting assembly is arranged on the heat energy conversion assembly. Through the cooperation of water conservancy diversion frame and filter frame and device above, the mixture of water and detritus that accumulates on the water conservancy diversion frame can flow to the filter frame in, and high temperature distilled water can be through taking the check valve hard pipe downward flow in the filter frame for the high temperature distilled water that has utilized is retrieved, thereby can the energy saving, has reached the effect that can retrieve high temperature distilled water automatically.

Description

Geothermal energy converter convenient to separate detritus and retrieve high temperature distilled water

Technical Field

The invention relates to a geothermal energy converter, in particular to a geothermal energy converter which is convenient for separating rock debris and recovering high-temperature distilled water.

Background

Geothermal energy is natural heat energy that comes from lava rock inside the earth and exists in the form of heat. The hot lava heats the nearby ground water, which will eventually seep out of the ground, the simplest and most cost-effective method of applying geothermal energy is to directly sample the heat sources and extract their energy, the geothermal energy generation is actually the conversion of geothermal energy, which is to convert the thermal energy stored in the earth into other forms of energy after certain technical treatment.

After converting geothermal energy into the energy of other forms, the high temperature steam that contains geothermal energy can change into high temperature distilled water usually, can't retrieve the high temperature distilled water after utilizing among the current geothermal energy conversion process, can't separate the detritus that mixes in the high temperature distilled water effectively, nevertheless because high temperature distilled water contains a large amount of energy, consequently make the waste that causes the energy, and the detritus makes geothermal energy conversion equipment plugged up easily, lead to geothermal energy conversion equipment can not move steadily, the practicality is not high.

Disclosure of Invention

Therefore, in order to solve the above problems, it is necessary to provide a geothermal energy converter capable of automatically recovering the used high-temperature distilled water to save energy, effectively separating rock debris mixed in the high-temperature distilled water to prevent the geothermal energy conversion equipment from being blocked by the rock debris, and conveniently separating the rock debris and recovering the high-temperature distilled water, so as to solve the above problems in the background art that the used high-temperature distilled water cannot be recovered, and the rock debris mixed in the high-temperature distilled water cannot be effectively separated.

The technical scheme is as follows: the utility model provides a geothermal energy converter convenient to separate detritus and retrieve high temperature distilled water, the power distribution box comprises a box body, the apron, return the type frame, heat energy conversion subassembly, the collection subassembly, the isolation component, the water conservancy diversion subassembly, spacing subassembly and trigger mechanism, the pivoted is connected with the apron on the box, the box top is equipped with back the type frame, heat energy conversion subassembly is located back on the type frame, the collection subassembly is located on the heat energy conversion subassembly, the isolation component is located on the heat energy conversion subassembly, the water conservancy diversion subassembly is located on the heat energy conversion subassembly, spacing subassembly is located on the heat energy conversion subassembly, trigger mechanism locates on the water conservancy diversion subassembly.

Further, the heat energy conversion subassembly is including the guide rail board, the backup pad, the fluting pendulum rod, torsion spring, the adjustable shelf, the reciprocating plate, first compression spring and exhaust frame, it has two pairs of backup pads to connect back type frame bottom, the backup pad is located inside the box, with having connected the guide rail board between the backup pad jointly, the rotation type is connected with the fluting pendulum rod in the backup pad, be connected with torsion spring between fluting pendulum rod and the backup pad, common rotary type is connected with the adjustable shelf between the homonymy fluting pendulum rod, common slidingtype is connected with the reciprocating plate between two adjustable shelves, reciprocating plate and the cooperation of returning type frame slidingtype, it has a pair of first compression spring to link between adjustable shelf and the reciprocating plate, the exhaust frame has been connected jointly between two guide rail boards, the exhaust frame passes the bottom half.

Further, collect the subassembly including L type guide bar, the inclined plane movable rod, the baffle, extension spring, the rubber strip, filter frame and take the hard pipe of check valve, it has L type guide bar all to connect on two backup pads that are close to apron one side, it has the inclined plane movable rod to slide type connection on the L type guide bar, the hookup has the baffle on the inclined plane movable rod, be connected with extension spring between inclined plane movable rod and the L type guide bar, the bottom half hookup has a pair of rubber strip, the filter frame has been cup jointed on the rubber strip, it is provided with the round hole to filter the frame bottom, filter frame and bottom half contact, the bottom half hookup has a pair of hard pipe of check valve, take the hard pipe of check valve to correspond the setting with the round hole of filtering the frame bottom.

Furthermore, the isolation assembly comprises an isolation plate, a push rod and a second compression spring, wherein the isolation plate is connected to the two support plates in a sliding mode, the push rod is connected to the isolation plate in a connecting mode, the push rod is in contact with one inclined plane movable rod, and the second compression spring is connected between the isolation plate and the two support plates.

Further, the flow guide assembly comprises a slotted guide pushing frame, a guide plate, an inclined plane plate, a third compression spring, a pushing plate and a flow guide frame, the bottom of the reciprocating plate is connected with a pair of slotted guide pushing frames, a pair of guide plates are connected between the two guide rail plates in a rolling mode, a pair of inclined plane plates are connected to the two guide rail plates in a sliding mode, the inclined plane plates are in sliding fit with the slotted guide pushing frames, the third compression spring is connected to the inclined plane plates in a connecting mode, the pushing plate is connected to the other end of the third compression spring in a connecting mode, the pushing plate is in sliding fit with the guide rail plates and is in contact with the guide plates, a pair of flow guide frames is connected between the two guide rail plates in a connecting mode, and the flow guide frames are in contact with the baffle.

Further, spacing subassembly is including riser, first spacing spring, the spacing of second and the spacing spring of second, and the hookup has a pair of riser on the guide rail board, and the gliding style is connected with first spacing on the riser, and first spacing contacts with the guide plate, is connected with first spacing spring between first spacing and the riser, and the gliding style is connected with the spacing of second on the riser, is connected with the spacing spring of second between spacing and the riser.

Furthermore, the triggering mechanism comprises an opening frame, a fourth compression spring and a floating ball, the opening frame is connected to the flow guide frame in a sliding mode, the two opening frames are correspondingly contacted with a second limiting strip on the same side, the fourth compression spring is connected between the opening frame and one of the guide rail plates, and the floating ball is connected to the opening frame in a connecting mode.

The invention has the beneficial effects that:

through the cooperation of water conservancy diversion frame and filter frame and device above, the mixture of water and detritus that accumulates on the water conservancy diversion frame can flow to the filter frame in, and high temperature distilled water can be through taking the check valve hard pipe downward flow in the filter frame for the high temperature distilled water that has utilized is retrieved, thereby can the energy saving, has reached the effect that can retrieve high temperature distilled water automatically.

Through the filter frame, when the high-temperature distilled water in the filter frame flows out, the rock debris can be left on the filter frame, so that the hard pipe with the check valve is prevented from being blocked by the rock debris, and the effect of effectively separating the rock debris to ensure the normal operation of equipment is achieved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first triggering mechanism according to the present invention.

Fig. 4 is a partial perspective view of the thermal energy conversion assembly of the present invention.

Fig. 5 is a partial perspective view of the present invention.

Fig. 6 is a schematic perspective view of the isolation assembly of the present invention.

Fig. 7 is a perspective view of the collecting assembly of the present invention.

Fig. 8 is a schematic view of a first partially separated body structure of the flow guide assembly of the present invention.

Fig. 9 is an enlarged perspective view of the present invention a.

FIG. 10 is a schematic view of a second partially separated body structure of the flow guide assembly of the present invention.

Fig. 11 is an enlarged perspective view of the present invention B.

Fig. 12 is a schematic perspective view of a second triggering mechanism according to the present invention.

Reference numerals: 1_ box, 2_ cover, 3_ loop frame, 4_ thermal energy conversion assembly, 41_ guide rail plate, 42_ support plate, 43_ slotted rocker, 44_ torsion spring, 45_ movable frame, 46_ reciprocating plate, 47_ first compression spring, 48_ exhaust frame, 5_ collection assembly, 51_ L-shaped guide bar, 52_ inclined plane movable bar, 53_ baffle, 54_ extension spring, 55_ rubber strip, 56_ filter frame, 57_ rigid tube with one-way valve, 7_ isolation assembly, 71_ isolation plate, 72_ push bar, 73_ second compression spring, 8_ guide assembly, 81_ slotted guide push frame, 82_ guide plate, 83_ inclined plane plate, 84_ third compression spring, 85_ push plate, 86_ guide frame, 9_ limit assembly, 91_ riser, 92_ first limit bar, 93_ first limit spring, 94_ second limit bar, 95_ second limit spring, 10_ trigger mechanism, 101_ opening frame, 102_ fourth compression spring and 103_ floating ball.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example (b): a geothermal energy converter convenient for separating rock debris and recovering high-temperature distilled water is shown in figures 1-12 and comprises a box body 1, a cover plate 2, a square-shaped frame 3 and a heat energy conversion component 4, collecting component 5, isolation component 7, water conservancy diversion subassembly 8, spacing subassembly 9 and trigger mechanism 10, the rotation type is connected with apron 2 on the

box

1, 1 top of box is equipped with back type frame 3, heat energy conversion subassembly 4 is located back type frame 3 on, heat energy conversion subassembly 4 is used for converting heat energy into mechanical energy, collecting component 5 is located on heat energy conversion subassembly 4, collecting component 5 is used for retrieving high temperature distilled water, isolation component 7 is located on heat energy conversion subassembly 4, water conservancy diversion subassembly 8 is used for water conservancy diversion high temperature distilled water, spacing subassembly 9 is located on heat energy conversion subassembly 4, trigger mechanism 10 is located on water conservancy diversion subassembly 8.

The heat energy conversion assembly 4 comprises a guide rail plate 41, a support plate 42, a slotted oscillating bar 43, a torsion spring 44, a movable frame 45, a reciprocating plate 46, a first compression spring 47 and an exhaust frame 48, wherein the bottom of the clip frame 3 is connected with two pairs of support plates 42, the support plates 42 are positioned in the box body 1, the guide rail plate 41 is connected between the pair of support plates 42, the support plates 42 are rotatably connected with the slotted oscillating bar 43, under the action of the slotted oscillating bar 43, the movable frame 45 can move towards the direction away from each other, the torsion spring 44 is connected between the slotted oscillating bar 43 and the support plates 42, the torsion spring 44 is used for driving the slotted oscillating bar 43 to reset, the movable frame 45 is rotatably connected between the slotted oscillating bars 43 at the same side, the reciprocating plate 46 is slidably connected between the two movable frames 45, the reciprocating plate 46 is used for driving the slotted guide pushing frame 81 to move upwards, and the reciprocating plate 46 is slidably matched with the clip frame 3, a pair of first compression springs 47 are linked between the movable frame 45 and the reciprocating plate 46, an exhaust frame 48 is jointly connected between the two guide rail plates 41, the exhaust frame 48 is used for discharging high-temperature steam into the box body 1, and the exhaust frame 48 penetrates through the bottom of the box body 1.

The collecting component 5 comprises an L-shaped guide rod 51, an inclined plane movable rod 52, a baffle 53, an extension spring 54, a rubber strip 55, a filter frame 56 and a hard tube 57 with a one-way valve, wherein the two support plates 42 close to one side of the cover plate 2 are both connected with the L-shaped guide rod 51, the inclined plane movable rod 52 is connected with the L-shaped guide rod 51 in a sliding way, the inclined plane movable rod 52 is used for driving a push rod 72 to move, the baffle 53 is connected with the inclined plane movable rod 52, the baffle 53 is used for blocking a water outlet on a flow guide frame 86, the extension spring 54 is connected between the inclined plane movable rod 52 and the L-shaped guide rod 51, the extension spring 54 is used for driving the inclined plane movable rod 52 to reset, the bottom of the box body 1 is connected with a pair of rubber strips 55, the filter frame 56 is sleeved on the rubber strips 55, the filter frame 56 is used for separating water from debris, the bottom of the filter frame 56 is provided with a round hole, the filter frame 56 is contacted with the bottom of the box body 1, the hard tube 57 with the one-way valve, the hard tube 57 with the one-way valve is arranged corresponding to the round hole at the bottom of the filter frame 56.

The isolation assembly 7 comprises an isolation plate 71, a push rod 72 and a second compression spring 73, wherein the isolation plate 71 is connected to the two support plates 42 in a sliding manner, the isolation plate 71 is used for blocking an air outlet at the top of the exhaust frame 48, the push rod 72 is connected to the isolation plate 71, the push rod 72 is in contact with one of the inclined plane movable rods 52, the second compression spring 73 is connected between the isolation plate 71 and the two support plates 42, and the second compression spring 73 is used for driving the isolation plate 71 and the devices thereon to reset.

The guide assembly 8 comprises a slotted guide pushing frame 81, a guide plate 82, an inclined plane plate 83, a third compression spring 84, a pushing plate 85 and a guide frame 86, the bottom of the reciprocating plate 46 is connected with a pair of slotted guide pushing frames 81, the slotted guide pushing frame 81 is used for pushing the inclined plane plate 83 to move towards the direction close to the exhaust frame 48, a pair of guide plates 82 are jointly connected between the two guide rail plates 41 in a rolling manner, the guide plate 82 is used for pushing a first limit strip 92 to move upwards, a pair of inclined plane plates 83 are connected to the two guide rail plates 41 in a sliding manner, the inclined plane plate 83 is used for pushing the first limit strip 92 to move upwards, the inclined plane plate 83 is in sliding fit with the slotted guide pushing frame 81, the inclined plane plate 83 is connected with the third compression spring 84, the third compression spring 84 is used for driving the pushing plate 85 to reset, the other end of the third compression spring 84 is connected with the pushing plate 85, the pushing plate 85 is in sliding fit with the guide rail plates 41, the pushing plate 85 contacts with the guide plate 82, a pair of guide frames 86 are connected between the two guide rail plates 41, and the guide frames 86 contact with the baffle 53.

The limiting component 9 comprises a vertical plate 91, a first limiting strip 92, a first limiting spring 93, a second limiting strip 94 and a second limiting spring 95, a pair of vertical plates 91 is connected to the guide rail plate 41 in a linked mode, the vertical plate 91 is connected with the first limiting strip 92 in a sliding mode, the first limiting strip 92 is used for limiting the guide plate 82, the first limiting strip 92 is in contact with the guide plate 82, the first limiting spring 93 is connected between the first limiting strip 92 and the vertical plate 91, the first limiting spring 93 is used for driving the first limiting strip 92 to reset, the vertical plate 91 is connected with the second limiting strip 94 in a sliding mode, the second limiting strip 94 is used for clamping the inclined plane plate 83, the second limiting spring 95 is connected between the second limiting strip 94 and the vertical plate 91, and the second limiting spring 95 is used for driving the second limiting strip 94 to reset.

The triggering mechanism 10 comprises an opening frame 101, a fourth compression spring 102 and a floating ball 103, the opening frame 101 is connected to the flow guide frame 86 in a sliding mode, the opening frame 101 is used for pushing the second limiting strips 94 on the same side to move towards the direction close to each other, the two opening frames 101 are correspondingly contacted with the second limiting strips 94 on the same side, the fourth compression spring 102 is connected between the opening frame 101 and one of the guide rail plates 41, the fourth compression spring 102 is used for driving the opening frame 101 and an upper device thereof to reset, and the floating ball 103 is connected to the opening frame 101 in a connecting mode.

The exhaust frame 48 is connected with high-temperature steam, the high-temperature steam enters the box body 1 through the exhaust frame 48, the high-temperature steam on the box body 1 drives the reciprocating plate 46 and the devices thereon to move upwards to convert heat energy into mechanical energy, so as to drive a generator outside the equipment to operate, under the action of the slotted swing rod 43, the movable frame 45 moves towards the direction away from each other, the first compression spring 47 is compressed therewith, the slotted swing rod 43 drives the inclined plane movable rod 52 and the devices thereon to move upwards, the extension spring 54 is stretched therewith, so that the baffle plate 53 blocks the water outlet on the flow guide frame 86, meanwhile, the reciprocating plate 46 drives the slotted guide pushing frame 81 to move upwards, the slotted guide pushing frame 81 pushes the inclined plane 83 to move towards the direction close to the exhaust frame 48, the third compression spring 84 is compressed therewith, and then the two inclined plane plates 83 push the second limiting strips 94 on the same side to move towards the direction close to each other, the second limiting spring 95 is stretched accordingly, then the inclined plane plate 83 contacts with the other side of the second limiting bar 94, the second limiting bar 94 is reset under the reset action of the second limiting spring 95, so that the second limiting bar 94 clamps the inclined plane plate 83, meanwhile, the inclined plane plate 83 pushes the first limiting bar 92 to move upwards, the first limiting spring 93 is compressed accordingly, the guide plate 82 is no longer limited by the first limiting bar 92, and the pushing plate 85 pushes the guide plate 82 to move upwards along the sliding groove on the guide rail plate 41 under the reset action of the third compression spring 84 accordingly.

When the inclined plane movable rod 52 and the upper device move upwards, the inclined plane movable rod 52 can drive the pushing rod 72 to move, the second compression spring 73 can be compressed, the isolating plate 71 can block the air outlet at the top of the exhaust frame 48, high-temperature steam can not enter the box body 1 any more, the external temperature at the sufficient part of geothermal energy is low, the temperature of high-temperature steam in the deep ground is high, great temperature difference is caused, the high-temperature steam in the box body 1 is rapidly converted into water, the mixture of the water and rock debris can flow onto the flow guide frame 86 through the flow guide plate 82 due to the fact that the baffle 53 blocks the water outlet on the flow guide frame 86 at the moment, and more mixtures of the water and the rock debris can be accumulated on the flow guide frame 86.

Then the water on the diversion frame 86 contacts with the floating ball 103, the floating ball 103 and the devices thereon move upwards under the action of the buoyancy of the water, the fourth compression spring 102 is compressed, the two opening frames 101 push the second limiting strips 94 on the same side to move towards the mutually approaching direction, the second limiting spring 95 is stretched, so that the second limiting strips 94 do not block the inclined plane plate 83 any more, the slotted swing rod 43 is reset under the resetting action of the torsion spring 44, the movable frame 45 and the devices thereon are reset under the action of the slotted swing rod 43, the first compression spring 47 is reset along with the second limiting strips, the inclined plane movable rod 52 and the devices thereon are reset under the resetting action of the extension spring 54, so that the baffle plate 53 does not block the water outlet on the diversion frame 86, the mixture of the water and the detritus accumulated on the diversion frame 86 flows into the filter frame 56, the high-temperature distilled water in the filter frame 56 flows downwards through the hard tube 57 with the one-way valve, the high-temperature distilled water that makes use of is retrieved to can the energy saving, reached and to have retrieved the effect of high-temperature distilled water automatically, when the high-temperature distilled water in the filter frame 56 had flowed to the end, the detritus then can be stayed on the filter frame 56, thereby prevent that the detritus from will taking check valve hard pipe 57 to plug up, reached and to have separated the effect in order to guarantee the normal operating of equipment with the detritus effectively.

When the inclined movable rod 52 and the device thereon move downwards, the pushing rod 72 and the device thereon will reset under the resetting action of the second compression spring 73, during the resetting process of the reciprocating plate 46 and the device thereon, the inclined plate 83 will reset under the resetting action of the third compression spring 84, the first limit strip 92 will reset under the resetting action of the first limit spring 93, the guide plate 82 will reset along the sliding groove on the guide rail plate 41 under the action of its own gravity, the guide plate 82 will push the first limit strip 92 to move upwards, the first limit spring 93 will be compressed therewith, the guide plate 82 will contact with the other side of the first limit strip 92, the first limit strip 92 will reset under the resetting action of the first limit spring 93, so that the first limit strip 92 will clamp the guide plate 82 again.

Repeating the above operation can recover the high temperature steam water again and separate the debris.

When more rock debris accumulates in the filter frame 56, the cover plate 2 is manually opened, then the baffle 53 is manually pushed upwards, then the filter frame 56 is taken out, the rock debris in the filter frame 56 is poured out conveniently, then the filter frame 56 is put back, and the cover plate 2 is manually closed.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a geothermal energy converter convenient to separate detritus and retrieve high temperature distilled water, a serial communication port, the power distribution box comprises a box body, the apron, return the type frame, heat energy conversion subassembly, the collection subassembly, keep apart the subassembly, the water conservancy diversion subassembly, spacing subassembly and trigger mechanism, the pivoted type is connected with the apron on the box, the box top is equipped with back the type frame, heat energy conversion subassembly is located back on the type frame, the collection subassembly is located on the heat energy conversion subassembly, the isolation subassembly is located on the heat energy conversion subassembly, the water conservancy diversion subassembly is located on the heat energy conversion subassembly, spacing subassembly is located on the heat energy conversion subassembly, trigger mechanism locates on the water conservancy diversion subassembly.

2. A geothermal energy converter as recited in claim 1, wherein the geothermal energy converter is adapted to facilitate separation of debris and recovery of high temperature distilled water, the heat energy conversion assembly is characterized by comprising a guide rail plate, supporting plates, a slotted oscillating bar, a torsion spring, a movable frame, a reciprocating plate, a first compression spring and an exhaust frame, wherein two pairs of supporting plates are connected to the bottom of a return frame, the supporting plates are positioned in a box body, the guide rail plate is connected between the supporting plates, the slotted oscillating bar is rotatably connected on the supporting plates, the torsion spring is connected between the slotted oscillating bar and the supporting plates, the movable frame is connected between the slotted oscillating bars on the same side in a rotating mode, the reciprocating plate is connected between the two movable frames in a sliding mode, the reciprocating plate is matched with the return frame in a sliding mode, the first compression spring is connected between the movable frame and the reciprocating plate, the exhaust frame is connected between the two guide rail plates in a connecting mode, and the exhaust frame penetrates through the bottom of the box body.

3. The geothermal energy converter convenient to separate rock debris and recover high-temperature distilled water as claimed in claim 2, wherein the collecting assembly comprises an L-shaped guide rod, an inclined plane movable rod, a baffle, a tension spring, a rubber strip, a filter frame and a hard tube with a one-way valve, the L-shaped guide rod is connected to each of the two support plates close to one side of the cover plate, the inclined plane movable rod is connected to the L-shaped guide rod in a sliding manner, the baffle is connected to the inclined plane movable rod, the tension spring is connected between the inclined plane movable rod and the L-shaped guide rod, the pair of rubber strips are connected to the bottom of the box body, the filter frame is sleeved on the rubber strip, the bottom of the filter frame is provided with a round hole, the filter frame is in contact with the bottom of the box body, the bottom of the box body is connected with a pair of hard tubes with a one-way valve, and the hard tube with a one-way valve is arranged corresponding to the round hole at the bottom of the filter frame.

4. The geothermal energy converter, which is convenient for separating rock debris and recovering high temperature distilled water, as recited in claim 3, wherein the isolation assembly comprises an isolation plate, a push rod and a second compression spring, wherein the isolation plate is slidably connected to the two support plates, the push rod is connected to the isolation plate, the push rod contacts with one of the inclined movable rods, and the second compression spring is connected between the isolation plate and one of the two support plates.

5. The geothermal energy converter convenient to separate rock debris and recover high-temperature distilled water as claimed in claim 4, wherein the flow guide assembly comprises a slotted guide pushing frame, a flow guide plate, an inclined plate, a third compression spring, a pushing plate and a flow guide frame, the bottom of the reciprocating plate is connected with a pair of slotted guide pushing frames, a pair of flow guide plates are connected between the two guide rail plates in a rolling manner, a pair of inclined plates are connected on the two guide rail plates in a sliding manner and are in sliding fit with the slotted guide pushing frames, the inclined plate is connected with the third compression spring in a sliding manner, the other end of the third compression spring is connected with the pushing plate, the pushing plate is in sliding fit with the guide rail plates, the pushing plate is in contact with the flow guide plate, a pair of flow guide frames are connected between the two guide rail plates in a common manner, and the flow guide frames are in contact with the baffle.

6. The geothermal energy converter convenient to separate detritus and retrieve high temperature distilled water of claim 5, its characterized in that, spacing subassembly is including riser, first spacing spring, the spacing and the spacing spring of second, the hookup has a pair of riser on the guide rail board, sliding connection has first spacing on the riser, first spacing and guide plate contact, be connected with first spacing spring between first spacing and the riser, sliding connection has the spacing of second on the riser, be connected with the spacing spring of second between spacing and the riser.

7. The geothermal energy converter convenient to separate rock debris and recover high-temperature distilled water as claimed in claim 6, wherein the triggering mechanism comprises an opening frame, a fourth compression spring and a floating ball, the opening frame is slidably connected to the diversion frame, the two opening frames are correspondingly contacted with the second limiting strips on the same side, the fourth compression spring is connected between the opening frame and one of the guide rail plates, and the floating ball is connected to the opening frame.