CN110243032B

CN110243032B - Green energy-saving geothermal air conditioner

Info

Publication number: CN110243032B
Application number: CN201910390364.8A
Authority: CN
Inventors: 刘艺辉
Original assignee: Hunan Dadao New Energy Development Co Ltd
Current assignee: Hunan Dadao New Energy Development Co Ltd
Priority date: 2019-05-10
Filing date: 2019-05-10
Publication date: 2020-11-24
Anticipated expiration: 2039-05-10
Also published as: CN110243032A

Abstract

The invention provides a green energy-saving geothermal air conditioner. The green energy-saving geothermal air conditioner comprises a main body; a drive mechanism; a sealing mechanism; the filter mechanism comprises a rotating rod, a spring, a first filter screen, a limiting block, a second filter screen and a vent pipe, the inclined vent pipe is uniformly installed inside two ends of the main body, the bottom end of the vent pipe is connected with the first filter screen in an equidistance rotating mode, the second filter screen with an arc-shaped side wall is installed inside the top end of the vent pipe in an equidistance rotating mode, and the first filter screen abuts against the second filter screen; the limiting blocks are arranged in the middle of the inside of the vent pipe at equal intervals, and the side walls of the limiting blocks are abutted against the top end of the first filter screen; the rotating rod is arranged between the adjacent first filter screens, and the spring is arranged on the side wall of the first filter screen positioned at the topmost end of the vent pipe; a collection mechanism; a fixing mechanism; a mounting mechanism. The green energy-saving geothermal air conditioner provided by the invention can prevent dust in the filter screen from falling into the air conditioner.

Description

Green energy-saving geothermal air conditioner

Technical Field

The invention relates to the technical field of geothermal equipment, in particular to a green energy-saving geothermal air conditioner.

Background

Geothermal air conditioners are also called ground source heat pump air conditioners, the temperature of the underground depth of hundreds of meters is constant at 13-18 ℃, the geothermal air conditioners exchange energy with the soil of the ground through water buried in underground pipelines, and exchange heat with indoor air through indoor heat exchangers through pump driving circulation to achieve the purpose of adjusting the indoor temperature, and the geothermal air conditioners are widely applied due to energy conservation.

The filter screen among the geothermol power air conditioner can prevent effectively that the dust from getting into the inside of geothermol power air conditioner, when the inside dust of air conditioner filter screen is too much, need dismantle the filter screen from the inside of air conditioner get off, at the dismantlement in-process, the inside some dust of filter screen can fall into the inside of air conditioner, and the inside dust of air conditioner is amasss more, influences people's use.

Therefore, there is a need to provide a new green energy-saving geothermal air conditioner to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problem, the invention provides a convenient green energy-saving geothermal air conditioner which can prevent dust in a filter screen from falling into the air conditioner.

The invention provides a green energy-saving geothermal air conditioner, which comprises: a main body; a driving mechanism mounted to a sidewall of the main body; the sealing mechanism is fixed inside the driving mechanism; the filter mechanisms are symmetrically arranged inside two ends of the main body and comprise rotating rods, springs, first filter screens, limiting blocks, second filter screens and vent pipes, the inclined vent pipes are uniformly arranged inside the two ends of the main body, the bottom ends of the vent pipes are connected with the first filter screens in an equidistant rotating mode, the second filter screens with arc-shaped side walls are arranged inside the top ends of the vent pipes in an equidistant mode, and the first filter screens abut against the second filter screens; the limiting blocks are arranged in the middle of the inside of the vent pipe at equal intervals, and the side walls of the limiting blocks are abutted against the top end of the first filter screen; the rotating rod is arranged between the adjacent first filter screens, the rotating rod is rotatably connected with the first filter screens, and the spring is arranged on the side wall of one first filter screen positioned at the topmost end of the vent pipe; the collecting mechanism is arranged at the bottom end of the main body; a fixing mechanism mounted inside the main body; installation mechanism, installation mechanism sliding connection fixed establishment, the one end fixed connection of installation mechanism the spring, just the other end sliding connection of installation mechanism actuating mechanism.

Preferably, the driving mechanism comprises a rotating shaft, fan blades, a water pipe, a connecting pipe, a fixed disc and a compression rod, the water pipe is installed on the side wall of the main body, and the connecting pipe is installed on the side wall of the water pipe; the interiors of the water pipe and the connecting pipe are rotatably connected with the rotating shaft, the fan blades are arranged at one end of the rotating shaft at equal intervals, and the fan blades are rotatably connected with the interior of the water pipe; the other end fixed connection of pivot the fixed disk, the lateral wall equidistance installation of fixed disk the compression pole, just the fixed disk with the compression pole with the inside of main part is rotated and is connected.

Preferably, the sealing mechanism comprises a sealing ring and a sealing ring, the sealing ring is respectively installed at the joint of the rotating shaft and the water pipe and the connecting pipe, and the rotating shaft is rotatably connected inside the sealing ring; the sealing ring is arranged inside the pipe wall of the water pipe, and the inner side wall of the sealing ring with the semicircular structure on the cross section is rotatably connected with the rotating shaft.

Preferably, the water pipe and the connecting pipe are vertically arranged, and one end of the connecting pipe is fixedly connected with the main body.

Preferably, the mounting mechanism comprises a support rod, a mounting plate, a support plate and a groove, and the support plate and the support rod are connected with the inside of the main body in a sliding manner; the criss-cross support rods are arranged between the two support plates, the side walls of the support rods are provided with the grooves, and the springs are fixedly connected inside the grooves; one side wall of the support rod is fixedly connected with the mounting plate, and the side wall of the mounting plate is slidably connected with the compression rod.

Preferably, the one end of compression pole is the ball shape, the one end lateral wall of mounting panel is the arc, just the mounting panel with the bracing piece sets up perpendicularly.

Preferably, the fixing mechanism comprises a fixing rod and a fixing plate, the fixing plate is symmetrically arranged at the top end and the bottom end of the inner portion of the main body respectively, the fixing rod is perpendicularly arranged on the side wall of the fixing plate, and the fixing rod is connected with the inner portion of the supporting plate in a sliding mode.

Preferably, the collecting mechanism comprises a collecting groove and a collecting plate, the collecting plate is mounted at the bottom end of the main body, and the collecting groove is arranged on the top surface of the collecting plate.

Compared with the related art, the green energy-saving geothermal air conditioner provided by the invention has the following beneficial effects:

the invention provides a green energy-saving geothermal air conditioner, wherein a vent pipe is inclined downwards, so that part of dust is deposited at the bottom end of the vent pipe under the action of gravity, and the dust slides downwards from the inside of the vent pipe to enter the inside of a collecting mechanism; the first filter screens and the second filter screens are installed in the ventilating pipe in a staggered mode, air is filtered for multiple times through the first filter screens and the second filter screens, and dust is left in the ventilating pipe; when water moves in the driving mechanism, the water drives the driving mechanism to move, the driving mechanism drives the mounting mechanism to move in the fixing mechanism, the mounting mechanism stretches the spring, the spring drives the first filter screen at the topmost end of the breather pipe to rotate, the adjacent first filter screens are connected through the rotating rod, the first filter screens drive the rotating rod to rotate, the rotating rod drives the other first filter screens to rotate in the breather pipe, the first filter screens rotate to extrude the specific elastic limiting blocks, the limiting blocks are bent, when the driving mechanism moves and the mounting mechanism is separated, the limiting blocks stretch to push the first filter screens to move in the opposite direction, the first filter screens hit the side walls of the second filter screens, and the first filter screens, the second filter screens and the breather pipe vibrate, the first filter screen, the second filter screen and the dust in the vent pipe move downwards to enter the collecting mechanism, so that the dust is prevented from being accumulated in the vent pipe, and the dust in the vent pipe is prevented from entering the main body.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a green energy-saving geothermal air conditioner provided by the present invention;

FIG. 2 is a schematic view of the internal structure of the filter mechanism shown in FIG. 1;

FIG. 3 is a schematic view of the internal structure of the driving mechanism shown in FIG. 2;

FIG. 4 is a schematic view of the internal structure of the main body shown in FIG. 1;

FIG. 5 is a schematic view of the mounting mechanism shown in FIG. 4.

Reference numbers in the figures: 1. the main part, 2, actuating mechanism, 21, the pivot, 22, the flabellum, 23, the water pipe, 24, the connecting pipe, 25, the fixed disk, 26, the compression pole, 3, collection mechanism, 31, the collecting vat, 32, the collecting board, 4, filter mechanism, 41, the bull stick, 42, the spring, 43, first filter screen, 44, the stopper, 45, the second filter screen, 46, the breather pipe, 5, sealing mechanism, 51, the sealing washer, 52, the sealing ring, 6, fixed establishment, 61, the dead lever, 62, the fixed plate, 7, installation mechanism, 71, the bracing piece, 72, the mounting panel, 73, the backup pad, 74, the recess.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of a green energy-saving geothermal air conditioner provided by the present invention; FIG. 2 is a schematic view of the internal structure of the filter mechanism shown in FIG. 1; FIG. 3 is a schematic view of the internal structure of the driving mechanism shown in FIG. 2; FIG. 4 is a schematic view of the internal structure of the main body shown in FIG. 1; FIG. 5 is a schematic view of the mounting mechanism shown in FIG. 4. The green energy-saving geothermal air conditioner comprises: a main body 1; a driving mechanism 2, wherein the driving mechanism 2 is arranged on the side wall of the main body 1; a sealing mechanism 5, wherein the sealing mechanism 5 is fixed inside the driving mechanism 2; the filter mechanism 4 is symmetrically installed inside two ends of the main body 1, the filter mechanism 4 comprises a rotating rod 41, a spring 42, a first filter screen 43, a limiting block 44, a second filter screen 45 and a vent pipe 46, the inclined vent pipe 46 is evenly installed inside two ends of the main body 1, the bottom end of the vent pipe 46 is connected with the first filter screen 43 in an equidistance and rotating manner, the second filter screen 45 with an arc-shaped side wall is installed inside the top end of the vent pipe 46 in an equidistance manner, and the first filter screen 43 abuts against the second filter screen 45; the limiting blocks 44 are equidistantly arranged in the middle of the inner part of the vent pipe 46, and the side walls of the limiting blocks 44 abut against the top end of the first filter screen 43; the rotating rod 41 is arranged between the adjacent first filter screens 43, the rotating rod 41 is rotatably connected with the first filter screens 43, and the spring 42 is arranged on the side wall of the first filter screen 43 positioned at the topmost end of the vent pipe 46; the collecting mechanism 3 is arranged at the bottom end of the main body 1; a fixing mechanism 6, wherein the fixing mechanism 6 is installed inside the main body 1; installation mechanism 7, installation mechanism 7 sliding connection fixed establishment 6, the one end fixed connection of installation mechanism 7 spring 42, just the other end sliding connection of installation mechanism 7 actuating mechanism 2.

The driving mechanism 2 comprises a rotating shaft 21, fan blades 22, a water pipe 23, a connecting pipe 24, a fixed disc 25 and a compression rod 26, the water pipe 23 is installed on the side wall of the main body 1, and the connecting pipe 24 is installed on the side wall of the water pipe 23; the interiors of the water pipe 23 and the connecting pipe 24 are rotatably connected with the rotating shaft 21, the fan blades 22 are arranged at one end of the rotating shaft 21 at equal intervals, and the fan blades 22 are rotatably connected with the interior of the water pipe 23; the other end fixed connection of pivot 21 the fixed disk 25, the lateral wall equidistance installation of fixed disk 25 compression pole 26, just the fixed disk 25 with compression pole 26 with the inside of main part 1 is rotated and is connected, and for convenient water passes through water pipe 23 gets into during the inside of main part 1, water promotes 24 insides of water pipe the flabellum 22 rotates, flabellum 22 promotes pivot 21 is in the inside of connecting pipe 24 is rotated, just pivot 21 drives fixed disk 25 rotates, fixed disk 25 drives the rotation that compression pole 26 does not stop.

The sealing mechanism 5 comprises a sealing ring 51 and a sealing ring 52, the sealing ring 51 is respectively installed at the connection part of the rotating shaft 21, the water pipe 23 and the connecting pipe 24, and the rotating shaft 21 is rotatably connected inside the sealing ring 51; the pipe wall internally mounted of water pipe 23 sealing ring 52, and the cross-section has semicircular structure sealing ring 52's inside wall rotates to be connected pivot 21, for the convenience pivot 21 is in water pipe 23 with when the inside of connecting pipe 24 rotates, sealing washer 51 is hugged closely the lateral wall of pivot 21 prevents that water from getting into the inside of connecting pipe 24, and when pivot 21 rotates, the cross-section has semicircular structure sealing ring 52 extrudes the lateral wall of pivot 21, will once more pivot 21 with the junction of water pipe 23 is sealed, prevents that water from getting into the inside of connecting pipe 24.

The water pipe 23 with the connecting pipe 24 sets up perpendicularly, just the one end fixed connection of connecting pipe 24 main part 1, for the convenience the connecting pipe 24 is fixed the lateral wall of main part 1, thereby it is convenient the protection of connecting pipe 24 pivot 21 is avoided pivot 21 receives the damage.

The mounting mechanism 7 comprises a support rod 71, a mounting plate 72, a support plate 73 and a groove 74, wherein the support plate 73 and the support rod 71 are connected in the main body 1 in a sliding manner; the criss-cross support rods 71 are arranged between the two support plates 73, the grooves 74 are formed in the side walls of the support rods 71, and the springs 42 are fixedly connected inside the grooves 74; one side wall of the supporting rod 71 is fixedly connected to the mounting plate 72, and the side wall of the mounting plate 72 is slidably connected to the compression rod 26, so that when the fixed disk 25 drives the compression rod 26 to rotate, the compression rod 26 indirectly contacts the mounting plate 72, and the compression rod 26 presses the mounting plate 72, so that the mounting plate 72 drives the supporting rod 71 and the supporting plate 73 to move in the main body 1, and the supporting plate 73 elongates the spring 42 in the groove 74.

The one end of compression pole 26 is the ball shape, the one end lateral wall of mounting panel 72 is the arc, just mounting panel 72 with bracing piece 71 sets up perpendicularly, for the convenience compression pole 26 is contradicted mounting panel 72 makes compression pole 26 extrudees mounting panel 72.

The fixing mechanism 6 comprises a fixing rod 61 and a fixing plate 62, the fixing plate 62 is symmetrically arranged at the top end and the bottom end of the inside of the main body 1 respectively, the fixing rod 61 is vertically arranged on the side wall of the fixing plate 62, the fixing rod 61 is slidably connected with the inside of the supporting plate 73, for convenience, when the supporting plate 73 moves inside the main body 1, the supporting plate 73 slides on the side wall of the fixing rod 61, the fixing rod 61 fixes the supporting plate 73, so that the supporting plate 73 and the supporting rod 71 linearly move inside the main body 1, and the fixing plate 62 fixes the supporting plate 73 to prevent the supporting plate 73 from sliding out from the inside of the fixing rod 61.

The collecting mechanism 3 includes a collecting groove 31 and a collecting plate 32, the collecting plate 32 is mounted at the bottom end of the main body 1, and the collecting groove 31 is disposed on the top surface of the collecting plate 32, so that the dust in the vent pipe 46 can be conveniently stored in the collecting plate 32 by sliding the dust in the vent pipe 46 downward into the collecting groove 31.

The working principle of the green energy-saving geothermal air conditioner provided by the invention is as follows:

when in use, the water pipe 23 is connected to a water source, water penetrates through the water pipe 23 and enters the inside of the main body 1, and outside air penetrates through the air pipe 46 and enters the inside of the main body 1. When air enters the interior of the main body 1 through the breather pipe 46, the breather pipe 46 is inclined downward, so that part of dust is deposited at the bottom end of the breather pipe 46, and the dust slides downward from the interior of the breather pipe into the interior of the collecting tank 31; and the inside of the breather pipe 46 is provided with a plurality of first filter screens 43 and second filter screens 45 in a staggered manner, and the first filter screens 43 and the second filter screens 45 filter air for a plurality of times, so that dust is prevented from entering the inside of the main body 1. When water flows in the water pipe 23, the water pushes the fan blades 22 in the water pipe 24 to rotate, and the fan blades 22 drive the rotating shaft 21 to rotate in the connecting pipe 24; when the rotating shaft 21 rotates in the water pipe 23, the sealing ring 51 is tightly attached to the rotating shaft 21 and the side wall of the water pipe 23, so that water is prevented from entering the connecting pipe 24, and when the rotating shaft 21 rotates, the sealing ring 52 with the semicircular section presses the side wall of the rotating shaft 21, so that the joint of the rotating shaft 21 and the water pipe 23 is sealed again, water is prevented from entering the connecting pipe 24, and the sealing ring 52 with the semicircular section has small friction with the rotating shaft 21, so that the rotating shaft 21 can rotate conveniently; and the rotating shaft 21 drives the fixed disk 25 to rotate, and the fixed disk 25 drives the compression rod 26 to continuously rotate in the main body 1. Fixed disk 25 drives when compression bar 26 rotates, one end is the ball compression bar 26 indirectness and one end lateral wall are the arc the mounting panel 72 contact, compression bar 26 extrudees mounting panel 72 makes mounting panel 72 drives bracing piece 71 with backup pad 73 is in the internal motion of main part 1, backup pad 73 is in the lateral wall of dead lever 61 slides, dead lever 61 will backup pad 73 is fixed, makes backup pad 73 with bracing piece 71 is in the inside linear motion of main part 1, just fixed plate 62 is fixed backup pad 73 prevents backup pad 73 follows the inside roll-off of dead lever 61. The supporting plate 73 linearly moves to elongate the spring 42 inside the groove 74, the spring 42 moves inside the vent pipe 46, the spring 42 drives the first filter net 43 at the topmost end of the vent pipe 46 to rotate, the adjacent first filter nets 43 are connected through the rotating rod 41, the rotating rod 41 is rotatably connected with the first filter nets 43, the first filter nets 43 drive the rotating rod 41 to rotate, the rotating rod 41 drives the other first filter nets 43 to rotate inside the vent pipe 46, so that the first filter nets 43 rotate to press the specific elastic limiting block 44, the limiting block 44 bends, when the compressing rod 26 is separated from the mounting plate 73, the limiting block 44 extends to push the first filter nets 43 to move reversely, so that the first filter nets 43 hit the side wall of the second filter net 45, and the first filter nets 43, The second strainer 45 and the vent pipe 46 vibrate to move the dust inside the first strainer 43, the second strainer 45 and the vent pipe 46 downward into the collecting tank 31, so as to prevent the dust from accumulating inside the vent pipe 46 and prevent the dust inside the vent pipe 46 from entering the main body 1. Just first filter screen 43 pulls that resets spring 42, the reverse pulling of spring 42 bracing piece 71, bracing piece 71 is reverse to be driven the backup pad 73 with mounting panel 72 is in the internal motion of main part 1, the backup pad 73 is contradicted the lateral wall of fixed plate 62 will the backup pad 73 is fixed, and makes the mounting panel 72 resets, and is convenient compression pole 26 once more with the mounting panel 72 contacts.

the invention provides a green energy-saving geothermal air conditioner, wherein the vent pipe 46 is inclined downwards, so that part of dust is deposited at the bottom end of the vent pipe 46 under the action of gravity, and the dust slides downwards from the inside of the vent pipe 46 to enter the inside of the collecting mechanism 3; a plurality of first sieves 43 and second sieves 45 are installed inside the air pipe 46 in a staggered manner, and the first sieves 43 and the second sieves 45 filter air for a plurality of times and keep dust inside the air pipe 46; when water moves in the driving mechanism 2, the water drives the driving mechanism 2 to move, the driving mechanism 2 drives the mounting mechanism 7 to move in the fixing mechanism 6, the mounting mechanism 7 elongates the spring 42, the spring 42 drives one of the first filter screens 43 at the topmost end of the vent pipe 46 to rotate, the adjacent first filter screens 43 are connected through the rotating rod 41, the first filter screen 43 drives the rotating rod 41 to rotate, the rotating rod 41 drives the other first filter screens 43 to rotate in the vent pipe 46, so that the first filter screens 43 rotate and extrude the specific elastic limiting block 44, the limiting block 44 bends, when the driving mechanism 2 moves and separates from the mounting mechanism 7, the limiting block 44 extends to push the first filter screens 43 to move in the opposite direction, so that the first filter screens 43 hit the side walls of the second filter screens 45, the first filter net 43, the second filter net 45 and the vent pipe 46 are vibrated, so that the dust in the first filter net 43, the second filter net 45 and the vent pipe 46 moves downwards to enter the collecting mechanism 3, the dust is prevented from being accumulated in the vent pipe 46, and the dust in the vent pipe 46 is prevented from entering the main body 1.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A green energy-saving geothermal air conditioner is characterized by comprising:

a main body (1);

the driving mechanism (2), the said driving mechanism (2) is mounted to the sidewall of the said body (1);

the sealing mechanism (5), the said sealing mechanism (5) is fixed in the inside of the said driving mechanism (2);

the filter mechanism (4) is symmetrically arranged inside two ends of the main body (1), the filter mechanism (4) comprises a rotating rod (41), a spring (42), a first filter screen (43), a limiting block (44), a second filter screen (45) and a vent pipe (46), the inclined vent pipe (46) is uniformly arranged inside two ends of the main body (1), the bottom end of the vent pipe (46) is connected with the first filter screen (43) in an equidistance and rotating mode, the second filter screen (45) with arc-shaped side walls is arranged inside the top end of the vent pipe (46) in an equidistance mode, and the first filter screen (43) abuts against the second filter screen (45); the limiting blocks (44) are arranged in the middle of the inner part of the vent pipe (46) at equal intervals, and the side walls of the limiting blocks (44) abut against the top end of the first filter screen (43); the rotating rod (41) is arranged between the adjacent first filter screens (43), the rotating rod (41) is rotatably connected with the first filter screens (43), and the spring (42) is arranged on the side wall of the first filter screen (43) positioned at the topmost end of the vent pipe (46);

the collecting mechanism (3), the collecting mechanism (3) is installed at the bottom end of the main body (1);

a fixing mechanism (6), wherein the fixing mechanism (6) is installed inside the main body (1);

installation mechanism (7), installation mechanism (7) sliding connection fixed establishment (6), the one end fixed connection of installation mechanism (7) spring (42), just the other end sliding connection of installation mechanism (7) actuating mechanism (2).

2. A green energy-saving geothermal air conditioner according to claim 1, wherein the driving mechanism (2) comprises a rotating shaft (21), fan blades (22), a water pipe (23), a connecting pipe (24), a fixed disc (25) and a compression bar (26), the water pipe (23) is installed on the side wall of the main body (1), and the connecting pipe (24) is installed on the side wall of the water pipe (23); the water pipe (23) and the connecting pipe (24) are connected with the rotating shaft (21) in a rotating mode, the fan blades (22) are installed at one end of the rotating shaft (21) at equal intervals, and the fan blades (22) are connected with the water pipe (23) in a rotating mode; the other end fixed connection of pivot (21) fixed disk (25), the lateral wall equidistance installation of fixed disk (25) compression pole (26), just fixed disk (25) with compression pole (26) with the internal rotation of main part (1) is connected.

3. A green energy-saving geothermal air conditioner according to claim 2, wherein the sealing mechanism (5) comprises a sealing ring (51) and a sealing ring (52), the sealing ring (51) is mounted at the joint of the rotating shaft (21) and the water pipe (23) and the connecting pipe (24), the inner part of the sealing ring (51) is rotatably connected with the rotating shaft (21); the sealing ring (52) is installed inside the pipe wall of the water pipe (23), and the inner side wall of the sealing ring (52) with the section having a semicircular structure is rotatably connected with the rotating shaft (21).

4. A green energy-saving geothermal air conditioner according to claim 2, wherein the water pipe (23) and the connecting pipe (24) are vertically arranged, and one end of the connecting pipe (24) is fixedly connected to the main body (1).

5. A green energy-saving geothermal air conditioner according to claim 2, wherein the mounting mechanism (7) comprises a support bar (71), a mounting plate (72), a support plate (73) and a groove (74), the inside of the main body (1) is slidably connected with the support plate (73) and the support bar (71); the criss-cross supporting rods (71) are arranged between the two supporting plates (73), the side walls of the supporting rods (71) are provided with the grooves (74), and the springs (42) are fixedly connected inside the grooves (74); the side wall of one support rod (71) is fixedly connected with the mounting plate (72), and the side wall of the mounting plate (72) is connected with the compression rod (26) in a sliding mode.

6. A green energy-saving geothermal air conditioner according to claim 5, wherein the compression bar (26) is spherical at one end, the mounting plate (72) is arc-shaped at one end, and the mounting plate (72) is perpendicular to the support bar (71).

7. A green energy-saving geothermal air conditioner according to claim 5, wherein the fixing mechanism (6) comprises a fixing rod (61) and a fixing plate (62), the fixing plate (62) is symmetrically installed at the top end and the bottom end of the inside of the main body (1), the fixing rod (61) is vertically installed on the side wall of the fixing plate (62), and the fixing rod (61) is slidably connected with the inside of the supporting plate (73).

8. A green energy-saving geothermal air conditioner according to claim 1, characterized in that the collecting mechanism (3) comprises a collecting tank (31) and a collecting plate (32), the collecting plate (32) is installed at the bottom end of the main body (1), and the collecting tank (31) is provided at the top surface of the collecting plate (32).