CN210241715U - Self-control type multifunctional deep geothermal heating system - Google Patents

Abstract

The utility model provides a multi-functional deep geothermal heating system of automatic control formula relates to deep geothermal heating technical field. The self-control multifunctional deep geothermal heating system comprises a water storage tank and a geothermal layer, wherein the bottom of the water storage tank is connected with a transmission pipe, a throttle valve is arranged on the transmission pipe, a circulating pump is arranged on the transmission pipe and is positioned on one side of the throttle valve, turbine devices are arranged on two sides of the surface of the transmission pipe, one side of each turbine device is connected with a transmission line, and the surface of the bottom of the transmission pipe is in contact with the geothermal layer. The self-control multifunctional deep geothermal heating system can be quickly taken down from the transmission pipe through the turbine device, the time wasted in replacing the turbine device can be effectively reduced, and the solar panel can be separated from the mining device for replacement under the action of the first connecting device and the second connecting device, so that the working efficiency of the mining device is improved.

Description

Self-control type multifunctional deep geothermal heating system

Technical Field

The utility model relates to a deep geothermal heating technical field specifically is a multi-functional deep geothermal heating system of automatic control formula.

Background

Along with the continuous improvement of national economy, the energy consumption is increased, the pollution caused by insufficient utilization of the traditional energy is also increased, for example, coal slag, smoke and the like generated by coal combustion can cause environmental pollution, so that in order to reduce the environmental pollution, research and exploitation of new energy are important targets of sustainable development, and geothermal energy in the earth has the characteristics of large storage capacity, no pollution and the like, so that the geothermal energy can be exploited and utilized by people; however, if an important part of a general device is damaged when new energy is mined, large-scale modification of the mining device is required, so that the mining of the new energy is affected, and economic benefits are damaged.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a multi-functional deep geothermal heating system of automatic control formula has solved the problem of proposing in the above-mentioned background.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a self-control multifunctional deep geothermal heating system comprises a reservoir and a geothermal layer, wherein the bottom of the reservoir is connected with a transmission pipe, the transmission pipe is provided with a throttle valve, the transmission pipe is provided with a circulating pump and the circulating pump is positioned on one side of the throttle valve, turbine devices are arranged on two sides of the surface of the transmission pipe, one side of each turbine device is connected with a transmission line, the surface of the bottom of the transmission pipe is in contact with the geothermal layer, one end of the transmission pipe is connected with a heat exchanger, the bottom of the heat exchanger is provided with a storage battery and the transmission line is in contact with the storage battery, one end of the heat exchanger, which is provided with a controller and is connected with the controller, the top of the heat exchanger is connected with a heating coil pipe I, the other side of the heat exchanger is connected with a, one side of solar panel bottom is connected with connecting device one, one side of connecting device one is connected with heating coil pipe two, the other end of heating coil pipe two is connected with filter equipment, filter equipment's opposite side is installed connecting pipe one and the other end of connecting pipe one and is linked to each other with one side of cistern.

Preferably, the turbine device comprises a turbine body and a first fixing disc, one side of the turbine body is connected with the transmission line, a second connecting pipe and a second connecting pipe which penetrate through the turbine body are installed on the turbine body, a second fixing disc is fixedly installed on the upper surface and the lower surface of the second connecting pipe, bolts are arranged on the first fixing disc and the second fixing disc, the inner wall of the first fixing disc is fixedly connected with the transmission pipe, the top of the inner wall of the first fixing disc is connected with a first expansion spring, the bottom of the first expansion spring is connected with a baffle, and rollers are arranged on two sides of the bottom of the baffle.

Preferably, filter equipment includes the rose box, one side of rose box links to each other with connecting pipe one and the opposite side of rose box links to each other with heating coil pipe two, the rose box lid is installed at the top of rose box, the handle is installed to one side at rose box lid top, the fine filtration net is installed to one side of rose box inside, the coarse filtration net is installed to the opposite side of rose box inside, the inside of rose box is provided with the filter sponge and filters the sponge and is located between fine filtration net and the coarse filtration net.

Preferably, connecting device one includes the shell, one side and the two continuous and heating coil pipe two of heating coil pipe of shell run through the shell, the top of shell is installed three and the three top that runs through the shell of connecting pipe, the bottom and the two phase contact of heating coil pipe of three connecting pipe, the top and the solar panel's of three connecting pipe are connected, one side that one end that one side of shell was provided with pull rod and pull rod runs through the shell, the surface mounting that the pull rod is located the inside one side of shell has the set casing, the bottom and the two fixed connection of heating coil pipe of set casing, the stopper is installed to the pull rod is located the inside one side of set casing, one side of stopper is connected with one side fixed connection of the other end and the set casing inner wall of two just expanding spring two.

Preferably, the filter box is movably connected with the filter box cover through a hinge.

(III) advantageous effects

The utility model provides a multi-functional deep geothermal heating system of automatic control formula. Has the following beneficial effects:

the self-control multifunctional deep geothermal heating system can be quickly taken down from the transmission pipe through the turbine device, the time wasted in replacing the turbine device can be effectively reduced, and the solar panel can be separated from the mining device for replacement under the action of the first connecting device and the second connecting device, so that the working efficiency of the mining device is improved.

The self-control multifunctional deep geothermal heating system can filter water in the transmission pipe through the filtering device, so that the water can keep a clean state in the transmission pipe, and the condition that the transmission pipe is blocked by excessive impurities in the water is prevented.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a front view of the turbine assembly of the present invention;

FIG. 3 is a cross-sectional view of the fixing plate of the present invention;

fig. 4 is a cross-sectional view of the filtering apparatus of the present invention;

fig. 5 is a cross-sectional view of the connecting device of the present invention.

In the figure: 1 heat exchanger, 2 controller, 3 transmission line, 4 transmission pipe, 5 accumulator, 6 turbine device, 61 fixed disk I, 62 fixed disk II, 63 bolt, 64 connecting pipe II, 65 turbine body, 66 roller, 67 extension spring I, 68 baffle, 7 geothermal layer, 8 circulating pump, 9 throttle valve, 10 reservoir, 11 connecting pipe I, 12 filter device, 121 filter box, 122 fine filter screen, 123 filter box cover, 124 filter sponge, 125 coarse filter screen, 126 handle, 13 heating coil II, 14 connecting device I, 141 fixed shell, 142 outer shell, 143 connecting pipe III, 144 limited block, 145 extension spring II, 146, 15 solar panel, 16 connecting device II, 17 heating coil I.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples.

The embodiment of the utility model provides a multi-functional deep geothermal heating system of automatic control formula, as shown in figure 1, including cistern 10 and geothermal layer 7, the bottom of cistern 10 is connected with transmission pipe 4, be provided with choke valve 9 on transmission pipe 4, be provided with circulating pump 8 on transmission pipe 4 and circulating pump 8 is located one side of choke valve 9, turbine device 6 is installed to the both sides on transmission pipe 4 surface, can make its quick removal from transmission pipe 4 through turbine device 6, can effectively reduce the time that changes turbine device 6 and waste, one side of turbine device 6 is connected with transmission line 3, the surface of transmission pipe 4 bottom contacts with geothermal layer 7, one end of transmission pipe 4 is connected with heat exchanger 1, battery 5 and transmission line 3 contact with battery 5 are installed to the bottom of heat exchanger 1, one side of heat exchanger 1 is installed controller 2 and the one end of transmission line 3 links to each other with controller 2, the top of the heat exchanger 1 is connected with a first heating coil 17, the other side of the heat exchanger 1 is connected with a second connecting device 16, the top of the second connecting device 16 is connected with a solar panel 15, one side of the bottom of the solar panel 15 is connected with a first connecting device 14, by the action of the first and second coupling means 14, 16, the solar panels 15 can be disconnected from the mining apparatus for replacement, thereby being beneficial to improving the working efficiency of the mining device, one side of the connecting device I14 is connected with a heating coil II 13, the other end of the heating coil II 13 is connected with a filtering device 12, the water in the transmission pipe 4 can be filtered by the filtering device 12, so that the water can keep a clean state in the transmission pipe 4, the situation that the transmission pipe 4 is blocked by excessive impurities in the water is prevented, the other side of the filtering device 12 is provided with a first connecting pipe 11 and the other end of the first connecting pipe 11 is connected with one side of the water reservoir 10.

As shown in fig. 2 to 3, the turbine device 6 includes a turbine body 65 and a first fixed disk 61, one side of the turbine body 65 is connected to the transmission line 3, a second connecting pipe 64 is installed on the turbine body 65, the second connecting pipe 64 penetrates through the turbine body 65, a second fixed disk 62 is fixedly installed on both the upper surface and the lower surface of the second connecting pipe 64, bolts 63 are installed on the first fixed disk 61 and the second fixed disk 62, the inner wall of the first fixed disk 61 is fixedly connected to the transmission pipe 4, a first expansion spring 67 is connected to the top of the inner wall of the first fixed disk 61, a baffle 68 is connected to the bottom of the first expansion spring 67, and rollers 66 are installed on. By adopting the structural design, hydroelectric power generation can be realized through the turbine body 65, so that electric power is transmitted to the controller 2 through the transmission line 3, resources can be effectively saved, and the turbine device can be rapidly taken down under the action of the first expansion spring 67, the baffle 68 and the roller 66, so that the time required for replacing the turbine device 6 can be reduced.

As shown in fig. 4, the filtering device 12 includes a filtering box 121, one side of the filtering box 121 is connected to the first connecting pipe 11, and the other side of the filtering box 121 is connected to the second heating coil 13, a filtering box cover 123 is installed on the top of the filtering box 121, the filtering box 121 and the filtering box cover 123 are movably connected by hinges, a handle 126 is installed on one side of the top of the filtering box cover 123, a fine filtering net 122 is installed on one side of the inside of the filtering box 121, a coarse filtering net 125 is installed on the other side of the inside of the filtering box 121, a filtering sponge 124 is arranged inside the filtering box 121, and the filtering sponge 124 is located between the fine filtering net 122 and the. Adopt this structural design to pass through the effect of coarse filtration net 125, filter sponge 124 and fine filtration net 122 can filter the water in heating coil pipe two 13, make water can realize cyclic utilization to be favorable to saving the water resource.

As shown in fig. 5, the first connecting device 14 includes a housing 142, one side of the housing 142 is connected to the second heating coil 13, the second heating coil 13 penetrates through the housing 142, a third connecting pipe 143 is installed on the top of the housing 142, the third connecting pipe 143 penetrates through the top of the housing 142, the bottom of the third connecting pipe 143 contacts with the second heating coil 13, the top of the third connecting pipe 143 is connected to the bottom of the solar panel 15, a pull rod 146 is installed on one side of the housing 142, one end of the pull rod 146 penetrates through one side of the housing 142, a fixing shell 141 is installed on the surface of the pull rod 146 on the inner side of the housing 142, the bottom of the fixing shell 141 is fixedly connected to the second heating coil 13, a limit block 144 is installed on the side of the pull rod 146 inside the fixing shell 141, a hole matched with the limit block 144 is formed on one side of the third connecting pipe 143, a blocking plate is installed inside the third connecting pipe 143, one side of the limit block 144 is. By adopting the structural design, the connecting pipe III 143 can be contacted with the heating coil II 13 by moving the pull rod 146 to one side, and then the pull rod 146 is loosened, so that the limit block 144 is fixed on the connecting pipe III 143 under the action of the pull rod 146 through the telescopic spring II 145, thereby being beneficial to the disassembly of the solar panel 15 and enabling water to fully flow into the heating coil II 13.

The working principle is as follows: in use, the circulating pump 8 is started to pump water from the water reservoir 10 out through the transmission pipe 4, then the flow rate of the water can be controlled through the throttle valve 9, then the water flows through the turbine device 6 to enable electric power generated by the turbine device 6 to be transmitted to the storage battery 5 through the transmission line 3, then the storage battery 5 transmits the electric power to the controller 2 through the transmission line 3, the water in the transmission pipe 4 is heated through the geothermal layer 7, then the heat exchanger 1 is started through the controller 2 to enable hot water in the transmission pipe 4 to be transmitted to the first heating coil 17 through the heat exchanger 1, then the water in the first heating coil 17 is transmitted to the solar pipe 15 through the second connecting device 16 and then flows to the second heating coil 13 through the first connecting device 14, and then the water in the second heating coil 13 is filtered through the coarse filter screen 125, the filter sponge 124 and the fine filter screen 122, the filtered water flows into the water storage tank 10 through the connecting pipe I11, the bolts 63 can be taken down from the fixed disk I61 and the fixed disk II 62 if the turbine device 6 is damaged, the fixed disk II 62 and the turbine body 65 can be quickly taken down through the action of the telescopic spring I67, the baffle plate 68 and the rollers 66, so that the turbine device 6 can be quickly replaced, the pull rod 146 is pulled to one side if the solar panel 15 is damaged and needs to be replaced, the limiting block 144 is separated from the connecting pipe III 143, the solar panel 15 is taken out, the limiting block 144 and the pull rod 146 can be restored to the original positions through the telescopic spring II 145 at the moment, and finally the filter box cover 123 is opened through the handle 126, so that impurities in the filter box 121 can be uniformly treated.

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 (5)

1. A self-control multifunctional deep geothermal heating system comprises a reservoir (10) and a geothermal layer (7), and is characterized in that: the bottom of cistern (10) is connected with transmission pipe (4), be provided with choke valve (9) on transmission pipe (4), be provided with circulating pump (8) and circulating pump (8) on transmission pipe (4) and be located one side of choke valve (9), turbine device (6) are all installed to the both sides on transmission pipe (4) surface, one side of turbine device (6) is connected with transmission line (3), the surface of transmission pipe (4) bottom contacts with ground heat layer (7), the one end of transmission pipe (4) is connected with heat exchanger (1), battery (5) and transmission line (3) contact with battery (5) are installed to the bottom of heat exchanger (1), the one end that controller (2) and transmission line (3) were installed to one side of heat exchanger (1) links to each other with controller (2), the top of heat exchanger (1) is connected with heating coil pipe (17), the opposite side of heat exchanger (1) is connected with connecting device two (16), the top of connecting device two (16) is connected with solar panel (15), one side of solar panel (15) bottom is connected with connecting device one (14), one side of connecting device one (14) is connected with heating coil two (13), the other end of heating coil two (13) is connected with filter equipment (12), the other side of filter equipment (12) is installed the other end of connecting pipe one (11) and is linked to each other with one side of cistern (10).

2. The self-controlled multifunctional deep geothermal heating system according to claim 1, wherein: turbine device (6) include turbine body (65) and fixed disk (61), one side of turbine body (65) links to each other with transmission line (3), it runs through turbine body (65) to install connecting pipe two (64) and connecting pipe two (64) on turbine body (65), the equal fixed mounting in upper and lower surface of connecting pipe two (64) has fixed disk two (62), be provided with bolt (63) on fixed disk one (61) and fixed disk two (62), the inner wall and transmission pipe (4) fixed connection of fixed disk (61), the top of fixed disk one (61) inner wall is connected with expanding spring one (67), the bottom of expanding spring one (67) is connected with baffle (68), the both sides of baffle (68) bottom all are provided with gyro wheel (66).

3. The self-controlled multifunctional deep geothermal heating system according to claim 1, wherein: filter equipment (12) include rose box (121), one side and connecting pipe (11) of rose box (121) link to each other and the opposite side of rose box (121) links to each other with heating coil pipe two (13), rose box lid (123) is installed at the top of rose box (121), handle (126) are installed to one side at rose box lid (123) top, fine filtration net (122) is installed to the inside one side of rose box (121), coarse filtration net (125) is installed to the inside opposite side of rose box (121), the inside of rose box (121) is provided with and filters sponge (124) and is located between fine filtration net (122) and coarse filtration net (125).

4. The self-controlled multifunctional deep geothermal heating system according to claim 1, wherein: the first connecting device (14) comprises a shell (142), one side of the shell (142) is connected with a second heating coil (13), the second heating coil (13) penetrates through the shell (142), a third connecting pipe (143) and a third connecting pipe (143) penetrate through the top of the shell (142), the bottom of the third connecting pipe (143) is in contact with the second heating coil (13), the top of the third connecting pipe (143) is connected with the bottom of the solar panel (15), one side of the shell (142) is provided with a pull rod (146), one end of the pull rod (146) penetrates through one side of the shell (142), the surface of the pull rod (146) positioned on one side inside the shell (142) is provided with a fixed shell (141), the bottom of the fixed shell (141) is fixedly connected with the second heating coil (13), and one side of the pull rod (146) positioned inside the fixed shell (141) is provided with a limiting block (144), one side of the limiting block (144) is connected with a second telescopic spring (145), and the other end of the second telescopic spring (145) is fixedly connected with one side of the inner wall of the fixed shell (141).

5. The self-controlled multifunctional deep geothermal heating system according to claim 3, wherein: the filter box (121) is movably connected with the filter box cover (123) through hinges.

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