CN213119570U - Solar high and cold resistant pump house heat-conducting medium injection and recovery unit - Google Patents

Abstract

A solar high and cold resistant pump house heat-conducting medium injection and recovery device is characterized in that an underground energy storage tank of a pump house is connected with a medium transport vehicle through an injection device by a pipeline and used for injecting a heat-conducting medium in the medium transport vehicle into the energy storage tank; the injection equipment comprises an electric oil filling pump, an oil filling gun and a first oil conveying pipe for connecting the electric oil filling pump and the oil filling gun; the energy storage tank is connected with the medium transport vehicle through a pipeline by an extraction device and is used for recovering the heat conducting medium in the energy storage tank to the medium transport vehicle; the pumping equipment comprises a second oil delivery pipe, a centrifugal oil suction pump and a third oil delivery pipe. The utility model discloses end in heating season to the heat-conducting medium and retrieve, come to inject the medium to pump house medium storage device in heating season, effectively ensure the high-efficient operation of solar heating system in the pump house in heating season, and delay the corruption of heat-conducting medium to medium storage equipment greatly.

Description

Solar high and cold resistant pump house heat-conducting medium injection and recovery unit

Technical Field

The utility model relates to a solar energy field, in particular to heat-conducting medium pours into and recovery unit.

Background

Solar energy is used in many fields as a clean energy source. In a secondary water supply pump room in a severe cold area, in order to ensure the operation of water supply equipment, the temperature in the pump room needs to be kept above 5 ℃, the conventional technical scheme has high energy consumption, and the introduction of a solar heating system is an ideal alternative scheme for supplying heat to the pump room. In a solar heating system for a pump house, oil (such as ethylene glycol) is usually used as a heat-conducting medium to absorb, conduct and store energy for solar energy, but in a non-heating season, if the heat-conducting medium is not recovered in the non-heating season and is injected into the solar heating system before the heating season comes, the performance of the medium is reduced in a long term, the heating effect of the solar heating system is hindered, and the corrosion to a medium storage device is accelerated.

SUMMERY OF THE UTILITY MODEL

The purpose of the present invention is to solve at least one of the technical drawbacks.

Therefore, the utility model aims to provide a solar high and cold resistant heat conducting medium injection and recovery device for a pump house, which is formed by respectively connecting two pressurizing pipelines which are mutually in reverse power and are arranged between a medium storage device of the pump house and a medium transport vehicle;

the pump room is provided with a solar heat collection circulating system for heating;

the heat collection circulating system is formed by circularly connecting an energy storage tank which is positioned under a pump room and used as a medium storage device, a solar light panel which is arranged on the roof of the pump room and an electric auxiliary heating radiating fin which is hung on the wall of the pump room in sequence through a pressurizing pipe network;

a medium storage tank is arranged in the box body of the medium transport vehicle, and a material inlet and a material outlet are arranged at one side of the top of the medium storage tank, which is close to the tail of the vehicle;

the energy storage tank is connected with the medium transport vehicle through a pipeline by injection equipment and is used for injecting the heat-conducting medium in the medium transport vehicle into the energy storage tank;

the injection equipment comprises an electric oil filling pump, an oil filling gun and a first oil conveying pipe for connecting the electric oil filling pump and the oil filling gun;

the bottom of the electric oiling pump is provided with an oil guide pipe which is inserted into the feed and discharge port;

an energy storage tank opening is formed in the top of the energy storage tank;

the nozzle of the oil filling gun is inserted into the opening of the energy storage tank;

the energy storage tank is connected with the medium transport vehicle through a pipeline by extraction equipment, and the heat conducting medium in the energy storage tank is recycled to the medium transport vehicle.

The extraction equipment comprises a second oil pipeline, a centrifugal oil suction pump and a third oil pipeline;

one end of the second oil pipeline is inserted into the energy storage tank opening, and the other end of the second oil pipeline is connected with the liquid inlet of the centrifugal oil suction pump;

and one end of the third oil delivery pipe is connected with the liquid outlet of the centrifugal oil suction pump, and the other end of the third oil delivery pipe is connected with the material inlet and the material outlet.

Preferably, the part of the second oil pipeline inserted into one end of the energy storage tank is a slotted sieve pipe with a closed tail end.

Preferably, an ultrasonic liquid level meter is arranged in the middle of the top of the medium storage tank, and a GPS sensor, a vehicle-mounted computer and a communication module are respectively arranged in the medium transport vehicle;

the ultrasonic liquid level meter and the GPS sensor are respectively connected with a signal wire of the vehicle-mounted computer, and the vehicle-mounted computer is connected with a signal wire of the communication module and is used for transmitting the operation data of the medium transport vehicle to a central monitoring room.

The utility model has the advantages and positive effects that: the device is used for recycling the heat-conducting medium after the heating season is over, and the medium is injected into the pump room medium storage device before the heating season comes, so that the efficient operation of the solar heating system in the pump room in the heating season is effectively guaranteed, and the corrosion of the heat-conducting medium to the medium storage device is greatly delayed; meanwhile, the sensing device, the vehicle-mounted computer and the communication device are arranged in the medium transport vehicle, so that the remote monitoring room can be favorable for monitoring and scheduling the working personnel in real time in the process of injecting or recovering the medium of the multi-place pump room.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of the heat-conducting medium injection device of the solar alpine-resistant pump house of the present invention;

fig. 2 is a schematic view of the heat-conducting medium recycling device of the solar alpine-resistant pump house of the present invention;

fig. 3 is the utility model discloses a monitoring and telecommunication device's schematic diagram among solar energy anti high and cold pump house heat-conducting medium pours into and the recovery unit.

In the figure, 1, a pump room, 11, a solar heat collection circulating system, 111, an energy storage tank, 112, a solar light panel, 113, an electric auxiliary heating radiating fin, 2, a medium transport vehicle, 21, a medium storage tank, 211, an ultrasonic liquid level meter, 212, a material inlet and outlet, 22, a GPS sensor, 23, a vehicle-mounted computer, 24, a communication module, 3, injection equipment, 31, an electric fuel pump, 32, a first fuel delivery pipe, 33, a fuel gun, 4, extraction equipment, 41, a second fuel delivery pipe, 42, a centrifugal oil suction pump, 43 and a third fuel delivery pipe are arranged.

Detailed Description

The present invention will now be described in more detail with reference to the accompanying drawings, in which preferred embodiments of the invention are shown, it being understood that those skilled in the art may modify the invention herein described while still achieving the beneficial results of the invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.

Example 1:

as shown in fig. 1 and 2, a solar high and cold resistant heat conducting medium injection and recovery device for a pump house is formed by respectively connecting two pressurizing pipelines which are mutually in reverse power between a medium storage device of the pump house 1 and a medium transport vehicle 2;

the pump room 1 is provided with a solar heat collection circulating system 11 for heating;

the heat collection circulating system is formed by sequentially and circularly connecting an energy storage tank 111 which is positioned under the pump house and used as a medium storage device, a solar light panel 112 which is arranged on the roof of the pump house and an electric auxiliary heating radiating fin 113 which is hung on the wall of the pump house through a booster pipe network;

a medium storage tank 21 is arranged in the box body of the medium transport vehicle 2, and a feed and discharge port 212 is arranged at the top of the medium storage tank close to one side of the tail of the vehicle;

the energy storage tank 111 is connected with the medium transport vehicle 2 through a pipeline by the injection device 3 and is used for injecting the heat-conducting medium in the medium transport vehicle 2 into the energy storage tank 111;

the injection device 3 comprises an electric oil filling pump 31, an oil filling gun 33 and a first oil delivery pipe 32 for connecting the electric oil filling pump 31 and the oil filling gun 33;

the bottom of the electric gasoline pump 31 is provided with an oil guide pipe 311 which is inserted into the feed and discharge port 212;

the top of the energy storage tank 111 is provided with an energy storage tank opening 1111;

the nozzle of the fuel nozzle 33 is inserted into the energy storage tank port 1111;

the energy storage tank 111 and the medium transport vehicle 2 are connected through a pipeline by the extraction device 4, and the heat conducting medium in the energy storage tank 111 is recycled to the medium transport vehicle 2.

The extraction equipment 4 comprises a second oil pipeline 41, a centrifugal oil suction pump 42 and a third oil pipeline 43;

one end of the second oil delivery pipe 41 is inserted into the energy storage tank port 1111, and the other end is connected with a liquid inlet of the centrifugal oil suction pump 42;

one end of the third oil pipe 43 is connected to the liquid outlet of the centrifugal oil suction pump 42, and the other end is connected to the material inlet/outlet 212.

Further, the part of the second oil pipe 41 inserted into one end of the energy storage tank 111 is a slotted screen with a closed end.

As shown in fig. 1, 2 and 3, further, an ultrasonic liquid level meter 211 is arranged at the middle position of the top of the medium storage tank 21, and a GPS sensor 22, an on-board computer 23 and a communication module 24 are respectively arranged in the medium transport vehicle 2;

the ultrasonic liquid level meter 211 and the GPS sensor 22 are respectively connected with a signal wire of a vehicle-mounted computer 23, and the vehicle-mounted computer 23 is connected with a signal wire of a communication module 24 and is used for transmitting operation data of the medium transport vehicle 2 to a central monitoring room signal.

The present invention has been described in detail with reference to the embodiments, but the present invention is only a preferred embodiment, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (4)

1. A solar high and cold resistant pump room heat-conducting medium injection and recovery device is formed by respectively connecting two pressurizing pipelines which are mutually in reverse power between a pump room (1) medium storage device and a medium transport vehicle (2);

the pump room (1) is provided with a solar heat collection circulating system (11) for heating;

the heat collection circulating system is formed by circularly connecting an energy storage tank (111) which is positioned under the pump house and used as a medium storage device, a solar light panel (112) which is arranged on the roof of the pump house and an electric auxiliary heating radiating fin (113) which is hung on the wall of the pump house in sequence through a pressurizing pipe network;

the method is characterized in that:

a medium storage tank (21) is arranged in the box body of the medium transport vehicle (2), and a material inlet and outlet (212) is arranged at one side of the top of the medium storage tank, which is close to the tail of the vehicle;

the energy storage tank (111) is connected with the medium transport vehicle (2) through a pipeline by an injection device (3) and is used for injecting a heat-conducting medium in the medium transport vehicle (2) into the energy storage tank (111);

the injection equipment (3) comprises an electric oil filling pump (31), an oil filling gun (33) and a first oil conveying pipe (32) for connecting the electric oil filling pump (31) and the oil filling gun (33);

an oil guide pipe (311) is arranged at the bottom of the electric oiling pump (31), and the oil guide pipe is inserted into the feed and discharge port (212);

an energy storage tank opening (1111) is formed in the top of the energy storage tank (111);

the nozzle of the oil filling gun (33) is inserted into the energy storage tank opening (1111).

2. The solar high and cold resistant pump room heat conducting medium injection and recovery device according to claim 1, characterized in that:

the energy storage tank (111) is in pipeline connection with the medium transport vehicle (2) through an extraction device (4) and is used for recovering the heat-conducting medium in the energy storage tank (111) to the medium transport vehicle (2);

the extraction equipment (4) comprises a second oil delivery pipe (41), a centrifugal oil suction pump (42) and a third oil delivery pipe (43);

one end of the second oil delivery pipe (41) is inserted into the energy storage tank port (1111), and the other end of the second oil delivery pipe is connected with a liquid inlet of the centrifugal oil suction pump (42);

and one end of the third oil pipeline (43) is connected with the liquid outlet of the centrifugal oil suction pump (42), and the other end of the third oil pipeline is connected with the material inlet and outlet (212).

3. The solar high and cold resistant pump room heat conducting medium injection and recovery device as claimed in claim 2, wherein the part of the second oil delivery pipe (41) inserted into one end of the energy storage tank (111) is a slotted sieve pipe with a closed end.

4. The solar high and cold resistant pump room heat conducting medium injection and recovery device as claimed in any one of claims 1 to 3, wherein an ultrasonic liquid level meter (211) is arranged at the middle position of the top of the medium storage tank (21), and a GPS sensor (22), an on-board computer (23) and a communication module (24) are respectively arranged in the medium transport vehicle (2);

the ultrasonic liquid level meter (211) and the GPS sensor (22) are respectively connected with a signal line of the vehicle-mounted computer (23), and the vehicle-mounted computer (23) is connected with a signal line of the communication module (24) and used for transmitting operation data of the medium transport vehicle (2) to a central monitoring room through signals.

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