CN217979323U - Energy-saving reconstruction system for heating ventilation air conditioner heat pump - Google Patents

Abstract

The utility model discloses a warm logical air conditioner heat pump energy-saving transformation system, include: mounting a plate; a heat pump evaporator; a glass frame room; the solar heat collection assembly comprises a plurality of heat collection tubes, the heat collection tubes are communicated into an integrally communicated heat collection cavity through strip-shaped seats with hollow two sides, a water tank is fixedly arranged on the inner wall of the glass frame room, and the water tank is communicated with the heat collection tubes through two communicating pipes; the air inlet component comprises an air inlet pipe penetrating through the side wall of the glass frame room, the air inlet pipe penetrates through the water tank, a heat exchange piece communicated with the water tank is arranged in the air inlet pipe, and an air inlet fan is fixedly arranged in one end, far away from the water tank, of the air inlet pipe. The utility model discloses improve the evaporimeter to the heat pump, set up the glass frame room outside the evaporimeter and increase air heat energy, further simultaneously set up the structure that utilizes solar energy to increase air heat energy, have higher energy-conserving effect.

Description

Energy-saving reconstruction system for heating ventilation air conditioner heat pump

Technical Field

The utility model relates to a warm logical air conditioner heat pump energy-conservation reforms transform technical field, especially relates to warm logical air conditioner heat pump energy-conservation reforms transform system.

Background

The working principle of the heat pump device is consistent with that of compression type refrigeration; therefore, in the small air conditioner, in order to fully exert the efficiency, the temperature reduction of the air conditioner in summer or the heating in winter are all completed by using the same equipment, the heating and ventilation air conditioner utilizes a heat pump to perform heating action, the heat pump absorbs heat energy from air through an evaporator when working, but when the temperature of outside air is lower, the energy consumption of the heat pump is increased;

the patent document with the national application number of CN202122668971.1 discloses a solar air source heat pump combination device, which comprises an air source heat pump body, wherein the top of the air source heat pump body is connected with a water tank, the top of the water tank is connected with a water collecting cavity, a connecting pipe is connected between the water collecting cavity and the water tank, the inner side of the water collecting cavity is connected with a plurality of solar heat collecting pipes at equal intervals, and one side of the water tank is connected with a water pump; the device weak point lies in, the device utilizes solar energy to help the heat pump work, has improved the heating efficiency of air source heat pump body, and can reduce the energy loss effectively, but the device is lower to the utilization efficiency of solar energy, has still additionally set up the water pump and has carried out hydrologic cycle, and energy-conserving effect is unsatisfactory.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a heating ventilation air-conditioning heat pump energy-saving transformation system.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

warm energy-conserving transformation system of logical air conditioner heat pump includes: the mounting plate is arranged in a plate shape and is fixed at an open position;

the heat pump evaporator is fixedly arranged on the mounting plate;

the glass frame room is a rectangular cover body made of transparent glass materials and fixedly covered on the mounting plate;

the solar heat collection assembly comprises a plurality of heat collection tubes, the heat collection tubes are communicated into an integrally communicated heat collection cavity through strip-shaped seats with hollow two sides, a water tank is fixedly arranged on the inner wall of the glass frame room, and the water tank is communicated with the heat collection tubes through two communicating pipes;

the air inlet subassembly, the air inlet subassembly is including running through the air-supply line that sets up on the glass frame room lateral wall, the air-supply line runs through the water tank setting, be provided with the heat transfer piece with the water tank intercommunication in the air-supply line, the one end internal fixation that the water tank was kept away from to the air-supply line is provided with the air inlet fan.

Preferably, still be provided with solar energy power generation component in the glass frame room, solar energy power generation component includes a plurality of photovoltaic electroplax and battery, and is a plurality of the even fixed mounting of photovoltaic electroplax is at glass frame room up end, and is a plurality of all be provided with the printing opacity clearance between the photovoltaic electroplax, the battery is fixed to be set up on the mounting panel and is connected with a plurality of photovoltaic electroplax electricity.

Preferably, an electric heating rod is inserted into the water tank and electrically connected with the storage battery through a lead.

Preferably, the plurality of heat collecting pipes are obliquely arranged, and the two strip-shaped seats are obliquely and fixedly arranged on the inner wall of the glass frame room.

Preferably, the heat exchange piece is arranged to be of a spiral copper pipe structure, and two ends of the heat exchange piece penetrate through the air inlet pipe and are communicated with the water tank.

Preferably, one end, far away from the glass frame room, of the air inlet pipe is fixedly provided with a dust screen in a sealing mode.

Compared with the prior art, the beneficial effects of the utility model are that: the device is at first shining the glass frame room outside the heat pump evaporimeter, heat energy to the air that the evaporimeter contacted increases, further still set up solar energy collection subassembly simultaneously, utilize the thermal-collecting tube to receive solar energy heating medium water, and utilize the submerged principle of hot water come-up cold water to play the circulation effect, further increase is advanced to the heat energy of the air that the evaporimeter contacted, the structure of solar energy storage has still been set up, the direct condition of collecting solar energy of being not convenient for such as cloudy day, the water of supplementary in to the water tank heats, guarantee the heat energy of the air that the evaporimeter contacted, thereby higher energy-conserving effect has.

Drawings

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

fig. 2 is a schematic perspective view of another perspective view of the present invention;

fig. 3 is a schematic sectional view of the present invention.

In the figure:

the solar heat collecting device comprises a mounting plate 1, a heat pump evaporator 2, a glass frame room 3, a solar heat collecting component 4, an air inlet component 5, a solar power generating component 6, a heat collecting pipe 41, a strip-shaped seat 42, a water tank 43, a communicating pipe 44, an air inlet pipe 51, a heat exchanging component 52, an air inlet fan 53, a dust screen 54, a photovoltaic panel 61, a storage battery 62, an electric heating rod 63 and a lead 64.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, the heating ventilation air-conditioning heat pump energy-saving reconstruction system comprises:

the mounting plate 1 is used for bearing all components of the device, and the mounting plate 1 is arranged in a plate shape and fixed in an open position, so that the solar energy can be conveniently utilized by the device in the following process; the device is mainly improved aiming at the prior heat pump evaporator 2, and the heat pump evaporator 2 is fixedly arranged on a mounting plate 1;

the device is characterized in that a glass frame room 3 is arranged outside a heat pump evaporator 2, the glass frame room 3 is a rectangular cover body made of transparent glass materials, the glass frame room 3 is fixedly covered on a mounting plate 1, and the heat energy in the air contacted with the heat pump evaporator 2 is increased by utilizing a greenhouse structure;

in order to further utilize solar energy to save energy, the device is also provided with a solar heat collection assembly 4, the solar heat collection assembly 4 comprises a plurality of heat collection pipes 41, the heat collection pipes 41 are communicated into an integrally communicated heat collection cavity through strip-shaped seats 42 with hollow two sides, a water tank 43 is fixedly arranged on the inner wall of the glass frame room 3, the water tank 43 is communicated with the heat collection pipes 41 through two communication pipes 44, solar light is absorbed by the heat collection pipes 41 to heat water, so that water media in the water tank 43 are heated, in order to ensure that hot water is located in the water tank 43, the water tank 43 is arranged on the upper sides of the heat collection pipes 41, the heat collection pipes 41 are obliquely arranged, the two strip-shaped seats 42 are obliquely and fixedly arranged on the inner wall of the glass frame room 3, and upward concentration of the hot water is realized by utilizing the principle that the hot water floats upwards and sinks downwards;

the water in the water tank 43 is heated mainly for increasing the heat energy in the air of the glass frame room 3, therefore, the device is further provided with an air inlet assembly 5, the air inlet assembly 5 comprises an air inlet pipe 51 penetrating through the side wall of the glass frame room 3, the air inlet pipe 51 penetrates through the water tank 53, a heat exchange member 52 communicated with the water tank 53 is arranged in the air inlet pipe 51, the heat energy of the water in the water tank 53 is transferred to the air flow by using the heat exchange member 52, an air inlet fan 55 is fixedly arranged in one end of the air inlet pipe 51 far away from the water tank 53, the air inlet fan 55 adopts the prior art, details are not repeated herein, a dust screen 56 is fixedly arranged at one end of the air inlet pipe 51 far away from the glass frame room 3 in a sealing manner, the dust screen 56 prevents sundries and dust from entering the glass frame room 3 to affect internal components, wherein the heat exchange member 52 is arranged in a spiral copper pipe structure, and two ends of the heat exchange member 52 both penetrate through the air inlet pipe 31 and are communicated with the water tank 53, so as to perform a heat exchange action with higher efficiency.

In order to guarantee the skill effect under the condition of weak sunlight such as cloudy days and the like, a solar power generation assembly 6 is further arranged in the glass frame room 3, the solar power generation assembly 6 comprises a plurality of photovoltaic electric plates 61 and a storage battery 62, the photovoltaic electric plates 61 are uniformly and fixedly arranged on the upper end surface of the glass frame room 3, light-transmitting gaps are formed among the photovoltaic electric plates 61, the storage battery 62 is fixedly arranged on the mounting plate 1 and is electrically connected with the photovoltaic electric plates 61, and solar energy is collected, stored and stored in sunny days; an electric heating rod 63 is inserted into the water tank 53, the electric heating rod 63 is electrically connected with the storage battery 62 through a lead 64, a temperature sensor for controlling the electric heating rod 63 is installed in the water tank 53, and the water temperature of the water tank 53 is ensured under the condition of weak sunlight such as cloudy days.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. Warm energy-conserving transformation system of logical air conditioner heat pump, its characterized in that includes:

the mounting plate (1), the mounting plate (1) sets up as slabby and fixes in the open air position;

the heat pump evaporator (2), the said heat pump evaporator (2) is fixedly mounted on mounting panel (1);

the glass frame room (3) is a rectangular cover body made of transparent glass materials, and the glass frame room (3) is fixedly covered on the mounting plate (1);

the solar heat collection assembly (4), the solar heat collection assembly (4) comprises a plurality of heat collection pipes (41), the heat collection pipes (41) are communicated into an integrally communicated heat collection cavity through strip-shaped seats (42) with hollow two sides, a water tank (43) is fixedly arranged on the inner wall of the glass frame room (3), and the water tank (43) is communicated with the heat collection pipes (41) through two communication pipes (44);

the glass frame room air conditioner comprises an air inlet component (5), the air inlet component (5) comprises an air inlet pipe (51) penetrating through the side wall of the glass frame room (3), a water tank (43) is arranged on the air inlet pipe (51), a heat exchange piece (52) communicated with the water tank (43) is arranged in the air inlet pipe (51), and an air inlet fan (53) is arranged at one end of the air inlet pipe (51) far away from the water tank (43) in an internal fixing mode.

2. The heating, ventilation and air conditioning heat pump energy-saving reconstruction system according to claim 1, characterized in that a solar power generation assembly (6) is further arranged in the glass frame room (3), the solar power generation assembly (6) comprises a plurality of photovoltaic panels (61) and a storage battery (62), the photovoltaic panels (61) are uniformly and fixedly installed on the upper end face of the glass frame room (3), light-transmitting gaps are arranged between the photovoltaic panels (61), and the storage battery (62) is fixedly arranged on the installation plate (1) and electrically connected with the photovoltaic panels (61).

3. The energy-saving transformation system for the heating, ventilating and air conditioning heat pump as claimed in claim 2, characterized in that an electric heating rod (63) is inserted into the water tank (43), and the electric heating rod (63) is electrically connected with the storage battery (62) through a lead (64).

4. The energy-saving reconstruction system for the heating, ventilation and air conditioning heat pump as claimed in claim 1, wherein a plurality of heat collecting pipes (41) are obliquely arranged and two strip-shaped seats (42) are obliquely and fixedly arranged on the inner wall of the glass frame room (3).

5. The energy-saving transformation system of the heating, ventilating and air conditioning heat pump as claimed in claim 1, wherein the heat exchange member (52) is provided in a spiral copper pipe structure, and both ends of the heat exchange member (52) penetrate through the air inlet pipe (51) and are communicated with the water tank (43).

6. The energy-saving reconstruction system for the heating, ventilating and air conditioning heat pump as claimed in claim 1, wherein a dust screen (54) is fixedly arranged at one end of the air inlet pipe (51) far away from the glass frame room (3) in a sealing manner.

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