CN220728573U - Antifreezing air source heat pump - Google Patents

Abstract

The utility model provides an anti-freezing air source heat pump, which relates to the technical field of slope protection and aims to solve the problems that frost is easy to form on the surface of a pipeline connected with an existing cold air source heat pump, so that the frost is required to be prevented from being directly on the surface of the pipeline, otherwise, the heating speed of the air source heat pump is slower, and heat energy can be generated only by consuming larger energy, so that the time is delayed, and the working efficiency is reduced, and the anti-freezing air source heat pump comprises an air conditioner external unit; the upper end of the right end of the air conditioner external unit is fixedly provided with a connected pipeline; and a fixed bearing plate is fixedly arranged at the lower end of the right side wall of the air conditioner external unit. The cool air in the ice and snow in the utility model can not pass through the snow-proof shell and the heat-insulating shell, the frost can not be directly frosted on the surface of the pipeline, at the moment, the frost can not freeze the pipeline, the heating speed of the unobstructed air source heat pump in the pipeline can be higher, and the heat energy can be rapidly generated with lower energy consumption.

Description

Antifreezing air source heat pump

Technical Field

The utility model relates to the technical field of side slope protection, in particular to an anti-freezing air source heat pump.

Background

An air source heat pump is an energy-saving device which utilizes high potential energy to enable heat to flow from low-level heat source air to high-level heat sources. It is a form of heat pump. As the name suggests, the heat pump can convert the low-level heat energy which cannot be directly utilized into the high-level heat energy which can be utilized like a pump, thereby achieving the aim of saving part of the high-level energy.

In the using process of the air source heat pump, frost is easy to form on the surface of a pipeline connected with the air source heat pump in a relatively cold weather, so that frost is required to be prevented from being directly formed on the surface of the pipeline, otherwise, the heating speed of the air source heat pump is relatively slow, and heat energy can be generated only by consuming relatively large energy, so that time is delayed, and the working efficiency is reduced.

Disclosure of Invention

In order to solve the technical problems, the utility model provides an antifreezing air source heat pump, which solves the problems that frost is easy to form on the surface of a pipeline connected with the conventional air source heat pump in weather, so that the frost is required to be prevented from being directly on the surface of the pipeline, otherwise, the heating speed of the air source heat pump is slower, and heat energy can be generated only by consuming larger energy, so that the time is delayed, and the working efficiency is reduced.

The utility model discloses an anti-freezing air source heat pump, which is realized by the following specific technical means:

an antifreezing air source heat pump comprises an air conditioner outdoor unit; the upper end of the right end of the air conditioner external unit is fixedly provided with a connected pipeline; a fixed bearing plate is fixedly arranged at the lower end of the right side wall of the air conditioner external unit, and a threaded hole penetrating through the middle part of the fixed bearing plate is formed; an anti-freezing plate is arranged at the upper end of the top end of the fixed bearing plate; a pipe groove is formed in the middle of the top end of the anti-freezing plate;

screw grooves which are symmetrical with each other are formed in the front end of the top end of the anti-freezing plate, and screws are rotatably inserted in the screw grooves; the anti-freezing plate comprises a fixing strip, wherein a through shaft hole is formed in the fixing strip, a through main rotating shaft is inserted into the shaft hole of the fixing strip, anti-freezing arc plates are arranged at two ends of the main rotating shaft, and a stabilizing plate is fixedly arranged at the lower end of the front side wall of the anti-freezing arc plate;

two penetrating round holes are formed in the stabilizing plate of the anti-freezing arc-shaped plate, a sponge is paved at the top end of the anti-freezing arc-shaped plate, a fixing ring is fixedly arranged in the middle of the bottom of the anti-freezing plate, and an insulation shell with an arc-shaped structure is clamped at the top end of the anti-freezing plate;

a sealing plate is fixedly arranged on the right side wall of the heat preservation shell; clamping strips which are symmetrical to each other are fixedly arranged at the bottom of the heat preservation shell; the upper end of the heat preservation shell is fixedly provided with a snow prevention shell with a pointed structure.

Further, four penetrating guide holes are formed in the fixed bearing plate, a penetrating screw rod is rotatably inserted in a threaded hole in the middle of the fixed bearing plate, a supporting rotary drum is rotatably mounted on the screw rod, and threads are formed in the side wall of an inner cavity of the supporting rotary drum.

Further, the lower end of the supporting rotary drum is fixedly provided with a rotary table, the annular side wall of the rotary table is uniformly and fixedly provided with short columns, and the top end of the supporting rotary drum is provided with a bearing ring.

Furthermore, four guide rods which are vertically downward are fixedly arranged at the bottom of the anti-freezing plate, and clamping grooves which are symmetrical to each other are formed in the top end of the anti-freezing plate.

Compared with the prior art, the utility model has the following beneficial effects:

when the pipeline is fixedly arranged on the air source heat pump, the anti-freezing plate can move up and down to adjust the position, the anti-freezing plate is tightly attached to the lower end of the pipeline, frost is prevented from adhering to the lower end of the pipeline, the anti-freezing arc plate and the sponge are arranged at the upper end of the pipeline, the outer end of the sponge is also provided with the heat insulation shell for freezing prevention, then the anti-snow shell is of a pointed structure, ice and snow are not easy to stay on the anti-snow shell, cold air in the ice and the snow cannot pass through the anti-snow shell and the heat insulation shell, frost cannot be directly frosted on the surface of the pipeline, at the moment, the frost cannot freeze the pipeline, the heating speed of the air source heat pump which is smooth in the pipeline is high, heat energy can be rapidly generated due to low consumption, the working efficiency is improved, and all anti-freezing components can be detached when the season is changed to the condition that freezing is not needed in summer.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a partially disassembled structural schematic view of the freeze protection plate of the present utility model.

Fig. 2 is a schematic view of the upper right front perspective structure of the present utility model.

Fig. 3 is a schematic view of a part of the structure of the air conditioner external unit excluding the air conditioner external unit according to the present utility model.

Fig. 4 is a schematic view of the partial exploded structure of the screw, the freeze-proof plate and the heat-insulating housing of the present utility model.

Fig. 5 is a schematic view of an explosive structure according to the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. an air conditioner external unit; 2. fixing the bearing plate; 201. a guide hole; 202. a screw rod; 203. supporting the rotary drum; 204. a turntable; 205. a bearing ring; 3. an anti-freezing plate; 301. a guide rod; 302. a clamping groove; 303. a fixing strip; 304. a main rotating shaft; 305. an anti-freezing arc plate; 306. a sponge; 307. a fixing ring; 4. a thermal insulation shell; 401. a sealing plate; 402. clamping strips; 403. snow cover.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Example 1:

as shown in fig. 1 to 5:

the utility model provides an antifreezing air source heat pump, which comprises an air conditioner outdoor unit 1; the upper end of the right end of the air conditioner external unit 1 is fixedly provided with a connected pipeline; a fixed bearing plate 2 is fixedly arranged at the lower end of the right side wall of the air conditioner external unit 1, and a threaded hole penetrating through the middle part of the fixed bearing plate 2 is formed; an anti-freezing plate 3 is arranged at the upper end of the top end of the fixed bearing plate 2; a pipe groove is formed in the middle of the top end of the anti-freezing plate 3; the front end of the top end of the antifreezing plate 3 is provided with mutually symmetrical thread grooves, and screws are rotatably inserted in the thread grooves; the top end of the anti-freezing plate 3 is clamped with a heat preservation shell 4 with an arc-shaped structure; inside the inner cavity of the insulating shell 4, an antifreezing material is stored, for example: a sealing plate 401 is fixedly arranged on the right side wall of the heat preservation shell 4; the inner concave surface of the sealing plate 401 is tightly attached to the upper end of the pipeline, and clamping strips 402 which are symmetrical to each other are fixedly arranged at the bottom of the heat preservation shell 4; the clamping strips 402 are clamped into the clamping grooves 302, at this time, the inner concave surface of the heat preservation shell 4 is tightly attached to the sponge 306, the upper end of the heat preservation shell 4 is fixedly provided with a tip-shaped snow prevention shell 403, when ice and snow fall on the snow prevention shell 403, the snow prevention shell 403 is tip-shaped ice and snow is not easy to fall on the tip-shaped ice and snow, most of the ice and snow can slide down, only less ice and snow can be left, and cool air emitted by the ice and snow cannot pass through the snow prevention shell 403 and the heat preservation shell 4.

Four penetrating guide holes 201 are formed in the fixed bearing plate 2, a penetrating screw rod 202 is rotatably inserted into a threaded hole in the middle of the fixed bearing plate 2, a supporting rotary drum 203 is rotatably mounted on the screw rod 202, threads are formed in the side wall of an inner cavity of the supporting rotary drum 203, a rotary table 204 is fixedly mounted at the lower end of the supporting rotary drum 203, short columns are uniformly and fixedly mounted on the annular side wall of the rotary table 204, when a pipeline connected to the air source heat pump needs to be frozen, the screw rod 202 is firstly held fixedly, then the short columns on the rotary table 204 are held, the supporting rotary drum 203 is rotatably transferred upwards, at the moment, a bearing ring 205 on the supporting rotary drum 203 can jack up the antifreezing plate 3 upwards, a pipe groove in the middle of the antifreezing plate 3 is tightly attached to the lower end of the pipeline, ice and snow are prevented from adhering to the lower end of the surface of the pipeline, the lower end of the pipeline is frosted and frozen, the short columns on the rotary table 204 are held conveniently, the top end of the supporting rotary drum 203 is mounted with a bearing ring 205, and the bearing ring 205 is rotatably mounted on the fixed ring 307.

The bottom of the freeze-proof plate 3 is fixedly provided with four vertical downward guide rods 301, the guide rods 301 penetrate through the guide holes 201, the top ends of the freeze-proof plate 3 are provided with clamping grooves 302 which are symmetrical to each other, the rear end of the top end of the freeze-proof plate 3 is fixedly provided with fixing strips 303, the fixing strips 303 are provided with penetrating shaft holes, after the position of the freeze-proof plate 3 is fixed, the freeze-proof arc 305 is grabbed to overturn, the inner concave surface of the freeze-proof arc 305 is tightly attached to the upper end of a pipeline, then screws penetrate through the fixing plates and are inserted into threaded grooves at the front end of the freeze-proof plate 3, the freeze-proof arc 305 is temporarily fixed and limited, then a sponge 306 covers the freeze-proof arc 305, the upper end of the pipeline is sealed and freeze-proof by the freeze-proof arc 305 and the sponge 306, the lower end of the front side wall of the fixing strips 303 is fixedly provided with a through main shaft 304, two penetrating round holes are formed in the fixing plates of the main shaft 304, the bottom of the freeze-proof arc 305 is fixedly provided with a sponge 307, and the bottom of the freeze-proof arc 305 is fixedly provided with a heat-proof ring hole 307.

Example 2:

on the basis of example 1, as shown in fig. 1 to 5: four penetrating guide holes 201 are formed in the fixed bearing plate 2, a penetrating screw rod 202 is rotatably inserted in a threaded hole in the middle of the fixed bearing plate 2, a supporting rotary drum 203 is rotatably installed on the screw rod 202, threads are formed in the side wall of an inner cavity of the supporting rotary drum 203, a rotary table 204 is fixedly installed at the lower end of the supporting rotary drum 203, short columns are uniformly and fixedly installed on the annular side wall of the rotary table 204, a bearing ring 205 is installed at the top end of the supporting rotary drum 203, the screw rod 202 can be replaced by an electric push rod, and therefore parts of the supporting rotary drum 203, the rotary table 204 and the bearing ring 205 can be all deleted, a plurality of connecting parts are saved, disconnection among the connecting parts is prevented, the electric push rod can automatically push and pull the anti-freezing plate 3 up and down, the anti-freezing plate 3 is pushed up by the electric push rod, ice and snow are prevented from adhering to the lower end of the pipeline surface by the pipe groove in the middle of the anti-freezing plate 3.

Specific use and action of the embodiment:

when the pipeline connected to the air source heat pump needs to be frozen, the screw rod 202 is firstly grasped and immobilized, then the short column on the turntable 204 is grasped to rotate the supporting rotary drum 203 to move upwards, at this time, the bearing ring 205 on the supporting rotary drum 203 can jack up the freezing plate 3 upwards, the pipe groove in the middle of the freezing plate 3 is tightly attached to the lower end of the pipeline, ice and snow are prevented from adhering to the lower end of the surface of the pipeline, then the freezing arc 305 is grasped and turned over, the inner concave surface of the freezing arc 305 is tightly attached to the upper end of the pipeline, then screws penetrate through the screw groove at the front end of the freezing plate 3, the freezing arc 305 is temporarily immobilized and limited, then the sponge 306 is covered on the freezing arc 305, the freezing arc 305 and the sponge 306 are used for sealing and freezing the upper end of the pipeline, finally the clamping strip 402 is clamped into the clamping groove 302, at this time, the inner concave surface of the thermal insulation shell 4 is tightly attached to the sponge 306, when the ice and snow fall on the thermal insulation shell 403, the snow and the ice and the snow can only be prevented from falling on the tip-shaped ice and snow, the rest can only be removed down, the ice and the snow can not penetrate through the thermal insulation shell 4 and the thermal insulation shell.

Claims (6)

1. An anti-freezing air source heat pump is characterized in that: comprising the following steps: an air conditioner external unit (1); the upper end of the right end of the air conditioner external unit (1) is fixedly provided with a connected pipeline; the lower end of the right side wall of the air conditioner external unit (1) is fixedly provided with a fixed bearing plate (2), and the middle part of the fixed bearing plate (2) is provided with a threaded hole which penetrates through; an anti-freezing plate (3) is arranged at the upper end of the top end of the fixed bearing plate (2); a pipe groove is formed in the middle of the top end of the anti-freezing plate (3); screw grooves which are symmetrical with each other are formed in the front end of the top end of the anti-freezing plate (3), and screws are rotatably inserted in the screw grooves;

the top end of the anti-freezing plate (3) is clamped with an insulation shell (4) with an arc-shaped structure; a sealing plate (401) is fixedly arranged on the right side wall of the heat preservation shell (4); clamping strips (402) which are symmetrical to each other are fixedly arranged at the bottom of the heat preservation shell (4); the upper end of the heat preservation shell (4) is fixedly provided with a snow prevention shell (403) with a pointed structure.

2. An antifreeze air source heat pump according to claim 1, wherein: four penetrating guide holes (201) are formed in the fixed bearing plate (2), a penetrating screw rod (202) is rotatably inserted in a threaded hole in the middle of the fixed bearing plate (2), a supporting rotary drum (203) is rotatably mounted on the screw rod (202), and threads are formed in the side wall of an inner cavity of the supporting rotary drum (203).

3. An antifreeze air source heat pump according to claim 2, wherein: the rotary table (204) is fixedly installed at the lower end of the supporting rotary drum (203), short columns are uniformly and fixedly installed on the annular side wall of the rotary table (204), and a bearing ring (205) is installed at the top end of the supporting rotary drum (203).

4. An antifreeze air source heat pump according to claim 1, wherein: four vertical downward guide rods (301) are fixedly arranged at the bottom of the anti-freezing plate (3), and clamping grooves (302) which are symmetrical to each other are formed in the top end of the anti-freezing plate (3).

5. An antifreeze air source heat pump according to claim 1, wherein: the anti-freezing plate is characterized in that a fixing strip (303) is fixedly arranged at the rear end of the top end of the anti-freezing plate (3), a penetrating shaft hole is formed in the fixing strip (303), and a penetrating main rotating shaft (304) is inserted into the shaft hole of the fixing strip (303).

6. An antifreeze air source heat pump according to claim 5, wherein: the anti-freezing arc-shaped plate (305) is installed at the two ends of the main rotating shaft (304), the stabilizing plate is fixedly installed at the lower end of the front side wall of the anti-freezing arc-shaped plate (305), two penetrating round holes are formed in the stabilizing plate of the anti-freezing arc-shaped plate (305), a sponge (306) is paved at the top end of the anti-freezing arc-shaped plate (305), and the fixing ring (307) is fixedly installed in the middle of the bottom of the anti-freezing plate (3).