CN219674499U - Overlapping type air source heat pump unit - Google Patents

Abstract

The utility model discloses an overlapping type air source heat pump unit, which belongs to the technical field of heat pumps and comprises a heat pump body, wherein an evaporator is arranged on the inner side of the heat pump body, a defrosting assembly is arranged on the inner side of the heat pump body and above the evaporator, a water guide plate is arranged on the inner side of the heat pump body and below the evaporator, drainage assemblies are arranged on both sides of the heat pump body, a drying device is arranged on the heat pump body and above the two drainage assemblies, and a water storage device is arranged on the outer side of the drainage assemblies; according to the utility model, the drying device is arranged, so that the unit can treat the moisture around the evaporator through the cooperation of the structures such as the silica gel drying agent and the like when needed, thereby reducing the moisture around the evaporator, further reducing the frosting speed on the evaporator, and further improving the practicability of the unit.

Description

Overlapping type air source heat pump unit

Technical Field

The utility model belongs to the technical field of heat pumps, and particularly relates to an overlapping type air source heat pump unit.

Background

A heat pump is a device that transfers heat energy from a low-level heat source to a high-level heat source. The heat pump generally obtains low-grade heat energy from air, water or soil in nature, performs work through electric power, and then provides high-grade heat energy which can be utilized for people.

The utility model provides a chinese patent application number 202221772050.8 discloses a low temperature cascade air source heat pump unit, includes the heat pump body and installs the evaporimeter in the heat pump body, the inside upside of heat pump body is fixed to be installed and is located the defrosting mechanism of evaporimeter upside, the inner wall of heat pump body still fixedly connected with is located the water guide plate of evaporimeter downside, the water guide plate is established to the structure of falling "V", the lateral wall symmetry fixed intercommunication of heat pump body has two drain pipes that are located water guide plate lower extreme department. The utility model can realize the rapid defrosting operation of the evaporator without manual participation, and is convenient to operate and use.

1. The problem that the water around the evaporator cannot be treated exists in the above-mentioned patent publication, so that the evaporator is easy to be frosted frequently, and the practicability of the unit is reduced; 2. the above-mentioned publication has the problem that the discharged water is inconvenient to temporarily store and process, and thus the working capacity of the unit is reduced.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides a cascade air source heat pump unit which has the characteristics of high practicability and strong working capacity.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an overlapping formula air source heat pump unit, includes the heat pump machine body, the evaporimeter is installed to the inboard of heat pump machine body, and defrosting subassembly is installed to the inboard of heat pump machine body and the position that is located the evaporimeter top, and the drain bar is installed to the inboard of heat pump machine body and the position that is located the evaporimeter below, and drainage subassembly is all installed to the both sides of heat pump machine body, and drying device is installed to the position that just is located two drainage subassembly top on the heat pump machine body, and drainage subassembly's outside is provided with water storage device.

Preferably, drying device includes outer frame body, annular net box, silica gel drier, connecting rod, intake pipe and fan, and the outer frame body is installed to the outside of heat pump machine body and the position that is located two drainage assemblies top, and the intake pipe is installed to the position between heat pump machine body and the outer frame body and be located two drainage assemblies and the outer frame body, and the inboard of outer frame body and the position that is located the heat pump machine body outside are provided with annular net box, are connected through two connecting rods between outer frame body and the annular net box, and the inboard of annular net box is filled with the silica gel drier, and the fan is installed to the position that just is located between heat pump machine body and the outer frame body and is kept away from intake pipe one side of outer frame body.

Preferably, the drying device further comprises a first buckle and a sealing plate, the sealing plate is arranged above the outer frame body, and the outer frame body is connected with the sealing plate through the two first buckles.

Preferably, the water storage device comprises a water storage tank, a butt joint pipe, a valve and a water outlet pipe, wherein the water storage tank is arranged at the two sides of the heat pump machine body and positioned below the drainage assembly, the butt joint pipe is arranged above the water storage tank and positioned at the position, far away from one side of the heat pump machine body, of the drainage assembly, the water outlet pipe is arranged below the water storage tank, and the valve is arranged at the position, close to the center, of the water outlet pipe.

Preferably, the water storage device further comprises a sterilizing lamp and quartz glass shells, two quartz glass shells are arranged on the inner side of the water storage tank, and a plurality of sterilizing lamps are arranged on the inner side of the water storage tank and respectively positioned on the inner sides of the two quartz glass shells.

Preferably, the water storage device further comprises a second buckle, and the two water storage tanks are connected with the heat pump machine body through a plurality of second buckles.

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

1. according to the utility model, the drying device is arranged, so that the unit can treat the moisture around the evaporator through the cooperation of the structures such as the silica gel drying agent and the like when needed, thereby reducing the moisture around the evaporator, further reducing the frosting speed on the evaporator, and further improving the practicability of the unit.

2. According to the utility model, the water storage device is arranged, so that the unit can temporarily store water discharged by the water discharge assembly through the water storage tank when needed, and can treat the water through the sterilizing lamp when needed, thereby facilitating the subsequent utilization of staff and further improving the working capacity of the unit.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic diagram of a drying apparatus according to the present utility model;

fig. 4 is a schematic structural view of the water storage device of the present utility model.

In the figure: 1. a heat pump body; 2. a water guide plate; 3. an evaporator; 4. a defrosting assembly; 5. a drying device; 51. an outer frame body; 52. a first buckle; 53. a closing plate; 54. an annular net box; 55. silica gel drying agent; 56. a connecting rod; 57. an air inlet pipe; 58. a blower; 6. a water storage device; 61. a water storage tank; 62. a butt joint pipe; 63. a germicidal lamp; 64. a quartz glass shell; 65. a valve; 66. a water outlet pipe; 67. a second buckle; 7. and a drainage assembly.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-4, the present utility model provides the following technical solutions: the utility model provides an overlapping formula air source heat pump unit, including heat pump machine body 1, evaporator 3 is installed to the inboard of heat pump machine body 1, defrosting subassembly 4 is installed to the inboard of heat pump machine body 1 and the position that is located evaporator 3 top, water guide plate 2 is installed to the inboard of heat pump machine body 1 and the position that is located evaporator 3 below, drainage subassembly 7 is all installed to the both sides of heat pump machine body 1, drying device 5 is installed to the position that just is located two drainage subassemblies 7 top on the heat pump machine body 1, the outside of drainage subassembly 7 is provided with water storage device 6.

Specifically, the drying device 5 includes an outer frame 51, an annular net box 54, a silica gel drying agent 55, a connecting rod 56, an air inlet pipe 57 and a fan 58, the outer frame 51 is installed at a position which is located above the two drainage assemblies 7 and outside the heat pump body 1, the air inlet pipe 57 is installed at a position which is located between the heat pump body 1 and the outer frame 51 and between the two drainage assemblies 7 and the outer frame 51, the annular net box 54 is arranged at a position which is located inside the outer frame 51 and outside the heat pump body 1, the outer frame 51 is connected with the annular net box 54 through the two connecting rods 56, the silica gel drying agent 55 is filled inside the annular net box 54, and the fan 58 is installed at a position which is located between the heat pump body 1 and the outer frame 51 and is located on a side of the outer frame 51 far away from the air inlet pipe 57.

By adopting the technical scheme, the unit can process the moisture around the evaporator 3 through the cooperation of the structures such as the silica gel drying agent 55 and the like when needed, thereby reducing the moisture around the evaporator 3 and further reducing the frosting speed on the evaporator 3.

Specifically, the drying device 5 further includes a first buckle 52 and a closing plate 53, the closing plate 53 is disposed above the outer frame 51, and the outer frame 51 and the closing plate 53 are connected through the two first buckles 52.

By adopting the above technical scheme, the worker can open the outer frame 51 to replace the silica gel desiccant 55 when needed.

When the heat pump unit is needed, the heat pump unit body 1 is operated, the evaporator 3 is started to work at the same time, then the heat pump unit is used, the fan 58 in the drying device 5 is started, under the action of the fan 58, air around the evaporator 3 passes through the air inlet pipe 57 to enter the outer frame body 51 and moves towards the fan 58, moisture in the air is gradually absorbed by the silica gel drying agent 55 in the annular net box 54 in the air flowing process, and then the air passes through the fan 58 to return to the periphery of the evaporator 3, so that circulation is formed, the moisture around the evaporator 3 is reduced, the frosting speed of the evaporator 3 is reduced, the two first buckles 52 can be operated to take off the sealing plate 53 when needed, then the silica gel drying agent 55 is replaced, frost on the defrosting component 4 can be operated when needed, melted water is discharged from the two water drainage components 7 under the action of the water guide plate 2, and the connecting rod 56 plays a role of connection.

Example 2

This embodiment differs from embodiment 1 in that: the water storage device 6 comprises a water storage tank 61, a butt joint pipe 62, a valve 65 and a water outlet pipe 66, wherein the water storage tank 61 is arranged on two sides of the heat pump machine body 1 and is positioned below the water drainage assembly 7, the butt joint pipe 62 is arranged above the water storage tank 61 and is positioned on one side of the water drainage assembly 7 away from the heat pump machine body 1, the water outlet pipe 66 is arranged below the water storage tank 61, and the valve 65 is arranged at the position close to the center of the water outlet pipe 66.

By adopting the above technical scheme, the unit can temporarily store the water discharged by the water discharging assembly 7 through the water storage tank 61 when required.

Specifically, the water storage device 6 further includes a germicidal lamp 63 and a quartz glass case 64, two quartz glass cases 64 are installed on the inner side of the water storage tank 61, and a plurality of germicidal lamps 63 are installed on the inner side of the water storage tank 61 and at positions respectively located on the inner sides of the two quartz glass cases 64.

Through adopting above-mentioned technical scheme for the unit can be when needs handle water through sterilamp 63, has made things convenient for staff's follow-up utilization.

Specifically, the water storage device 6 further includes a second buckle 67, and the two water storage tanks 61 are connected to the heat pump body 1 through a plurality of second buckles 67.

By adopting the above technical scheme, the staff can assemble and disassemble the structures such as the water storage tank 61 and the like when needed.

When the water is discharged from the two water discharging assemblies 7, the water enters the butt joint pipes 62 which are tightly attached to the two water discharging assemblies 7 in the two water storing devices 6, the water enters the two water storing tanks 61 through the two butt joint pipes 62, the sterilizing lamps 63 can be started when needed, ultraviolet rays emitted by the sterilizing lamps 63 penetrate through the quartz glass shell 64 to sterilize the water, when water is needed, the valve 65 can be opened, then the water is discharged through the water outlet pipes 66, and the second buckle 67 plays a role in connection and installation.

The utility model discloses a low-temperature cascade air source heat pump unit, which is characterized in that when the heat pump unit is used, a defrosting fan is started and supplied to an electric heating wire when frost is required to be processed on the evaporator, the defrosting fan ventilates into a heating box through a ventilation pipe, air heated by the electric heating wire is matched with a communicating pipe and an air spraying pipe to carry out hot air defrosting operation on the evaporator, water flowing down after defrosting is rapidly discharged out of the heat pump unit through the water guiding plate and the water draining pipe without manual participation, the operation and use are convenient, when the defrosting fan supplies air into the ventilation pipe, a rotating shaft is driven to synchronously rotate through the driving mechanism, the rotating shaft drives a driving sprocket to synchronously rotate through a driving connection of a transmission shaft, and then the driven sprocket is driven to synchronously rotate through a transmission shaft to drive a bearing seat to synchronously rotate, and then the transmission shaft is driven to rotate through a transmission shaft to drive a bevel gear, and a transmission shaft is driven to synchronously rotate, and a bevel gear is driven to rotate, and the quality of the bevel gear is driven to be driven to rotate synchronously rotate, and the quality of the bevel gear is guaranteed.

The structure and principle of the sterilizing lamp 63 in the utility model are disclosed in a power transmission mechanism of an electric endoscope anastomat disclosed in Chinese patent application No. 202122604755.0, and the operating principle is sterilizing by ultraviolet rays.

The working principle and the using flow of the utility model are as follows: when the heat pump unit is needed, the heat pump unit body 1 is operated, the evaporator 3 is started to work at the same time, then the heat pump unit is used, the fan 58 in the drying device 5 is started, under the action of the fan 58, air around the evaporator 3 passes through the air inlet pipe 57 to enter the outer frame body 51 and moves towards the fan 58, moisture in the air is gradually absorbed by the silica gel drying agent 55 in the annular net box 54 in the air flowing process, then the air passes through the fan 58 to return to the periphery of the evaporator 3, so that circulation is formed, the moisture around the evaporator 3 is reduced, the frosting speed on the evaporator 3 is reduced, the two first buckles 52 can be operated to take off the sealing plates 53, then the silica gel drying agent 55 is replaced, frost on the defrosting component 4 can be operated to melt when needed, the melted water is discharged from the two drainage components 7 under the action of the water guide plate 2, and the connecting rod 56 plays a role of connection; when water is discharged from the two water discharging assemblies 7, the water enters the butt joint pipes 62 which are tightly attached to the two water discharging assemblies 7 in the two water storage devices 6, the water passes through the two butt joint pipes 62 and enters the two water storage tanks 61 to be stored, when the water is required, the sterilizing lamps 63 can be started, ultraviolet rays emitted by the sterilizing lamps 63 pass through the quartz glass shells 64 to sterilize the water, when the water is required, the valve 65 can be opened, then the water is discharged through the water outlet pipes 66, and the second buckle 67 plays a role in connection and installation.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an overlapping formula air source heat pump set, includes the heat pump machine body, its characterized in that: the evaporator is installed to the inboard of heat pump machine body, and defrosting subassembly is installed to the inboard of heat pump machine body and the position that is located the evaporator top, and the drain bar is installed to the inboard of heat pump machine body and the position that is located the evaporator below, and drainage subassembly is all installed to the both sides of heat pump machine body, and drying device is installed to the position that just is located two drainage subassemblies top on the heat pump machine body, and drainage subassembly's outside is provided with water storage device.

2. The cascade air-source heat pump unit according to claim 1, wherein: drying device includes outer frame body, annular net box, silica gel drier, connecting rod, intake pipe and fan, and the outer frame body is installed in the outside of heat pump machine body and the position that is located two drainage assemblies top, and the intake pipe is installed to the position between heat pump machine body and the outer frame body and be located two drainage assemblies and the outer frame body, and the inboard of outer frame body and the position that is located the heat pump machine body outside are provided with annular net box, are connected through two connecting rods between outer frame body and the annular net box, and the inboard of annular net box is filled with silica gel drier, and the fan is installed in the position that the intake pipe one side was kept away from to the outer frame body and be located between heat pump machine body and the outer frame body.

3. An overlapping air source heat pump unit as defined in claim 2, wherein: the drying device further comprises a first buckle and a sealing plate, the sealing plate is arranged above the outer frame body, and the outer frame body is connected with the sealing plate through the two first buckles.

4. The cascade air-source heat pump unit according to claim 1, wherein: the water storage device comprises a water storage tank, a butt joint pipe, a valve and a water outlet pipe, wherein the water storage tank is arranged on the two sides of the heat pump machine body and positioned below the water drainage assembly, the butt joint pipe is arranged above the water storage tank and positioned on one side of the water drainage assembly away from the heat pump machine body, the water outlet pipe is arranged below the water storage tank, and the valve is arranged at the position close to the center of the water outlet pipe.

5. The cascade air-source heat pump unit as set forth in claim 4, wherein: the water storage device further comprises sterilizing lamps and quartz glass shells, two quartz glass shells are arranged on the inner side of the water storage tank, and a plurality of sterilizing lamps are arranged on the inner side of the water storage tank and respectively located on the inner sides of the two quartz glass shells.

6. The cascade air-source heat pump unit as set forth in claim 4, wherein: the water storage device further comprises a second buckle, and the two water storage tanks are connected with the heat pump body through a plurality of second buckles.