CN215113331U - Multi-condenser heat pump unit - Google Patents

Abstract

The utility model discloses a multi-condenser heat pump unit, which comprises a base frame, wherein a heat pump system is arranged on the base frame, the heat pump system comprises a compressor, the compressor is provided with a first refrigerant inlet and a first refrigerant outlet, and a condensation component, a throttling device and an evaporator are sequentially connected between the first refrigerant outlet and the first refrigerant inlet; the condensation subassembly includes a plurality of condensers, and the condensation subassembly side is equipped with first connecting pipe and second connecting pipe, and all condensers all have second refrigerant entry and second refrigerant export, and all second refrigerant entries all communicate to first connecting pipe, and all second refrigerant exports all communicate to the second connecting pipe for all condensers connect the setting in parallel. Because the condensation subassembly includes a plurality of condensers and all condensers are parallelly connected and set up, the condensation efficiency of condensation subassembly is higher, then heat pump system can use a powerful compressor and need not to use the compressor of a plurality of low powers, and spare part is few, the easy-to-wear spare is few, is convenient for carry out daily dimension guarantor.

Description

Multi-condenser heat pump unit

Technical Field

The utility model relates to a heat pump device technical field, in particular to many condenser heat pump set.

Background

Heat pump units are often used for preparing cold water or hot water in industry, and for occasions with high cold and hot water requirements, a modular heat pump unit is mostly adopted, the modular heat pump unit is provided with a plurality of independent heat pump systems, one system can still continuously operate when a fault occurs, and the work is guaranteed; however, such heat pump units also have disadvantages, such as high cost, many parts, many wearing parts, inconvenience for daily maintenance, and high daily maintenance cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a many condenser heat pump set.

The multi-condenser heat pump unit comprises a base frame, wherein a heat pump system is arranged on the base frame, the heat pump system comprises a compressor, the compressor is provided with a first refrigerant inlet and a first refrigerant outlet, and a condensation assembly, a throttling device and an evaporator are sequentially connected between the first refrigerant outlet and the first refrigerant inlet; the condensation assembly comprises a plurality of condensers, a first connecting pipe and a second connecting pipe are arranged beside the condensation assembly, all the condensers are provided with a second refrigerant inlet and a second refrigerant outlet, all the second refrigerant inlets are communicated with the first connecting pipe, and all the second refrigerant outlets are communicated with the second connecting pipe, so that all the condensers are arranged in parallel; the first connecting pipe is communicated to the first refrigerant outlet, and the second connecting pipe is communicated to the throttling device.

According to the utility model discloses many condenser heat pump set has following technological effect at least: when in use, the evaporation pipeline of the evaporator can be arranged in the water tank to prepare cold water; because the condensation subassembly includes a plurality of condensers and all condensers are parallelly connected and set up, the condensation efficiency of condensation subassembly is higher, and the condensation subassembly can be applicable to powerful compressor, and then heat pump system can use a powerful compressor and need not to use the compressor of a plurality of minipowers, and parts such as throttling arrangement, oil and gas separator, vapour and liquid separator also can only set up one, and spare part is few, the easy-to-wear spare part is few, is convenient for carry out daily dimension guarantor.

According to some embodiments of the invention, the evaporator is a shell-and-tube evaporator. The shell and tube evaporator has compact structure, convenient operation and management and convenient daily maintenance.

According to some embodiments of the present invention, an upper zone and a lower zone are provided in the base frame, the evaporator, the compressor, the first connecting pipe and the second connecting pipe are all provided in the lower zone, and all the condensers are provided in the upper zone; all the condenser sets gradually from a left side to the right side, the evaporimeter first connecting pipe with the second connecting pipe is all transversely set up, the compressor is located the evaporimeter with between the first connecting pipe, with first connecting pipe is relative the position of evaporimeter is the place ahead, first connecting pipe with the second connecting pipe all locates all the front side below of condenser, the evaporimeter is located all the rear side below of condenser. Compact structure is reasonable, makes full use of the space in the base frame.

According to some embodiments of the invention, the compressor is a horizontal compressor. The horizontal compressor has small vertical size and large horizontal size, is suitable for being placed in a lower layer area, and the height of the lower layer area can be set to be small, so that the occupied space of the multi-condenser heat pump unit is reduced.

According to some embodiments of the invention, the second connecting tube has a communicating end communicating to the throttling device, the position of the communicating end relative to the connecting tube being left; the evaporator is provided with a water inlet and a water outlet, the water inlet is arranged on the left side of the evaporator, the water outlet is arranged on the upper right side of the evaporator, the water inlet is provided with a water inlet pipe, the water outlet is provided with a water outlet pipe, the water inlet pipe is provided with a water inlet end and a first connecting end, the water outlet pipe is provided with a water outlet end and a second connecting end, the first connecting end is connected with the water inlet, the second connecting end is connected with the water outlet, and the water inlet end and the water outlet end are both arranged at the right end of the lower layer area. Therefore, the pipeline, the throttling device and other parts of the heat pump system can be arranged on the front side and the left side of the lower layer area, the water inlet end and the water outlet end are arranged at the right rear corner of the lower layer area, and when an engineering worker connects the water inlet pipe and the water storage tank to an external water channel, the pipeline and the parts of the heat pump system cannot be contacted, so that the pipeline and the parts of the heat pump system are prevented from being damaged.

According to some embodiments of the present invention, all the condensers are sequentially arranged from left to right, the first connecting pipe is transversely arranged, the first connecting pipe is provided with an air inlet connecting port and a plurality of air outlet connecting ports, the air inlet connecting port is connected to the first refrigerant outlet, and all the second refrigerant inlets are connected to all the air outlet connecting ports in a one-to-one correspondence manner; the first connecting pipe is provided with a left pipe section and a right pipe section, the air inlet connecting port is arranged between the left pipe section and the right pipe section, the air inlet connecting port is arranged at the side of the middle position of the condensation assembly, the left pipe section and the right pipe section are respectively provided with the air outlet connecting port, and the left pipe section and the right pipe section are bilaterally symmetrical in structure. The pressure of the refrigerant in the left pipe section and the right pipe section is balanced, the pressure difference of the refrigerant at all the exhaust connecting ports is small, each condenser is fully utilized, and the condensing efficiency of the condensing assembly is high.

According to some embodiments of the invention, the exhaust connection port is provided at a bottom of the first connection pipe. This facilitates oil return to the compressor.

According to some embodiments of the utility model, locate all of left side pipeline section the exhaust connection combination is called left interface group, locates all of right side pipeline section the exhaust connection combination is called right interface group, locates the left all of connector admits air the condenser is called left condenser group, locates admit air all on the right side of connector the condenser is called right condenser group, left side interface group locates the side of the middle part position of left side condenser group, right side interface group locates the side of the middle part position of right side condenser group. The communicating pipe needs to be arranged between the exhaust connector and the condenser corresponding to the exhaust connector, the pressure difference of the refrigerant reaching the condenser of each left condenser group is smaller by arranging the left connector group at the side of the middle position of the left condenser group, the right connector group and the right condenser group are also arranged, each condenser is fully utilized, and the condensation efficiency of the condensation assembly is higher.

According to some embodiments of the present invention, the condenser is a finned condenser, the condenser is disposed in an inclined manner, the condenser has two mounting ends, the condenser is connected to the base frame at the mounting ends, and the two mounting ends are respectively located at the top and the bottom of the condenser; all the condensers are sequentially arranged from left to right, and for two adjacent condensers, the two mounting ends positioned on the same side are close to each other, and the other two mounting ends positioned on the other side are far away from each other. Every condenser all sets up the slope, and the air current can vertically pass through the condenser, and each air current only can pass through a condenser, and the condensing efficiency is higher.

According to some embodiments of the invention, the condensation assembly comprises eight condensers. The length of the shell-and-tube evaporator is longer, the transverse size of the base frame needs to be set to be larger, the number of the eight condensers is moderate, and the space in the base frame can be fully utilized.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

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 front view of the multi-condenser heat pump unit according to the embodiment of the present invention;

FIG. 2 is a top view of the multi-condenser heat pump unit according to the embodiment of the present invention;

FIG. 3 is a rear view of the multi-condenser heat pump unit according to the embodiment of the present invention;

FIG. 4 is a left side view of the multi-condenser heat pump unit according to the embodiment of the present invention;

fig. 5 is a right side view of the structure of the multi-condenser heat pump unit of the embodiment of the present invention.

In the drawings:

100-a horizontal compressor; 110-a first refrigerant inlet; 120-a first refrigerant outlet; 201-finned condenser; 210-a first connection tube; 211-left tube section; 212-right tube section; 213-exhaust connection port; 220-a second connecting tube; 300-a throttling device; 400-shell-and-tube evaporator; 410-a water outlet pipe; 420-water inlet pipe; 500-base frame.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. The terms "a" or "an" mean one or more, the terms "a" or "an" mean two or more, the terms larger than, smaller than, exceeding, and the like are understood to include the number, and the terms "larger than, smaller than, within, and the like are understood to include the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

A multi-condenser heat pump unit according to an embodiment of the present invention will be described with reference to fig. 1 to 5.

The multi-condenser heat pump unit comprises a base frame 500, wherein a heat pump system is arranged on the base frame 500, the heat pump system comprises a compressor, the compressor is provided with a first refrigerant inlet 110 and a first refrigerant outlet 120, and a condensing assembly, a throttling device 300 and an evaporator are sequentially connected between the first refrigerant outlet 120 and the first refrigerant inlet 110; the condensation assembly comprises a plurality of condensers, a first connecting pipe 210 and a second connecting pipe 220 are arranged beside the condensation assembly, all the condensers are provided with second refrigerant inlets and second refrigerant outlets, all the second refrigerant inlets are communicated with the first connecting pipe 210, and all the second refrigerant outlets are communicated with the second connecting pipe 220, so that all the condensers are arranged in parallel; the first connecting pipe 210 is connected to the first refrigerant outlet 120, and the second connecting pipe 220 is connected to the throttling device 300.

For example, as shown in fig. 1 and 2, an upper layer region and a lower layer region are arranged in the base frame 500, the condensing assembly is arranged in the upper layer region, the compressor, the evaporator, the first connecting pipe 210 and the second connecting pipe 220 are all arranged in the lower layer region, the compressor can be selected from a horizontal compressor 100 with high power, the evaporator is a shell-and-tube evaporator 400, the condenser is a finned condenser 201, and the throttling device 300 is an expansion valve; all the condensers are arranged in parallel, the first refrigerant outlet 120 of the compressor is connected to the second refrigerant inlets of all the condensers, the second refrigerant outlets of all the condensers are connected to the inlet of the throttling device 300, and the evaporator is connected between the outlet of the throttling device 300 and the first refrigerant inlet 110 in series.

When in use, the evaporation pipeline of the evaporator can be arranged in the water tank to prepare cold water; because the condensation subassembly includes a plurality of condensers and all condensers are parallelly connected and set up, the condensation efficiency of condensation subassembly is higher, and the condensation subassembly can be applicable to powerful compressor, and then heat pump system can use a powerful compressor and need not to use the compressor of a plurality of minipowers, and parts such as throttling arrangement 300, oil and gas separator, vapour and liquid separator also can only set up one, and spare part is few, the easy-to-wear spare part is few, is convenient for carry out daily dimension guarantor.

In some embodiments of the present invention, the evaporator is a shell and tube evaporator 400. An evaporation pipeline and a water tank for storing water are arranged in the shell-and-tube evaporator 400, the evaporation pipeline is arranged in the water tank, referring to fig. 2 and 3, two interfaces of the evaporator connected with the heat pump system are arranged at the left end of the evaporator and correspond to the position of the first refrigerant inlet 110 on the left side of the compressor, and the structure is compact; the shell-and-tube evaporator 400 has a compact structure, is convenient to operate and manage, and is convenient for daily maintenance.

In some embodiments of the present invention, an upper region and a lower region are disposed in the base frame 500, the evaporator, the compressor, the first connection pipe 210 and the second connection pipe 220 are disposed in the lower region, and all the condensers are disposed in the upper region; all condensers are arranged in sequence from left to right, the evaporator, the first connecting pipe 210 and the second connecting pipe 220 are all transversely arranged, the compressor is arranged between the evaporator and the first connecting pipe 210, the position of the first connecting pipe 210 relative to the evaporator is taken as the front, the first connecting pipe 210 and the second connecting pipe 220 are arranged below the front side of all condensers, and the evaporator is arranged below the rear side of all condensers. In the upper layer area, all condensers are arranged from left to right in sequence; in the lower layer region, the evaporator is provided at the rear side, the compressor is provided at the middle portion, and the first and second connection pipes 210 and 220 are provided at the front side; compact structure is reasonable, make full use of the space in the bed frame 500.

In some embodiments of the present invention, the compressor is a horizontal compressor 100. The horizontal compressor 100 has a small vertical dimension and a large horizontal dimension, and is suitable for being placed in a lower layer area; therefore, the shell-and-tube evaporator 400, the horizontal compressor 100, the first connecting pipe 210 and the second connecting pipe 220 can be arranged in parallel, the height of the lower layer area can be set to be smaller, and the occupied space of the multi-condenser heat pump unit is reduced.

In some embodiments of the present invention, the second connection pipe 220 has a communication end, the communication end is communicated to the throttling device 300, and the position of the communication end relative to the connection pipe is left; the evaporator is provided with a water inlet and a water outlet, the water inlet is arranged on the left side of the evaporator, the water outlet is arranged on the upper right side of the evaporator, the water inlet is provided with a water inlet pipe 420, the water outlet is provided with a water outlet pipe 410, the water inlet pipe 420 is provided with a water inlet end and a first connecting end, the water outlet pipe 410 is provided with a water outlet end and a second connecting end, the first connecting end is connected with the water inlet, the second connecting end is connected with the water outlet, and the water inlet end and the water outlet end are both arranged at the right end of the lower layer area. Therefore, the pipeline of the heat pump system, the throttling device 300 and other parts can be arranged on the front side and the left side of the lower layer area, the water inlet end and the water outlet end are arranged at the right rear corner of the lower layer area, and when an engineering worker connects the water inlet pipe 420 and the water storage tank to an external water channel, the pipeline and the parts of the heat pump system cannot be contacted and collided, so that the pipeline and the parts of the heat pump system are prevented from being damaged, and when leakage occurs at the water inlet or the water outlet, the leaked water cannot be splashed to the heat pump system; the water inlet is arranged on the left side of the evaporator, and the water outlet is arranged on the right upper side of the evaporator, so that water flows transversely through the inside of the whole evaporator, and the water heat exchange effect is good; a dry filter, a liquid display mirror, a liquid storage device and the like can be arranged between the connecting end and the throttling device 300, so that the components of the heat pump system can be further optimized.

In some embodiments of the present invention, all the condensers are sequentially disposed from left to right, the first connection pipe 210 is transversely disposed, the first connection pipe 210 is provided with an air inlet connection port and a plurality of air outlet connection ports 213, the air inlet connection port is connected to the first refrigerant outlet 120, and all the second refrigerant inlets are connected to all the air outlet connection ports 213 in a one-to-one correspondence manner; the first connecting pipe 210 is provided with a left pipe section 211 and a right pipe section 212, the air inlet connecting port is arranged between the left pipe section 211 and the right pipe section 212, the air inlet connecting port is arranged at the side of the middle position of the condensing assembly, the left pipe section 211 and the right pipe section 212 are both provided with an air outlet connecting port 213, and the left pipe section 211 and the right pipe section 212 are bilaterally symmetrical in structure. Referring to fig. 2, the compressor is disposed at the left side of the lower layer region, which is relatively far away from the water inlet and the water outlet, the first refrigerant outlet 120 is disposed at the top of the right side of the compressor, the first refrigerant outlet 120 is disposed below the middle position of the condensing assembly, the air inlet connection port is disposed at the top of the first connection pipe 210, the first refrigerant outlet 120 and the air inlet connection port are communicated through the connection pipe, the left pipe section 211 extends leftward from the air inlet connection port, and the right pipe section 212 extends rightward from the air inlet connection port; therefore, the pressures of the refrigerants in the left pipe section 211 and the right pipe section 212 are relatively balanced, the pressure difference of the refrigerants at all the exhaust connecting ports 213 is relatively small, each condenser is fully utilized, and the condensing efficiency of the condensing assembly is relatively high; in this case, the flow area of the first connection pipe 210 may be set to be greater than twice the flow area of the exhaust connection ports 213, so that the refrigerant pressure difference at all the exhaust connection ports 213 is smaller.

In some embodiments of the present invention, the exhaust connection port 213 is provided at the bottom of the first connection pipe 210. Therefore, oil return of the compressor is facilitated, the compressor oil reaches the first connecting pipe 210 after being sent out from the first refrigerant outlet 120 along with the refrigerant, and even if the compressor oil flows to the bottom of the first connecting pipe 210 under the action of gravity, the compressor oil can be discharged from the exhaust connecting port 213 through the arrangement of the exhaust connecting port 213 at the bottom of the first connecting pipe 210, the compressor oil is prevented from being accumulated in the first connecting pipe 210 all the time, and the compressor oil can normally circulate.

In some embodiments of the present invention, all the exhaust connectors 213 disposed on the left pipe section 211 are called as a left connector set, all the exhaust connectors 213 disposed on the right pipe section 212 are called as a right connector set, all the condensers disposed on the left side of the intake connector are called as a left condenser set, all the condensers disposed on the right side of the intake connector are called as a right condenser set, the left connector set is disposed on the side of the middle position of the left condenser set, and the right connector set is disposed on the side of the middle position of the right condenser set. Referring to fig. 1, eight condensers may be provided, which are sequentially called as a first condenser, a second condenser, a third condenser, a fourth condenser, a fifth condenser, a sixth condenser, a seventh condenser and an eighth condenser from left to right, and the exhaust connection port 213 is also provided with eight condensers, which are sequentially called as a first interface, a second interface, a third interface, a fourth interface, a fifth interface, a sixth interface, a seventh interface and an eighth interface from left to right, wherein the first condenser is connected with the first interface, the second condenser is connected with the second interface, the third condenser is connected with the third interface, the fourth condenser is connected with the fourth interface, the fifth condenser is connected with the fifth interface, the sixth condenser is connected with the sixth interface, the seventh condenser is connected with the seventh interface, and the eighth condenser is connected with the eighth interface. The left interface group is arranged at the lower side of the position between the second condenser and the third condenser, and the right interface group is arranged at the lower side of the position between the sixth condenser and the seventh condenser; the exhaust connector 213 and the condenser corresponding to the exhaust connector need to be communicated with each other through the communicating pipe, the left connector group is arranged beside the middle of the left condenser group, the length difference of each communicating pipe is small, the pressure drop difference of the refrigerant passing through each communicating pipe is small, the pressure difference of the refrigerant reaching the condenser of each left condenser group is small, the right connector group and the right condenser group are also small, each condenser is fully utilized, and the condensing efficiency of the condensing assembly is high.

In some embodiments of the present invention, the condenser is a finned condenser 201, the condenser is disposed in an inclined manner, the condenser has two mounting ends, the condenser is connected to the base frame 500 at the mounting ends, and the two mounting ends are respectively located at the top and the bottom of the condenser; all condensers are arranged from left to right in sequence, and for two adjacent condensers, two mounting ends positioned on the same side are close to each other, and the other two mounting ends positioned on the other side are far away from each other. Each condenser is obliquely arranged, air flow can vertically pass through the condensers, each air flow only passes through one condenser, and the condensing efficiency is high; meanwhile, the condenser is obliquely arranged, so that the overall transverse size of the condensing assembly is smaller, and the space is saved; a fan may also be provided on the top of the base frame 500 to accelerate the flow of the air stream.

In some embodiments of the present invention, the condensing assembly includes eight condensers. The length of the shell-and-tube evaporator 400 is long, so that the transverse size of the base frame 500 needs to be set to be large, the number of eight condensers is moderate, and the space in the base frame 500 is fully utilized.

The above description is for the purpose of illustrating the preferred embodiments of the present invention, but the present invention is not limited to the illustrated embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are included in the scope of the present invention defined by the appended claims.

Claims (10)

1. The utility model provides a many condenser heat pump set which characterized in that: the heat pump system comprises a compressor, wherein the compressor is provided with a first refrigerant inlet and a first refrigerant outlet, and a condensation assembly, a throttling device and an evaporator are sequentially connected between the first refrigerant outlet and the first refrigerant inlet; the condensation assembly comprises a plurality of condensers, a first connecting pipe and a second connecting pipe are arranged beside the condensation assembly, all the condensers are provided with a second refrigerant inlet and a second refrigerant outlet, all the second refrigerant inlets are communicated with the first connecting pipe, and all the second refrigerant outlets are communicated with the second connecting pipe, so that all the condensers are arranged in parallel; the first connecting pipe is communicated to the first refrigerant outlet, and the second connecting pipe is communicated to the throttling device.

2. The multi-condenser heat pump unit of claim 1, wherein: the evaporator is a shell-and-tube evaporator.

3. The multi-condenser heat pump unit of claim 2, wherein: an upper layer area and a lower layer area are arranged in the base frame, the evaporator, the compressor, the first connecting pipe and the second connecting pipe are all arranged in the lower layer area, and all the condensers are arranged in the upper layer area; all the condenser sets gradually from a left side to the right side, the evaporimeter first connecting pipe with the second connecting pipe is all transversely set up, the compressor is located the evaporimeter with between the first connecting pipe, with first connecting pipe is relative the position of evaporimeter is the place ahead, first connecting pipe with the second connecting pipe all locates all the front side below of condenser, the evaporimeter is located all the rear side below of condenser.

4. The multi-condenser heat pump unit of claim 3, wherein: the compressor is a horizontal compressor.

5. The multi-condenser heat pump unit of claim 3, wherein: the second connecting pipe is provided with a communicating end, the communicating end is communicated to the throttling device, and the position of the communicating end relative to the connecting pipe is taken as the left side; the evaporator is provided with a water inlet and a water outlet, the water inlet is arranged on the left side of the evaporator, the water outlet is arranged on the upper right side of the evaporator, the water inlet is provided with a water inlet pipe, the water outlet is provided with a water outlet pipe, the water inlet pipe is provided with a water inlet end and a first connecting end, the water outlet pipe is provided with a water outlet end and a second connecting end, the first connecting end is connected with the water inlet, the second connecting end is connected with the water outlet, and the water inlet end and the water outlet end are both arranged at the right end of the lower layer area.

6. The multi-condenser heat pump unit of claim 1, wherein: all the condensers are sequentially arranged from left to right, the first connecting pipe is transversely arranged, the first connecting pipe is provided with an air inlet connecting port and a plurality of air outlet connecting ports, the air inlet connecting ports are connected with the first refrigerant outlet, and all the second refrigerant inlets are connected with all the air outlet connecting ports in a one-to-one correspondence manner; the first connecting pipe is provided with a left pipe section and a right pipe section, the air inlet connecting port is arranged between the left pipe section and the right pipe section, the air inlet connecting port is arranged at the side of the middle position of the condensation assembly, the left pipe section and the right pipe section are respectively provided with the air outlet connecting port, and the left pipe section and the right pipe section are bilaterally symmetrical in structure.

7. The multi-condenser heat pump unit of claim 6, wherein: the exhaust connecting port is arranged at the bottom of the first connecting pipe.

8. The multi-condenser heat pump unit of claim 6, wherein: locate all of left side pipeline section the exhaust connection mouth is closed and is called left interface group, locates all of right side pipeline section the exhaust connection mouth is closed and is called right interface group, locates the left all of connector admits air the condenser is called left condenser group, locates all of the right side of connector admits air the condenser is called right condenser group, left side interface group locates the side of the middle part position of left side condenser group, right side interface group locates the side of the middle part position of right side condenser group.

9. The multi-condenser heat pump unit of any one of claims 1 to 8, wherein: the condenser is a finned condenser, the condenser is obliquely arranged up and down, the condenser is provided with two mounting ends, the condenser is connected with the base frame at the mounting ends, and the two mounting ends are respectively positioned at the top and the bottom of the condenser; all the condensers are sequentially arranged from left to right, and for two adjacent condensers, the two mounting ends positioned on the same side are close to each other, and the other two mounting ends positioned on the other side are far away from each other.

10. The multi-condenser heat pump unit of claim 9, wherein: the condensing assembly includes eight of the condensers.

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