CN208349623U - A kind of environmental protection type refrigeration one unit - Google Patents

Abstract

The utility model discloses a kind of environmental protection type refrigeration one units, its key points of the technical solution are that: including refrigeration machine shell, several refrigeration equipments are provided in the refrigerating casing body, cooling mechanism is provided in the casing body processed, the heat-conductive assembly of several and the rotation connection of refrigeration machine shell, and the driving mechanism of driving heat-conductive assembly rotation are provided in the refrigerating casing body around refrigeration equipment；The refrigerating casing is provided with the water inlet pipe and outlet pipe of connection heat-conductive assembly in vitro, and the pump housing is communicated on the water inlet pipe, and the outlet pipe is connected to heat-dissipating pipe, and the heat-dissipating pipe is set in water tank, and the heat-dissipating pipe is simultaneously connected to water inlet pipe.The utility model has the advantages that: the heat generated when refrigeration unit is worked is recycled and has been utilized by heat-conductive assembly, and the unnecessary waste of heat is reduced.

Description

A kind of environmental protection type refrigeration one unit

Technical field

The utility model relates to refrigeration unit fields, and in particular to a kind of environmental protection type refrigeration one unit.

Background technique

The composition of refrigeration unit: compressor (class compressor subsystem), condenser, expansion valve, evaporator and control system Deng.

Refrigeration unit is mainly used in the refrigeration equipment of freezer, and generally holding freezer is in constant cryogenic temperature, needs Refrigeration unit is set to be in long-term efforts state.The refrigeration equipment that it can be made internal due to the long-term work of refrigeration unit A large amount of heat is issued, and there is no this partial heat is carried out reasonable utilization and returned for existing most of refrigeration unit It receives, causes the waste of heat.

Utility model content

The purpose of the utility model is to provide a kind of environmental protection type refrigeration one units, its advantage is that when refrigeration unit is worked The heat of generation is recycled and has been utilized, and the unnecessary waste of heat is reduced.

The above-mentioned technical purpose of the utility model has the technical scheme that

A kind of environmental protection type refrigeration one unit, including refrigeration machine shell are provided with several systems in the refrigerating casing body Cool equipment is provided with cooling mechanism in the refrigerating casing body, if being provided with around refrigeration equipment in the refrigerating casing body The dry heat-conductive assembly being rotatablely connected with refrigeration machine shell, and the driving mechanism of driving heat-conductive assembly rotation；The refrigeration machine It is provided with the water inlet pipe and outlet pipe of connection heat-conductive assembly outside shell, water pump is communicated on the water inlet pipe, the outlet pipe connects Logical heat-dissipating pipe, the heat-dissipating pipe are set in water tank, and the heat-dissipating pipe is simultaneously connected to water inlet pipe.

Through the above technical solutions, the starting pump housing, makes liquid pass sequentially through water inlet pipe, heat-conductive assembly, outlet pipe, and heat dissipation Pipe, circulates liquid.After refrigeration unit starting, refrigeration equipment work generates heat, and heat is dispersed into refrigerating casing Heat-conductive assembly is inside set to carry out heat absorption work, to carry out heat conversion to the liquid in heat-conductive assembly.Under pump housing effect, absorb The liquid of heat is flowed into heat-dissipating pipe, and heat is transformed into water tank by heat-dissipating pipe, makes the fluid temperature in water tank Rise.Staff can carry out other work to the hot water in water tank, carry out to realize the heat for generating refrigeration unit It recycling and utilizes.

The utility model is further arranged to: the heat-conductive assembly include be arranged in parallel in refrigerating casing body and with refrigeration Two water guide dish of machine inner walls rotation connection are provided with several water guides being interconnected with water guide dish between water guide dish Pipe.

Through the above technical solutions, since water guide dish is connected to setting with aqueduct, thus pump housing work will drive liquid according to It is secondary to flow through water guide dish and aqueduct.Since heat-conductive assembly and refrigeration machine inner walls are rotatablely connected, so when refrigeration equipment works, Aqueduct can be contacted uniformly with the intracorporal hot-air of refrigerating casing in the course of rotation, be not only able to make more Liquid carries out thermally conductive work, additionally it is possible to keep the liquid thermal conductivity in each aqueduct more uniform.

The utility model is further arranged to: the aqueduct, water guide dish, outlet pipe and heat-dissipating pipe are all copper material system At.

Through the above technical solutions, due to the good heat conductivity of copper, so by aqueduct, water guide dish, outlet pipe and thermally conductive Pipe is set as copper material, to improve the conversion of heat, improves the utilization rate of heat.

The utility model is further arranged to: the driving mechanism includes the rack gear for being set to side water guide dish circumferential surface, institute It states and is engaged with chain on the circumferential surface of rack gear, refrigeration machine shell is fixedly connected with driving motor, driving motor close to the side of rack gear Output shaft on be fixedly connected with the sprocket wheel engaged with chain.

Through the above technical solutions, starting driving motor, band movable sprocket is rotated, since sprocket wheel and chain engage, so band Dynamic chain rotation, chain drives water guide dish to rotate simultaneously during rotating, so that aqueduct be driven to rotate, enables aqueduct Enough uniform heats for absorbing refrigeration equipment and generating.And driving mechanism structure is simple, convenient for the replacement and maintenance of components.

The utility model is further arranged to: the cooling mechanism include be set to refrigeration machine housing upper surface and with refrigeration The blower of casing body rotation connection.

Through the above technical solutions, the setting of cooling mechanism, by the rotation of blower by the intracorporal heat band of refrigerating casing Refrigerating casing is external out, prevents refrigeration equipment working environment from overheating, influences the normal work of refrigeration equipment.

The utility model is further arranged to: being additionally provided with hot gas re-flow component on the refrigeration machine shell.

Through the above technical solutions, the setting of hot gas re-flow component, to the hot gas that refrigeration equipment generates carried out recycling with It utilizes, reduces the waste of heat, so that the work of refrigeration machine work is more environmentally-friendly.

The utility model is further arranged to: the hot gas re-flow component includes being set to outlet pipe circumferential surface to be discharged pipe sleeve If diversion cavity, be provided with the wind scooper being fixedly connected with refrigeration machine shell above the blower, the wind scooper it is another End is connected to diversion cavity, several air outlets are offered on the circumferential surface of the diversion cavity.

Through the above technical solutions, blower works, enter the intracorporal hot-fluid of refrigerating casing under the guiding of wind scooper In diversion cavity, so that hot gas be made directly to be in contact with outlet pipe, the liquid in outlet pipe is made to absorb heat again.And after acting on Diversion cavity can be discharged by air outlet in hot gas.

The utility model is further arranged to: being arranged with thermal insulator on the outer peripheral surface of the diversion cavity.

Through the above technical solutions, the setting of thermal insulator, so that the liquid heat in outlet pipe will not be incited somebody to action by outlet pipe A possibility that heat distributes, and reduces liquid heat during transmission, loss.

In conclusion the utility model has the following beneficial effects:

One, the heat generated to refrigeration equipment is recycled and has been utilized.After refrigeration unit starting, refrigeration equipment work is produced Heat amount, heat, which is dispersed into refrigerating casing, makes heat-conductive assembly carry out heat absorption work, to carry out to the liquid in heat-conductive assembly Heat conversion.Under pump housing effect, the liquid for absorbing heat is flowed into heat-dissipating pipe, and heat is transformed by heat-dissipating pipe In water tank, increase the fluid temperature in water tank.Staff can carry out other work to the hot water in water tank, to realize The heat that refrigeration unit generates is recycled and utilized；

Two, the loss of heat in liquid transmit process is reduced.Due to the setting of thermal insulator, so that the liquid heat in outlet pipe A possibility that amount will not be distributed heat by outlet pipe, reduce liquid heat during transmission, loss.

Detailed description of the invention

Fig. 1 is the overall structure diagram of refrigerating integrated unit；

Fig. 2 is the cross-sectional view of refrigerating integrated unit；

Fig. 3 is the details enlarged drawing at Fig. 2 details A, and embodies air outlet；

Refrigerating casing intracorporal structural schematic diagram when Fig. 4.

In figure, 1, refrigeration machine shell；11, refrigeration equipment；2, cooling mechanism；21, thermovent；22, blower；3, thermally conductive group Part；31, water guide dish；32, aqueduct；4, driving mechanism；41, rack gear；42, chain；43, driving motor；44, sprocket wheel；5, water tank； 51, heat-dissipating pipe；6, water inlet pipe；61, water pump；7, outlet pipe；8, hot gas re-flow component；81, wind scooper；82, diversion cavity；821, go out Air port；83, connecting tube；84, thermal insulator.

Specific embodiment

A kind of environmental protection type refrigeration one unit, as depicted in figs. 1 and 2, the refrigeration machine shell 1 including rectangle, refrigerating casing It is fixedly connected with cooling mechanism 2 above body 1, is fixedly connected with refrigeration equipment 11 between two opposite inner walls of refrigeration machine shell 1, makes Refrigeration equipment 11 is provided with several heat-conductive assemblies 3 with the rotation connection of 1 inner wall of refrigeration machine shell in cold shell 1, with And the driving mechanism 4(that driving heat-conductive assembly 3 rotates is as shown in Figure 3 herein).Cylinder is vertically arranged with by refrigeration machine shell 1 Water tank 5,5 inner wall of water tank, which spirals, is provided with heat-dissipating pipe 51.It is provided with outside refrigeration machine shell 1 and is connected to respectively with 3 both ends of heat-conductive assembly Water inlet pipe 6 and outlet pipe 7, water inlet pipe 6 and outlet pipe 7 be connected to the both ends of heat-dissipating pipe 51, and also connection is set on water inlet pipe 6 It is equipped with water pump 61, is additionally provided with hot gas re-flow component 8 on the circumferential surface of above-mentioned outlet pipe 7.

As shown in Figure 2 and Figure 4, connection is horizontally rotated between two opposite inner walls of refrigeration machine shell 1, and there are six heat-conductive assemblies 3, heat-conductive assembly 3 includes two water guide dish 31 horizontally disposed and with the inside of 1 inner wall parallel rotation of refrigeration machine shell for cavity, Three aqueducts 32 disposed in parallel being connected to two water guide dish 31 are fixedly connected between two water guide dish 31.Above-mentioned water inlet Pipe 6 and outlet pipe 7 are connected to the both ends of six heat-conductive assemblies 3 respectively.And above-mentioned water guide dish 31, aqueduct 32, outlet pipe 7 It is all made with heat-dissipating pipe 51 of copper material, increases the thermal conductivity of water guide dish 31, aqueduct 32, outlet pipe 7 and heat-dissipating pipe 51, from And reduce the loss of heat.So refrigeration equipment 11 can distribute big in refrigeration machine shell 1 when refrigeration equipment 11 works The heat of amount, heat-conductive assembly 3 made of copper are in contact with heat, are conducted heat into water guide dish by water guide dish 31 and aqueduct 32 31 and aqueduct 32 in liquid in, increase the temperature of liquid；And under the action of water pump 61, liquid is pumped into inlet tank 5 It is interior, and distributed the heat in liquid by heat-dissipating pipe 51, the water in water tank 5 is heated, so that realizing will make The heat that cold generates has carried out being recovered in utilization.

As shown in figure 3, driving mechanism 4 includes the rack gear 41 on the circumferential surface for six water guide dish 31 for being set to side, it is equipped with Chain 42 is arranged on 31 circumferential surface of water guide dish of rack gear 41.Above-mentioned 1 inner bottom surface of refrigeration machine shell is fixedly connected with driving motor 43, The sprocket wheel 44 engaged with chain 42 is fixedly connected on the output shaft of driving motor 43.Driving mechanism 4 starts, and 43 turns of driving motor It is dynamic, drive six heat-conductive assemblies 3 to rotate simultaneously simultaneously by the engagement of sprocket wheel 44 and chain 42, so that each aqueduct 32 can Heat is uniformly absorbed in the course of rotation, is reduced the waste of heat, is improved the efficiency of hot-cast socket.And driving mechanism 4 structures are simple, convenient for the maintenance of staff.

As shown in Fig. 2, cooling mechanism 2 includes two circular thermovents 21 for being opened in 1 upper surface of refrigeration machine shell, dissipate Blower 22 is respectively rotatably connected in hot mouth 21.The heat that refrigeration equipment 11 in refrigeration machine shell 1 can be distributed after blower 22 starts Amount is sucked out, and refrigeration equipment 11 is made to be in the environment of good work.

As shown in Figures 2 and 3, hot gas re-flow component 8 includes being set to 1 upper surface of refrigeration machine shell to cover air outlet 821 If wind scooper 81.The outer peripheral surface of above-mentioned outlet pipe 7 is arranged with a circle diversion cavity 82, and the upper surface of wind scooper 81 is fixedly connected with The other end of connecting tube 83, connecting tube 83 is connected to diversion cavity 82 close to one end of refrigeration machine shell 1, and diversion cavity 82 is close to water tank Circumferential surface offers circular air outlet 821 on 5 one end.When hot gas re-flow component 8 works, wind scooper 81 works blower 22 When refrigeration machine shell 1 in derived heat pour into diversion cavity 82 to make hot-air directly contact with outlet pipe 7, by heat It conducts in the liquid in inlet and outlet pipes 7, increase the fluid temperature in outlet pipe 7, and the hot gas after acting on can pass through air outlet 821 discharges.Hot gas re-flow component 8 not only ensure that the normal work of refrigeration equipment 11, but also can recycle to waste heat With utilization.And the outer peripheral surface of diversion cavity 82 is wound with the thermal insulator 84 of a circle rubber material, reduces hot-air and is being transmitted across The waste of heat in journey, and the liquid of outlet pipe 7 is more kept the temperature, reduce the loss of heat.

The course of work: refrigeration equipment 11 starts, and starts driving motor 43 and water pump 61, makes aqueduct 32 in refrigeration machine shell Rotation absorbs heat in 1, to conduct heat into the liquid in aqueduct 32, then and passes through outlet pipe 7, heat-dissipating pipe 51 It is recycled with water inlet pipe 6, is conducted into heat in water tank 5, the water in water tank 5 is heated, to be utilized.Work as refrigeration machine Start cooling mechanism 2 when temperature is higher in shell 1, hot gas re-flow component 8 is made to recycle and utilize hot gas.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (8)

1. a kind of environmental protection type refrigeration one unit, including refrigeration machine shell (1), it is provided in the refrigeration machine shell (1) several A refrigeration equipment (11), the refrigeration machine shell (1) is interior to be provided with cooling mechanism (2), it is characterized in that: the refrigeration machine shell (1) heat-conductive assembly (3) of several and refrigeration machine shell (1) rotation connection is provided in around refrigeration equipment (11), and Drive the driving mechanism (4) of heat-conductive assembly (3) rotation；Be provided with outside the refrigeration machine shell (1) connection heat-conductive assembly (3) into Water pipe (6) and outlet pipe (7) are communicated with water pump (61) on the water inlet pipe (6), and the outlet pipe (7) is connected to heat-dissipating pipe (51), The heat-dissipating pipe (51) is set in water tank (5), and the heat-dissipating pipe (51) is simultaneously connected to water inlet pipe (6).

2. a kind of environmental protection type refrigeration one unit according to claim 1, it is characterized in that: the heat-conductive assembly (3) includes It is arranged in parallel in two water guide dish (31) in refrigeration machine shell (1) and with the rotation connection of refrigeration machine shell (1) inner wall, water guide dish (31) several aqueducts (32) being interconnected with water guide dish (31) are provided between.

3. a kind of environmental protection type refrigeration one unit according to claim 2, it is characterized in that: the aqueduct (32), water guide Disk (31), outlet pipe (7) and heat-dissipating pipe (51) are all made of copper material.

4. a kind of environmental protection type refrigeration one unit according to claim 3, it is characterized in that: the driving mechanism (4) includes It is set to the rack gear (41) of side water guide dish (31) circumferential surface, is engaged with chain (42), refrigeration machine on the circumferential surface of the rack gear (41) Shell (1) is fixedly connected with driving motor (43) close to the side of rack gear (41), fixed on the output shaft of driving motor (43) to connect It is connected to the sprocket wheel (44) engaged with chain (42).

5. a kind of environmental protection type refrigeration one unit according to claim 4, it is characterized in that: the cooling mechanism (2) includes It is set to refrigeration machine shell (1) upper surface and the blower (22) with refrigeration machine shell (1) rotation connection.

6. a kind of environmental protection type refrigeration one unit according to claim 5, it is characterized in that: on the refrigeration machine shell (1) It is additionally provided with hot gas re-flow component (8).

7. a kind of environmental protection type refrigeration one unit according to claim 6, it is characterized in that: the hot gas re-flow component (8) The diversion cavity (82) for being arranged outlet pipe (7) including being set to outlet pipe (7) circumferential surface, be provided with above the blower (22) with The other end of the wind scooper (81) that refrigeration machine shell (1) is fixedly connected, the wind scooper (81) is connected to diversion cavity (82), described Several air outlets (821) are offered on the circumferential surface of diversion cavity (82).

8. a kind of environmental protection type refrigeration one unit according to claim 7, it is characterized in that: the periphery of the diversion cavity (82) Thermal insulator (84) are arranged on face.