CN206503695U - A kind of compressor cooled automatically - Google Patents

Abstract

The utility model discloses a kind of compressor cooled automatically, include compressibility and cooling system；Also include plate type heat exchanger and condenser；The compressibility includes compressor；The compressor is provided with temp probe；The compressibility also includes the first evaporator, magnetic valve and the first oil eliminator；One end of the compressor is connected with one end of the first evaporator；The cooling system includes refrigerant, the second evaporator and the second oil eliminator；One end of the refrigerant is connected with one end of the second evaporator；The other end of second evaporator is connected with condenser；The condenser is connected with the entrance of the second oil eliminator；The outlet of second oil eliminator and the other end of refrigerant are connected.The utility model sets temp probe on the compressor by setting cooling system, and when temperature exceeds safety value, compressor carries out heat transfer with cooling system, realizes the function of cooling automatically.

Description

A kind of compressor cooled automatically

Technical field

The utility model is related to Compressor Technology field, and in particular to a kind of compressor cooled automatically.

Background technology

Compressor produces amount of heat in compressed air, and when equipment operates in higher temperature, the return-air of compressor Temperature is raised, and is easily caused the temperature of compressor to increase above its safety value, is caused compressor to work steadily in the long term.

The content of the invention

The purpose of this utility model is that there is provided a kind of compression cooled automatically for above-mentioned deficiency of the prior art Machine.

The purpose of this utility model is achieved through the following technical solutions：A kind of compressor cooled automatically, includes compression System and cooling system；Plate type heat exchanger is provided between the compressibility and cooling system；The compressibility and cooling Condenser is provided between system；

The compressibility includes compressor；The compressor is provided with temp probe；The compressibility also includes First evaporator, magnetic valve and the first oil eliminator；One end of the compressor is connected with one end of the first evaporator；It is described The other end of first evaporator is connected with by magnetic valve with condenser；The entrance of the condenser and the first oil eliminator connects Connect；The outlet of first oil eliminator and the other end of compressor are connected；

The cooling system includes refrigerant, the second evaporator and the second oil eliminator；One end of the refrigerant It is connected with one end of the second evaporator；The other end of second evaporator is connected with condenser；The condenser and the second oil The entrance connection of separator；The outlet of second oil eliminator and the other end of refrigerant are connected.

The utility model is further arranged to, and the compressor is connected with the first needle-valve.

The utility model is further arranged to, and is switched between the condenser and the first oil eliminator provided with first pressure.

The utility model is further arranged to, and first oil eliminator is connected with the second needle-valve.

The utility model is further arranged to, and is switched between the condenser and the second oil eliminator provided with second pressure.

The utility model is further arranged to, and second oil eliminator is connected with the 3rd needle-valve.

The utility model is further arranged to, and the first filter is provided between first evaporator and condenser.

The utility model is further arranged to, and the second filter is provided between second evaporator and condenser.

The beneficial effects of the utility model：The utility model sets temperature on the compressor by setting cooling system Probe, when temperature exceeds safety value, compressor carries out heat transfer with cooling system, realizes the function of cooling automatically.

Brief description of the drawings

Utility model is described further using accompanying drawing, but the embodiment in accompanying drawing is not constituted to of the present utility model What is limited, on the premise of not paying creative work, can also be according to the following drawings for one of ordinary skill in the art Obtain other accompanying drawings.

Fig. 1 is system diagram of the present utility model；

Description of reference numerals in Fig. 1：

1- compressibilities；2- cooling systems；31- plate type heat exchangers；32- condensers；4- compressors；41- temp probes； The evaporators of 51- first；The evaporators of 52- second；61- magnetic valves；62- refrigerants；The oil eliminators of 71- first；The oil separation of 72- second Device；The needle-valves of 81- first；The needle-valves of 82- second；The needle-valves of 83- the 3rd；91- first pressures are switched；92- second pressures are switched.

Embodiment

The utility model is further described with the following Examples.

As shown in Figure 1；A kind of compressor cooled automatically described in the present embodiment, includes compressibility 1 and cooling System 2；Plate type heat exchanger 31 is provided between the compressibility 1 and cooling system 2；The compressibility 1 and cooling system 2 it Between be provided with condenser 32；

The compressibility 1 includes compressor 4；The compressor 4 is provided with temp probe 41；The compressibility 1 is also Include the first evaporator 51, the oil eliminator 71 of magnetic valve 61 and first；One end of the compressor 4 and the first evaporator 51 One end connection；The other end of first evaporator 51 is connected with by magnetic valve 61 with condenser 32；The condenser 32 It is connected with the entrance of the first oil eliminator 71；The outlet of first oil eliminator 71 is connected with the other end of compressor 4；

The cooling system 2 includes refrigerant 62, the second evaporator 52 and the second oil eliminator 72；The refrigerant 62 one end is connected with one end of the second evaporator 52；The other end of second evaporator 52 is connected with condenser 32；It is described Condenser 32 is connected with the entrance of the second oil eliminator 72；The outlet of second oil eliminator 72 and the other end of refrigerant 62 Connection.

Specifically, in the compressor 4 described in the present embodiment, its cooling system 2, the second evaporator 52 coordinates refrigerant 62 will Liquid evaporation in pipeline is gas, and gas liquefies to reach the effect of refrigeration, after liquefaction again in condenser 32 Liquid reentered after the second oil eliminator 72 in refrigerant 62, realize recycle；When the temperature on compressor 4 is visited First 41 temperature sensor exceed safety value after, control magnetic valve 61 open so that condenser 32, the first evaporator 51, compressor 4 with And first oil eliminator 71 formation gas flow loop so that compressor 4 realizes automatic cooling；In addition, by compressibility 1 Plate type heat exchanger 31 is provided between cooling system 2, the heat transfer of compressibility 1 and cooling system 2 can be strengthened, accelerates compression The cooling of machine 4.

A kind of compressor cooled automatically described in the present embodiment, the compressor 4 is connected with the first needle-valve 81.By setting Put the flow adjustment that the first needle-valve 81 can be compressed to compressor 4 at the pipeline of machine 4.

Set between a kind of compressor cooled automatically described in the present embodiment, the oil eliminator 71 of condenser 32 and first There is first pressure to switch 91.A kind of compressor cooled automatically described in the present embodiment, first oil eliminator 71 is connected with Second needle-valve 82.By setting the second needle-valve 82 to adjust the flow at the pipeline of the first oil eliminator 71.

Set between a kind of compressor cooled automatically described in the present embodiment, the oil eliminator 72 of condenser 32 and second There is second pressure to switch 92.A kind of compressor cooled automatically described in the present embodiment, second oil eliminator 72 is connected with 3rd needle-valve 83.By setting the 3rd needle-valve 83 to adjust the flow at the pipeline of the second oil eliminator 72.

A kind of compressor cooled automatically described in the present embodiment, is provided between first evaporator 51 and condenser 32 First filter.By setting the first filter to prevent solid particulate matter from entering at pipeline.

A kind of compressor cooled automatically described in the present embodiment, is provided between second evaporator 52 and condenser 32 Second filter.By setting the second filter to prevent solid particulate matter from entering at pipeline.

Finally it should be noted that above example is only illustrating the technical solution of the utility model, rather than to this reality With the limitation of novel protected scope, although being explained with reference to preferred embodiment to the utility model, this area it is general Lead to it will be appreciated by the skilled person that can be modified to the technical solution of the utility model or equivalent substitution, without departing from this The spirit and scope of utility model technical scheme.

Claims (8)

1. a kind of compressor cooled automatically, it is characterised in that：Include compressibility（1）And cooling system（2）；The pressure Compression system（1）With cooling system（2）Between be provided with plate type heat exchanger（31）；The compressibility（1）With cooling system（2）Between Provided with condenser（32）；

The compressibility（1）Include compressor（4）；The compressor（4）Provided with temp probe（41）；The compressibility （1）Also include the first evaporator（51）, magnetic valve（61）And first oil eliminator（71）；The compressor（4）One end With the first evaporator（51）One end connection；First evaporator（51）The other end and pass through magnetic valve（61）With condenser （32）Connection；The condenser（32）With the first oil eliminator（71）Entrance connection；First oil eliminator（71）Go out Mouth and compressor（4）The other end connection；

The cooling system（2）Include refrigerant（62）, the second evaporator（52）And second oil eliminator（72）；The system Cryogen（62）One end and the second evaporator（52）One end connection；Second evaporator（52）The other end and condenser （32）Connection；The condenser（32）With the second oil eliminator（72）Entrance connection；Second oil eliminator（72）Go out Mouth and refrigerant（62）The other end connection.

2. a kind of compressor cooled automatically according to claim 1, it is characterised in that：The compressor（4）It is connected with First needle-valve（81）.

3. a kind of compressor cooled automatically according to claim 1, it is characterised in that：The condenser（32）With first Oil eliminator（71）Between provided with first pressure switch（91）.

4. a kind of compressor cooled automatically according to claim 1, it is characterised in that：First oil eliminator（71） It is connected with the second needle-valve（82）.

5. a kind of compressor cooled automatically according to claim 1, it is characterised in that：The condenser（32）With second Oil eliminator（72）Between provided with second pressure switch（92）.

6. a kind of compressor cooled automatically according to claim 1, it is characterised in that：Second oil eliminator（72） It is connected with the 3rd needle-valve（83）.

7. a kind of compressor cooled automatically according to claim 1, it is characterised in that：First evaporator（51）With Condenser（32）Between be provided with the first filter.

8. a kind of compressor cooled automatically according to claim 1, it is characterised in that：Second evaporator（52）With Condenser（32）Between be provided with the second filter.