CN209541270U

CN209541270U - A kind of refrigerator structure of accurate mechanical temp controlled

Info

Publication number: CN209541270U
Application number: CN201920073217.3U
Authority: CN
Inventors: 董明金
Original assignee: Suzhou Coffee Coffee System Technology Co Ltd
Current assignee: Suzhou Coffee Coffee System Technology Co Ltd
Priority date: 2019-01-17
Filing date: 2019-01-17
Publication date: 2019-10-25
Anticipated expiration: 2029-01-17

Abstract

The utility model discloses a kind of refrigerator structures of accurate mechanical temp controlled, it include: mechanical thermostat and mutually isolated mechanical thermostat cavity, compressor cavity and refrigerator cold closet plastic, the mechanical thermostat includes mechanical thermostat ontology, mechanical thermostat temperature-sensing pipe and mechanical thermostat temperature-sensing pipe front end, the mechanical thermostat ontology is arranged in mechanical thermostat cavity, mechanical thermostat temperature-sensing pipe front end is arranged inside refrigerator cold closet plastic or on inner sidewall, the mechanical thermostat temperature-sensing pipe is connected between mechanical thermostat ontology and mechanical thermostat temperature-sensing pipe front end and without compressor cavity.Through the above way, the refrigerator structure of accurate mechanical temp controlled described in the utility model, avoid the adverse effect of the work of compressor and environment temperature to mechanical thermostat temperature-sensing pipe in compressor cavity, it is ensured that accuracy of temperature control reduces the cost of production and maintenance.

Description

A kind of refrigerator structure of accurate mechanical temp controlled

Technical field

The utility model relates to refrigerator and coffee machine fields, more particularly to a kind of refrigerator structure of accurate mechanical temp controlled.

Background technique

With the development of refrigeration industry, the structure of refrigerator is also made to more and more compacter, this has the structure of refrigerator higher Design requirement.Structure applied to refrigerator generally includes: compressor cavity and refrigerator cold closet plastic, and in mechanical thermostat Mechanical thermostat ontology and mechanical thermostat temperature-sensing pipe are usually placed in compressor chamber body, will affect machine after causing compressor to generate heat The sensitivity of tool temperature controller temperature-sensing pipe, and finally influence the accurate temperature control of refrigerator.

In addition, the existing device applied to freezer temperature control is broadly divided into mechanical adjustment temperature control device and electrical adjustment temperature control fills It sets, wherein electrical adjustment temperature control device higher cost, and the cost of mechanical adjustment temperature control device is the bottom of compared with.Due to mechanical adjustment temperature control Device is affected by the variation of environment temperature, and the conventional refrigerator for using mechanical temperature-control device is caused usually to will increase circuit module Carry out the precision that back-off handoff environment temperature realizes refrigerator temperature control to the deviation of refrigerator temperature control, that is, increases circuit module and mend The winter modes of switching and the switch of summer mode are tasted, increase cost, and in use process, user is difficult to notice the winter The switch of day mode and summer mode simultaneously adjusts in time, affects the convenience used.

Utility model content

The utility model promotes temperature control mainly solving the technical problems that provide a kind of refrigerator structure of accurate mechanical temp controlled While precision, cost is reduced.

In order to solve the above technical problems, the technical solution that the utility model uses is: providing a kind of accurate mechanical control The refrigerator structure of temperature, comprising: mechanical thermostat 01 and mutually isolated mechanical thermostat cavity A, compressor cavity B and refrigerator Refrigerating box C, the mechanical thermostat 01 include mechanical thermostat ontology 01-1, mechanical thermostat temperature-sensing pipe 01-2 and machinery temperature Device temperature-sensing pipe front end 01-3 is controlled, the mechanical thermostat ontology 01-1 is arranged in mechanical thermostat cavity A, the mechanical temperature-control Device temperature-sensing pipe front end 01-3 is arranged inside refrigerator cold closet plastic C or on inner sidewall, the mechanical thermostat temperature-sensing pipe 01-2 connection Between mechanical thermostat ontology 01-1 and mechanical thermostat temperature-sensing pipe front end 01-3 and without compressor cavity B.

In one preferred embodiment of the utility model, it is arranged on the mechanical thermostat temperature-sensing pipe 01-2 and is located at machinery Mechanical thermostat temperature-sensitive pipe-in-pipe 01-4 in temperature controller cavity A.

In one preferred embodiment of the utility model, the component of the mechanical thermostat cavity A includes top cover 02, rear cover 04, main box 03, top of the box milk adapter 14, fixed bin 13 and top cover front fixinig plate 02-2, the mechanical thermostat Cavity A includes that top cover 02, rear cover 04, main box 03, top of the box milk adapter 14, fixed bin 13 and top cover front are fixed Relative closure cavity that piece 02-2 is successively surrounded but the relative closure cavity for not being limited to the above composition again.

In one preferred embodiment of the utility model, it is provided on the main box 03 positioned at mechanical thermostat cavity A Heat insulation foam 03-1 at the top of main tank between compressor cavity B.

In one preferred embodiment of the utility model, the top cover 02, rear cover 04, between main box 03 using after top cover Portion fixed frame 02-1 is fixed, and 02 side of top cover is provided with the roof side being connected with top of the box milk adapter 14 Connector 18.

In one preferred embodiment of the utility model, the component of the compressor cavity B includes pedestal 05, refrigerator foaming Cabinet 10 and the main box 03 and rear cover 04 shared with mechanical thermostat cavity A, the compressor cavity B includes by main box 03, rear cover 04, pedestal 05 and 10 back side of refrigerator foaming cabinet successively surround relative closure cavity but be not limited to the above composition Relative closure cavity, be provided with compressor 08 and condenser 06 in the compressor cavity B, be provided with out on the rear cover 04 Close 17.

In one preferred embodiment of the utility model, main radiator fan 09, the pedestal are provided on the rear cover 04 It is provided with the air hole being connected to compressor cavity B on 05, is provided with stabilizer blade 15 below the pedestal 05.

In one preferred embodiment of the utility model, 06 side of condenser is provided with condenser fan 07.

In one preferred embodiment of the utility model, the component of the refrigerator cold closet plastic C include refrigerator doors 11 and with Mechanical thermostat cavity A and compressor cavity B shared refrigerator foaming cabinet 10, top of the box fixed bin 13 and milk adapter 14, the refrigerator cold closet plastic C include by refrigerator doors 11, refrigerator foaming cabinet 10, top of the box fixed bin 13 and milk adapter The cavity of 14 relative closures constituted is not limited to the cavity of the relative closure of the above composition, 13 He of top of the box fixed bin again Milk adapter 14 is located at the top of refrigerator foaming cabinet 10, and the refrigerator doors 11 are located at 10 front openings of refrigerator foaming cabinet Place.

In one preferred embodiment of the utility model, mechanical thermostat temperature-sensing pipe front end 01-3 is located at refrigerator foaming On 10 inner sidewall of cabinet, it is provided on 10 inner sidewall of refrigerator foaming cabinet and is located at mechanical thermostat temperature-sensing pipe front end 01-3 The mechanical thermostat temperature-sensing pipe front end in outside is fixed to cover 10-3, is provided with the hair extended downwardly at the top of the refrigerator foaming cabinet 10 Cabinet temperature controller temperature-sensing pipe longitudinal hole 10-1 is steeped, the bottom foaming box body temperature controller temperature-sensing pipe longitudinal hole 10-1 is provided with extension To the foaming box body temperature controller temperature-sensing pipe transverse holes 10-2 of 10 inner sidewall of refrigerator foaming cabinet, the mechanical thermostat temperature-sensing pipe 01-2 passes through foaming box body temperature controller temperature-sensing pipe longitudinal hole 10-1 and foaming box body temperature controller temperature-sensing pipe transverse holes 10-2 and reaches ice In case foaming box body 10.

The beneficial effects of the utility model are: a kind of refrigerator structure for accurate mechanical temp controlled that the utility model is pointed out, special Mutually isolated mechanical thermostat cavity A and compressor cavity B are not devised, avoid compressor 08 in compressor cavity B The adverse effect to work to mechanical thermostat temperature-sensing pipe 01-2, and utilize mechanical thermostat temperature-sensitive pipe-in-pipe 01-4 and refrigerator foaming Cabinet 10 is thermally shielded protection to mechanical thermostat temperature-sensing pipe 01-2, reduces the adverse effect of environment temperature, it is ensured that temperature control essence Degree, reduces the cost of production and maintenance.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing to be used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the utility model Example is applied, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings Obtain other attached drawings, in which:

Fig. 1 is a kind of cross-sectional view of one preferred embodiment of refrigerator structure of accurate mechanical temp controlled of the utility model；

Fig. 2 is a kind of confined explosion's backsight letter of one preferred embodiment of refrigerator structure of accurate mechanical temp controlled of the utility model Figure；

Fig. 3 is a kind of confined explosion's forward sight letter of one preferred embodiment of refrigerator structure of accurate mechanical temp controlled of the utility model Figure；

Fig. 4 is a kind of backsight schematic diagram of one preferred embodiment of refrigerator structure of accurate mechanical temp controlled of the utility model；

Fig. 5 is a kind of cross-sectional view of the refrigerator structure another preferred embodiment of accurate mechanical temp controlled of the utility model；

Fig. 6 is a kind of confined explosion's backsight of the refrigerator structure another preferred embodiment of accurate mechanical temp controlled of the utility model Schematic diagram；

Fig. 7 is a kind of backsight schematic diagram of the refrigerator structure another preferred embodiment of accurate mechanical temp controlled of the utility model.

Specific embodiment

Below by the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described Embodiment is only a part of the embodiment of the utility model, instead of all the embodiments.Based on the implementation in the utility model Example, all other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

Fig. 1 ~ Fig. 7 is please referred to, the utility model embodiment includes:

Fig. 1 ~ accurate mechanical temp controlled shown in Fig. 4 refrigerator structure, comprising: mechanical thermostat and mutually isolated machinery Temperature controller cavity A, compressor cavity B and refrigerator cold closet plastic C, the mechanical thermostat 01 include mechanical thermostat ontology 01-1, Mechanical thermostat temperature-sensing pipe 01-2 and mechanical thermostat temperature-sensing pipe front end 01-3, the mechanical thermostat ontology 01-1 setting is in machine In tool temperature controller cavity A, fabrication hole 04-1 is provided on rear cover 04, the operating side of mechanical thermostat ontology 01-1 passes through fabrication hole 04-1 is extended on the outside of the back side, facilitates adjusting.

Mechanical thermostat temperature-sensing pipe front end 01-3 is arranged inside refrigerator cold closet plastic C or on inner sidewall, directly carries out The monitoring of refrigerator cold closet plastic C internal temperature, the mechanical thermostat temperature-sensing pipe 01-2 be connected to mechanical thermostat ontology 01-1 with Between mechanical thermostat temperature-sensing pipe front end 01-3 and without compressor cavity B, the variation pair of compressor cavity B internal temperature is reduced The adverse effect of mechanical thermostat temperature-sensing pipe 01-2.

The mechanical thermostat temperature-sensitive in mechanical thermostat cavity A is arranged on the mechanical thermostat temperature-sensing pipe 01-2 Pipe-in-pipe 01-4, good heat-insulation effect reduce adverse effect of the environment temperature to mechanical thermostat temperature-sensing pipe 01-2, elevating mechanism temperature Control device accuracy of temperature control.

As shown in Figure 1, mechanical thermostat cavity A is by top cover 02, rear cover 04, main box 03, the switching of top of the box milk First 14, the relative closure cavity that fixed bin 13 and top cover front fixinig plate 02-2 are successively surrounded reduces variation of ambient temperature to machine The influence of tool temperature controller.The main tank being provided on the main box 03 between mechanical thermostat cavity A and compressor cavity B Top heat insulation foam 03-1, heat insulation foam 03-1 further reduces in compressor cavity B heat to mechanical thermostat at the top of main tank The transmitting of cavity A.

As shown in Fig. 2, being consolidated between the top cover 02, rear cover 04, main box 03 using back part of top cover fixed frame 02-1 Fixed, stable structure, 02 side of top cover is provided with the roof side connector 18 being connected with top of the box milk adapter 14, Facilitate extraction of the coffee machine to milk.

The compressor cavity B is successively surrounded by main box 03, rear cover 04, pedestal 05 and 10 back side of refrigerator foaming cabinet Relative closure cavity, compressor 08 and condenser 06 are provided in the compressor cavity B, carries out the system of refrigerator cold closet plastic C It is cold, switch 17, switch 17 and compressor 08 and mechanical thermostat ontology 01-1 linearly connected, control are provided on the rear cover 04 Flexibly.

Main radiator fan 09 is provided on the rear cover 04,06 side of condenser is provided with condenser fan 07, main Radiator fan 09 and condenser fan 07 can choose wherein 1 use or 2 while using, as shown in Fig. 2, rear cover 04 On can also process heat release hole, heat radiation ventilation effect.Be provided on the pedestal 05 be connected to compressor cavity B it is ventilative Hole is provided with 4 stabilizer blades 15 below the pedestal 05, is kept for the road clearance, it is ensured that the normal work of air hole.

The main radiator fan 09 can be set to dry outward or inwardly blowing, the condenser fan 07 can be set To dry downwards or to up-draught, so-called downward blowing or be horizontally disposed according to condenser fan 07 in Fig. 1 to up-draught In the case of describe, the condenser 06 may be configured as vertically, corresponding condenser fan 07 is also configured as vertically, at this moment cold Condenser fan 07 can be set to outer blowing or inwardly blowing.

In Fig. 1 ~ embodiment shown in Fig. 4, when refrigerator works normally, compressor 08 can shed heat, condenser fan 07 can also shed heat, and main radiator fan 09 can extract the compressor cavity hot-air AIR-3 formed in compressor cavity B out, Condenser fan 07 can inhale down the heat that condenser 06 is shed i.e. condenser hot-air AIR-2, the room temperature that bottom enters Air AIR-1 can be entered in compressor cavity B by the air hole on pedestal 05, form a sky into room temperature wind and hot wind out Gas circulation loop realizes the discharge of heat in compressor cavity B.

In Fig. 5 ~ embodiment shown in Fig. 7, when refrigerator works normally, compressor 08 can shed heat, condenser fan 07 can also shed heat, and main radiator fan 09 can bring the normal temperature air AIR-4 of extraneous outside in compressor cavity B into, cold Normal temperature air AIR-5 in compressor chamber can be blowed to condenser 06 by condenser fan 07, the heat and compression that condenser 06 is shed The heat that machine gives out will form the hot-air AIR-6 for being forced out compressor chamber, form one into room temperature wind and hot wind out Air circulation loop realizes the discharge of heat in compressor cavity B.

As shown in Figure 1, the refrigerator cold closet plastic C is by refrigerator doors 11, refrigerator foaming cabinet 10, top of the box fixed bin 13 The cavity of the relative closure constituted with milk adapter 14, the top of the box fixed bin 13 and milk adapter 14 are located at refrigerator The top of foaming box body 10 is placed with milk box assembly 12 in refrigerator cold closet plastic C, and the milk box assembly 12 includes: milk box 12-1, milk Case lid 12-2 and milk pipe 12-3, milk case lid 12-2 setting are sealed at the top of milk box 12-1, and milk pipe 12-3 is mounted on milk It on case lid 12-2 and extends in milk box 12-1, socket corresponding with milk adapter 14 is contained at the top of milk pipe 12-3, it is convenient Docking.

As shown in figure 3, the refrigerator doors 11 are located at 10 front openings of refrigerator foaming cabinet, it is easy to open and carries out milk box group The replacement of part 12.As shown in Figure 1, can be with mounted LED lamp 16, the controller and refrigerator of LED light 16 in refrigerator foaming cabinet 10 Door 11 link, refrigerator doors 11 open after illuminated, may be alternatively provided as LED light and be always on, more in observation milk box 12-1 in whether also There is milk.

As shown in figure 3, mechanical thermostat temperature-sensing pipe front end 01-3 is located on 10 inner sidewall of refrigerator foaming cabinet, such as scheme Shown in 1 or Fig. 5, it is provided with and is located at outside mechanical thermostat temperature-sensing pipe front end 01-3 on 10 inner sidewall of refrigerator foaming cabinet The fixed lid 10-3 in the mechanical thermostat temperature-sensing pipe front end of side, carries out the protection of mechanical thermostat temperature-sensing pipe front end 01-3, but not Influence the work of mechanical thermostat temperature-sensing pipe front end 01-3.

The foaming box body temperature controller temperature-sensing pipe longitudinal hole 10-1 extended downwardly is provided at the top of the refrigerator foaming cabinet 10, The bottom foaming box body temperature controller temperature-sensing pipe longitudinal hole 10-1 is provided with the foaming for extending to 10 inner sidewall of refrigerator foaming cabinet Cabinet temperature controller temperature-sensing pipe transverse holes 10-2, the mechanical thermostat temperature-sensing pipe 01-2 are vertical across foaming box body temperature controller temperature-sensing pipe It is reached in refrigerator foaming cabinet 10 to hole 10-1 and foaming box body temperature controller temperature-sensing pipe transverse holes 10-2, utilizes foaming box body temperature control Device temperature-sensing pipe longitudinal hole 10-1 and foaming box body temperature controller temperature-sensing pipe transverse holes 10-2 carries out mechanical thermostat temperature-sensing pipe 01-2 Protection promotes accuracy of temperature control.

In conclusion a kind of refrigerator structure for accurate mechanical temp controlled that the utility model is pointed out, using machine at low cost Tool temperature controller solves the problems, such as the adverse effect of environment temperature, it is ensured that accuracy of temperature control reduces the cost of production and maintenance.

The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all Using equivalent structure or equivalent flow shift made by the utility model description, it is applied directly or indirectly in other phases The technical field of pass, is also included in the patent protection scope of the utility model.

Claims

1. a kind of refrigerator structure of accurate mechanical temp controlled characterized by comprising mechanical thermostat (01) and mutually isolated Mechanical thermostat cavity (A), compressor cavity (B) and refrigerator cold closet plastic (C), the mechanical thermostat (01) include mechanical temperature Control device ontology (01-1), mechanical thermostat temperature-sensing pipe (01-2) and mechanical thermostat temperature-sensing pipe front end (01-3), the mechanical temperature Device ontology (01-1) setting is controlled in mechanical thermostat cavity (A), mechanical thermostat temperature-sensing pipe front end (01-3) setting exists On refrigerator cold closet plastic (C) inside or inner sidewall, the mechanical thermostat temperature-sensing pipe (01-2) is connected to mechanical thermostat ontology Between (01-1) and mechanical thermostat temperature-sensing pipe front end (01-3) and without compressor cavity (B).

2. the refrigerator structure of accurate mechanical temp controlled according to claim 1, which is characterized in that the mechanical thermostat temperature-sensitive The mechanical thermostat temperature-sensitive pipe-in-pipe (01-4) in mechanical thermostat cavity (A) is arranged on pipe (01-2).

3. the refrigerator structure of accurate mechanical temp controlled according to claim 1, which is characterized in that the mechanical thermostat cavity (A) component includes top cover (02), rear cover (04), main box (03), top of the box milk adapter (14), fixed bin (13) With top cover front fixinig plate (02-2), the mechanical thermostat cavity (A) include top cover (02), rear cover (04), main box (03), The relative closure chamber that top of the box milk adapter (14), fixed bin (13) and top cover front fixinig plate (02-2) successively surround Body but the relative closure cavity for not being limited to the above composition again.

4. the refrigerator structure of accurate mechanical temp controlled according to claim 3, which is characterized in that set on the main box (03) It is equipped with heat insulation foam (03-1) at the top of the main tank between mechanical thermostat cavity (A) and compressor cavity (B).

5. the refrigerator structure of accurate mechanical temp controlled according to claim 3, which is characterized in that the top cover (02), rear cover (04), be fixed between main box (03) using back part of top cover fixed frame (02-1), top cover (02) side be provided with The roof side connector (18) that top of the box milk adapter (14) is connected.

6. the refrigerator structure of accurate mechanical temp controlled according to claim 3, which is characterized in that the compressor cavity (B) Component include pedestal (05), refrigerator foaming cabinet (10) and the main box (03) shared with mechanical thermostat cavity (A) and Rear cover (04), the compressor cavity (B) include by main box (03), rear cover (04), pedestal (05) and refrigerator foaming cabinet (10) back side successively surrounds relative closure cavity but the relative closure cavity for being not limited to the above composition, the compressor cavity (B) it is provided with compressor (08) and condenser (06) in, is provided with switch (17) on the rear cover (04).

7. the refrigerator structure of accurate mechanical temp controlled according to claim 6, which is characterized in that be arranged on the rear cover (04) Have main radiator fan (09), the air hole being connected to compressor cavity (B), the pedestal (05) are provided on the pedestal (05) Lower section is provided with stabilizer blade (15).

8. the refrigerator structure of accurate mechanical temp controlled according to claim 6, which is characterized in that the condenser (06) one Side is provided with condenser fan (07).

9. the refrigerator structure of accurate mechanical temp controlled according to claim 6, which is characterized in that the refrigerator cold closet plastic (C) Component include refrigerator doors (11) and the refrigerator foaming cabinet shared with mechanical thermostat cavity (A) and compressor cavity (B) (10), top of the box fixed bin (13) and milk adapter (14), the refrigerator cold closet plastic (C) include by refrigerator doors (11), ice The cavity for the relative closure that case foaming box body (10), top of the box fixed bin (13) and milk adapter (14) are constituted is not limited to again The cavity of the relative closure constituted above, the top of the box fixed bin (13) and milk adapter (14) are located at refrigerator foaming case The top of body (10), the refrigerator doors (11) are located at refrigerator foaming cabinet (10) front openings.

10. the refrigerator structure of accurate mechanical temp controlled according to claim 9, which is characterized in that the mechanical thermostat sense Warm Guan Qianduan (01-3) is located on refrigerator foaming cabinet (10) inner sidewall, is provided on refrigerator foaming cabinet (10) inner sidewall The fixed lid (10-3) in mechanical thermostat temperature-sensing pipe front end being located on the outside of mechanical thermostat temperature-sensing pipe front end (01-3), the ice The foaming box body temperature controller temperature-sensing pipe longitudinal hole (10-1) extended downwardly, the foam box are provided at the top of case foaming box body (10) The bottom body temperature controller temperature-sensing pipe longitudinal hole (10-1) is provided with the foam box body temperature for extending to refrigerator foaming cabinet (10) inner sidewall It controls device temperature-sensing pipe transverse holes (10-2), it is longitudinal that the mechanical thermostat temperature-sensing pipe (01-2) passes through foaming box body temperature controller temperature-sensing pipe Hole (10-1) and foaming box body temperature controller temperature-sensing pipe transverse holes (10-2) reach in refrigerator foaming cabinet (10).