CN207054712U - Open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet - Google Patents
Open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet Download PDFInfo
- Publication number
- CN207054712U CN207054712U CN201720738684.4U CN201720738684U CN207054712U CN 207054712 U CN207054712 U CN 207054712U CN 201720738684 U CN201720738684 U CN 201720738684U CN 207054712 U CN207054712 U CN 207054712U
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- Prior art keywords
- fixedly mounted
- defrosting
- room
- door
- support
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- Expired - Fee Related
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- 238000010257 thawing Methods 0.000 title claims abstract description 88
- 235000013305 food Nutrition 0.000 title claims abstract description 39
- 230000001954 sterilising effect Effects 0.000 title claims abstract description 17
- 238000004659 sterilization and disinfection Methods 0.000 title claims abstract description 16
- 230000005855 radiation Effects 0.000 title claims description 13
- 230000007704 transition Effects 0.000 claims abstract description 12
- 238000005303 weighing Methods 0.000 claims abstract description 10
- 239000000203 mixture Substances 0.000 claims abstract description 6
- 230000017525 heat dissipation Effects 0.000 claims description 15
- 239000002828 fuel tank Substances 0.000 claims description 9
- 150000001450 anions Chemical class 0.000 claims description 8
- 238000005057 refrigeration Methods 0.000 claims description 6
- 229920002545 silicone oil Polymers 0.000 claims description 6
- 238000001514 detection method Methods 0.000 claims description 3
- 230000005693 optoelectronics Effects 0.000 claims description 3
- 239000007787 solid Substances 0.000 claims 2
- 235000013611 frozen food Nutrition 0.000 abstract description 7
- 238000009434 installation Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 238000001035 drying Methods 0.000 description 2
- 238000001914 filtration Methods 0.000 description 2
- 230000008014 freezing Effects 0.000 description 2
- 238000007710 freezing Methods 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 235000013361 beverage Nutrition 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000001276 controlling effect Effects 0.000 description 1
- 239000013078 crystal Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005485 electric heating Methods 0.000 description 1
- 230000005686 electrostatic field Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 235000015110 jellies Nutrition 0.000 description 1
- 239000008274 jelly Substances 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000000050 nutritive effect Effects 0.000 description 1
- 230000035515 penetration Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
Landscapes
- Devices That Are Associated With Refrigeration Equipment (AREA)
Abstract
The utility model discloses a kind of food quick-thawing sterilizing freshness-retaining device, it is intended to which defrosting food in the short time, and can is sterilized to food while thawing, fresh-keeping to food progress after the completion of defrosting, avoids and food pollution occurs in course of defrosting.High-tension transformer is fixedly mounted on the bottom plate of left cabin room, magnetron is fixedly mounted on waveguide, waveguide is fixedly mounted on defrosting room rear wall, interference disk module is fixedly mounted on defrosting room rear wall, superconduction thermal element is fixedly mounted in heat collector, it is fixedly connected on the upside of weighing sensor by transition block with bottom plate, it is fixedly connected on the downside of weighing sensor by transition block with support, actuating cam is fixedly mounted on motor output shaft, the both ends of connecting rod are movably arranged on actuating cam and inverted cam by bearing pin, actuating cam, inverted cam and connecting rod composition quadric chain, the utility model can realize the sterilization fresh-keeping function after quick-thawing and defrosting to frozen food.
Description
Technical field
It the utility model is related to a kind of food quick-thawing sterilization fresh-keeping cabinet, specifically a kind of open front cam machine
Structure automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet.
Background technology
With the development and the improvement of people's living standards of food industry, requirement of the people to food is more and more stricter, no
Require nothing more than that species is varied, while more begin to focus on nutritive value of food and the quality of food.Led in hotel food and beverage
In domain, frozen food all necessary quick-thawing, not exclusively freezing mode before processing or consuming can influence the quality of food, solve
Jelly equally plays very crucial effect in food quality.Compared with the development of Refrigeration Technique, understanding of the people to deforst technique
It is later with developing, and further investigate also less.The process of defrosting is exactly the ice crystal in frozen food is melted into water, and by food
The fresh state for absorbing and returning to before freezing.At present main thawing mode have air thawing, water thawing, electric heating device (low frequency,
High frequency, microwave, high-voltage electrostatic field) and some new thawing modes --- injection acoustic cavitation field thaws, ultrasonic wave thaws, radio frequency
Thaw and high-voltage pulse thaws.
But there is the surface of frozen food and internal the problem of not thawing uniformly, its reason in conventional thawing apparatus
High temperature radiating mainly in course of defrosting in defrosting room is improper caused.When temperature is too high, the temperature in defrosting room can not be stood
Reduce, so as to the insufficient phenomenon of the burned and internal defrosting of food surface occur.
Therefore, designing that a kind of freshness preserving cabinet device that the temperature in defrosting room can be made quickly to reduce becomes to have very much must
Will.
The content of the invention
The utility model relates to the open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet of offer, can
Quick-thawing food, and the high temperature in defrosting room can be made to be quickly reduced to rule by superconduction thermal element and automatic door-opening mechanism
Determine scope, ensure that food surface and internal defrosting are uniform.
In order to solve above-mentioned technical problem, the utility model is related to using following technical proposals:The present apparatus is mainly by controlling
It is device, anion generator, thaw shelf, temperature sensor, casing, support, evaporator protection cover, compressor bracket, compressor, cold
Condenser support, condenser, expansion valve, evaporator, manually operated door, magnetron, waveguide, high-tension transformer, high-voltage diode, high pressure
Electric capacity forms, and the high-tension transformer, high-voltage diode, high-voltage capacitance and magnetron connect composition microwave and circuit module occur,
The controller is fixedly mounted on the front face of left cabin room, and the anion generator is fixedly mounted on left side wall in defrosting room
On, the thaw shelf is fixedly mounted on bottom plate, and the temperature sensor is fixedly mounted on defrosting room internal face, the compression
Machine is fixedly mounted on compressor bracket, and the compressor bracket is fixedly mounted at left and right sides of rear cabin room on wall, described cold
Condenser is fixedly mounted in condenser brackets, and the condenser brackets are fixedly mounted at left and right sides of rear cabin room on wall, described
Evaporator is fixedly mounted on defrosting room rear surface, and the evaporator protection cover is fixedly mounted on defrosting room rear surface, described
Compressor, condenser, expansion valve and evaporator connect and compose refrigeration unit module by pipeline;The present apparatus also include automatically-controlled door,
Radiator fan, superconduction thermal element, heat conduction fuel tank, transition block, weighing sensor, bottom plate, electric machine support, motor, actuating cam, company
Bar, interference disk module, interference disk module support, automatic door position sensor, inverted cam axle, inverted cam, manually operated door position
Sensor, collector bracket, thermal-arrest fin, heat collector;The radiator fan is fixedly mounted on the inwall of heat dissipation chamber, the title
Retransmit and be fixedly connected on the upside of sensor by another transition block with bottom plate, pass through another transition block on the downside of the weighing sensor
It is fixedly connected with support, the support is fixedly mounted on defrosting room bottom plate, and the high-tension transformer is fixedly mounted on rear cabin
On the bottom plate of room, the magnetron is fixedly mounted on waveguide, and the waveguide is fixedly mounted on defrosting room rear surface, described
Interference disk module is fixedly mounted on interference disk module support, and the interference disk module support is fixedly mounted on defrosting room rear surface
On, the motor is fixedly mounted on electric machine support, and the electric machine support is fixedly mounted at left and right sides of rear cabin room on wall, institute
Actuating cam is stated to be fixedly mounted on motor output shaft, the both ends of the connecting rod by bearing pin be movably arranged on actuating cam and from
On moving cam, the actuating cam, inverted cam and connecting rod composition quadric chain, the inverted cam is fixedly mounted on driven
On camshaft, the inverted cam axle is movably arranged on the wall of rear cabin room front and rear sides, and the automatically-controlled door is provided with left automatic
Door and each one of right automatically-controlled door, the left automatically-controlled door and right automatically-controlled door are each fixedly connected with an automatic door heel, described automatic
Door-hinge both ends are arranged on heat dissipation chamber's front and rear sides wall by bearing, and the automatic door position sensor is fixedly mounted on rear cabin
On plate, when automatically-controlled door is opened to specified location, the connecting rod is moved to the position that automatic door position sensor provides detection signal,
The manually operated door is by the way that on the front side of bearing pin and rebound installation casing, the manual door position sensor is fixedly mounted on defrosting
The two left side walls and right side wall in defrosting room are provided with the right side wall of room and with manually operated door cooperating, the heat collector
It is each on face to be fixedly mounted one, be fixedly mounted on the downside of the superconduction thermal element in heat collector, the superconduction thermal element it is upper
Side is placed in heat dissipation chamber, and the defrosting room makes symmetrical form, and the inner chamber of the casing is defrosting room, defrosting ceiling
Portion sets the two closing heat dissipation chamber for being provided with automatically-controlled door in left and right.
The superconduction thermal element is super heat-conductive pipe or superconduction hot plate, and the heat collector is filled with the conduction oil of heat conduction silicone oil
Case, it is fixedly mounted on the downside of the superconduction thermal element in heat conduction fuel tank and is fully contacted with heat conduction silicone oil, the thermal-arrest
Device is thermal-arrest fin, is fixedly mounted on thermal-arrest fin on the downside of the superconduction thermal element and is fully contacted with thermal-arrest fin,
The thermal-arrest fin is fixedly mounted one by the way that collector bracket is each on left side wall and right side wall in defrosting room, described
Radiator fan is provided with 4,2 is respectively installed in the heat dissipation chamber of left and right two, the automatic door position sensor and manually operated door position pass
Sensor is proximity switch, optoelectronic switch or microswitch, and the interference disk module is by interference disk module motor and metallic impeller group
Into metallic impeller is fixedly mounted on interference coil motor output shaft.
The beneficial effect related to using the utility model is, being capable of defrosting food, and ensure food in the short period of time
It is inside and outside to thaw uniformly.
Brief description of the drawings
Fig. 1 is that the utility model relates to the open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet
Front view;
Fig. 2 is the interior view that Fig. 1 removes the main view direction behind front door;
Fig. 3 is the main view direction interior views that Fig. 1 removes behind front door in first embodiment;
Fig. 4 is the main view direction interior views that Fig. 1 removes behind front door in second embodiment;
Fig. 5 is Fig. 2 A-A sectional views;
Fig. 6 is that the utility model relates to the open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet
Rearview;
In figure:The superconduction of 5 radiator fan of controller 1 automatically-controlled door, 2 anion generator, 3 thaw shelf, 4 temperature sensor 6
The waveguide 15 of 13 bottom plate of thermal element 7 heat conduction fuel tank, 8 casing, 9 support, 10 magnetron, 11 transition block, 12 weighing sensor 14
The condenser brackets 21 of 19 compressor of evaporator protection cover 16 high-tension transformer, 17 high-voltage diode, 18 compressor bracket 20
The manually operated door 29 of 27 evaporator of condenser 22 expansion valve, 23 electric machine support, 24 motor, 25 actuating cam, 26 connecting rod 28 disturbs
Disk module 30 disturbs the manually operated door position of 31 33 inverted cam of automatic 32 inverted cam axle of door position sensor of disk module support 34
Put the high-voltage capacitance 39 of 37 heat collector of sensor 35 collector bracket, 36 thermal-arrest fin 38
Embodiment
The utility model is related to reference to the accompanying drawings and detailed description and is described in further detail.
In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the device is mainly by controller 1, anion generator 3, thaw shelf
4th, temperature sensor 5, casing 9, support 10, evaporator protection cover 16, compressor bracket 19, compressor 20, condenser brackets 21,
Condenser 22, expansion valve 23, evaporator 28, manually operated door 29, magnetron 11, waveguide 15, high-tension transformer 17, high-voltage diode
18th, high-voltage capacitance 39 is formed, and the controller 1 is fixedly mounted on the front face of left cabin room, and the anion generator 3 is fixed
On left side wall in defrosting room, the thaw shelf 4 is fixedly mounted on bottom plate 14, and the temperature sensor 5 is fixedly mounted
On defrosting room inner right wall face, the compressor 20 is fixedly mounted on compressor bracket 19, and the compressor bracket 19 is fixed
On wall at left and right sides of rear cabin room, the condenser 22 is fixedly mounted in condenser brackets 21, the condenser branch
Frame 21 is fixedly mounted at left and right sides of rear cabin room on wall, and the evaporator 28 is fixedly mounted on defrosting room rear surface, described
Evaporator protection cover 16 is fixedly mounted on defrosting room rear surface, the compressor 20, condenser 22, expansion valve 23 and evaporator
28 connect and compose refrigeration unit module by pipeline, and specific annexation is:The output end of compressor 20 is defeated with condenser 22
Enter end connection, the output end of condenser 22 and the input of device for drying and filtering connect, the output end and expansion valve of device for drying and filtering
23 input connection, the output end of the expansion valve 23 is connected with the input of evaporator 28, the output end of evaporator 28 and
The input connection of compressor 20;The present apparatus also includes automatically-controlled door 2, radiator fan 6, superconduction thermal element 7, heat conduction fuel tank 8, transition
It is block 12, weighing sensor 13, bottom plate 14, electric machine support 24, motor 25, actuating cam 26, connecting rod 27, interference disk module 30, dry
Disturb disk module support 31, automatic door position sensor 32, inverted cam axle 33, inverted cam 34, manual door position sensor 35,
Collector bracket 36, thermal-arrest fin 37, heat collector 38;The radiator fan 6 is fixedly mounted on the inwall of heat dissipation chamber, the title
Retransmit the upside of sensor 13 to be fixedly connected with bottom plate 14 by transition block 12, the downside of weighing sensor 13 passes through another transition
Block 12 is fixedly connected with support 10, and the support 10 is fixedly mounted on defrosting room bottom plate, and the high-tension transformer 17 fixes peace
On the bottom plate of rear cabin room, the magnetron 11 is fixedly mounted on waveguide 15, and the waveguide 15 is fixedly mounted on solution
Freeze on the rear surface of room, the high-tension transformer 17, high-voltage diode 18, high-voltage capacitance 39 and the connection composition microwave hair of magnetron 11
Raw circuit module, the interference disk module 30 are fixedly mounted on interference disk module support 31, the interference disk module support 31
It is fixedly mounted on defrosting room rear surface, the motor 25 is fixedly mounted on electric machine support 24, and the electric machine support 24 is fixed
On wall at left and right sides of rear cabin room, the actuating cam 26 is fixedly mounted on the output shaft of motor 25, the connecting rod 27
Both ends be movably arranged on by bearing pin on actuating cam 26 and inverted cam 34, the actuating cam 26, inverted cam 34 and
Connecting rod 27 forms quadric chain, and the inverted cam 34 is fixedly mounted on inverted cam axle 33, the inverted cam axle 33
It is movably arranged on the wall of rear cabin room front and rear sides, the automatically-controlled door 2 is provided with left automatically-controlled door and each one of right automatically-controlled door, described
Left automatically-controlled door and right automatically-controlled door are each fixedly connected with an automatic door heel, and the automatically-controlled door door-hinge both ends are arranged on by bearing
On heat dissipation chamber's front and rear sides wall, the automatic door position sensor 32 is fixedly mounted on rear cabin plate, and automatically-controlled door is opened to finger
When positioning is put, the connecting rod 27 is moved to the position that automatic door position sensor 32 provides detection signal, and the manually operated door 29 is logical
Cross on the front side of bearing pin and rebound installation casing 9, the manual door position sensor 35 is fixedly mounted on defrosting room right side wall
Above and with the cooperating of manually operated door 29, the heat collector 38 it is provided with the two left side walls and right side wall in defrosting room
Each to be fixedly mounted one, the downside of the superconduction thermal element 7 is fixedly mounted in heat collector 38, the superconduction thermal element 7 it is upper
Side is placed in heat dissipation chamber, and the defrosting room makes symmetrical form, and the inner chamber of the casing 9 is defrosting room, the solution
Freeze ceiling portion and the two closing heat dissipation chamber for being provided with automatically-controlled door 2 in left and right are set.
The superconduction thermal element 7 is super heat-conductive pipe or superconduction hot plate, and in first embodiment, the heat collector 38 is filled with
The heat conduction fuel tank 8 of heat conduction silicone oil, the downside of the superconduction thermal element 7 are fixedly mounted in heat conduction fuel tank 8 and entered with heat conduction silicone oil
Row fully contact;In second embodiment, the heat collector 38 is thermal-arrest fin 37, and peace is fixed in the downside of the superconduction thermal element 7
Fully contacted on thermal-arrest fin 37 and with thermal-arrest fin 37, the thermal-arrest fin 37 is being thawed by collector bracket 36
Each on indoor left side wall and right side wall to be fixedly mounted one, the radiator fan 6 is provided with 4, the heat dissipation chamber of left and right two
Interior each installation 2, the automatic door position sensor 32 and manual door position sensor 35 are proximity switch, optoelectronic switch or micro-
Dynamic switch, the interference disk module 30 are made up of interference disk module motor and metallic impeller, and metallic impeller is fixedly mounted on interference
On coil motor output shaft, the function with insulation is made by heat-barrier material in casing 9, and manually operated door and automatically-controlled door all have heat-insulated work(
Can, door side is provided with sealing strip.
When being thawed to frozen food, food is placed on thaw shelf 4, the output end control high voltage variable of controller 1
Depressor 17, interference disk module 30, radiator fan 6, compressor 20 and power on, high-tension transformer 17 are that magnetron 11 provides work
Make voltage, magnetron 11 produces microwave and is delivered to through waveguide 15 in defrosting room, and interference disk module 30 works, and metallic impeller rotates
So that microwave is uniformly dispersed into defrosting room, caused microwave penetration reaches food product, and frozen food is thawed, temperature
Sensor 5 is the temperature signal in the offer defrosting room of controller 1, and controller 1 controls refrigeration unit module by the temperature in defrosting room
Degree control is in the range of -2 DEG C~+20 DEG C.The weight of the instrument of weighing sensor 13, controller 1 according to the weight of food and
The initial temperature of food sets thaw total time and thawing cycle automatically.Heat collector 38 absorbs the heat energy in defrosting room and by super
Heat conducting element 7 is transferred thermal energy in heat dissipation chamber, the controlled motor 25 of controller 1 and power on, and the work of motor 25 drives actively
Cam 26 turns over certain angle, and the through connecting rod 27 of actuating cam 26 drives the synchronous axial system of inverted cam 34, actuating cam 26 and driven
The rotation of cam 34 drives two automatically-controlled doors 2 in left and right to be rotated around door-hinge, and automatically-controlled door 2 is opened, and radiator fan 6 is rotated heat superconducting member
The heat energy of part 7 is dispersed into outside casing, reduces the temperature in defrosting room, and the metallic impeller of interference disk module 30 makes in defrosting room
Gas circulation reduces temperature by evaporator 28, and compressor 20, expansion valve 23, condenser 22 and the cooperation of evaporator 28 will
Heat circulation is transported to outside defrosting room, plays a part of appropriate regulating box defrosting indoor temperature, so as to avoid temperature is too high from making
Food is burned.Automatic door position sensor 32 detects the position of connecting rod 27 so that it is determined that the aperture position of automatically-controlled door 2.
After the completion of defrosting, when reaching such as food product temperature in -4 DEG C~-2 DEG C sections, controller 1 controls high voltage variable
Depressor 17, interference disk module 30 and radiator fan 6 disconnect with power supply, and motor 25, which turns round, causes automatically-controlled door 2 to close.Controller 1 is logical
Refrigeration unit module is crossed by the temperature control in casing defrosting room in the range of+2 DEG C~+8 DEG C, food is carried out fresh-keeping, it is ensured that
The freshness of frozen food after thawing.The output end control anion generator 3 and power on of controller 1, anion hair
Raw device 3 completes the function of sterilization.
Claims (7)
1. a kind of open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet, mainly by controller (1), bear from
Electronic generator (3), thaw shelf (4), temperature sensor (5), casing (9), support (10), evaporator protection cover (16), compressor
Support (19), compressor (20), condenser brackets (21), condenser (22), expansion valve (23), evaporator (28), manually operated door
(29), magnetron (11), waveguide (15), high-tension transformer (17), high-voltage diode (18), high-voltage capacitance (39) composition, institute
State high-tension transformer (17), high-voltage diode (18), high-voltage capacitance (39) and magnetron (11) connection and form micro- wave generation circuit
Module, the controller (1) are fixedly mounted on the front face of left cabin room, and the anion generator (3) is fixedly mounted on solution
Freeze on indoor left side wall, the thaw shelf (4) is fixedly mounted on bottom plate (14), and the temperature sensor (5) is fixedly mounted on
On defrosting room internal face, the compressor (20) is fixedly mounted on compressor bracket (19), and the compressor bracket (19) is solid
On wall at left and right sides of rear cabin room, the condenser (22) is fixedly mounted in condenser brackets (21), described cold for Dingan County
Condenser support (21) is fixedly mounted at left and right sides of rear cabin room on wall, and the evaporator (28) is fixedly mounted on defrosting room rear wall
On face, the evaporator protection cover (16) is fixedly mounted on defrosting room rear surface, the compressor (20), condenser (22),
Expansion valve (23) and evaporator (28) connect and compose refrigeration unit module by pipeline;It is characterized in that:Also include automatically-controlled door (2),
Radiator fan (6), superconduction thermal element (7), heat conduction fuel tank (8), transition block (12), weighing sensor (13), bottom plate (14), motor
Support (24), motor (25), actuating cam (26), connecting rod (27), interference disk module (30), interference disk module support (31), from
Dynamic door position sensor (32), inverted cam axle (33), inverted cam (34), manual door position sensor (35), heat collector branch
Frame (36), thermal-arrest fin (37), heat collector (38);The radiator fan (6) is fixedly mounted on the inwall of heat dissipation chamber, the title
Retransmit and be fixedly connected on the upside of sensor (13) by transition block with bottom plate (14), pass through another on the downside of the weighing sensor (13)
Transition block is fixedly connected with support (10), and the support (10) is fixedly mounted on defrosting room bottom plate, the high-tension transformer
(17) it is fixedly mounted on the bottom plate of rear cabin room, the magnetron (11) is fixedly mounted on waveguide (15), the waveguide
(15) it is fixedly mounted on defrosting room rear surface, the interference disk module (30) is fixedly mounted on interference disk module support (31)
On, the interference disk module support (31) is fixedly mounted on defrosting room rear surface, and the motor (25) is fixedly mounted on motor
On support (24), the electric machine support (24) is fixedly mounted at left and right sides of rear cabin room on wall, and the actuating cam (26) is solid
Dingan County on motor (25) output shaft, the both ends of the connecting rod (27) by bearing pin be movably arranged on actuating cam (26) and from
On moving cam (34), the actuating cam (26), inverted cam (34) and connecting rod (27) composition quadric chain are described driven convex
Wheel (34) is fixedly mounted on inverted cam axle (33), and the inverted cam axle (33) is movably arranged on front and rear the two of rear cabin room
In side wall, the automatically-controlled door (2) is provided with left automatically-controlled door and each one of right automatically-controlled door, and the left automatically-controlled door and right automatically-controlled door are each
It is fixedly connected with an automatic door heel, the automatic door heel both ends are arranged on heat dissipation chamber's front and rear sides wall by bearing, described
Automatic door position sensor (32) is fixedly mounted on rear cabin plate, when automatically-controlled door is opened to specified location, the connecting rod (27)
The position that automatic door position sensor (32) provides detection signal is moved to, the manually operated door (29) is pacified by bearing pin and rebound
On the front side of casing (9), the manual door position sensor (35) be fixedly mounted on defrosting room right side wall and with it is manual
Door (29) cooperating, the heat collector (38) are provided with two left and right being respectively and fixedly installed in defrosting room walls, institute
State and be fixedly mounted on the downside of superconduction thermal element (7) in heat collector (38), radiating is placed on the upside of the superconduction thermal element (7)
Interior, the defrosting room make symmetrical form, and the inner chamber of the casing (9) is defrosting room, are set at the top of the defrosting room
Put the two closing heat dissipation chamber for being provided with automatically-controlled door (2) in left and right.
2. open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet according to claim 1, it is special
Sign is:The superconduction thermal element (7) is super heat-conductive pipe either superconduction hot plate.
3. open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet according to claim 1, it is special
Sign is:The heat collector (38) is filled with the heat conduction fuel tank (8) of heat conduction silicone oil, and peace is fixed in the downside of the superconduction thermal element (7)
Fully contacted in heat conduction fuel tank (8) and with heat conduction silicone oil.
4. open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet according to claim 1, it is special
Sign is:The heat collector (38) is thermal-arrest fin (37), and thermal-arrest fin is fixedly mounted on the downside of the superconduction thermal element (7)
(37) fully contacted on and with thermal-arrest fin (37), the thermal-arrest fin (37) is by collector bracket (36) in defrosting room
Left side wall and right side wall on each be fixedly mounted one.
5. open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet according to claim 1, it is special
Sign is:The radiator fan (6) is provided with 4, and 2 are respectively installed in the heat dissipation chamber of left and right.
6. open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet according to claim 1, it is special
Sign is:The automatic door position sensor (32) and manual door position sensor (35) are proximity switch, optoelectronic switch or fine motion
Switch.
7. open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet according to claim 1, it is special
Sign is:The interference disk module (30) is made up of interference disk module motor and metallic impeller, and metallic impeller is fixedly mounted on interference
On coil motor output shaft.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720738684.4U CN207054712U (en) | 2017-06-23 | 2017-06-23 | Open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720738684.4U CN207054712U (en) | 2017-06-23 | 2017-06-23 | Open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207054712U true CN207054712U (en) | 2018-03-02 |
Family
ID=61509411
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720738684.4U Expired - Fee Related CN207054712U (en) | 2017-06-23 | 2017-06-23 | Open front cam mechanism automatic heat radiation food quick-thawing sterilization fresh-keeping cabinet |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207054712U (en) |
-
2017
- 2017-06-23 CN CN201720738684.4U patent/CN207054712U/en not_active Expired - Fee Related
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