CN208536451U - A kind of heavy duty detergent aluminum fin-stock evaporator - Google Patents
A kind of heavy duty detergent aluminum fin-stock evaporator Download PDFInfo
- Publication number
- CN208536451U CN208536451U CN201821100176.4U CN201821100176U CN208536451U CN 208536451 U CN208536451 U CN 208536451U CN 201821100176 U CN201821100176 U CN 201821100176U CN 208536451 U CN208536451 U CN 208536451U
- Authority
- CN
- China
- Prior art keywords
- gear
- evaporator
- motor
- heavy duty
- water pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The utility model relates to a kind of heavy duty detergent aluminum fin-stock evaporators, including main body and pipeline, it further include defrosting mechanism and mixed organization, the defrosting mechanism includes spray assembly, transmission belt, driving assembly, two lifting sleeves, two support rods, two screw rods and two driving wheels, the spraying sub-component includes driving unit, elevating lever, first water pipe, first gear, limited block, movable frame, two sliding sleeves and at least two nozzles, the mixed organization includes water tank, second water pipe, mixing component and suction pump, in the heavy duty detergent aluminum fin-stock evaporator, each nozzle is driven to move back and forth while lifting or so by defrosting mechanism, to which salt water is sprayed on fin by nozzle, to realize the defrosting to fin, to improve the refrigeration effect of evaporator, it is uniformly mixed by mixed organization Jiang Shui with salt, to It is completely dissolved in salt in water, so that the defrosting effect of salt water is improved, to further improve the refrigeration effect of evaporator.
Description
Technical field
The utility model relates to field of refrigeration equipment, in particular to a kind of heavy duty detergent aluminum fin-stock evaporator.
Background technique
Evaporator is a component critically important in four big parts of refrigeration, and the condensed fluid of low temperature is by evaporator, with the external world
Air carry out heat exchange, gasification heat absorption achievees the effect that refrigeration, and evaporator is mainly by heating room and vaporization chamber two parts group
At heating room is provided to liquid evaporates required heat, promotes liquid boiling to vaporize, vaporization chamber divides gas-liquid two-phase completely
From.
The surface temperature of evaporator is far below the dew-point temperature of air, food and air when general refrigeration equipment operates normally
In moisture can be precipitated and condense on tube wall, condense and frost if water dew when tube wall temperature is lower than zero degrees celsius, frosting is also
It is that refrigeration system operates normally as a result, since the thermal conductivity of frost is too small, it is gold so evaporator surface allows a small amount of frosting
1 percent or even more than one percent belonged to, thus frost layer is formed biggish thermal resistance, when especially frost layer is thicker, like
Heat preservation is the same, makes the cooling capacity in evaporator be not easy to come out, affects the refrigeration effect of evaporator, finally makes freezer up to not
To required temperature, meanwhile, evaporation situation of the refrigerant in evaporator will also weaken, and the ammoniacal liquor of incomplete evaporation is possible to
It is sucked by compressor and causes liquid hammer accident.
Utility model content
Technical problem to be solved by the utility model is: for overcome the deficiencies in the prior art, providing a kind of heavy duty detergent aluminium
Evaporator fin.
The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of heavy duty detergent aluminum fin-stock evaporator, packet
Main body and pipeline are included, the inside of main body is set in the middle part of the pipeline, which is characterized in that further includes defrosting mechanism and mixing machine
The side of main body is arranged in structure, the defrosting mechanism, and the side of main body is arranged in the mixed organization;
The defrosting mechanism includes spray assembly, transmission belt, driving assembly, two lifting sleeves, two support rods, two
Screw rod and two driving wheels, two support rods are vertically provided at the two sides of main body respectively, and two screw rods are vertically provided at two respectively
The side of a support rod, the both ends of two screw rods pass through a bearing block respectively and connect with the both ends of two support rods, and two rise
Drop casing is respectively sleeved on two support rods, and two screw rods are each passed through two lifting sleeves, two screw rods respectively with two
Lifting sleeve is threadedly coupled, and the spray assembly is arranged between two lifting sleeves, and two driving wheels are separately positioned on two
The bottom end of screw rod, the both ends of the transmission belt bypass two driving wheels respectively, and the both ends of two transmission belts are connected with each other, the drive
The side of main body is arranged in dynamic component;
The spray assembly includes driving unit, elevating lever, the first water pipe, first gear, limited block, movable frame, two
Sliding sleeve and at least two nozzles, the elevating lever are horizontally disposed, the both ends of the elevating lever respectively with two lifting sleeves
Connection, two sliding sleeves are respectively sleeved at the both ends of elevating lever, and first water pipe is horizontally set on the top of elevating lever, institute
The both ends for stating the first water pipe are connect with two sliding sleeves respectively, and each nozzle is successively uniformly arranged on the first water pipe, each nozzle
It is connected to the first water pipe, the first gear is hinged on the middle part of elevating lever, and the remote of first gear is arranged in the limited block
At position from the first gear center of circle, the movable frame is vertically provided at the lower section at the middle part of the first water pipe, and the limited block is set
It sets in the inside of movable frame, the driving unit is arranged on elevating lever;
The mixed organization includes water tank, the second water pipe, mixing component and suction pump, and the one of main body is arranged in the water tank
Side, the suction pump are arranged on the inner wall of the bottom of water tank, and the inside of water tank is arranged in one end of second water pipe, described
One end of second water pipe is connect with suction pump, and the other end of second water pipe is connected to the middle part of the first water pipe, the stirring
The inside of water tank is arranged in component.
Preferably, in order to improve the degree of automation of evaporator, the side of the main body is additionally provided with wireless signal transmitting-receiving
Module and PLC, the wireless signal transceiver module are electrically connected with PLC.
Preferably, in order to provide power to the rotation of two screw rods, the driving component includes the second motor, third tooth
The bottom of the side of main body is arranged in wheel and the 4th gear, second motor, and the third gear is arranged in two driving wheels
In close to the lower section of a driving wheel of the second motor, one of close second motor in the third gear and two driving wheels
Driving wheel coaxial arrangement, second motor are connect with the 4th gear drive, and the third gear is engaged with the 4th gear.
Preferably, the driving unit includes first motor and second in order to provide power to the rotation of first gear
Gear, the first motor are arranged on elevating lever, and the first motor is engaged with second gear, the second gear and first
Gear engagement.
Preferably, the mixing component includes third motor, rotation in order to be uniformly mixed the water inside water tank with salt
Axis and at least two agitating paddles, the rotation axis are horizontally set on the inside of water tank, and the both ends of the rotation axis pass through one respectively
The inner wall of the two sides of a bearing block and water tank connects, and each agitating paddle is uniformly arranged on rotation axis around the circumferential axis of rotation axis
On periphery, the side of water tank is arranged in the third motor, and the third motor and rotation axis are sequentially connected.
Preferably, being also coated with anticorrosion galvanizing layer on the inner wall of the water tank to extend the service life of water tank.
Preferably, in order to improve the uniformity of each nozzles spray, each nozzle is atomizer.
Preferably, in order to improve the accuracy to the second motor control, second motor is servo motor.
Preferably, being additionally provided at least on the inner wall of the sliding sleeve to improve the smooth degree of sliding sleeve sliding
Two balls, each ball is on the inner wall that the axis of sliding sleeve is circumferentially uniformly arranged on sliding sleeve.
Preferably, in order to improve the stability connected between sliding sleeve and elevating lever, the both ends of the elevating lever
Being horizontally disposed with respectively on periphery has a draw runner, and a sliding slot, two draw runners point are respectively equipped on the inner wall of two sliding sleeves
The inside of two sliding slots is not set.
The utility model has the beneficial effects that, by the mechanism that defrosts, can be driven each in the heavy duty detergent aluminum fin-stock evaporator
Nozzle moves back and forth while lifting or so, thus be uniformly sprayed onto salt water on the fin of evaporator by nozzle, from
And the defrosting to fin is realized, to improve the refrigeration effect of evaporator, compared with existing mechanism, which passes through nozzle
Reciprocating movement, expand the spraying range of nozzle, thus allow people by lesser amount of nozzle realization similarly remove
White effect, to reduce the production cost of evaporator, moreover, by mixed organization, can Jiang Shui be uniformly mixed with salt,
To make salt be completely dissolved in water, so that the defrosting effect of salt water is improved, to further improve the refrigeration of evaporator
Effect, compared with existing mechanism, the mechanism structure is simple, to reduce the quantity of fault point, to reduce evaporator
Maintenance cost.
Detailed description of the invention
The present invention will be further described with reference to the accompanying drawings and examples.
Fig. 1 is the structural schematic diagram of the heavy duty detergent aluminum fin-stock evaporator of the utility model;
Fig. 2 is the structural schematic diagram of the spray assembly of the heavy duty detergent aluminum fin-stock evaporator of the utility model;
Fig. 3 is the portion the A enlarged drawing of Fig. 1;
Fig. 4 is the structural schematic diagram of the mixed organization of the heavy duty detergent aluminum fin-stock evaporator of the utility model;
In figure: 1. pipelines, 2. screw rods, 3. nozzles, 4. first water pipes, 5. draw runners, 6. first gears, 7. first
Motor, 8. elevating levers, 9. support rods, 10. lifting sleeves, 11. driving wheels, 12. transmission belts, 13. main bodys, 14. slidings
Casing, 15. movable frames, 16. limited blocks, 17. second gears, 18. balls, 19. third gears, 20. the 4th gears,
21. the second motor, 22. third motors, 23. water tanks, 24. agitating paddles, 25. rotation axis, 26. suction pumps, 27. second
Water pipe.
Specific embodiment
The utility model is described in further detail presently in connection with attached drawing.These attached drawings are simplified schematic diagram,
Only illustrate the basic structure of the utility model in a schematic way, therefore it only shows composition related with the utility model.
As shown in Figure 1, a kind of heavy duty detergent aluminum fin-stock evaporator, including main body 13 and pipeline 1, the middle part of the pipeline 1 are set
It sets in the inside of main body 13, which is characterized in that further include defrosting mechanism and mixed organization, the defrosting mechanism is arranged in main body 13
Side, the side of main body 13 is arranged in the mixed organization;
As shown in Figure 1, the defrosting mechanism include spray assembly, transmission belt 12, driving assembly, two lifting sleeves 10,
Two support rods, 9, two screw rods 2 and two driving wheels 11, two support rods 9 are vertically provided at the two sides of main body 13 respectively, and two
A screw rod 2 is vertically provided at the side of two support rods 9 respectively, and the both ends of two screw rods 2 pass through a bearing block and two respectively
The both ends of a support rod 9 connect, and two lifting sleeves 10 are respectively sleeved on two support rods 9, and two screw rods 2 are each passed through two
A lifting sleeve 10, two screw rods 2 are threadedly coupled with two lifting sleeves 10 respectively, and the spray assembly setting is gone up and down at two
Between casing 10, two driving wheels 11 are separately positioned on the bottom end of two screw rods 2, and the both ends of the transmission belt 12 bypass two respectively
The both ends of a driving wheel 11, two transmission belts 12 are connected with each other, and the side of main body 13 is arranged in the driving component;
Wherein, people are by setting evaporator, to make evaporator periodic operation, provided later by driving assembly dynamic
Power later under the action of transmission belt 12, drives the right side by the driving wheel 11 on the left side so that the driving wheel 11 on the right be driven to rotate
The driving wheel 11 on side rotates synchronously, and respectively drives two screw rods 2 by two driving wheels 11 later and rotates, passes through two silks later
Bar 2 respectively drives two lifting sleeves 10 and goes up and down along two support rods 9, to drive under the action of two lifting sleeve 10
Dynamic spray assembly lifting, to strong brine is sprayed onto main body 13 by spray assembly, to pass through strong brine for main body 12
Frost on internal fin removes, so that the heat conduction efficiency of evaporator is improved, to improve the refrigerating efficiency of evaporator;
As shown in Fig. 2, the spray assembly includes driving unit, elevating lever 8, the first water pipe 4, first gear 6, limited block
16,15, two sliding sleeves 14 of movable frame and at least two nozzles 3, the elevating lever 8 is horizontally disposed, and the two of the elevating lever 8
End is connect with two lifting sleeves 10 respectively, and two sliding sleeves 14 are respectively sleeved at the both ends of elevating lever 8, first water pipe
4 are horizontally set on the top of elevating lever 8, and the both ends of first water pipe 4 are connect with two sliding sleeves 14 respectively, each nozzle 3
It is successively uniformly arranged on the first water pipe 4, each nozzle 3 is connected to the first water pipe 4, and the first gear 6 is hinged on elevating lever 8
Middle part, the limited block 16 is arranged at the position in 6 center of circle of separate first gear of first gear 6, and the movable frame 15 is perpendicular
To the lower section at the middle part that the first water pipe 4 is arranged in, the inside of movable frame 15 is arranged in the limited block 16, and the driving unit is set
It sets on elevating lever 8;
Wherein, first gear 6 is driven to rotate by driving unit, to pass through limited block under the action of first gear 6
16 driving movable frames 15 move left and right, while under the supporting role of two sliding sleeves 14, improving the stabilization of the first water pipe 4
Property, drive the first water pipe 4 or so to move back and forth by movable frame 15 later, to drive each spray under the action of the first water pipe 4
Mouth 3 or so moves back and forth, to be uniformly sprayed onto strong brine on fin by nozzle 3, so as to by the frost on fin
It removes, is moved back and forth by the left and right of nozzle 3, the spraying range of nozzle 3 can be increased, so that it is less to pass through people
The quantity of nozzle 3 realizes the defrosting to evaporator, to reduce the production cost of evaporator;
As shown in figure 4, the mixed organization includes water tank 23, the second water pipe 27, mixing component and suction pump 26, the water
Case 23 is arranged in the side of main body 13, on the inner wall for the bottom that water tank 23 is arranged in the suction pump 26, second water pipe 27
One end the inside of water tank 23 is set, one end of second water pipe 27 is connect with suction pump 26, second water pipe 27
The other end is connected to the middle part of the first water pipe 4, and the inside of water tank 23 is arranged in the mixing component;
Wherein, people Jiang Shui and salt are put into the inside of water tank 23, later under the action of mixing component, make between water and salt
It is uniformly mixed, the salt water inside water tank 23 is extracted into the inside of the second water pipe 27 by suction pump 26 later, salt water passes through later
First water pipe 4 enters the inside of nozzle 3, is sprayed later by nozzle 3, since the freezing point temperature of strong brine is higher, to reduce
The probability that strong brine freezes in fin surface, so that the defrosting effect to evaporator is improved, to further improve steaming
Send out the refrigerating efficiency of device.
Preferably, in order to improve the degree of automation of evaporator, the side of the main body 13 is additionally provided with wireless signal receipts
Hair module and PLC, the wireless signal transceiver module are electrically connected with PLC, allow PLC and shifting by wireless signal transceiver module
Dynamic equipment establishes communication, later by mobile device remote control evaporator, to improve the degree of automation of evaporator.
As shown in figure 3, the driving component include the second motor 21, third gear 19 and the 4th gear 20, described second
The bottom of the side of main body 13 is arranged in motor 21, and the third gear 19 is arranged in two driving wheels 11 close to the second motor
The lower section of 21 driving wheel 11, close to a driving of the second motor 21 in the third gear 19 and two driving wheels 11
11 coaxial arrangement of wheel, second motor 21 and the 4th gear 20 are sequentially connected, and the third gear 19 is nibbled with the 4th gear 20
It closes;
Wherein, the rotation of the 4th gear 20 is driven by the second motor 21, third gear is driven by the 4th gear 20 later
19 rotations, to drive driving wheel 11 to rotate by third gear 19.
As shown in Fig. 2, the driving unit includes first motor 7 and second gear 17, the setting of first motor 7 is being risen
It drops on bar 8, the first motor 7 is engaged with second gear 17, and the second gear 17 is engaged with first gear 6;
Wherein, second gear 17 is driven to rotate by first motor 7, to drive first gear 6 by second gear 17
Rotation.
As shown in figure 4, the mixing component includes third motor 22, rotation axis 25 and at least two agitating paddles 24, it is described
Rotation axis 25 is horizontally set on the inside of water tank 23, and the both ends of the rotation axis 25 pass through a bearing block and water tank 23 respectively
The inner wall of two sides connects, and each agitating paddle 24 is uniformly arranged on the periphery of rotation axis 25 around the circumferential axis of rotation axis 25, institute
The side that water tank 23 is arranged in third motor 22 is stated, the third motor 22 is sequentially connected with rotation axis 25;
Wherein, it drives rotation axis 25 to rotate by third motor 22, drives agitating paddle 24 to rotate by rotation axis 25 later,
To which the effect by agitating paddle 24 is uniformly mixed water and salt inside water tank 23.
Preferably, it is also coated with anticorrosion galvanizing layer on the inner wall of the water tank 23 in order to extend the service life of water tank 23,
The speed that water tank 23 is corroded is slowed down by anticorrosion galvanizing layer, to extend the service life of water tank 23.
Preferably, each nozzle 3 is atomizer, due to atomizer in order to improve the uniformity that each nozzle 3 sprays
The liquid of ejection is more uniform, and spraying range is larger, to improve the effect that each nozzle 3 sprays salt water.
Preferably, in order to improve the accuracy to the control of the second motor 21, second motor 21 is servo motor.
Preferably, being additionally provided on the inner wall of the sliding sleeve 14 to improve the smooth degree of the sliding of sliding sleeve 14
At least two balls 18, each ball 18 are circumferentially uniformly arranged on the inner wall of sliding sleeve 14 around the axis of sliding sleeve 14,
The sliding friction between sliding sleeve 14 and elevating lever 8 is converted into rolling friction by each ball 18, to reduce sliding
Frictional force between casing 14 and elevating lever 8, to improve the smooth degree of the sliding of sliding sleeve 14.
Preferably, in order to improve the stability connected between sliding sleeve 14 and elevating lever 8, the two of the elevating lever 8
Being horizontally disposed with respectively on the periphery at end has a draw runner 5, is respectively equipped with a sliding slot on the inner wall of two sliding sleeves 14, and two
Draw runner 5 is separately positioned on the inside of two sliding slots, by the interaction between draw runner 5 and sliding slot, reduces sliding sleeve 14
The probability rotated around elevating lever 8, to improve the stability connected between sliding sleeve 14 and elevating lever 8.
People are by setting evaporator, to make evaporator periodic operation, provide power by driving assembly later, thus
The driving wheel 11 on driving the right rotates, and later under the action of transmission belt 12, passes through the drive on the driving of driving wheel 11 the right on the left side
Driving wheel 11 rotates synchronously, and respectively drives two screw rods 2 by two driving wheels 11 later and rotates, is divided later by two screw rods 2
Not Qu Dong two lifting sleeves 10 gone up and down along two support rods 9, thus under the action of two lifting sleeve 10, driving spraying
Component lifting, to strong brine is sprayed onto main body 13 by spray assembly, thus will be inside main body 12 by strong brine
Frost on fin removes, to improve the heat conduction efficiency of evaporator, to improve the refrigerating efficiency of evaporator, people will
Water and salt are put into the inside of water tank 23, later under the action of mixing component, make to be uniformly mixed between water and salt, pass through pumping later
Salt water inside water tank 23 is extracted into the inside of the second water pipe 27 by water pump 26, and salt water enters nozzle 3 by the first water pipe 4 later
Inside is sprayed later by nozzle 3, since the freezing point temperature of strong brine is higher, to reduce strong brine in fin surface knot
The probability of ice, so that the defrosting effect to evaporator is improved, to further improve the refrigerating efficiency of evaporator.
Compared with prior art, in the heavy duty detergent aluminum fin-stock evaporator, by the mechanism that defrosts, each nozzle 3 can be driven to exist
It is moved back and forth while lifting or so, to be uniformly sprayed onto salt water on the fin of evaporator by nozzle 3, to realize
Defrosting to fin, to improve the refrigeration effect of evaporator, compared with existing mechanism, the mechanism is past by nozzle 3
It is multiple mobile, the spraying range of nozzle 3 is expanded, so that people be allow to realize same defrosting by lesser amount of nozzle 3
Effect, to reduce the production cost of evaporator, moreover, by mixed organization, can Jiang Shui be uniformly mixed with salt, from
And it is completely dissolved in salt in water, so that the defrosting effect of salt water is improved, to further improve the refrigeration effect of evaporator
Fruit, compared with existing mechanism, the mechanism structure is simple, to reduce the quantity of fault point, to reduce the dimension of evaporator
Protect cost.
It is enlightenment, through the above description, related work people with the above-mentioned desirable embodiment according to the utility model
Member can carry out various changes and amendments in the range of without departing from this item utility model technical idea completely.This item is real
It is not limited to the contents of the specification with novel technical scope, it is necessary to its technology is determined according to scope of the claims
Property range.
Claims (10)
1. the middle part of a kind of heavy duty detergent aluminum fin-stock evaporator, including main body (13) and pipeline (1), the pipeline (1) is arranged in master
The inside of body (13), which is characterized in that further include defrosting mechanism and mixed organization, the defrosting mechanism is arranged in main body (13)
Side, side of the mixed organization setting in main body (13);
The defrosting mechanism includes spray assembly, transmission belt (12), driving assembly, two lifting sleeves (10), two support rods
(9), two screw rods (2) and two driving wheels (11), two support rods (9) are vertically provided at the two sides of main body (13) respectively, and two
A screw rod (2) is vertically provided at the side of two support rods (9) respectively, and the both ends of two screw rods (2) pass through a bearing respectively
Seat is connect with the both ends of two support rods (9), and two lifting sleeves (10) are respectively sleeved on two support rods (9), two silks
Bar (2) is each passed through two lifting sleeves (10), and two screw rods (2) are threadedly coupled with two lifting sleeves (10) respectively, described
Spray assembly is arranged between two lifting sleeves (10), and two driving wheels (11) are separately positioned on the bottom end of two screw rods (2),
The both ends of the transmission belt (12) bypass two driving wheels (11) respectively, and the both ends of two transmission belts (12) are connected with each other, described
Driving assembly is arranged in the side of main body (13);
The spray assembly includes driving unit, elevating lever (8), the first water pipe (4), first gear (6), limited block (16), moves
Dynamic frame (15), two sliding sleeves (14) and at least two nozzles (3), the elevating lever (8) is horizontally disposed, the elevating lever
(8) both ends are connect with two lifting sleeves (10) respectively, and two sliding sleeves (14) are respectively sleeved at the two of elevating lever (8)
End, first water pipe (4) are horizontally set on the top of elevating lever (8), the both ends of first water pipe (4) respectively with two cunnings
Dynamic casing (14) connection, each nozzle (3) are successively uniformly arranged on the first water pipe (4), each nozzle (3) with the first water pipe (4)
Connection, the first gear (6) are hinged on the middle part of elevating lever (8), and the limited block (16) is arranged in the remote of first gear (6)
At position from first gear (6) center of circle, the movable frame (15) is vertically provided at the lower section at the middle part of the first water pipe (4), institute
Limited block (16) setting is stated in the inside of movable frame (15), the driving unit is arranged on elevating lever (8);
The mixed organization includes water tank (23), the second water pipe (27), mixing component and suction pump (26), and the water tank (23) sets
The side in main body (13) is set, the suction pump (26) is arranged on the inner wall of the bottom of water tank (23), second water pipe
(27) one end is arranged in the inside of water tank (23), and one end of second water pipe (27) is connect with suction pump (26), and described the
The other end of two water pipes (27) is connected to the middle part of the first water pipe (4), inside of the mixing component setting in water tank (23).
2. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that the side of the main body (13) is additionally provided with
Wireless signal transceiver module and PLC, the wireless signal transceiver module are electrically connected with PLC.
3. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that the driving component includes the second motor
(21), third gear (19) and the 4th gear (20), second motor (21) are arranged in the bottom of the side of main body (13), institute
State the lower section for the driving wheel (11) that third gear (19) are arranged in two driving wheels (11) close to the second motor (21), institute
Third gear (19) are stated to be coaxially disposed with a driving wheel (11) in two driving wheels (11) close to the second motor (21), it is described
Second motor (21) and the 4th gear (20) are sequentially connected, and the third gear (19) is engaged with the 4th gear (20).
4. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that the driving unit includes first motor
(7) it is arranged on elevating lever (8) with second gear (17), the first motor (7), the first motor (7) and second gear
(17) it engages, the second gear (17) is engaged with first gear (6).
5. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that the mixing component includes third motor
(22), rotation axis (25) and at least two agitating paddles (24), the rotation axis (25) are horizontally set on the inside of water tank (23), institute
The both ends for stating rotation axis (25) pass through a bearing block respectively and connect with the inner wall of the two sides of water tank (23), each agitating paddle (24) around
The axis of rotation axis (25) be circumferentially uniformly arranged on the periphery of rotation axis (25), the third motor (22) is arranged in water tank
(23) side, the third motor (22) and rotation axis (25) are sequentially connected.
6. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that also applied on the inner wall of the water tank (23)
There is anticorrosion galvanizing layer.
7. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that each nozzle (3) is atomizer.
8. heavy duty detergent aluminum fin-stock evaporator as claimed in claim 3, which is characterized in that second motor (21) is servo electricity
Machine.
9. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that on the inner wall of the sliding sleeve (14)
It is additionally provided at least two balls (18), each ball (18) is circumferentially uniformly arranged on sliding sleeve around the axis of sliding sleeve (14)
(14) on inner wall.
10. heavy duty detergent aluminum fin-stock evaporator as described in claim 1, which is characterized in that outside the both ends of the elevating lever (8)
Being horizontally disposed with respectively on week has a draw runner (5), and a sliding slot, two cunnings are respectively equipped on the inner wall of two sliding sleeves (14)
Item (5) is separately positioned on the inside of two sliding slots.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821100176.4U CN208536451U (en) | 2018-07-11 | 2018-07-11 | A kind of heavy duty detergent aluminum fin-stock evaporator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821100176.4U CN208536451U (en) | 2018-07-11 | 2018-07-11 | A kind of heavy duty detergent aluminum fin-stock evaporator |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208536451U true CN208536451U (en) | 2019-02-22 |
Family
ID=65388299
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821100176.4U Active CN208536451U (en) | 2018-07-11 | 2018-07-11 | A kind of heavy duty detergent aluminum fin-stock evaporator |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208536451U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110686446A (en) * | 2019-09-06 | 2020-01-14 | 夏志强 | Refrigeration system with defrosting function and uniform refrigeration |
CN112503840A (en) * | 2021-01-04 | 2021-03-16 | 重庆西名制冷设备有限公司 | Automatic defrosting device for frozen warehouse |
CN113959929A (en) * | 2021-09-15 | 2022-01-21 | 中国航发沈阳发动机研究所 | High-flux automatic salt coating device and operation method thereof |
CN115164498A (en) * | 2022-07-22 | 2022-10-11 | 广州云上冷链科技有限公司 | Cold volume recovery economizer system of freezer |
-
2018
- 2018-07-11 CN CN201821100176.4U patent/CN208536451U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110686446A (en) * | 2019-09-06 | 2020-01-14 | 夏志强 | Refrigeration system with defrosting function and uniform refrigeration |
CN112503840A (en) * | 2021-01-04 | 2021-03-16 | 重庆西名制冷设备有限公司 | Automatic defrosting device for frozen warehouse |
CN113959929A (en) * | 2021-09-15 | 2022-01-21 | 中国航发沈阳发动机研究所 | High-flux automatic salt coating device and operation method thereof |
CN113959929B (en) * | 2021-09-15 | 2024-06-11 | 中国航发沈阳发动机研究所 | High-flux automatic salt coating device and operation method thereof |
CN115164498A (en) * | 2022-07-22 | 2022-10-11 | 广州云上冷链科技有限公司 | Cold volume recovery economizer system of freezer |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN208536451U (en) | A kind of heavy duty detergent aluminum fin-stock evaporator | |
JP3416139B2 (en) | Apparatus and method for freezing or cooling liquid | |
CN102620462B (en) | The vacuum refrigeration system that thermal source drives | |
US4570447A (en) | Removing frost deposits from cooling-coil batteries in a freezing plant during operation | |
CN210486193U (en) | Air source heat pump scanning type hot air flow defrosting system | |
CN202286093U (en) | Split high temperature-humidity difference pre-cooling storage | |
CN214371158U (en) | Fresh-keeping freezer of aerial fog cooling | |
CN107166852A (en) | A kind of new automatic evaporator defroster | |
CN106403431A (en) | Ice maker capable of melting ice quickly | |
CN208730128U (en) | A kind of waterproof roll cooling device | |
CN208186954U (en) | Tunnel immersion flesh of fish instant freezer | |
CN101926380A (en) | Split fruit and vegetable high-humidity differential pressure precooling device | |
CN114322413B (en) | Cold storage heat recovery system | |
CN209204714U (en) | A kind of titanium dioxide prepares vacuum crystallization device | |
CN201508089U (en) | Immersion-type monomer instant freezer | |
CN209726591U (en) | A kind of microminiature evaporator of flake ice maker | |
CN206459397U (en) | A kind of ice machine | |
CN100582609C (en) | Injection pump liquid supply vertical cylinder type ice maker | |
CN108592478B (en) | Combined quick-freezing device based on flat jet impact evaporator | |
CN201789884U (en) | Split fruit and vegetable high-humidity pressure differential pre-cooling device | |
CN211204611U (en) | Defrosting-free air cooler | |
CN209459276U (en) | Vertical snow machine processed | |
CN209219145U (en) | A kind of liquid nitrogen tunnel freezer | |
CN110849068A (en) | Defrosting-free air cooler | |
CN220308292U (en) | Fresh-keeping processing equipment of bamboo shoots |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |