CN219301074U - Air-cooled heat radiation structure of snowflake ice maker - Google Patents

Abstract

The utility model discloses an air-cooling heat dissipation structure of a snowflake ice maker, which relates to the technical field of air-cooling heat dissipation and comprises an ice making chamber top plate, a high-efficiency heat conduction unit and an air-cooling heat dissipation unit; the top plate of the ice making chamber is a plate body which is horizontally arranged; the high-efficiency heat conduction unit comprises a heat conduction copper plate, a silicone grease filling groove, a heat dissipation tower, a ventilation groove, a heat dissipation thin plate and mounting holes, wherein the heat conduction copper plate is vertically arranged, the four corners of the heat conduction copper plate are respectively provided with one mounting hole, and the heat conduction copper plate is fixedly arranged at the front end of the shell of the working machine through a bolt fastener; the air cooling heat dissipation unit is arranged on the upper side of the front end of the top plate of the ice making chamber. The utility model has large heat radiation surface area and high-efficiency heat conduction material, can conduct the temperature of the casing of the working machine with high efficiency, has a simple and reliable air cooling heat radiation unit, can form cold air and blow the cold air to the heat radiation tower, effectively cools the casing of the working machine, and ensures that the snowflake ice maker can stably and effectively operate.

Description

Air-cooled heat radiation structure of snowflake ice maker

Technical Field

The utility model relates to the technical field of air cooling and heat dissipation, in particular to an air cooling and heat dissipation structure of a snowflake ice maker.

Background

The ice made by the snowflake ice maker is in an amorphous fine particle shape, has good plasticity, is easy to take and accumulate, can infiltrate into a narrow gap, is commonly used for ice bath operation, is specially designed for laboratories, and is particularly suitable for laboratories such as life science, medicine, agriculture, forestry, animal husbandry, inspection and quarantine and the like; when the snowflake ice maker works, the power of devices such as an internal compressor is higher, more heat can be generated, and therefore, a corresponding heat dissipation structure is needed;

the utility model discloses an air-cooled heat radiation structure of snowflake ice maker among the prior art that grant publication number CN217952775U, including ice making housing, water pump, water tank, refrigerator, ice making refrigerator, radiating cavity, radiating component and fixed subassembly, ice making housing is cavity setting, the water pump is located in the ice making housing one end, the water tank is located in the ice making housing and is located water pump one side, the input of water pump link up ice making housing lateral wall, the output of water pump is connected with the water tank, the refrigerator is located in the ice making housing and is located the water tank below;

the heat conduction performance of the heat conduction component is lower, and the heat cannot be efficiently conducted to the heat dissipation component as a basis of the heat dissipation device, so that the air cooling heat dissipation effect of the snowflake ice machine is reduced, and the device is provided with more redundant parts, wherein a water pump, a water tank and the like are not involved in the aspect of air cooling heat dissipation, therefore, the air cooling heat dissipation structure of the snowflake ice machine is provided.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides an air-cooling heat-dissipating structure of a snowflake ice machine, which has a large heat-dissipating surface area and high-efficiency heat-conducting materials, can conduct the temperature of a shell of a working machine efficiently, has a simple and reliable air-cooling heat-dissipating unit, can form cold air and blow the cold air to a heat-dissipating tower, can effectively cool the shell of the working machine, ensures that the snowflake ice machine can stably and effectively operate, and can effectively solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an air-cooling heat dissipation structure of a snowflake ice maker comprises an ice making chamber top plate, a high-efficiency heat conduction unit and an air-cooling heat dissipation unit;

ice making chamber top plate: the plate body is horizontally arranged, and the rear end of the plate body is vertical to the front end of the casing of the working machine;

high-efficient heat conduction unit: the heat conducting copper plate is vertically arranged, the four corners of the heat conducting copper plate are respectively provided with a mounting hole, the mounting holes are divided into two sections with equal front and rear parts, the heat conducting copper plate is fixedly arranged at the front end of the shell of the working machine through bolt fasteners at the mounting holes, the heat conducting copper plate is transversely and uniformly provided with at least five silicone grease filling grooves at the rear end which are attached to the shell of the working machine, the silicone grease filling grooves are vertically arranged, the cross sections of the silicone grease filling grooves are of a convex structure, the front ends of the heat conducting copper plate are fixedly connected with square aluminum heat radiating towers, a row of ventilation grooves with equal spacing and unequal lengths are formed along the edges of the upper side, the lower side, the left side and the right side of each heat radiating tower, and a heat radiating sheet is reserved between every two adjacent ventilation grooves;

air-cooled heat dissipation unit: is installed at the upper side of the front end of the top plate of the ice making chamber.

The ice making room roof is used for the installation of each subassembly of forced air cooling radiating element, the working machine shell is used for the installation of each subassembly of high-efficient heat conduction unit, the mounting hole is used for the installation of bolt fastener, the heat conduction copper plate is used for the temperature with the working machine shell to heat dissipation tower department conduction, the high heat conductivity of copper material and the heat dissipation silicone grease that fills in the silicone grease filling groove can realize the high-efficient conduction of heat, the ventilation groove is used for the passage of wind-force, accelerate the cold and heat exchange on heat dissipation sheet surface, a plurality of heat dissipation sheets are used for increasing the heat dissipation surface area of heat dissipation tower, thereby can effectively scatter the temperature of working machine shell, forced air cooling radiating element is used for forming cold wind and blows to the heat dissipation tower, thereby strengthen the radiating effect of this device, guarantee that snowflake ice maker can stable effective operation.

Further, the high-efficiency heat conduction unit further comprises a spring and an inner hexagon screw, wherein the spring is embedded in the inner hole with the larger front end of the mounting hole, and the inner hexagon screw sequentially penetrates through the spring and the mounting hole from the front side and is in threaded connection with the shell of the working machine. The inner hexagon screw is used for fixedly attaching the heat conduction copper plate to the front end of the working machine shell, and the spring forms elasticity under the action of the inner hexagon screw, so that the attaching degree of the heat conduction copper plate and the working machine shell is enhanced, and a good heat conduction effect is guaranteed.

Further, the forced air cooling heat dissipation unit contains installation cassette, mounting bracket, connecting rod, motor and impeller, the front end upside fixedly connected with installation cassette of ice-making room roof, the vertical setting of mounting bracket and lower extreme card are put inside the upper end of installation cassette, the longitudinal circular through-hole has been seted up to the intermediate position department of mounting bracket, and installs the motor in the centre of a circle position department of through-hole, the circumference outside of motor is through the inner wall fixed connection of cross connecting rod and circular through-hole, the output shaft of motor sets up backward and installs impeller at the tip, the input of motor is connected with external power source's output electricity through external control switch group. The mounting clamping seat is used for clamping and mounting the mounting frame, the mounting frame is used for mounting the air supply device, the connecting rod is used for mounting and fixing the motor, the motor drives the wind impeller to rotate, wind force is formed, the wind force is blown to the cooling tower, cold and heat exchange on the surface of the cooling thin plate is accelerated, and therefore effective air cooling and heat dissipation are carried out on the working machine of the snowflake ice machine.

Further, the air-cooled radiating unit further comprises a semiconductor refrigerating ring, the rear end of the inner wall of the circular through hole formed in the middle of the mounting frame is embedded with a circle of semiconductor refrigerating ring, the cold end of the semiconductor refrigerating ring faces the middle of the circle center of the circular through hole, the hot end of the semiconductor refrigerating ring is attached to the frame body of the mounting frame, and the input end of the semiconductor refrigerating ring is electrically connected with the output end of the external power supply through the external control switch group. The semiconductor refrigeration ring is matched with the rotating fan blade to form cold air, so that the air cooling effect on the cooling tower is enhanced, and the snowflake ice machine can stably and effectively operate.

Further, still include the dust screen, the front end mouth department installation of the circular through-hole of installing frame middle part seting up is fixed with the dust screen, the tip of dust screen respectively with the inner wall of circular through-hole and cross connecting rod fixed connection. The dustproof net is used for preventing external dust and sundries from blowing to the radiating tower and accumulating in the ventilation groove, so that the radiation is not affected.

Further, still include set screw and cushioning rubber pad, the inside pad of installation cassette has the cushioning rubber pad of a U-shaped, and all installs set screw at the left and right sides of installation cassette, the mounting bracket passes through set screw and installation cassette fixed connection of left and right sides. The cushioning rubber pad is used for buffering vibration brought by motor operation, low-noise operation of the device is guaranteed, and the fixing screw is used for fixing the mounting frame.

Compared with the prior art, the utility model has the beneficial effects that: the air-cooling heat dissipation structure of the snowflake ice maker has the following advantages:

1. the heat-conducting device has the advantages that the heat-conducting device is reliable, the heat-conducting device can conduct the temperature of the shell of the working machine in the snowflake ice maker efficiently, the heat-radiating thin plates densely distributed can increase the heat-radiating surface area of the heat-radiating tower, and therefore the temperature of the shell of the working machine is effectively dispersed: the heat conducting copper plate is used for conducting the temperature of the shell of the working machine to the heat radiating tower, the high heat conductivity of copper materials and the heat radiating silicone grease filled in the silicone grease filling groove can realize the high-efficiency conduction of the heat, the ventilation groove is used for passing wind power, the heat exchange on the surfaces of the heat radiating thin plates is accelerated, the heat radiating thin plates are used for increasing the heat radiating surface area of the heat radiating tower, the temperature of the shell of the working machine in the snowflake ice machine can be effectively dispersed, and the spring forms elasticity under the action of the inner hexagon screws, so that the bonding degree of the heat conducting copper plate and the shell of the working machine is enhanced;

2. the cooling device has the advantages that the cooling device is simple and reliable, cold air can be formed and blown to the cooling tower, the cold air passes through the ventilation groove, the cooling is effectively carried out on the cooling thin plate, and the snowflake ice making machine can stably and effectively operate: the mounting frame is used for mounting the air supply device, the connecting rod is used for mounting and fixing the motor, the motor drives the fan impeller to rotate, the semiconductor refrigeration ring is matched with the rotating fan impeller to form cold air, so that the air cooling effect on the cooling tower is enhanced, the snowflake ice maker is guaranteed to stably and effectively operate, the dust screen is used for preventing external dust and sundries from blowing to the cooling tower and accumulating in the ventilation groove, heat dissipation is not influenced, the cushioning rubber pad is used for buffering vibration brought by motor operation, and low-noise operation of the device is guaranteed;

3. the utility model has large heat radiation surface area and high-efficiency heat conduction material, can conduct the temperature of the casing of the working machine in the snowflake ice machine with high efficiency, has a simple and reliable air cooling heat radiation unit, can form cold air and blow the cold air to the heat radiation tower, effectively cools the casing of the working machine, and ensures that the snowflake ice machine can stably and effectively operate.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the right rear side structure of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

fig. 4 is a schematic view of a partial enlarged structure at a in fig. 1 according to the present utility model.

In the figure: the ice making machine comprises a top plate of an ice making chamber, a shell of a working machine, a 3 high-efficiency heat conducting unit, a 31 heat conducting copper plate, a 32 silicone grease filling groove, a 33 heat radiating tower, a 34 ventilation groove, a 35 heat radiating thin plate, a 36 mounting hole, a 37 spring, a 38 socket head cap screw, a 4 air cooling heat radiating unit, a 41 mounting clamping seat, a 42 mounting frame, a 43 connecting rod, a 44 motor, a 45 air impeller, a 46 semiconductor refrigerating ring, a 5 fixing screw, a 6 cushioning rubber pad and a 7 dustproof screen.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present embodiment provides a technical solution: an air-cooling heat dissipation structure of a snowflake ice maker comprises an ice making chamber top plate 1, a high-efficiency heat conduction unit 3 and an air-cooling heat dissipation unit 4;

ice making compartment ceiling 1: the plate body is horizontally arranged, and the rear end of the plate body is vertical to the front end of the casing 2 of the working machine;

high-efficiency heat conduction unit 3: the heat conducting copper plate 31 is arranged vertically, the four corners of the heat conducting copper plate 31 are respectively provided with one mounting hole 36, the mounting holes 36 are divided into two sections with equal intervals and equal lengths, the heat conducting copper plate 31 is fixedly arranged at the front end of the working machine shell 2 through bolt fasteners at the mounting holes 36, the heat conducting copper plate 31 is transversely and uniformly provided with at least five silicone grease filling grooves 32 at the rear end which is attached to the working machine shell 2, the silicone grease filling grooves 32 are vertically arranged and are in a convex structure in cross section, the front ends of the heat conducting copper plate 31 are fixedly connected with square aluminum heat radiating towers 33, a row of ventilation grooves 34 with equal intervals and equal lengths are arranged on the upper side, the lower side, the left side and the right side of each heat radiating tower 33, and one heat radiating thin plate 35 is reserved between every two adjacent ventilation grooves 34;

air-cooled heat dissipation unit 4: is installed at the upper side of the front end of the ice making compartment ceiling 1.

The ice making room roof 1 is used for the installation of each subassembly of forced air cooling heat dissipation unit 4, the working machine shell 2 is used for the installation of each subassembly of high-efficient heat conduction unit 3, mounting hole 36 is used for the installation of bolt fastener, heat conduction copper plate 31 is used for conducting the temperature of working machine shell 2 to cooling tower 33 department, the high heat conductivity of copper material and the heat dissipation silicone grease that fills in the silicone grease filling groove 32 can realize the high-efficient conduction of heat, ventilation groove 34 is used for the passage of wind-force, the cold and heat exchange of accelerating heat dissipation sheet 35 surface, a plurality of heat dissipation sheet 35 are used for increasing the heat dissipation surface area of cooling tower 33, thereby can effectively scatter the temperature of working machine shell 2, forced air cooling heat dissipation unit 4 is used for forming cold wind and blowing to cooling tower 33, thereby strengthen the radiating effect of this device, guarantee that the snowflake ice maker can stable effective operation.

The high-efficiency heat conduction unit 3 further comprises a spring 37 and an inner hexagonal screw 38, wherein the spring 37 is embedded in a larger inner hole at the front end of the mounting hole 36, and the inner hexagonal screw 38 sequentially penetrates through the spring 37 and the mounting hole 36 from the front side and is in threaded connection with the working machine shell 2. The socket head cap screw 38 is used for fixedly attaching the heat conduction copper plate 31 to the front end of the working machine housing 2, and the spring 37 forms elasticity under the action of the socket head cap screw 38, so that the attaching degree of the heat conduction copper plate 31 and the working machine housing 2 is enhanced, and a good heat conduction effect is ensured.

The air cooling heat dissipation unit 4 comprises an installation clamping seat 41, an installation frame 42, a connecting rod 43, a motor 44 and an air impeller 45, wherein the installation clamping seat 41 is fixedly connected to the upper side of the front end of the ice making chamber top plate 1, the installation frame 42 is vertically arranged, the lower end of the installation frame is clamped inside the upper end of the installation clamping seat 41, a longitudinal circular through hole is formed in the middle position of the installation frame 42, the motor 44 is installed at the center position of the through hole, the outer side of the circumference of the motor 44 is fixedly connected with the inner wall of the circular through hole through a cross-shaped connecting rod 43, the output shaft of the motor 44 is backwards arranged, the air impeller 45 is installed at the end part of the motor 44, and the input end of the motor 44 is electrically connected with the output end of an external power supply through an external control switch group. The installation cassette 41 is used for the joint installation of mounting bracket 42, and mounting bracket 42 is used for air supply arrangement's installation, and connecting rod 43 is used for the installation and the fixed of motor 44, and motor 44 is through driving impeller 45 rotation to form wind-force and blow cooling tower 33, the cold and heat exchange on the surface of the acceleration heat dissipation sheet 35, thereby carries out effectual forced air cooling heat dissipation to the work machine of snowflake ice maker.

The air cooling heat dissipation unit 4 further comprises a semiconductor refrigeration ring 46, a circle of semiconductor refrigeration ring 46 is embedded and arranged at the rear end of the inner wall of the circular through hole formed in the middle of the mounting frame 42, the cold end of the semiconductor refrigeration ring 46 faces the center of the circle of the circular through hole, the hot end of the semiconductor refrigeration ring is attached to the frame body of the mounting frame 42, and the input end of the semiconductor refrigeration ring 46 is electrically connected with the output end of an external power supply through an external control switch group. The semiconductor refrigeration ring 46 cooperates with the rotating fan impeller 45 to form cold air, so that the air cooling effect on the cooling tower 33 is enhanced, and the snowflake ice maker can stably and effectively operate.

Still include dust screen 7, the front port department of the circular through-hole of seting up at the middle part of mounting bracket 42 installs and is fixed with dust screen 7, the tip of dust screen 7 respectively with the inner wall of circular through-hole and the connecting rod 43 fixed connection of cross. The dust-proof net 7 prevents external dust and foreign matter from blowing to the heat-dissipating tower 33 and accumulating in the ventilation groove 34, ensuring that heat dissipation is not affected.

Still include set screw 5 and cushion rubber pad 6, the inside pad of installation cassette 41 has the cushion rubber pad 6 of a U-shaped, and all installs set screw 5 at the left and right sides of installation cassette 41, and mounting bracket 42 passes through set screw 5 and installation cassette 41 fixed connection of left and right sides. The damping rubber pad 6 is used for buffering vibration brought by motor operation, ensuring low-noise operation of the device, and the fixing screw 5 is used for fixing the mounting frame 42.

The utility model provides an air cooling heat dissipation structure of a snowflake ice maker, which has the following working principle: when the device works, the spring 37 at the mounting hole 36 forms elasticity under the action of the inner hexagon screw 38, so that the bonding degree of the heat conduction copper plate 31 and the working machine shell 2 is enhanced, the heat conduction copper plate 31 conducts the temperature of the working machine shell 2 to the heat dissipation tower 33, the high heat conductivity of copper materials and the heat dissipation silicone grease filled in the silicone grease filling groove 32 can realize the high-efficiency heat conduction, and the heat dissipation thin plate 35 is used for increasing the heat dissipation surface area of the heat dissipation tower 33, so that the temperature of the working machine shell 2 can be effectively dispersed; the mounting frame 42 is used for mounting the air supply device, the connecting rod 43 is used for mounting and fixing the motor 44, the motor 44 drives the fan impeller 45 to rotate, and the semiconductor refrigeration ring 46 is matched with the rotating fan impeller 45 to form cold air, so that the air cooling effect on the cooling tower 33 is enhanced; cold air passes through the ventilation groove 34 and is blown out to the periphery of the cooling tower 33, so that the cold and heat exchange on the surface of the cooling sheet 35 is accelerated, the working machine shell 2 is effectively cooled, and the snowflake ice maker can stably and effectively operate. In addition, the dust screen 7 is used for preventing external dust and sundries from blowing to the cooling tower 33 and accumulating in the ventilation groove 34, so that heat dissipation is not affected, and the cushioning rubber pad 6 is used for buffering vibration brought by motor operation, so that low-noise operation of the device is ensured.

It is noted that the control switch set disclosed in the above embodiments controls the operation of the motor 44 and the semiconductor refrigeration ring 46 using methods commonly used in the art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. An air-cooled heat radiation structure of snowflake ice maker, its characterized in that: comprises an ice making chamber top plate (1), a high-efficiency heat conduction unit (3) and an air cooling and radiating unit (4);

ice making chamber top plate (1): the plate body is horizontally arranged, and the rear end of the plate body is vertical to the front end of the casing (2) of the working machine;

high-efficiency heat conduction unit (3): contain heat conduction copper (31), silicone grease filling groove (32), cooling tower (33), ventilation groove (34), heat dissipation sheet (35) and mounting hole (36), heat conduction copper (31) vertical setting and four corners position department all have seted up a mounting hole (36), mounting hole (36) divide into big front and back two sections, heat conduction copper (31) are installed and are fixed in the front end of working machine shell (2) through the bolt fastener of mounting hole (36) department, and heat conduction copper (31) transversely evenly has seted up at the rear end that is laminated with working machine shell (2) and is not less than five silicone grease filling groove (32), silicone grease filling groove (32) vertical setting and cross section are "protruding" font structure, heat dissipation tower (33) of square aluminium system are connected with to the front end fixedly connected with of heat conduction copper (31), ventilation groove (34) that a row of interval is equal but length is unequal are seted up along limit arris about the upper and lower and left and right sides of heat dissipation tower (33), leave a heat dissipation sheet (35) between every two adjacent ventilation grooves (34);

air-cooled radiating unit (4): is arranged on the upper side of the front end of the ice making chamber top plate (1).

2. The air-cooled heat dissipation structure of a snowflake ice making machine of claim 1, wherein: the efficient heat conduction unit (3) further comprises a spring (37) and an inner hexagonal screw (38), the spring (37) is embedded in an inner hole at the front end of the mounting hole (36), and the inner hexagonal screw (38) sequentially penetrates through the spring (37) and the mounting hole (36) from the front side and is in threaded connection with the casing (2) of the working machine.

3. The air-cooled heat dissipation structure of a snowflake ice making machine of claim 1, wherein: the air-cooled heat dissipation unit (4) comprises an installation clamping seat (41), a mounting frame (42), a connecting rod (43), a motor (44) and an air impeller (45), the upper side of the front end of the ice making chamber top plate (1) is fixedly connected with the installation clamping seat (41), the mounting frame (42) is vertically arranged and the lower end of the mounting frame is clamped inside the upper end of the installation clamping seat (41), a longitudinal circular through hole is formed in the middle position of the mounting frame (42), the motor (44) is arranged at the center position of the through hole, the outer side of the circumference of the motor (44) is fixedly connected with the inner wall of the circular through hole through a cross connecting rod (43), the output shaft of the motor (44) is backwards arranged and provided with the air impeller (45) at the end part, and the input end of the motor (44) is electrically connected with the output end of an external power supply through an external control switch group.

4. The air-cooled heat dissipation structure of a snowflake ice making machine of claim 3, wherein: the air cooling radiating unit (4) further comprises a semiconductor refrigerating ring (46), a circle of semiconductor refrigerating ring (46) is embedded and arranged at the rear end of the inner wall of the circular through hole formed in the middle of the mounting frame (42), the cold end of the semiconductor refrigerating ring (46) faces the middle of the circle center of the circular through hole, the hot end of the semiconductor refrigerating ring is attached to the frame body of the mounting frame (42), and the input end of the semiconductor refrigerating ring (46) is electrically connected with the output end of an external power supply through an external control switch group.

5. The air-cooled heat dissipation structure of a snowflake ice making machine of claim 3, wherein: still include dust screen (7), the front end mouth department installation of circular through-hole of seting up in the middle part of mounting bracket (42) is fixed with dust screen (7), the tip of dust screen (7) respectively with the inner wall of circular through-hole and cross connecting rod (43) fixed connection.

6. The air-cooled heat dissipation structure of a snowflake ice making machine of claim 3, wherein: still include set screw (5) and cushion rubber pad (6), the inside pad of installation cassette (41) has a cushion rubber pad (6) of U-shaped, and all installs set screw (5) at the left and right sides of installation cassette (41), mounting bracket (42) are through set screw (5) and installation cassette (41) fixed connection of left and right sides.

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