CN220229656U - Gear transmission mechanism for ice machine - Google Patents
Gear transmission mechanism for ice machine Download PDFInfo
- Publication number
- CN220229656U CN220229656U CN202321823551.9U CN202321823551U CN220229656U CN 220229656 U CN220229656 U CN 220229656U CN 202321823551 U CN202321823551 U CN 202321823551U CN 220229656 U CN220229656 U CN 220229656U
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- ice
- cutting
- driven wheel
- speed reducer
- throwing disc
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- 230000008901 benefit Effects 0.000 description 5
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- 238000006467 substitution reaction Methods 0.000 description 1
- 235000013311 vegetables Nutrition 0.000 description 1
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- General Details Of Gearings (AREA)
Abstract
The utility model provides a gear transmission mechanism for an ice machine, which comprises a speed reducer driving wheel and an ice cutting driven wheel, wherein the ice cutting driven wheel is in meshing matching transmission with a speed reducer driving wheel; the ice-cutting device also comprises an ice-cutting main shaft, an ice-cutting bearing seat fixing bracket and an ice-throwing disc, wherein the ice-cutting main shaft is coaxially connected with the ice-cutting driven wheel; the ice throwing disc is positioned at the lower part of the ice cutting driven wheel; the ice cutting bearing seat and the ice cutting bearing seat fixing bracket are positioned at the position between the ice cutting driven wheel and the ice throwing disc; a plurality of ice cutting blades for cutting ice are arranged on the ice cutting driven wheel; a plurality of hollowed holes are densely formed in the ice cutting blade and the ice throwing disc; the speed reducer driving wheel is also coaxially connected with a speed reducer main shaft, and in the practical application process, a good transmission effect and ice cutting performance can be achieved.
Description
[ technical field ]
The utility model relates to the technical field of ice machine equipment, in particular to a gear transmission mechanism for an ice machine, which is reasonable in structural design and high in reliability.
[ background Art ]
The ice maker equipment is widely used in industry and commercial occasions, is mainly applied to fresh-keeping and cooling of meat processing processes, such as meat chicken processing, fresh-keeping and cooling of vegetables, milk, coffee, and the like, bread processing and wine manufacturing and cooling in the market of fresh-keeping and exhibition stands of frozen meat in large supermarkets, hotels, special markets for aquatic products and wholesale in the commercial field; the aquatic product processing industry has the processing processes of eel, shrimp products, fish and other auxiliary foods for fresh keeping, and the transportation and fresh keeping of oysters, fresh fish and shellfish; the fishing boat fishing industry mainly uses marine products from small-sized fishing boats at the offshore to large-sized fishing boats at the ocean for fresh keeping; the dye chemical industry is mainly used for cooling in the processing process; the medicine manufacturing industry is mainly used for cooling and refrigerating in the medicine production and processing process; the large concrete engineering is mainly used for rapid cooling of concrete in large building engineering such as reservoirs, mines, railways, airports and the like.
Even if the application range is so wide, the existing ice making equipment and refrigeration system still have the problems of high working pressure, unstable working condition and the like, in particular to ice machine equipment and ice machine system.
The pipe ice machine is a flooded refrigerating system, wherein the flooded refrigerating system has the advantages and the disadvantages, the advantage is that the refrigerating effect is good, the disadvantage is that the refrigerant is filled more, the compressor oil can enter the evaporator along with the refrigerant, although the refrigerating system is provided with the oil separator, the oil separator can not separate 100% of the compressor oil of the refrigerating system completely, the compressor oil can be accumulated in the evaporator for a long time, the heat exchange effect of the evaporator can be poor, the compressor oil shortage can be caused, and the gear transmission of the existing equipment is not stable and reliable enough, so that the normal operation of the equipment is restricted.
Based on the above-mentioned problems, further improvements and improvements of related structural components, system architecture, etc. are needed to overcome the shortcomings of the prior art.
[ summary of the utility model ]
The problems of the prior art solved by the present application are:
the pipe ice machine is a flooded refrigerating system, wherein the flooded refrigerating system has the advantages and the disadvantages, the advantage is that the refrigerating effect is good, the disadvantage is that the refrigerant is filled more, the compressor oil can enter the evaporator along with the refrigerant, although the refrigerating system is provided with the oil separator, the oil separator can not separate 100% of the compressor oil of the refrigerating system completely, the compressor oil can be accumulated in the evaporator for a long time, the heat exchange effect of the evaporator can be poor, the compressor oil shortage can be caused, and the gear transmission of the existing equipment is not stable and reliable enough, so that the normal operation of the equipment is restricted.
The technical scheme for solving the technical problems is as follows:
the gear transmission mechanism for the ice machine comprises a speed reducer driving wheel and an ice cutting driven wheel which is in meshing matching transmission with the speed reducer driving wheel; the ice-cutting device also comprises an ice-cutting main shaft, an ice-cutting bearing seat fixing bracket and an ice-throwing disc, wherein the ice-cutting main shaft is coaxially connected with the ice-cutting driven wheel; the ice throwing disc is positioned at the lower part of the ice cutting driven wheel; the ice cutting bearing seat and the ice cutting bearing seat fixing bracket are positioned at the position between the ice cutting driven wheel and the ice throwing disc; a plurality of ice cutting blades for cutting ice are arranged on the ice cutting driven wheel; a plurality of hollowed holes are densely formed in the ice cutting blade and the ice throwing disc; the speed reducer driving wheel is also coaxially connected with a speed reducer main shaft.
Preferably, the ice throwing disc is in a disc-shaped structure and is matched and corresponds to the shape of the ice cutting driven wheel.
Preferably, the outer diameter of the wheel body of the ice cutting driven wheel is larger than that of the wheel body of the speed reducer driving wheel.
Preferably, the ice cutting blades are in a sector structure which is equal in size, and a vertical drop is arranged between two adjacent ice cutting blades and used for enabling ice and sand to fall on the ice throwing disc.
Preferably, the whole ice cutting driven wheel is in a circular ring structure, and the ice cutting blade is positioned at the inner side of the ice cutting driven wheel.
The technical effect of the technical problem is solved by the application is as follows:
compared with the prior art, the gear transmission mechanism for the ice machine is provided with the speed reducer driving wheel 12 and the ice cutting driven wheel 13 which is in meshing matching transmission with the speed reducer driving wheel 12 at the same time; the ice cutting device also comprises an ice cutting main shaft 131, an ice cutting bearing seat 17, an ice cutting bearing seat fixing bracket 16 for fixing the ice cutting bearing seat 17 and an ice throwing disc 15 for throwing ice, wherein the ice cutting main shaft 131 is coaxially connected with the ice cutting driven wheel 13; the ice throwing disc 15 is positioned at the lower part of the ice cutting driven wheel 13; the ice cutting bearing seat 17 and the ice cutting bearing seat fixing bracket 16 are positioned between the ice cutting driven wheel 13 and the ice throwing disc 15; a plurality of ice cutting blades 14 for cutting ice are arranged on the ice cutting driven wheel 13; a plurality of hollowed holes are densely formed in the ice cutting blade 14 and the ice throwing disc 15; the speed reducer main shaft 11 is also coaxially connected with the speed reducer driving wheel 12, and in the practical application process, a good transmission effect and ice cutting performance can be achieved.
[ description of the drawings ]
Fig. 1 is a schematic view showing a gear transmission mechanism for an ice maker in a three-dimensional state.
Fig. 2 is a sectional state structure schematic diagram of a gear transmission mechanism for an ice maker according to the present utility model.
In the figure: a speed reducer main shaft 11; a speed reducer driving wheel 12; an ice cutting driven wheel 13; an ice cutting main shaft 131; an ice-throwing tray 15; an ice cutting bearing seat fixing bracket 16; an ice cutting bearing seat 17;
detailed description of the preferred embodiments
For the purpose of making the technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.
Referring to fig. 1 and 2, a gear transmission mechanism 1 for an ice maker of the present utility model includes a speed reducer driving wheel 12 and an ice cutting driven wheel 13 which is engaged with and matched with the speed reducer driving wheel 12; the ice cutting device also comprises an ice cutting main shaft 131, an ice cutting bearing seat 17, an ice cutting bearing seat fixing bracket 16 for fixing the ice cutting bearing seat 17 and an ice throwing disc 15 for throwing ice, wherein the ice cutting main shaft 131 is coaxially connected with the ice cutting driven wheel 13; the ice throwing disc 15 is positioned at the lower part of the ice cutting driven wheel 13; the ice cutting bearing seat 17 and the ice cutting bearing seat fixing bracket 16 are positioned between the ice cutting driven wheel 13 and the ice throwing disc 15; a plurality of ice cutting blades 14 for cutting ice are arranged on the ice cutting driven wheel 13; a plurality of hollowed holes are densely formed in the ice cutting blade 14 and the ice throwing disc 15, and the aperture size of the hollowed holes is not particularly limited in the application; the speed reducer driving wheel 12 is also coaxially connected with a speed reducer main shaft 11.
The ice cutting driven wheel 13 which is in meshing matching transmission with the speed reducer driving wheel 12 is arranged at the same time; the ice cutting device also comprises an ice cutting main shaft 131, an ice cutting bearing seat 17, an ice cutting bearing seat fixing bracket 16 for fixing the ice cutting bearing seat 17 and an ice throwing disc 15 for throwing ice, wherein the ice cutting main shaft 131 is coaxially connected with the ice cutting driven wheel 13; the ice throwing disc 15 is positioned at the lower part of the ice cutting driven wheel 13; the ice cutting bearing seat 17 and the ice cutting bearing seat fixing bracket 16 are positioned between the ice cutting driven wheel 13 and the ice throwing disc 15; a plurality of ice cutting blades 14 for cutting ice are arranged on the ice cutting driven wheel 13; a plurality of hollowed holes are densely formed in the ice cutting blade 14 and the ice throwing disc 15; the speed reducer main shaft 11 is also coaxially connected with the speed reducer driving wheel 12, and in the practical application process, a good transmission effect and ice cutting performance can be achieved.
In some other embodiments, the ice throwing disc 15 has a disc-shaped structure, and the disc-shaped structure matches and corresponds to the shape of the ice cutting driven wheel 13.
The outer diameter of the wheel body of the ice cutting driven wheel 13 is larger than that of the gear reducer driving wheel 12.
The ice cutting blades 14 have a sector structure which is equally divided, and a vertical drop is arranged between two adjacent ice cutting blades 14, so that the ice and sand fall on the ice throwing tray 15.
The whole ice cutting driven wheel 13 is in a circular ring structure, and the ice cutting blade 14 is positioned at the inner side of the ice cutting driven wheel 13.
The technical effect of the technical problem is solved by the application is as follows:
compared with the prior art, the gear transmission mechanism 1 for the ice machine is provided with the speed reducer driving wheel 12 and the ice cutting driven wheel 13 which is in meshing matching transmission with the speed reducer driving wheel 12 at the same time; the ice cutting device also comprises an ice cutting main shaft 131, an ice cutting bearing seat 17, an ice cutting bearing seat fixing bracket 16 for fixing the ice cutting bearing seat 17 and an ice throwing disc 15 for throwing ice, wherein the ice cutting main shaft 131 is coaxially connected with the ice cutting driven wheel 13; the ice throwing disc 15 is positioned at the lower part of the ice cutting driven wheel 13; the ice cutting bearing seat 17 and the ice cutting bearing seat fixing bracket 16 are positioned between the ice cutting driven wheel 13 and the ice throwing disc 15; a plurality of ice cutting blades 14 for cutting ice are arranged on the ice cutting driven wheel 13; a plurality of hollowed holes are densely formed in the ice cutting blade 14 and the ice throwing disc 15; the speed reducer main shaft 11 is also coaxially connected with the speed reducer driving wheel 12, and in the practical application process, a good transmission effect and ice cutting performance can be achieved.
The embodiments of the present utility model described above do not limit the scope of the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included in the scope of the present utility model as set forth in the appended claims.
Claims (5)
1. A gear transmission mechanism for an ice-on-tube machine, characterized by: comprises a speed reducer driving wheel and an ice cutting driven wheel which is in gear matching transmission with a speed reducer driving wheel; the ice-cutting device also comprises an ice-cutting main shaft, an ice-cutting bearing seat fixing bracket and an ice-throwing disc, wherein the ice-cutting main shaft is coaxially connected with the ice-cutting driven wheel; the ice throwing disc is positioned at the lower part of the ice cutting driven wheel; the ice cutting bearing seat and the ice cutting bearing seat fixing bracket are positioned at the position between the ice cutting driven wheel and the ice throwing disc; a plurality of ice cutting blades for cutting ice are arranged on the ice cutting driven wheel; a plurality of hollowed holes are densely formed in the ice cutting blade and the ice throwing disc; the speed reducer driving wheel is also coaxially connected with a speed reducer main shaft.
2. The gear train for an ice-on-tube machine of claim 1, wherein: the ice throwing disc is in a disc-shaped structure and is matched and corresponds to the shape of the ice cutting driven wheel.
3. The gear train for an ice-on-tube machine of claim 1, wherein: the outer diameter of the wheel body of the ice cutting driven wheel is larger than that of the wheel body of the speed reducer driving wheel.
4. A gear train for an ice-on-tube machine as claimed in any one of claims 1 to 3, wherein: the ice cutting ice blades are of an equally-divided fan-shaped structure, and vertical drop is arranged between two adjacent ice cutting ice blades and used for enabling ice and sand to fall on the ice throwing disc.
5. The gear train for an ice-on-tube machine of claim 1, wherein: the ice cutting driven wheel is integrally in a circular ring structure, and the ice cutting blade is positioned at the inner side of the ice cutting driven wheel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321823551.9U CN220229656U (en) | 2023-07-12 | 2023-07-12 | Gear transmission mechanism for ice machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321823551.9U CN220229656U (en) | 2023-07-12 | 2023-07-12 | Gear transmission mechanism for ice machine |
Publications (1)
Publication Number | Publication Date |
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CN220229656U true CN220229656U (en) | 2023-12-22 |
Family
ID=89179646
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321823551.9U Active CN220229656U (en) | 2023-07-12 | 2023-07-12 | Gear transmission mechanism for ice machine |
Country Status (1)
Country | Link |
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CN (1) | CN220229656U (en) |
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2023
- 2023-07-12 CN CN202321823551.9U patent/CN220229656U/en active Active
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