Roller seat with water-cooling function for rhinestone grinding and polishing machine

Abstract

A roller seat with a water-cooling function for a rhinestone grinding and polishing machine, relating to the technical field of roller seats for rhinestone grinding and polishing machines. Said roller seat comprises: a roller seat housing; a rolling wheel support member, the roller seat housing being provided with a roller slot, and the rolling wheel support member being arranged on the roller seat housing by means of the roller slot; and a water-cooling assembly, which is arranged on the roller seat housing and is configured for water circulation to dissipate heat for a roller. The water-cooling assembly comprises: a water spraying member arranged on the roller seat housing; a cooling member, wherein the roller seat housing is provided with a connecting slot, the connecting slot is in communication with the roller slot by means of the rolling wheel support member, and the cooling member is arranged on the roller seat housing by means of the connecting slot, and is configured to collect water that has been used by the water spraying member to cool the roller; and a water pump, which is arranged on the roller seat housing, with one end of the water pump being in communication with the water spraying member, and the other end of the water pump passing through the roller seat housing to be in communication with the cooling member. By means of the water-cooling assembly and a circulating cooling system, cooling water can be effectively used, thereby reducing the water consumption.

Description

A water-cooled drill grinding and polishing machine drum base Technical Field

[0001] This application relates to the technical field of water drill grinding and polishing machine drum bases, and in particular to a water drill grinding and polishing machine drum base with water cooling function. Background Technology

[0002] A rhinestone grinding and polishing machine is a specialized device for grinding and polishing rhinestone blanks. Through grinding and polishing, the rhinestones are given a diamond-like shape and fire. The roller seat of the rhinestone grinding and polishing machine is an important component installed on the base of the machine. The rollers used for grinding and polishing the rhinestones can be rolled on it, providing stable support for the rollers and ensuring that the rollers maintain the correct posture and position during the grinding and polishing process, without violent shaking or displacement, thereby ensuring the accuracy and quality of the rhinestone grinding and polishing.

[0003] Currently, a Chinese patent application with the announcement date of March 8, 2022, and announcement number CN 215968199U, discloses a water-cooled water drill polishing machine drum base. The drum base includes a drum base with a drum groove for placing the drum. A water channel is provided on the inner wall of the drum groove, and a cooling component is located below the water channel. A water gun is located on the side wall of the drum base. The cooling component introduces cooled water into the water gun, and the nozzle of the water gun faces the drum, thus reducing the drum temperature.

[0004] In the related technology, the water-cooled water-cooled grinding and polishing machine drum base cannot reuse the water source after cooling the drum, which wastes water resources. Since the original water source cannot be used, new water needs to be constantly added. This may lead to frequent shutdowns for water replenishment during the production process due to water shortage, affecting the continuity and stability of production, reducing production efficiency, and also reducing cooling efficiency. As a result, the drum cannot be cooled in a timely and effective manner, which in turn aggravates the wear of the drum and shortens its service life.

[0005] Therefore, it is necessary to provide a water-cooled water-drilling and polishing machine roller base to solve the above problems. Technical issues

[0006] This application provides a water-cooled grinding and polishing machine drum seat to improve the technical problem in related technologies where the water source used to cool the drum cannot be reused, wasting water resources and reducing production efficiency. Technical solutions

[0007] This application provides a water-cooled water-drilling and polishing machine drum base, including: a drum base housing;

[0008] A roller support member is provided, wherein a roller groove is provided on the outer shell of the roller seat, and the roller support member is mounted on the outer shell of the roller seat through the roller groove;

[0009] A water-cooling component is installed on the outer shell of the roller seat to realize water circulation and dissipate heat from the roller;

[0010] The water-cooling components include,

[0011] A water spray component is mounted on the outer shell of the roller seat and is connected to the water pump.

[0012] The cooling component has a connecting groove on the outer shell of the roller seat. The connecting groove is connected to the roller groove through the roller support component. The cooling component is installed on the outer shell of the roller seat through the connecting groove and is used to collect the water source after the roller is cooled by the water spray component and to cool it down.

[0013] A water pump is installed on the outer shell of the drum seat, with one end connected to the water spray component and the other end passing through the outer shell of the drum seat and connected to the cooling component.

[0014] The technical solutions described above in this application embodiment have at least the following technical effects: When the user rotates the roller using the water drill polishing machine roller seat, the roller is supported and assisted to rotate by the roller support component. The water pump pumps the cooling water in the cooling component into the water spray component to cool the roller. The cooled liquid flows into the cooling component from the gap between the roller support components. The cooling component cools the liquid and performs circulating cooling. Beneficial effects

[0015] The water-cooled grinding and polishing machine roller base provided in this application embodiment can effectively reduce the heat generated by the rollers during high-speed rotation through the water-cooling components, preventing the rollers from deforming or being damaged due to overheating, thereby extending the service life of the equipment. At the same time, the circulating cooling system can effectively utilize cooling water, reducing water consumption and achieving energy-saving and environmental protection effects. In addition, stable temperature control can reduce energy waste caused by overheating.

[0016] In some embodiments, the roller support includes:

[0017] A connecting rod is provided on the outer shell of the roller seat;

[0018] Rotating rollers are arranged in an array on the connecting rod and are rotatably connected to the connecting rod. The gap between the connecting rod and the rotating rollers facilitates the flow of water into the connecting groove.

[0019] In some embodiments, the water spray component includes:

[0020] The support tube is disposed on the outer shell of the roller seat;

[0021] The conduit is disposed on the support tube;

[0022] The nozzles, arranged in an array on the duct, are used to spray coolant.

[0023] In some embodiments, the cooling element includes:

[0024] An inclined plate is provided on the outer shell of the drum seat, with the end of the inclined plate closer to the water pump having a lower height.

[0025] A heat sink, mounted on the inclined plate, is used to improve the heat dissipation efficiency of the coolant.

[0026] In some embodiments, a guide groove is provided on the inclined plate.

[0027] In some embodiments, a mounting plate is provided on the roller seat housing, and the water pump is mounted on the roller seat housing via the mounting plate.

[0028] In some embodiments, the water pump is provided with an inlet pipe and an outlet pipe. One end of the inlet pipe passes through the outer shell of the roller seat and communicates with the connecting groove. The other end of the inlet pipe is communicated with the water pump. One end of the outlet pipe is communicated with the water pump, and the other end of the outlet pipe is communicated with the conduit. Both the conduit and the outlet pipe are provided with mounting flanges. Attached Figure Description

[0029] Figure 1 is a three-dimensional structural schematic diagram of the water-cooled grinding and polishing machine drum seat provided in an embodiment of this application;

[0030] Figure 2 is a three-dimensional structural schematic diagram of the water-cooled water-drilling and polishing machine drum seat provided in an embodiment of this application;

[0031] Figure 3 is a cross-sectional structural diagram of the water-cooled drilling and polishing machine drum seat provided in an embodiment of this application;

[0032] Figure 4 is a three-dimensional structural diagram of the roller support member provided in the embodiment of this application;

[0033] The following are the labeling elements in the figure:

[0034] 1. Roller seat housing; 11. Roller groove; 12. Roller support; 121. Connecting rod; 122. Rotating roller; 2. Water cooling assembly; 21. Connecting groove; 22. Mounting plate; 23. Water pump; 24. Inlet pipe; 25. Outlet pipe; 26. Spray nozzle; 261. Guide pipe; 262. Support pipe; 263. Nozzle; 27. Mounting flange; 28. Cooling component; 281. Inclined plate; 282. Guide groove; 283. Heat dissipation plate. The best embodiment of the present invention

[0035] In the related technology, the water-cooled water-cooled grinding and polishing machine drum base cannot reuse the water source after cooling the drum, which wastes water resources. Since the original water source cannot be used, new water needs to be constantly added. This may lead to frequent shutdowns for water replenishment during the production process due to water shortage, affecting the continuity and stability of production, reducing production efficiency, and also reducing cooling efficiency. As a result, the drum cannot be cooled in a timely and effective manner, which in turn aggravates the wear of the drum and shortens its service life.

[0036] Based on this, in order to improve the technical problem in the related technology that the water source used to cool the water drum of the water drill polishing machine cannot be reused, which wastes water resources and reduces production efficiency, the embodiments of this application provide the following solution.

[0037] Please refer to Figures 1 to 4. This application embodiment provides a water-cooled water drill polishing machine roller base. The water-cooled water drill polishing machine roller base includes a roller base shell 1, a roller support member 12, and a water-cooling component 2. The roller base shell 1 is used to support parts. A roller groove 11 is opened on the roller base shell 1. The roller support member 12 is set on the roller base shell 1 through the roller groove 11 to support the roller and reduce sliding friction. The water-cooling component 2 is set on the roller base shell 1 to realize water circulation and dissipate heat from the roller.

[0038] The water-cooling assembly 2 includes a water spray component 26, which is disposed on the roller seat housing 1 and communicates with the water pump 23; a cooling component 28, which has a connecting groove 21 on the roller seat housing 1, the connecting groove 21 communicating with the roller groove 11 through the roller support component 12, and is disposed on the roller seat housing 1 through the connecting groove 21, for collecting the water source after the roller is cooled by the water spray component 26 and cooling it; and a water pump 23, which is disposed on the roller seat housing 1, with one end communicating with the water spray component 26 and the other end passing through the roller seat housing 1 and communicating with the cooling component 28.

[0039] The outdoor vacuum circuit breaker protective housing provided in this embodiment allows the user to rotate the rollers using a water drill / polishing machine. The roller support 12 supports and assists in the rotation of the rollers. A water pump 23 cools the rollers by pumping cooling water from the cooling component 28 into the spray nozzle 26. The cooled liquid flows from the gap between the roller support 12 into the cooling component 28, where it is further cooled through a circulating cooling system. This water-cooling assembly 2 effectively reduces the heat generated by the rollers during high-speed rotation, preventing deformation or damage due to overheating and extending the equipment's lifespan. The circulating cooling system also effectively utilizes cooling water, reducing water consumption and achieving energy conservation and environmental protection. Furthermore, stable temperature control reduces energy waste caused by overheating.

[0040] In some embodiments, the roller support 12 includes: a connecting rod 121 disposed on the roller seat housing 1; and rotating rollers 122 arranged in an array on the connecting rod 121 and rotatably connected to the connecting rod 121. The gap between the connecting rod 121 and the rotating rollers 122 facilitates the flow of water into the connecting groove 21.

[0041] With this configuration, when the roller is placed on the rotating roller 122, the connecting rod 121 supports the rotation of the rotating roller 122. While the power assembly drives the roller to rotate, rolling friction occurs between the roller and the rotating roller 122, reducing the probability of roller damage. Simultaneously, the coolant cools the roller, reducing the heat generated during high-speed rotation and preventing deformation or damage due to overheating. The coolant flows from between the rotating roller 122 and the support rod into the cooling component 28. Thus, rolling friction, rather than sliding friction, occurs between the roller and the rotating roller 122. The coefficient of friction for rolling friction is typically lower than that for sliding friction, significantly reducing wear between the roller and the rotating roller 122. This helps extend the service life of the roller and the rotating roller 122, reducing maintenance and replacement costs. The support of the connecting rod 121 for the rotating roller 122 ensures stable rotation, avoiding unnecessary shaking and impact, further reducing wear.

[0042] In some embodiments, the water spray component 26 includes: a support pipe 262 disposed on the roller seat housing 1; a conduit 261 disposed on the support pipe 262 and connected to the water pump 23; and nozzles 263 arranged in an array on the conduit 261 for spraying coolant.

[0043] With this configuration, the liquid pumped from the water pump 23 is sprayed out from the nozzles 263 through the connection of the support pipe 262 and the conduit 261. Multiple nozzles 263 can better cool the roller. In this way, multiple nozzles 263 can ensure that the coolant is evenly distributed in all parts of the roller, avoiding the uneven cooling problem that may be caused by a single nozzle 263. Uniform cooling can effectively prevent the roller from deforming or being damaged due to local overheating.

[0044] In some embodiments, the cooling component 28 includes: an inclined plate 281 disposed on the drum seat housing 1, wherein the end of the inclined plate 281 that is close to the water pump 23 is at a lower height; and a heat dissipation plate 283 disposed on the inclined plate 281 for improving the heat dissipation efficiency of the coolant.

[0045] With this configuration, when coolant flows from the rotating roller 122 into the connecting groove 21, the inclined plate 281 collects the coolant at its lower end, aiding the water pump 23 in pumping the coolant in. The heat dissipation plate 283 on the inclined plate 281 increases the heat dissipation area of ​​the coolant, accelerating its cooling. This concentration of coolant at the lower end of the inclined plate 281 helps the water pump 23 to pump it more effectively into the circulation system, reducing coolant stagnation and waste, and improving collection efficiency. The increased heat dissipation area of ​​the inclined plate 281 further accelerates the cooling process, allowing the coolant to dissipate heat into the environment more quickly, thus improving the overall cooling effect.

[0046] In some embodiments, a guide groove 282 is provided on the inclined plate 281.

[0047] With this configuration, the guide channel 282 facilitates the flow of coolant. In this way, the guide channel 282 can effectively guide the coolant to flow along a predetermined path, ensuring that the liquid can flow quickly and smoothly from the high point of the inclined plate 281 to the low point. This can prevent the coolant from stagnating or accumulating on the inclined plate 281, thereby improving the flow efficiency of the coolant.

[0048] In some embodiments, a mounting plate 22 is provided on the roller seat housing 1, and the water pump 23 is mounted on the roller seat housing 1 through the mounting plate 22.

[0049] This design, which involves installing a mounting plate 22 on the drum housing 1 and fixing the water pump 23 to the drum housing 1 via the mounting plate 22, not only improves the stability of the structure and the reliability of the equipment, but also facilitates installation and maintenance, optimizes space utilization, enhances system compatibility, improves operational safety, and has the advantages of energy saving and environmental protection.

[0050] In some embodiments, the water pump 23 is provided with an inlet pipe 24 and an outlet pipe 25. One end of the inlet pipe 24 passes through the outer shell 1 of the roller seat and communicates with the connecting groove 21. The other end of the inlet pipe 24 is connected to the water pump 23. One end of the outlet pipe 25 is connected to the water pump 23. The other end of the outlet pipe 25 is connected to the conduit 261. Both the conduit 261 and the outlet pipe 25 are provided with mounting flanges 27.

[0051] With this configuration, one end of the inlet pipe 24 passes through the outer shell 1 of the roller seat and connects to the connecting groove 21, while the other end connects to the water pump 23. This ensures that the coolant can flow smoothly from the connecting groove 21 into the water pump 23, guaranteeing the continuous flow of coolant in the system and preventing insufficient coolant supply due to poor pipe connection. Flanges 27 are installed on the outlet pipe 25 and the conduit 261 and connected by bolts and other fasteners, which can effectively improve the sealing of the pipes and prevent coolant leakage. The sealing design of the flange can withstand high pressure and temperature, ensuring good sealing performance under various working conditions.

[0052] The implementation principle of a water-cooled water-jet polishing machine roller base according to an embodiment of this application is as follows: When the user rotates the roller using the water-jet polishing machine roller base, the connecting rod 121 supports the rotation of the rotating roller 122 when the roller is placed on the rotating roller 122. At the same time as the power component drives the roller to rotate, rolling friction occurs between the roller and the rotating roller 122, reducing the probability of roller damage. Through the connection of the support pipe 262 and the conduit 261, the liquid pumped by the water pump 23 is sprayed out from the nozzle 263. Multiple nozzles 263 can better cool the roller. When the coolant flows from the rotating roller 122 and the support rod into the connecting groove 21, the inclined plate 281 collects the coolant on the lower end of the inclined plate 281, helping the water pump 23 to pump the coolant in. The heat dissipation plate 283 on the inclined plate 281 increases the heat dissipation area of ​​the coolant and accelerates the cooling of the coolant, thereby achieving circulating cooling.

[0053] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A water-cooled cylinder seat for a water-brilliant grinding and polishing machine, characterized in that, The utility model relates to a water cooling device for a rolling cylinder, comprising: a rolling cylinder seat shell (1); a rolling wheel support (12) arranged on the rolling cylinder seat shell (1) through a rolling cylinder groove (11) formed in the rolling cylinder seat shell (1); a water cooling assembly (2) arranged on the rolling cylinder seat shell (1) to realize water circulation and heat dissipation of the rolling cylinder; wherein the water cooling assembly (2) comprises a water spraying member (26) arranged on the rolling cylinder seat shell (1); a cooling member (28) arranged on the rolling cylinder seat shell (1) through a connecting groove (21) formed in the rolling cylinder seat shell (1) and communicating with the rolling cylinder groove (11) through the rolling wheel support (12), for collecting water cooled by the rolling wheel through the water spraying member (26) and cooling the water; a water pump (23) arranged on the rolling cylinder seat shell (1) and communicating with the water spraying member (26) at one end and the cooling member (28) at the other end.

2. The water-cooled cylinder seat of the machine for grinding and polishing of the water-drill according to claim 1, characterized in that, The rolling wheel support (12) comprises a connecting rod (121) arranged on the rolling cylinder seat shell (1); a rotating rolling wheel (122) arranged on the connecting rod (121) in an array and rotatably connected to the connecting rod (121), and a gap between the connecting rod (121) and the rotating rolling wheel (122) facilitating water circulation into the connecting groove (21).

3. The water-cooled cylinder seat of the machine for grinding and polishing of the water-drill according to claim 2, characterized in that, The water spraying member (26) comprises a support pipe (262) arranged on the rolling cylinder seat shell (1); a guide pipe (261) arranged on the support pipe (262) and communicating with the water pump (23); a plurality of spray heads (263) arranged on the guide pipe (261) in an array and used for spraying cooling liquid.

4. The water-cooled cylinder seat of the machine for grinding and polishing of the water-drill according to claim 3, characterized in that, The cooling member (28) comprises an inclined plate (281) arranged on the rolling cylinder seat shell (1) and having a lower height at an end close to the water pump (23); a heat dissipation plate (283) arranged on the inclined plate (281) and used for improving the heat dissipation efficiency of the cooling liquid.

5. The water-cooled cylinder seat of the machine for grinding and polishing of the simulated diamond according to claim 4, characterized in that: The inclined plate (281) is provided with a flow guide groove (282).

6. The water-cooled cylinder seat of the machine for grinding and polishing of the simulated diamond according to claim 5, characterized in that: The rolling cylinder seat shell (1) is provided with a mounting plate (22), and the water pump (23) is arranged on the rolling cylinder seat shell (1) through the mounting plate (22).

7. The water-cooled cylinder seat of the machine for grinding and polishing of the simulated diamond according to claim 6, characterized in that: The water pump (23) is provided with an inlet pipe (24) and an outlet pipe (25), one end of the inlet pipe (24) penetrates through the rolling cylinder seat shell (1) and communicates with the connecting groove (21), the other end of the inlet pipe (24) communicates with the water pump (23), one end of the outlet pipe (25) communicates with the water pump (23), and the other end of the outlet pipe (25) communicates with the guide pipe (261), and the guide pipe (261) and the outlet pipe (25) are both provided with mounting flanges (27).

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