CN219853472U - Cooling device for machining mechanical parts - Google Patents

Abstract

The utility model relates to the technical field of machining of mechanical parts, and discloses a cooling device for machining of mechanical parts, wherein a clamping mechanism for clamping parts and a spraying mechanism for cooling the parts are arranged in a box body, the spraying mechanism comprises a spraying plate positioned above the clamping mechanism and a water return plate positioned below the clamping mechanism, the water inlet end of the spraying plate is connected with a water supply assembly, the water outlet end of the spraying plate faces the clamping mechanism, the water return plate is used for recovering water sprayed by the spraying plate, the water return plate conveys the collected water to the water supply assembly, and a water cooling module achieves the aim of fully recycling waste water generated in the cooling process. The air cooling module increases the circulation speed of air near the cooling pipe through the fan, and achieves the effect of fully cooling the waste water in the cooling pipe. The magnetic attraction module achieves the effect of adsorbing scrap iron on a conveying belt passing through the upper part of the box body and collecting the scrap iron into the box body.

Description

Cooling device for machining mechanical parts

Technical Field

The utility model relates to the technical field of machining of mechanical parts, in particular to a cooling device for machining of mechanical parts.

Background

The chinese patent publication No. CN210035980U discloses a machining technology for a mechanical part, specifically a cooling device for machining a mechanical part, where the mechanical part is also called a mechanical element, is a basic element forming a machine, is an undetachable single piece forming a machine and a machine, and is not only a subject of researching and designing a mechanical base in various devices, but also a general term for parts and components, and materials most commonly used in machine manufacturing are steel and cast iron, and secondly, nonferrous metal alloys. Non-metallic materials such as plastics, rubber, etc., and after mechanical parts are subjected to corresponding thermal processes, workers typically use corresponding cooling devices to reduce the temperature of the mechanical parts after processing.

The existing cooling device for machining mechanical parts has certain defects when in use:

1. the existing cooling device for machining mechanical parts is insufficient in temperature treatment;

2. the wastewater generated in the cooling process is not collected and recycled;

3. scrap iron generated in the processing process is not reasonably collected.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a cooling device for machining mechanical parts, which comprises a box body, wherein a clamping mechanism for clamping parts and a spraying mechanism for cooling the parts are arranged in the box body.

The spraying mechanism comprises a spraying plate positioned above the clamping mechanism and a water return plate positioned below the clamping mechanism, the water inlet end of the spraying plate is connected with a water supply assembly, the water outlet end of the spraying plate faces the clamping mechanism, the water return plate is used for recovering water sprayed by the spraying plate, and the water return plate conveys the collected water to the water supply assembly.

As a further improvement of the scheme, the water supply assembly comprises a water cooling module and an air cooling module, wherein the water inlet end of the water cooling module is used for receiving water collected by the water return plate, and the water outlet end of the water cooling module is connected to the spray plate.

Through the technical scheme, the effect of fully treating the temperature generated by machining the mechanical parts while clamping the parts is achieved.

As the further improvement of above-mentioned scheme, water-cooling module includes water pump one, water pump two, cooling tube, bracing piece, and water pump two are installed in the box below, and water pump two are installed in the box top, and water on the return water board is collected to water inlet end of water pump one, and the one end of cooling tube is connected to water outlet end of water pump one, and the other end of cooling tube and water inlet end of water pump two are connected, and water outlet end and the shower board of water pump two pass through water piping connection, and cooling tube and bracing piece are connected.

Through the technical scheme, the purpose of fully recycling the wastewater generated in the cooling process is achieved.

As a further improvement of the scheme, the air cooling module comprises a fixing column, a supporting tube, a motor and fan blades, wherein the fixing column is fixedly arranged on the box body, one end of the supporting tube is fixedly connected with the fixing column, the other end of the supporting tube is connected with the motor, the motor drives the fan blades to rotate through a rotating shaft, and the fan blades are positioned right above the cooling tube.

Through above-mentioned technical scheme, through the circulation speed of the nearby air of cooling tube has been increaseed to the fan, has reached the effect to the abundant cooling of waste water in the cooling tube.

As a further improvement of the scheme, the clamping mechanism comprises a processing platform, lifters, a second telescopic rod and clamping plates, lifters are arranged on two sides above the processing platform, the second telescopic rod is installed above the lifters, and the output end of the second telescopic rod is connected with the clamping plates.

Through the technical scheme, not only can the parts be better clamped, but also the height of the parts during processing can be adjusted.

As a further improvement of the scheme, a conveyor belt is arranged between the clamping mechanism and the water return plate, a recovery assembly is arranged below the conveyor belt, a plurality of leak holes are formed in a conveying belt of the conveyor belt, and a discharge hole is further formed in one side of the bottom of the box body.

The recovery assembly comprises a box body, a first telescopic rod and a fixed plate, wherein the fixed plate is arranged outside the box body, the first telescopic rod is horizontally arranged and arranged on the fixed plate, the output end of the first telescopic rod is connected with the box body, the first telescopic rod can drive the box body to pass through a discharge hole, the box body is slidably connected with a backwater plate, and one end of the backwater plate extends to the outer side of the box body and is connected with the fixed plate.

The magnetic attraction module is also arranged below the box body and used for adsorbing scrap iron on the conveying belt passing through the upper part of the box body.

Through above-mentioned technical scheme, reach iron fillings and water to the production in the course of working, do not carry out reasonable effect of collecting.

As a further improvement of the scheme, a notch is arranged at the bottom of the box body, the rotating shaft is arranged in the notch, the rotating shaft is connected with a movable iron plate, and the other end of the movable iron plate is movably connected with the inner wall of the notch.

Through above-mentioned technical scheme, reach the effect of exporting the interior iron fillings of box body.

As a further improvement of the scheme, the magnetic attraction module comprises a telescopic rod III and an electromagnet, wherein the telescopic rod III is arranged in the cavity, and the output end of the telescopic rod III is connected with the electromagnet.

Through above-mentioned technical scheme, reach the effect of adsorbing the conveyer belt upper scrap iron that passes through box body top and collecting in the box body.

Compared with the prior art, the utility model has the beneficial effects that:

1. the air cooling module comprises a fixed column, a supporting tube, a motor and fan blades, wherein the fixed column is fixedly arranged on a box body, the supporting tube is U-shaped, one end of the supporting tube is fixedly connected with the fixed column, the other end of the supporting tube is connected with the motor, the motor drives the fan blades to rotate through a rotating shaft, the fan blades are positioned right above a cooling tube, and the circulation speed of air near the cooling tube is increased through the fan of the air cooling module, so that the effect of fully cooling waste water in the cooling tube is achieved.

2. The water cooling module comprises a first water pump, a second water pump, a cooling pipe and a supporting rod, wherein the first water pump is arranged below a box body, the second water pump is arranged above the box body, the water inlet end of the first water pump is used for collecting water on a water return plate, the water outlet end of the first water pump is connected with one end of the cooling pipe, the other end of the cooling pipe is connected with the water inlet end of the second water pump, the water outlet end of the second water pump is connected with a spraying plate through a water pipe, the cooling pipe is connected with the supporting rod, and the purpose of fully recycling waste water generated in a cooling process is achieved through the connection of the cooling pipe and the upper water pump and the lower water pump.

3. The magnetic attraction module comprises a telescopic rod III and an electromagnet, the telescopic rod III is arranged in the cavity, the output end of the telescopic rod III is connected with the electromagnet, and the effect of adsorbing scrap iron on a conveying belt passing through the upper part of the box body and collecting the scrap iron in the box body is achieved through the magnetic attraction module.

Drawings

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

FIG. 2 is a schematic view of the whole cross-sectional structure of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2B;

fig. 5 is a schematic structural view of the case moving to the discharge port.

Main symbol description:

the box body 1, the first telescopic rod 2, the fixed plate 3, the supporting block 4, the discharge hole 5, the first water pump 6, the cooling pipe 7, the fan blade 8, the motor 9, the second water pump 10, the supporting pipe 11, the fixed column 12, the supporting rod 13, the base 14, the cavity 15, the conveying belt 16, the processing platform 17, the lifter 18, the second telescopic rod 19, the clamping plate 20, the spraying plate 21, the leak hole 22, the baffle 23, the box body 24, the rotating shaft 25, the electromagnet 26, the third telescopic rod 27, the backwater plate 28 and the movable iron plate 29.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Example 1:

referring to fig. 1-5, the embodiment discloses a cooling device for machining mechanical parts, which comprises a box body 1, wherein a clamping mechanism for clamping the parts and a spraying mechanism for cooling the parts are arranged in the box body 1.

The spraying mechanism comprises a spraying plate 21 positioned above the clamping mechanism and a water return plate 28 positioned below the clamping mechanism, the water inlet end of the spraying plate 21 is connected with a water supply assembly, the water outlet end of the spraying plate 21 faces the clamping mechanism, the water return plate is used for recovering water sprayed by the spraying plate 21, and the water return plate 28 conveys the collected water to the water supply assembly.

As an alternative embodiment of the present utility model, the water supply assembly includes a water cooling module and an air cooling module, wherein the water inlet end of the water cooling module is used for receiving the moisture collected by the water return plate 28, the water outlet end of the water cooling module is connected to the spray plate, and the base 14 is disposed below the water cooling module for fixing the position of the water cooling module.

As an alternative embodiment of the present utility model, the water cooling module includes a first water pump 6, a second water pump 10, a cooling pipe 7, and a supporting rod 13, the first water pump 6 is installed below the box 1, the second water pump 10 is installed above the box 1, the water inlet end of the first water pump 6 collects water on the water return plate 28, the water outlet end of the first water pump 6 is connected to one end of the cooling pipe 7, the other end of the cooling pipe 7 is connected to the water inlet end of the second water pump 10, the water outlet end of the second water pump 10 is connected to the shower plate 21 through a water pipe, and the cooling pipe 7 is connected to the supporting rod 13.

As an alternative embodiment of the utility model, the air cooling module comprises a fixed column 12, a supporting tube 11, a motor 9 and fan blades 8, wherein the fixed column 12 is fixedly arranged on the box body 1, the supporting tube 11 is U-shaped, one end of the supporting tube 11 is fixedly connected with the fixed column 12, the other end of the supporting tube 11 is connected with the motor 9, the motor 9 drives the fan blades 8 to rotate through a rotating shaft, and the fan blades 8 are positioned right above the cooling tube 7.

As an alternative embodiment of the utility model, the clamping mechanism comprises a processing platform 17, lifters 18, a second telescopic rod 19 and a clamping plate 20, wherein lifters 18 are arranged on two sides above the processing platform 17, the second telescopic rod 19 is arranged above the lifters 18, and the output end of the second telescopic rod 19 is connected with the clamping plate 20.

As an alternative embodiment of the utility model, a conveyor belt 16 is arranged between the clamping mechanism and the water return plate 28, a recovery assembly is arranged below the conveyor belt 16, a plurality of leakage holes 22 are arranged on a conveying belt of the conveyor belt 16, baffle plates 23 are arranged at intervals on two sides above the conveyor belt 16, and a discharge hole 5 is arranged on one side of the bottom of the box body.

The recovery assembly comprises a box 24, a telescopic rod one 2 and a fixed plate 3, wherein the fixed plate 3 is arranged on the outer side of the box 1, the telescopic rod one 2 is horizontally arranged and arranged on the fixed plate 3, the output end of the telescopic rod one 2 is connected with the box 24, the telescopic rod one 2 can drive the box 24 to pass through a discharge hole 5, the box 24 is slidably connected with a backwater plate 2828, and one end of the backwater plate 28 extends to the outer side of the box 1 and is connected with the fixed plate 3.

The magnetic attraction module is also arranged below the box body and used for adsorbing scrap iron on the conveyor belt passing through the upper part of the box body 24.

As an alternative embodiment of the utility model, a notch is arranged at the bottom of the box body 24, the rotating shaft 25 is arranged in the notch, the rotating shaft 25 is connected with a movable iron plate 29, and the other end of the movable iron plate 29 is movably connected with the inner wall of the notch.

As an alternative embodiment of the utility model, the magnetic attraction module comprises a third telescopic rod 27 and an electromagnet 26, wherein the third telescopic rod 27 is arranged in the cavity 15, and the output end of the third telescopic rod 27 is connected with the electromagnet 26.

The scheme is when working:

firstly, the parts in the box body 1 are placed on a clamping mechanism for processing, and at the moment, a spraying mechanism above the box body 1 sprays cooling water onto the parts through a spraying plate 21 for cooling. The water leakage hole 22 enters the water return plate 28, the water on the water return plate 28 is collected by the water inlet end of the first water pump 6, the water outlet end of the first water pump 6 is connected with one end of the cooling pipe 7, the other end of the cooling pipe 7 is connected with the water inlet end of the second water pump 10, and the water outlet end of the second water pump 10 is connected with the spray plate 21 through a water pipe, so that a whole water circulation system is formed.

The air cooling module that this scheme provided includes fixed column 12, stay tube 11, motor 9, flabellum 8, and fixed column 12 fixed mounting is on box 1, and stay tube 11 is "U" shape, and stay tube 11 one end and fixed column 12 fixed connection, and the stay tube 11 other end is connected with motor 9, and motor 9 drives flabellum 8 through the pivot and rotates, and flabellum 8 is located cooling tube 7 directly over, through the fan of air cooling module, has increaseed the circulation speed of the nearby air of cooling tube, has reached the effect to the waste water in the cooling tube fully cooling.

The water cooling module that this scheme provided includes water pump one 6, water pump two 10, cooling tube 7, bracing piece 13, water pump one 6 is installed in box 1 below, water pump two 10 are installed in box 1 top, water on the return water board 28 is collected to the water inlet end of water pump one 6, the one end of cooling tube 7 is connected to the water outlet end of water pump one 6, the other end of cooling tube 7 and the water inlet end of water pump two 10 are connected, and the water outlet end of water pump two 10 passes through water piping connection with spray board 21, and cooling tube 7 is connected with bracing piece 13, reached the purpose of carrying out abundant recycle to the waste water that produces in the cooling process.

The recovery subassembly that this scheme provided includes box body 24, telescopic link one 2, fixed plate 3 installs in the box body 1 outside, telescopic link one 2 levels setting, and install on fixed plate 3, and telescopic link one 2's output is connected with box body 24, telescopic link one 2 can drive box body 24 through discharge gate 5, box body 24 sliding connection is in return water board 2828, and return water board 28's one end extends to the box body 1 outside and is connected with fixed plate 3, the box body below still is provided with the magnetism and inhales the module, the magnetism is inhaled the module and is included telescopic link three 27, electro-magnet 26, the telescopic link three 27 is installed in cavity 15, the output and the electro-magnet 26 of telescopic link three 27 are connected, through the magnetism, reach the effect of adsorbing scrap iron on the conveyer belt through the box body top and collecting to the box body.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (8)

1. The utility model provides a heat sink is used in machine part processing, includes box, its characterized in that:

the box body is internally provided with a clamping mechanism for clamping parts and a spraying mechanism for cooling the parts;

the spraying mechanism comprises a spraying plate positioned above the clamping mechanism and a water return plate positioned below the clamping mechanism, wherein the water inlet end of the spraying plate is connected with a water supply assembly, the water outlet end of the spraying plate faces the clamping mechanism, the water return plate is used for recovering water sprayed by the spraying plate, and the water return plate conveys the collected water to the water supply assembly.

2. The cooling device for machining mechanical parts according to claim 1, wherein the water supply assembly comprises a water cooling module and an air cooling module, wherein a water inlet end of the water cooling module is used for receiving water collected by the water return plate, and a water outlet end of the water cooling module is connected to the spray plate.

3. The cooling device for machining mechanical parts according to claim 2, wherein the water cooling module comprises a first water pump, a second water pump, a cooling pipe and a supporting rod, the first water pump is arranged below the box body, the second water pump is arranged above the box body, the water on the backwater plate is collected by the water inlet end of the first water pump, the water outlet end of the first water pump is connected with one end of the cooling pipe, the other end of the cooling pipe is connected with the water inlet end of the second water pump, the water outlet end of the second water pump is connected with the spraying plate through a water pipe, and the cooling pipe is connected with the supporting rod.

4. The cooling device for machining mechanical parts according to claim 2, wherein the air cooling module comprises a fixing column, a supporting tube, a motor and fan blades, the fixing column is fixedly arranged on the box body, the supporting tube is in a U shape, one end of the supporting tube is fixedly connected with the fixing column, the other end of the supporting tube is connected with the motor, the motor drives the fan blades to rotate through a rotating shaft, and the fan blades are located right above the cooling tube.

5. The cooling device for machining mechanical parts according to claim 1, wherein the clamping mechanism comprises a machining platform, lifters, a second telescopic rod and clamping plates, lifters are arranged on two sides above the machining platform, the second telescopic rod is arranged above the lifters, and the output end of the second telescopic rod is connected with the clamping plates.

6. The cooling device for machining mechanical parts according to claim 1, wherein a conveyor belt is arranged between the clamping mechanism and the water return plate, a recovery assembly is arranged below the conveyor belt, a plurality of leakage holes are formed in a conveying belt of the conveyor belt, and a discharge hole is further formed in one side of the bottom of the box body;

the recycling assembly comprises a box body, a first telescopic rod and a fixed plate, the fixed plate is arranged on the outer side of the box body, the first telescopic rod is horizontally arranged and arranged on the fixed plate, the output end of the first telescopic rod is connected with the box body, the first telescopic rod can drive the box body to pass through the discharge hole, the box body is connected with the backwater plate in a sliding mode, and one end of the backwater plate extends to the outer side of the box body and is connected with the fixed plate;

the magnetic attraction module is further arranged below the box body and used for adsorbing scrap iron on the conveying belt passing through the upper part of the box body.

7. The cooling device for machining mechanical parts according to claim 6, wherein a notch is formed in the bottom of the box body, the rotating shaft is installed in the notch, the rotating shaft is connected with a movable iron plate, and the other end of the movable iron plate is movably connected with the inner wall of the notch.

8. The cooling device for machining mechanical parts according to claim 6, wherein the magnetic attraction module comprises a third telescopic rod and an electromagnet, the third telescopic rod is arranged in the cavity, and the output end of the third telescopic rod is connected with the electromagnet.