CN114378632A

CN114378632A - Cooling liquid cyclic utilization device for metal casting processing

Info

Publication number: CN114378632A
Application number: CN202210177360.3A
Authority: CN
Inventors: 陈婷
Original assignee: Deqing Jufeng Machinery Manufacturing Co ltd
Current assignee: Deqing Jufeng Machinery Manufacturing Co ltd
Priority date: 2022-02-25
Filing date: 2022-02-25
Publication date: 2022-04-22

Abstract

The invention discloses a cooling liquid recycling device for metal casting processing, and relates to the technical field of cooling liquid recycling. According to the invention, the overhanging plate and the top cover plate are folded, the sealing property between the overhanging plate and the top cover plate is increased through the sealing adhesive strips, cooling water is poured into the heat absorption cooler through the cooling liquid guide pipe, the high-efficiency heat conducting plate is matched to absorb heat in the processing device, and the cooling device is matched with a water source to cool.

Description

Cooling liquid cyclic utilization device for metal casting processing

Technical Field

The invention relates to the technical field of cooling liquid recycling, in particular to a cooling liquid recycling device for metal casting machining.

Background

The metal mold casting is also called as "hard mold casting", that is, a casting mold is made of rotating iron, steel or other metal materials, and is used for casting various castings, a metal core or a sand core can be used in the metal mold casting, but generally, the metal core is used for multiple purposes, one metal mold can be cast for hundreds of times to tens of thousands of times, so that the metal mold casting is generally called as "permanent mold casting", the metal mold casting process is characterized in that the metal mold casting has large heat conductivity and heat capacity, high cooling speed, compact casting structure, mechanical property which is about 15% higher than that of a sand mold casting, a casting with higher dimensional precision and lower surface roughness value can be obtained, the quality stability, the rejection rate is low, the process yield is high, and because no or little molding sand is used, the cost and a large amount of labor force required by molding sand transportation and molding sand treatment are saved, and the pollution of dust and harmful gas is reduced, the method has the advantages of improving the working environment, easily realizing mechanization and automation, having high production efficiency, easily mastering the technology, being convenient for production management, having no air permeability of the metal mold, leading out the air in the cavity and the gas generated by the sand core by adopting certain measures, having no deformability of the metal mold, easily generating cracks and deformation when a casting is solidified, and being not suitable for the alloy with large hot cracking tendency. The following problems exist in the prior art:

1. the existing cooling water can absorb a lot of heat when cooling the interior of a casting, and the subsequent cooling efficiency is lower along with the increase of the temperature of the cooling water;

2. when the cooling water of high temperature cooled down again, natural cooling efficiency can be relatively lower, and inside traditional cooling mechanism was injected the water source with the cooling tube, the area of contact between cooling tube and the water source was less, the problem that the efficiency of cooling is slower.

Disclosure of Invention

The invention provides a cooling liquid recycling device for metal casting processing, which has the characteristics of atomizing cooling water after heat absorption, accelerating heat dissipation and increasing the contact range and area between the cooling water and cold air, and solves the problems that when the cooling water cools the interior of a casting, a lot of heat can be absorbed, and the subsequent cooling efficiency is lower along with the increase of the temperature of the cooling water; wherein inside another kind of purpose was to insert the water source with the cooling tube in order to solve traditional cooling mechanism, the area of contact between cooling tube and the water source is less, the slower problem of efficiency of cooling to reach and carry out the atomizing emission to cold air, increase and the effect of the area of contact and scope between the atomizing water source.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a coolant liquid cyclic utilization device is used in metal casting processing, includes metal casting processing ware, endothermic cooler, coolant liquid honeycomb duct and coolant liquid cyclic utilization cooling device, the detachable endothermic cooler of installing on the surface of metal casting processing ware, the detachable coolant liquid honeycomb duct that is connected with on the surface of endothermic cooler, one of coolant liquid honeycomb duct is served the detachable coolant liquid cyclic utilization cooling device that is connected with.

The cooling device is characterized in that a cooling air maker is detachably mounted on the outer surface of the bottom of the right side of the cooling device for recycling cooling liquid, an air guide pipeline is detachably connected to the output end of the cooling air maker, an air cooling exhaust pipe is arranged on the outer surface of the air guide pipeline, a supporting sleeve shell is detachably mounted on the inner surface of the cooling device for recycling cooling liquid, a rotating machine is detachably mounted on the inner surface of the top of the supporting sleeve shell, and an arc-shaped hollow shell is detachably mounted on one end of the rotating machine.

The technical scheme of the invention is further improved as follows: be provided with hollow bullet shell on the surface of arc hollow shell, be provided with water source atomizing transmitting tube on the left and right sides surface of hollow bullet shell, be provided with the support column on the top of hollow bullet shell, be provided with the honeycomb panel on the top both sides border position of hollow bullet shell, one of support column is served and is provided with the arc roof, be provided with the arc atomization board on the both sides border position of arc roof, the top surface of hollow bullet shell is provided with the triangle and gathers water the piece.

The technical scheme of the invention is further improved as follows: be provided with on the surface of air conditioning exhaust pipe top and gather the wind stay tube, be provided with the air conditioning honeycomb duct on the surface of the top of air conditioning exhaust pipe, the air conditioning honeycomb duct is located the inside of gathering the wind stay tube, be provided with the atomizing injection pipe on the surface of air conditioning honeycomb duct, gather detachable being connected with air conditioning on the surface of wind stay tube and transfer the disc.

The technical scheme of the invention is further improved as follows: be provided with the arc sunken mouth on the bottom of water source atomizing launching tube, be provided with the diversion board on the left side bottom internal surface of water source atomizing launching tube, be provided with the kicking block on the top of water source atomizing launching tube, be provided with outer scattered arc track on the both sides surface of kicking block, the movable sleeve pipe has been cup jointed in the inside activity of water source atomizing launching tube, be provided with the extension stopper on the surface of movable sleeve pipe's bottom both sides, be provided with the atomizing notch on the surface of movable sleeve pipe's top both sides.

The technical scheme of the invention is further improved as follows: sealing flanges are arranged at the joints of the two ends of the air guide pipeline and the inner surface of the cooling device for recycling the cooling liquid, the output end of the cold air maker extends to the inner surface of the cooling device for recycling the cooling liquid, a rotator is detachably arranged on the inner surface of the bottom of the cooling device for recycling the cooling liquid, stirring blades are detachably connected on the outer surface of the output end of the rotator, one end of the rotator is movably overlapped on the outer surface of the bottom of the supporting casing, bead elastic crushing plates are detachably connected on the inner surfaces of the tops of the left side and the right side of the cooling device for recycling the cooling liquid, an atomizing reticulated shell is arranged on the outer surface of the top of the supporting casing, a sinking water guide plate is arranged at the top of the cooling device for recycling the cooling liquid, and one end of the sinking water guide plate extends to the inner surface of the top of the arc-shaped hollow shell, and the outer surfaces of two sides of the rotating machine are provided with triangular blocks.

The technical scheme of the invention is further improved as follows: the upper and lower outer surfaces of the water drop elastic crushing plate are detachably connected with arc-shaped blocks, the bottom ends of the arc-shaped blocks are provided with water flowing ports, and the middle outer surface of the arc-shaped blocks is provided with hollow water diversion ports.

The technical scheme of the invention is further improved as follows: one of disc is transferred to air conditioning serves and serves the detachable arc that is connected with, be provided with the upstream atomization notch on the surface of arc, be provided with the atomising head on the internal surface of arc.

The technical scheme of the invention is further improved as follows: the heat absorption cooler is characterized in that an extending plate is arranged on the outer surface of the right side of the heat absorption cooler, cooling liquid guide pipes are detachably connected to the outer surfaces of the front side and the rear side of the heat absorption cooler, sealing rubber strips are arranged on the outer surface of the right side of the extending plate, a top cover plate is detachably connected to the outer surface of the right side of the extending plate in an overlapping mode, a sealing soft block is arranged on the outer surface of the right side of the top cover plate, a high-efficiency heat conduction plate is detachably connected to the outer surface of the sealing soft block, and one end of the high-efficiency heat conduction plate extends to the inner surface of the heat absorption cooler.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the technical progress that:

1. the invention provides a cooling liquid recycling device for metal casting processing, which adopts the combination of a sunken water guide plate, an arc hollow shell, a rotating machine, a hollow bullet shell, a water source atomization emission pipe, a support column, an arc top plate, an arc atomization plate and a triangular water gathering block, the sunken water guide plate guides cooling water after absorbing heat into the arc hollow shell, the arc hollow shell is rotated by matching with a rotating machine, the water source in the arc hollow shell is thrown into the hollow bullet shell by utilizing centrifugal force generated during rotation, a part of water source is guided by the water source atomization emission pipe and is atomized and discharged by matching with the water source atomization emission pipe, the rest part of water source is crushed by the support column, the triangular water gathering block is used for gathering and guiding the crushed water source into the arc top plate and impacting on the surface of the arc atomization plate, impact force that the striking produced can carry out the breakage with the drop of water, possess and atomize the cooling water after the heat absorption, accelerate thermal giving off, increase and the characteristics of contact range and area between the air conditioning, when solving the inside cooling of cooling water to the foundry goods, can absorb a lot of heats, along with the rising of cooling water temperature, can be to the problem of subsequent cooling efficiency lower, reached and atomized the cooling water after the heat absorption, accelerate thermal giving off, the effect of contact range and area between increase and the air conditioning.

2. The invention provides a cooling liquid recycling device for metal casting processing, which adopts the combination of a cold air guide pipe, an air-gathering support pipe, an atomizing injection pipe, a cold air lowering disc, an arc-shaped plate, an upstream atomizing notch and an atomizing head, the cold air guide pipe is used for guiding the cold air, the atomizing injection pipe is matched for discharging the cold air, the cold air is gathered in the air-gathering support pipe, the cold air is guided by the cold air lowering disc, the arc-shaped plate is matched for guiding the cold air, the cold air is infused into the atomizing head, the cold air is atomized and discharged along with the atomizing head, the cold air is circulated through the upstream atomizing notch, the double arc-shaped plates can increase the atomizing degree and the diffusion range of the cold air, the cooling liquid recycling device has the characteristics of atomizing and discharging the cold air and increasing the contact area and the range between the cooling liquid and an atomizing water source, and solves the problem that the traditional cooling mechanism inserts the cooling pipe into the water source, the contact area between cooling tube and the water source is less, and the efficiency of cooling is slower problem to reach and carry out the atomizing emission to cold air, increase and the effect of the area of contact and the scope between the atomizing water source.

3. The invention provides a cooling liquid recycling device for metal casting processing, which adopts the combination of an arc-shaped hollow shell, a hollow bullet shell, a water source atomization launching tube, an arc-shaped concave opening, a water diversion plate, an outer scattered arc track, a movable sleeve, an atomization notch and an extension limiting block, when the arc-shaped hollow shell swings, the movable sleeve swings out of the water source atomization launching tube by using centrifugal force generated by rotation, the position of the movable sleeve is limited by matching with the extension limiting block to prevent the movable sleeve from swinging out, the water source injected into the hollow bullet shell is partially guided by matching with the arc-shaped concave opening, the water source is guided by the water diversion plate, when water flow passes through the water source atomization launching tube, the water source is guided by matching with the outer scattered arc track on the surface of a top block, and the water source can be subjected to arc parabola by matching with the arc-shaped outer scattered arc track, the rethread atomizing notch discharges away, has possessed and has guided the water source, carries out the characteristics that the arc parabola was thrown away with the water source, has solved the problem that can't guide through the inside water source of hollow cartridge case, has reached and has guided the water source, carries out the arc parabola with the water source and throws away the effect.

4. The invention provides a cooling liquid recycling device for metal casting processing, which is characterized in that a cooling liquid guide pipe, a heat absorption cooler, an overhanging plate, a sealing adhesive tape, a top cover plate and a high-efficiency heat conduction plate are combined, the overhanging plate and the top cover plate are folded, the sealing performance between the overhanging plate and the top cover plate is improved through the sealing adhesive tape, cooling water is poured into the heat absorption cooler through the cooling liquid guide pipe, the high-efficiency heat conduction plate is matched for absorbing heat inside a processor, and the cooling is carried out by matching with a water source.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a cooling device for recycling cooling fluid according to the present invention;

FIG. 3 is a schematic view of the structure of the curved hollow shell of the present invention;

FIG. 4 is a schematic view of the water source atomizing emitter tube structure of the present invention;

FIG. 5 is a schematic view of the elastic bead breaking plate according to the present invention;

FIG. 6 is a schematic view of a cold air exhaust duct according to the present invention;

FIG. 7 is a schematic view showing a structure of a cold air discharging disc according to the present invention;

fig. 8 is a schematic view of the endothermic cooler of the present invention.

In the figure:

1. a metal casting processor;

2. a heat absorption cooler; 21. an overhang plate; 22. sealing rubber strips; 23. a top cover plate; 24. sealing the soft block; 25. a high-efficiency heat conducting plate;

3. a coolant flow guide pipe;

4. cooling liquid recycling cooling device; 41. a cold air generator; 42. sealing the flange; 43. an air guide duct;

44. a cold air exhaust pipe; 441. a wind gathering support pipe; 442. a cold air flow guide pipe; 443. an atomizing spray pipe;

444. a cold air lowering disc; b1, an arc plate; b2, upstream atomization slot; b3, atomizing head;

45. a rotator; 46. agitating the blades;

47. a water drop elastic crushing plate; c1, arc blocks; c2, a water flowing port; c3, a hollow water diversion port;

48. a support housing; 49. sinking the water guide plate; 410. atomizing the reticulated shell; 411. rotating the machine; 412. an arc-shaped hollow shell; a1, hollow cartridge case;

a2, a water source atomization emission tube; a21, arc-shaped concave opening; a22, a diversion plate; a23, top block; a24, outer divergent arc orbit; a25, active cannula; a26, atomizing notch; a27, an extension limiting block;

a3, a support column; a4, honeycomb board; a5, arc top plate; a6, arc atomization plate; a7, triangular water-gathering block.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

example 1

As shown in fig. 1-8, the invention provides a cooling liquid recycling device for metal casting processing, which comprises a metal casting processing device 1, a heat absorption cooler 2, a cooling liquid guide pipe 3 and a cooling liquid recycling cooling device 4, wherein the heat absorption cooler 2 is detachably mounted on the outer surface of the metal casting processing device 1, the cooling liquid guide pipe 3 is detachably connected to the outer surface of the heat absorption cooler 2, and one end of the cooling liquid guide pipe 3 is detachably connected with the cooling liquid recycling cooling device 4.

In this embodiment, the metal casting machining device 1 is used to machine a material, the heat absorption cooler 2 is used to absorb hot air on the surface of the metal casting machining device 1, and the cooling liquid circulation cooling device 4 is used to fill cooling water into the cooling liquid guide pipe 3 to reduce the temperature of the heat inside the heat absorption cooler 2.

As shown in fig. 1 to 8, in the present embodiment, it is preferable that a cool air producer 41 is detachably mounted on the outer surface of the bottom right side of the cooling device 4, an output end of the cool air producer 41 extends to the inner surface of the cooling device 4, an air duct 43 is detachably connected to the output end of the cool air producer 41, an exhaust duct 44 for cool air is disposed on the outer surface of the air duct 43, a sealing flange 42 is disposed at the joint between the two ends of the air duct 43 and the inner surface of the cooling device 4, a support jacket 48 is detachably mounted on the inner surface of the cooling device 4, a rotating machine 411 is detachably mounted on the inner surface of the top of the support jacket 48, and an arc-shaped hollow shell 412 is detachably mounted on one end of the rotating machine 411.

The bottom inner surface of the cooling liquid recycling cooling device 4 is detachably provided with a rotator 45, the outer surface of the output end of the rotator 45 is detachably connected with stirring blades 46, one end of the rotator 45 is movably overlapped on the outer surface of the bottom end of a supporting casing 48, the inner surfaces of the top parts of the left side and the right side of the cooling liquid recycling cooling device 4 are detachably connected with bead elastic breaking plates 47, the outer surface of the top part of the supporting casing 48 is provided with an atomizing reticulated shell 410, the top part of the cooling liquid recycling cooling device 4 is provided with a sunken water guide plate 49, one end of the sunken water guide plate 49 extends to the inner surface of the top part of an arc-shaped hollow shell 412, and the outer surfaces of the two sides of the rotator 411 are provided with triangular blocks.

Guide the inside of going into arc hollow shell 412 through the water deflector 49 that sinks to the water source after the heating, cooperation rotating machine 411 rotates arc hollow shell 412, atomize the water source of inside and discharge away, carry out the breakage through atomizing net shell 410 to the water source, the secondary crushing is carried out to the water source that splashes to rethread water pearl elasticity crushing board 47, use cold air producer 41 to carry out the instillation of cold air to the inside of air guide pipe 43, use cold air exhaust pipe 44 to atomize and discharge away, use rotator 45 to rotate stirring blade 46, go on the cold air guide of bottom, along with the rising of air current, can mix cold air and the water smoke of whereabouts.

As shown in fig. 1 to 8, preferably, the upper and lower outer surfaces of the elastic bead breaking plate 47 are detachably connected with an arc-shaped block c1, the bottom end of the arc-shaped block c1 is provided with a water flowing port c2, and the middle outer surface of the arc-shaped block c1 is provided with a hollow water diversion port c 3.

The splashed water drops are crushed by the arc-shaped block c1, and the dropped water flows down through the water flowing port c 2.

Example 2

As shown in fig. 1 to 8, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the outer surface of the arc-shaped hollow shell 412 is provided with a hollow bullet shell a1, the outer surfaces of the left side and the right side of the hollow bullet shell a1 are provided with a water source atomizing emission tube a2, the top end of the hollow bullet shell a1 is provided with a support column a3, the edge positions of the two sides of the top end of the hollow bullet shell a1 are provided with honeycomb plates a4, one end of the support column a3 is provided with an arc-shaped top plate a5, the edge positions of the two sides of the arc-shaped top plate a5 are provided with arc-shaped atomizing plates a6, and the outer surface of the top end of the hollow bullet shell a1 is provided with a triangular water collecting block a 7.

Be provided with arc depressed mouth a21 on the bottom of water source atomizing launching tube a2, be provided with diversion plate a22 on the left side bottom internal surface of water source atomizing launching tube a2, be provided with kicking block a23 on the top of water source atomizing launching tube a2, be provided with outer scattered arc track a24 on the both sides surface of kicking block a23, movable sleeve a25 has been cup jointed in the inside activity of water source atomizing launching tube a2, be provided with on the bottom both sides surface of movable sleeve a25 and extend stopper a27, be provided with atomizing notch a26 on the top both sides surface of movable sleeve a 25.

In this embodiment, the cooling water after absorbing heat is guided into the arc-shaped hollow shell 412 by the sinking water guide plate 49, the arc-shaped hollow shell 412 is rotated by the rotating machine 411, the water source in the arc-shaped hollow shell 412 is thrown into the hollow bullet shell a1 by the centrifugal force generated during rotation, a part of the water source is guided by the water source atomizing emission pipe a2, the water source is atomized and discharged by the water source atomizing emission pipe a2, the movable sleeve a25 is thrown out from the inside of the water source atomizing emission pipe a2 by the centrifugal force generated during throwing the hollow bullet shell a1 by the arc-shaped hollow shell 412, the position of the movable sleeve a25 is limited by the extending limit block a27 to prevent the movable sleeve a25 from being thrown out, a part of the water source injected into the hollow bullet shell a1 is guided by the arc-shaped recessed port a21, and the water source is guided by the water guide plate a22, when rivers are passing water source atomizing launching tube a2, cooperation kicking block a23 outer scattered arc track a24 on the surface guides the water source, the arc of cooperation outer scattered arc track a24 can carry out curved parabola with the water source, rethread atomizing notch a26 discharges away, reached and guided the water source, the effect of throwing away the arc parabola is carried out the water source, remaining some water source is broken through support column a3, utilize triangle water gathering block a7 to gather the inside of guiding arc roof a5 to broken water source, strike on arc atomizing plate a 6's surface, the impact force that the striking produced can carry out the breakage with the drop of water, cooling water after having reached the heat absorption atomizes, accelerate thermal giving off, the effect of contact range and area between increase and the air conditioning.

Example 3

As shown in fig. 1 to 8, on the basis of embodiment 1, the present invention provides a technical solution: preferably, an air collecting support tube 441 is disposed on the outer surface of the top of the cold air exhaust tube 44, a cold air guide tube 442 is disposed on the outer surface of the top of the cold air exhaust tube 44, the cold air guide tube 442 is located inside the air collecting support tube 441, an atomizing injection tube 443 is disposed on the outer surface of the cold air guide tube 442, and a cold air lowering disc 444 is detachably connected to the outer surface of the air collecting support tube 441.

One end of the cold air lowering disc 444 is detachably connected with an arc-shaped plate b1, an upstream atomization notch b2 is formed in the outer surface of the arc-shaped plate b1, and an atomization head b3 is formed in the inner surface of the arc-shaped plate b 1.

In this embodiment, use cold air honeycomb duct 442 to guide cold air, cooperation atomizing injection pipe 443 discharges away cold air, the inside of rethread wind-gathering support tube 441 gathers cold air, transfer disc 444 through cold air and guide cold air, cooperation arc b1 guides cold air, the inside of instillation income atomising head b3 goes, atomize along with atomising head b3 to cold air and discharge away, it circulates to cold air through upflow atomization notch b2, dual arc b1 can increase the degree of atomization of cold air and the diffusion range of cold air, in order to reach and atomize the emission to cold air, increase and the effect of the area of contact and the scope between the atomizing water source.

Example 4

As shown in fig. 1 to 8, on the basis of embodiment 1, the present invention provides a technical solution: preferably, be provided with outrigger 21 on the right side surface of heat absorption cooler 2, the detachable coolant liquid honeycomb duct 3 that is connected with on the surface of both sides around the heat absorption cooler 2, be provided with joint strip 22 on the right side surface of outrigger 21, detachable overlap joint has a top cover plate 23 on the right side surface of outrigger 21, be provided with sealed soft piece 24 on the right side surface of top cover plate 23, detachable high-efficient heat-conducting plate 25 that is connected with on the surface of sealed soft piece 24, the one end of high-efficient heat-conducting plate 25 extends to on the internal surface of heat absorption cooler 2.

In this embodiment, fold with the lamina tecti 23 through overhanging plate 21, leakproofness between the increase of rethread sealing adhesive strip 22, pour into the cooling water through coolant liquid honeycomb duct 3 to the inside of heat absorption cooler 2, cooperate high-efficient heat-conducting plate 25 to absorb the heat of processing ware inside, cooperate the water source to cool off, reached and utilized the metal casting to carry out the heat guide, carried out the effect of cooling again.

The working principle of the cooling liquid recycling device for processing metal castings will be described in detail below.

As shown in fig. 1-8, the metal casting processing device 1 processes the material, the material is folded with the top cover plate 23 through the overhanging plate 21, the sealing performance between the materials is increased through the sealing adhesive strips 22, cooling water is filled into the heat absorption cooler 2 through the cooling liquid guide pipe 3, the heat inside the processing device is absorbed through the high-efficiency heat conduction plate 25, the processing device is cooled through the water source, the heated water source is guided into the arc-shaped hollow shell 412 through the water guide plate 49, the arc-shaped hollow shell 412 is rotated through the rotating machine 411, the water source inside is atomized and discharged, the water source inside the arc-shaped hollow shell 412 is thrown into the hollow bullet shell a1 through the centrifugal force generated during the rotation, a part of the water source is guided through the water source atomization emission pipe a2, and the water source is atomized and discharged through the water source atomization emission pipe a2, when the hollow bullet shell a1 is whipped through the arc-shaped hollow shell 412, the movable sleeve a25 is whipped out from the inside of the water source atomizing emission pipe a2 by using centrifugal force generated by rotation, the position of the movable sleeve a25 is limited by matching with the extension limiting block a27, the movable sleeve a25 is prevented from being whipped out, a part of water source injected into the inside of the hollow bullet shell a1 is guided by matching with the arc-shaped concave opening a21, the water source is guided through the water guide plate a22, when water flows pass through the water source atomizing emission pipe a2, the water source is guided by matching with the outer scattering arc track a24 on the surface of the top block a23, the water source can be subjected to arc parabola by matching with the arc of the outer scattering arc track a24 and then is discharged through the atomizing notch a26, the rest part of the water source is crushed through the water source a3, and the crushed water source is gathered and guided to the inside of the arc-shaped top plate 5 by using the triangular water gathering block a7, the water source is crushed by the atomizing net shell 410, the splashed water source is secondarily crushed by the water bead elastic crushing plate 47, cold air is infused into the air guide pipeline 43 by the cold air manufacturing device 41, the cold air is guided by the cold air guide pipe 442, the cold air is discharged by matching with the atomizing injection pipe 443, the cold air is gathered by the inside of the wind gathering support pipe 441, the cold air is guided by matching with the cold air lowering disc 444, the cold air is guided by matching with the arc plate b1 and infused into the inside of the atomizing head b3, the cold air is discharged by being atomized by the atomizing head b3 and is circulated by the upstream atomizing notch b2, the atomization degree of the cold air and the diffusion range of the cold air can be increased by the double arc plate b1, the agitator blades 46 are rotated by the rotator 45 to guide the cold air at the bottom upward, and the cold air is mixed with the falling mist as the airflow rises.

The present invention has been described in general terms in the foregoing, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto based on the present invention. Therefore, modifications or improvements are within the scope of the invention without departing from the spirit of the inventive concept.

Claims

1. The utility model provides a metal casting processing is with coolant liquid cyclic utilization device, includes metal casting processing ware (1), endothermic cooler (2), coolant liquid honeycomb duct (3) and coolant liquid cyclic utilization cooling device (4), its characterized in that: the outer surface of the metal casting machining device (1) is detachably provided with a heat absorption cooler (2), the outer surface of the heat absorption cooler (2) is detachably connected with a cooling liquid guide pipe (3), and one end of the cooling liquid guide pipe (3) is detachably connected with a cooling liquid recycling cooling device (4);

the utility model discloses a cooling device, including cooling liquid cyclic utilization cooling device (4), air conditioning manufacturing ware (41) are installed to the detachable right side bottom surface of cooling liquid cyclic utilization cooling device (4) on the surface, detachable air guide pipe (43) of being connected with on the output of air conditioning manufacturing ware (41), be provided with air conditioning exhaust pipe (44) on the surface of air guide pipe (43), detachable support cover shell (48) of installing on the internal surface of cooling liquid cyclic utilization cooling device (4), detachable commentaries on classics machine (411) of installing on the top internal surface of support cover shell (48), one of commentaries on classics machine (411) is served detachably and is installed arc hollow shell (412).

2. The metal casting machining coolant recycling device of claim 1, characterized in that: be provided with hollow bullet shell (a1) on the surface of arc hollow shell (412), be provided with water source atomizing launching tube (a2) on the left and right sides surface of hollow bullet shell (a1), be provided with support column (a3) on the top of hollow bullet shell (a1), be provided with honeycomb panel (a4) on the top both sides border position of hollow bullet shell (a1), one of support column (a3) is served and is provided with arc roof (a5), be provided with arc atomization board (a6) on the both sides border position of arc roof (a5), the top surface of hollow bullet shell (a1) is provided with triangle water gathering piece (a 7).

3. The metal casting machining coolant recycling device of claim 1, characterized in that: be provided with on air conditioning exhaust pipe (44) the top surface and gather wind stay tube (441), be provided with on the top surface of air conditioning exhaust pipe (44) air conditioning honeycomb duct (442), air conditioning honeycomb duct (442) are located the inside of gathering wind stay tube (441), be provided with atomizing injection pipe (443) on the surface of air conditioning honeycomb duct (442), it descends disc (444) to detachably be connected with air conditioning on the surface of gathering wind stay tube (441).

4. The metal casting machining coolant recycling device of claim 2, characterized in that: be provided with arc depressed mouth (a21) on the bottom of water source atomizing launching tube (a2), be provided with diversion plate (a22) on the left side bottom internal surface of water source atomizing launching tube (a2), be provided with kicking block (a23) on the top of water source atomizing launching tube (a2), be provided with outer scattered arc track (a24) on the both sides surface of kicking block (a23), movable sleeve (a25) has been cup jointed in the inside activity of water source atomizing launching tube (a2), be provided with on the bottom both sides surface of movable sleeve (a25) and extend stopper (a27), be provided with atomizing notch (a26) on the top both sides surface of movable sleeve (a 25).

5. The metal casting machining coolant recycling device of claim 1, characterized in that: sealing flanges (42) are arranged at the inner surface connecting positions of the two ends of the air guide pipeline (43) and the cooling liquid recycling cooling device (4), the output end of the air cooling manufacturing device (41) extends to the inner surface of the cooling liquid recycling cooling device (4), a rotator (45) is detachably arranged on the inner surface of the bottom of the cooling liquid recycling cooling device (4), stirring blades (46) are detachably connected on the outer surface of the output end of the rotator (45), one end of the rotator (45) is movably lapped on the outer surface of the bottom of the supporting casing (48), bead elastic crushing plates (47) are detachably connected on the inner surfaces of the tops of the left side and the right side of the cooling liquid recycling cooling device (4), an atomizing net shell (410) is arranged on the outer surface of the top of the supporting casing (48), and a sunken water guide plate (49) is arranged at the top of the cooling liquid recycling cooling device (4), one end of the sunken water guide plate (49) extends to the inner surface of the top of the arc-shaped hollow shell (412), and triangular blocks are arranged on the outer surfaces of two sides of the rotating machine (411).

6. The metal casting machining coolant recycling device of claim 5, characterized in that: the upper outer surface and the lower outer surface of the water drop elastic crushing plate (47) are detachably connected with arc-shaped blocks (c1), the bottom ends of the arc-shaped blocks (c1) are provided with water flowing openings (c2), and the middle outer surface of the arc-shaped blocks (c1) is provided with hollow water diversion openings (c 3).

7. The metal casting machining coolant recycling device of claim 3, characterized in that: one end of disc (444) is transferred to cold air is gone up the detachable arc (b1) that is connected with, be provided with on the surface of arc (b1) upflow atomizing notch (b2), be provided with on the internal surface of arc (b1) atomizing head (b 3).

8. The metal casting machining coolant recycling device of claim 1, characterized in that: be provided with outrigger (21) on the right side surface of heat absorption cooler (2), the detachable coolant liquid honeycomb duct (3) that is connected with on the surface of both sides around heat absorption cooler (2), be provided with joint strip (22) on the right side surface of outrigger (21), detachable overlap joint has lamina tecti (23) on the right side surface of outrigger (21), be provided with on the right side surface of lamina tecti (23) sealed soft piece (24), detachable high-efficient heat-conducting plate (25) that is connected with on the surface of sealed soft piece (24), the one end of high-efficient heat-conducting plate (25) extends to on the internal surface of heat absorption cooler (2).