CN218228047U - Oil pipe protection heat abstractor of oil circulation temperature controller - Google Patents

Abstract

The application relates to an oil pipe protection heat abstractor of oil circulation temperature controller relates to oil temperature machine technical field. Including controller body and radiator fan, the controller body includes the box, the batch oil tank, lead oil pipe, heater and circulating pump, the box is formed with the accommodation space, the batch oil tank, lead oil pipe, heater and circulating pump are installed in the accommodation space, the batch oil tank has the oil inlet with box outer wall intercommunication, lead oil pipe and with the batch oil tank, heater and circulating pump connect gradually, lead oil pipe and stretch out and communicate with the box outer wall from the circulating pump, be provided with the baffle in the box, the baffle separates the holding cavity for the chamber of admitting air that is close to the bottom half and be close to box top exhaust chamber, the batch oil tank is installed in the chamber of bleeding, heater and circulating pump are all installed in the chamber of admitting air, radiator fan passes the baffle setting and the chamber of bleeding and between the chamber of admitting air. The exhaust hole that is used for the exhaust is seted up to the exhaust chamber lateral wall, and the inlet port that is used for admitting air is seted up to the chamber of admitting air, has alleviated the not good problem of oil cycle temperature controller radiating effect.

Description

Oil pipe protection heat abstractor of oil circulation temperature controller

Technical Field

The utility model belongs to the technical field of the oil temperature machine technique and specifically relates to an oil pipe protection heat abstractor of oil circulation temperature controller is related to.

Background

The oil circulation temperature controller is also called as an oil temperature machine. As the name suggests, the mold temperature controller takes heat-conducting oil as a heat transfer medium. The oil temperature machine is provided with an oil storage tank, heat conduction oil enters the system from the oil storage tank during operation, the heat conduction oil is heated by a heater and then is pumped into a die or other equipment needing temperature control through a circulating pump, and the heat conduction oil returns to the system after coming out of the equipment needing temperature control, and the process is repeated.

But oil circulation temperature control machine is at the in-process of work, when carrying out lasting high temperature heating to the conduction oil, and circulating pump and heater work can produce high temperature to can lead to the box internal temperature too high, need wait until the box internal temperature reduce the back just carry out next time work, the box is difficult to the heat dissipation.

The problem that the heat dissipation effect of an oil circulation temperature control machine is poor exists in the related technology.

SUMMERY OF THE UTILITY MODEL

In order to alleviate the not good problem of oil circulation temperature controller radiating effect, this application provides an oil pipe protection heat abstractor of oil circulation temperature controller.

The application provides an oil pipe protection heat abstractor of oil circulation temperature controller adopts following technical scheme: the utility model provides an oil pipe protection heat abstractor of oil circulation temperature controller, includes controller body and radiator fan, radiator fan installs on the controller body, the controller body includes box, batch oil tank, leads oil pipe, heater and circulating pump, the box is formed with the accommodation space, the batch oil tank lead oil pipe the heater with the circulating pump is installed in the accommodation space, the batch oil tank with box outer wall intercommunication has the oil inlet, it will to lead oil pipe the batch oil tank the heater and the circulating pump connects gradually, it follows to lead oil pipe the circulating pump stretch out with box outer wall intercommunication, be provided with the baffle in the box, the baffle will the accommodation cavity separates and is close to the chamber of admitting air of bottom half is with being close to box top exhaust chamber, the batch oil tank is installed exhaust chamber, the heater with the circulating pump is all installed admit air the chamber, radiator fan passes the baffle sets up exhaust chamber with between the chamber of admitting air, exhaust chamber lateral wall offers the exhaust hole that is used for the exhaust, the inlet port that admits air is offered in the chamber of admitting air.

By adopting the technical scheme, when the oil circulation temperature controller operates, heat conduction oil flows into the heater from the oil storage tank through the oil guide pipe to be heated, the heated heat conduction oil flows out of the oil guide pipe and enters the circulating pump, after the power is conveyed through the circulating pump in a pressurization mode, the heat conduction oil flows into a die or other equipment needing temperature control through the oil guide pipe, and finally flows back into the oil storage tank after coming out of the equipment to complete a cycle. In the devices, the circulating pump and the heater can generate high temperature when working, and the circulating pump and the heater are arranged in the air inlet cavity by arranging the partition plate. The cooling fan is started, air enters through the air inlet under the action of the cooling fan, the circulating pump and the heater are cooled, the circulating pump and the heater can be sucked into the exhaust cavity through the cooling fan and then are exhausted out of the temperature controller from the exhaust hole, circulation of the air is achieved, heat dissipation is achieved, and the problem of poor heat dissipation effect of the oil circulation temperature controller is solved.

Optionally, the outer surface of the oil conduit is wrapped with a heat insulation sleeve for heat insulation.

By adopting the technical scheme, as the heat conduction oil can also radiate heat in the box body through the oil guide pipe, the heat insulation sleeve is wrapped on the outer surface of the oil guide pipe, so that the heat can be effectively prevented from radiating heat in the box body through the oil guide pipe, and the possibility of oil temperature reduction possibly caused by radiating heat in the box body through the oil guide pipe can be effectively prevented.

Optionally, an atomizing nozzle for spraying atomized cooling water to cool the heater and the circulating pump is installed on the side wall of the air inlet cavity.

Through adopting above-mentioned technical scheme, admit air chamber lateral wall installation atomizer, when temperature control machine begins work and box in the time of producing high temperature, start atomizer, atomizer can the vaporous cooling water of blowout, because the granule is less, consequently when meetting high temperature, gasification that can be very fast, because water gasification can the heat absorption, consequently can absorb the high temperature that heater and circulating pump work produced to reach the radiating effect of cooling.

Optionally, a drain hole for draining water is formed in the bottom of the air intake cavity, and a water storage tank for storing cooling water flowing out of the drain hole is fixed to the bottom of the tank body.

Through adopting above-mentioned technical scheme, the wash port is seted up to the chamber bottom of admitting air, and the bottom half is fixed with the storage water tank, is convenient for collect from atomizer spun cooling water that does not have gasification, has avoided extravagant and because the cooling water all flows into in the storage water tank, can prevent that cooling water from flowing to the external world and causing ponding.

Optionally, the outer wall of the water storage tank is communicated with a water pump, and the water pump is connected with the atomizing nozzle.

Through adopting above-mentioned technical scheme, storage water tank and water pump intercommunication, and the water pump still communicates with atomizer, and atomizer spun cooling water can realize the cooling to heater and circulating pump through the water pump from atomizer blowout once more after being collected the storage water tank, has realized the manifold cycles utilization of cooling water.

Optionally, the periphery of the heat insulation sleeve is wrapped with a waterproof sleeve for preventing water.

Through adopting above-mentioned technical scheme, the periphery parcel of insulator sleeve has the waterproof cover can prevent effectively that atomizer spun cooling water from splashing on the insulator sleeve and drench the insulator sleeve, makes the thermal-insulated effect of insulator sleeve not good. And the protective performance of the oil guide pipe can be improved as the heat insulation sleeve and the water retaining sleeve are respectively sleeved outside the oil guide pipe.

Optionally, the whole air inlet is square, oblique baffles are vertically arranged on the air inlet at equal intervals, the oblique baffles stretch into the interior of the box body, and the oblique baffles face the bottom of the box body and are obliquely arranged.

Through adopting above-mentioned technical scheme, owing to admit air the intracavity and be provided with atomizer, when atomizer during operation, recall the cooling water after the intracavity blowout atomizing of admitting air, and the inlet port sets up the slant baffle, the slant baffle stretches into the box inside and the slant baffle sets up towards the bottom half slope, the cooling water after the atomizing splashes on the slant baffle, can prevent effectively that the cooling water after the atomizing from passing through the inlet port and spraying to the external world for the radiating efficiency reduces and causes the waste of cooling water.

Optionally, the heater includes heating shell and heating rod, the heating rod is installed inside the heating shell, be located inside the heating tube the oil pipe spiral arrangement wear to establish heating rod periphery.

By adopting the technical scheme, the oil guide pipe positioned in the heating pipe is spirally arranged and penetrates through the periphery of the heating rod, so that the heat transfer efficiency between the heater and the oil guide pipe can be improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. starting radiator fan, the air gets into through the inlet port under radiator fan's effect, cools down circulating pump and heater, and circulating pump and heater can be inhaled the exhaust chamber through radiator fan again, then is discharged outside the temperature controller from the exhaust hole, reach the circulation of air, have realized the heat dissipation, have alleviated the not good problem of oil circulation temperature controller radiating effect.

2. Set up atomizer, through atomizer spun atomizing cooling water, realize the heat dissipation of cooling down through the gasification heat absorption of cooling water, the cooling water that drips to the bottom half can be carried atomizer through the water pump and cool down the heat dissipation again after being collected by the storage water tank through the wash port.

3. The oil guide pipes in the heating pipe are spirally arranged and penetrate through the periphery of the heating rod, so that the heat transfer efficiency between the heater and the oil guide pipes can be improved.

Drawings

Fig. 1 is a schematic external structural diagram of an oil pipe protection heat dissipation device of an oil circulation temperature control machine according to an embodiment of the present application.

Fig. 2 is a schematic left side sectional view of an oil pipe protection heat sink of an oil circulation temperature control machine according to an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2 in the embodiment of the present application.

Fig. 4 is a schematic structural diagram of an atomizing nozzle of an oil pipe protection heat dissipation device of an oil circulation temperature control machine according to an embodiment of the present application.

Fig. 5 is a schematic front sectional view of an oil pipe protection heat sink of an oil circulation temperature control machine according to an embodiment of the present application.

Description of the reference numerals: 1. a control machine body; 11. a box body; 111. a partition plate; 112. an exhaust hole; 113. an air inlet; 1131. an oblique baffle; 11311. a fixed part; 11312. an inclined portion; 114. a drain hole; 115. an atomizing spray head; 1151. a nozzle; 11511. a spout; 1152. a water delivery pipe; 11521. opening and closing the valve; 116. a pulley; 117. a water storage tank; 1171. a water pump; 1712. a protective housing; 1173. mounting a plate; 12. an oil storage tank; 121. an oil inlet; 13. an oil guide pipe; 131. a heat insulating sleeve; 132. a waterproof jacket; 14. a heater; 141. heating the housing; 142. heating a rod; 15. a circulation pump; 2. a heat radiation fan; 21. an air intake portion; 22. and an exhaust part.

Detailed Description

The present application is described in further detail below with reference to the attached drawing figures.

The embodiment of the application discloses oil pipe protection heat abstractor of oil circulation temperature controller.

Referring to fig. 1 and 2, an oil pipe protection heat dissipation device of an oil circulation temperature controller comprises a controller body 1 and a heat dissipation fan 2, wherein the heat dissipation fan 2 is installed inside the controller body 1 to provide power for heat dissipation of the temperature controller.

Referring to fig. 1 and 2, the control machine body 1 includes a tank 11, an oil storage tank 12, an oil conduit 13, a heater 14, and a circulation pump 15. The whole square setting of box 11, the inside holding cavity that is formed with of box 11, batch oil tank 12, oil pipe 13, heater 14 and circulating pump 15 are all installed inside box 11. The box 11 is internally provided with a partition board 111 which divides the accommodating cavity into an air inlet cavity close to the bottom of the box 11 and an air exhaust cavity close to the top of the box 11. The oil storage tank 12 is fixedly arranged at the top of the exhaust cavity, the heater 14 and the circulating pump 15 are fixedly arranged in the air inlet cavity, the circulating pump 15 is fixedly arranged at the bottom of the tank body 11, and the heater 14 is fixedly arranged on the side wall of the tank body 11. The oil storage tank 12 is communicated with the outer wall of the tank body 11 to form an oil inlet 121 for heat conduction oil to flow in, and the oil guide pipe 13 is used for sequentially communicating the oil storage tank 12 with the heater 14 and communicating the heater 14 with the circulating pump 15. The oil conduit 13 finally extends out of the circulating pump 15 to be communicated with the side wall of the box body 11. The heat dissipation fan 2 passes through the partition 111 and is disposed between the exhaust chamber and the air intake chamber, two opposite side walls of the exhaust chamber are provided with dense exhaust holes 112 for exhausting, and two opposite side walls of the air intake chamber are provided with air intake holes 113 for intake.

When the oil circulation temperature controller operates, heat conduction oil flows into the heater 14 from the oil storage tank 12 through the oil guide pipe 13 to be heated, the heated heat conduction oil flows out of the oil guide pipe 13 and enters the circulating pump 15, after the heat conduction oil is pressurized and power is transmitted by the circulating pump 15, the heat conduction oil flows into a die or other equipment needing temperature control through the oil guide pipe 13, finally, the heat conduction oil flows back into the oil storage tank 12 after coming out of the equipment, and a cycle is completed. In these apparatuses, the circulation pump 15 and the heater 14 generate high temperatures when they are operated, and the circulation pump 15 and the heater 14 are installed in the intake chamber by providing the partition 111. The heat dissipation fan 2 is started, air enters through the air inlet 113 under the action of the heat dissipation fan 2 to cool the circulating pump 15 and the heater 14, the circulating pump 15 and the heater 14 can be sucked into the exhaust cavity through the heat dissipation fan 2, and then the air is exhausted out of the temperature controller through the exhaust hole 112, so that the circulation of the air is achieved, the heat dissipation is realized, and the problem of poor heat dissipation effect of the oil circulation temperature controller is solved.

Specifically, referring to fig. 2, the heat dissipation fan 2 is a centrifugal fan capable of absorbing heat in the middle and dissipating heat to the periphery, and the centrifugal fan includes an air inlet portion 21 and an air outlet portion 22, the air outlet portion 22 of the centrifugal fan is located at one side of the air outlet cavity, and the air inlet portion 21 of the centrifugal fan penetrates through the partition 111 to enter the air inlet cavity and is close to one surface of the partition 111 close to the air inlet cavity. When the temperature control machine is cooled, the centrifugal fan can directly suck the air in the air inlet cavity through the air inlet part 21 and exhaust the air into the air outlet cavity through the air outlet part 22, so that the cooling efficiency is improved.

Referring to fig. 2 and 4, the side wall of the exhaust chamber is further provided with an atomizer 115, and the atomizer 115 is located at a position close to the top wall in the middle of the side wall of the intake chamber. The atomizing spray head 115 penetrates through the side wall of the air inlet cavity, the atomizing spray head 115 comprises a spray nozzle 1151 and a water conveying pipe 1152, the spray nozzle 1151 is communicated with the water conveying pipe 1152, the whole spray nozzle 1151 is conical, and spray nozzles 11511 for spraying cooling liquid are uniformly distributed at intervals in multiple layers along the circumference of a conical surface. The water delivery pipe 1152 extends outward from the sidewall of the air inlet chamber.

Referring to fig. 5, drain holes 114 for draining water are uniformly arranged on the bottom wall of the air intake chamber at equal intervals, a water storage tank 117 for storing cooling water flowing out from the drain holes 114 is further arranged on the lower portion of the bottom wall of the air intake chamber, and the top wall of the water storage tank 117 is the bottom wall of the air intake chamber with the drain holes 114. The bottom of the tank 11 on the side where the atomizing nozzle 115 is provided is connected to an attachment plate 1173, and a water pump 1171 for supplying cooling water is bolted to the attachment plate 1173. The side wall of the water storage tank 117, which is positioned at one side provided with the atomizing nozzle 115, is communicated with a water inlet of a water pump 1171, a water outlet of the water pump 1171 extends upwards to be communicated with a water conveying pipe 1152, the water outlet is perpendicular to the water conveying pipe 1152, and a switch valve 11521 for controlling the on-off of a pipeline is arranged at the position, close to the joint of the water outlet and the water conveying pipe 1152, of the water outlet. The water delivery pipe 1152 continues to extend outward at the connection of the water outlet with the water delivery pipe 1152 so as to be communicable with an external water supply source. The water pipe 1152 is extended with a switch valve 11521.

Referring to fig. 1 and 2, the air intake holes 113 are integrally formed in a square shape, and a plurality of inclined baffles 1131 are vertically arranged between the air intake holes 113 at equal intervals. The inclined baffle 1131 extends into the inside of the box 11, and the inclined baffle 1131 is disposed obliquely toward the bottom of the box 11. The inclined baffle 1131 includes a fixing portion 11311 and an inclined portion 11312, the fixing portion 11311 is fixed between the air inlet holes 113, the fixing portion 11311 is disposed perpendicular to the side wall of the box 11, the inclined portion 11312 is located inside the box 11, and an included angle between the inclined portion 11312 and the side wall of the box 11, which is located at the connecting position between the inclined portion 11312 and the fixing portion 11311, and the side wall is an acute angle.

Referring to fig. 2 and 3, the peripheries of the oil pipes 13 exposed in the accommodating space are all sleeved with a heat insulating sleeve 131 for heat insulation, and a waterproof sleeve 132 for water proofing is sleeved on the periphery of the heat insulating sleeve 131.

Referring to fig. 2 and 5, the heater 14 is generally cylindrical, and the heater 14 includes a heating case 141 and a heating rod 142. Two heating rods 142 are arranged, the two heating rods 142 are perpendicular to the side wall of the box body 11, the two heating rods 142 are arranged in the heating shell 141 in parallel, and the oil guide pipe 13 in the heating pipe is spirally arranged on the periphery of the heating rods 142.

Referring to fig. 1 and 2, four pulleys 116 for movement are uniformly bolted to the bottom of the housing 11 and the bottom of the mounting plate 1173.

The implementation principle of the oil pipe protection heat dissipation device of the oil circulation temperature controller in the embodiment of the application is as follows: when the temperature controller starts to work, the atomizing nozzle 115 sprays atomized cooling water into the air inlet cavity, and the cooling water evaporates and absorbs heat to cool the ring pump and the heater 14. The heat dissipation fan 2 is started, air enters through the air inlet 113 under the action of the heat dissipation fan 2 to cool the circulating pump 15 and the heater 14, high temperature generated by the circulating pump 15 and the heater 14 and gasified cooling liquid can be sucked into the exhaust cavity through the heat dissipation fan 2, and then the high temperature and gasified cooling liquid is discharged out of the temperature controller from the exhaust hole 112, so that circulation of the air is achieved, heat dissipation is achieved, and the problem of poor heat dissipation effect of an oil circulation temperature controller is solved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an oil pipe protection heat abstractor of oil circulation temperature controller which characterized in that: including control machine body (1) and radiator fan (2), radiator fan (2) are installed on control machine body (1), control machine body (1) includes box (11), oil storage tank (12), leads oil pipe (13), heater (14) and circulating pump (15), box (11) are formed with the accommodation space, oil storage tank (12), lead oil pipe (13), heater (14) and circulating pump (15) are installed in the accommodation space, oil storage tank (12) with box (11) outer wall intercommunication has oil inlet (121), it will oil storage tank (12) to lead oil pipe (13), heater (14) and circulating pump (15) connect gradually, it follows to lead oil pipe (13) circulating pump (15) stretch out with box (11) outer wall intercommunication, be provided with baffle (111) in box (11), baffle (111) will the accommodation cavity be close to the chamber of admitting air of box (11) bottom and be close to box (11) top chamber, oil storage tank (12) are installed in the chamber of admitting air, heater (14) and circulating pump (15) outer wall intercommunication, baffle (111) are installed between the radiator fan (111) and the heat dissipation chamber (111) all set up the setting up the heat dissipation chamber, the side wall of the exhaust cavity is provided with an exhaust hole (112) for exhausting, and the air inlet cavity is provided with an air inlet hole (113) for air inlet.

2. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 1, wherein: and the outer surface of the oil guide pipe (13) is wrapped with a heat insulation sleeve (131) for heat insulation.

3. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 2, wherein: and an atomizing spray head (115) for spraying atomized cooling water to cool the heater (14) and the circulating pump (15) is arranged on the side wall of the air inlet cavity.

4. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 3, wherein: a drain hole (114) for draining water is formed in the bottom of the air inlet cavity, and a water storage tank (117) for storing cooling water flowing out of the drain hole (114) is fixed to the bottom of the box body (11).

5. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 4, wherein: the outer wall of the water storage tank (117) is communicated with a water pump (1171), and the water pump (1171) is connected with the atomizing nozzle (115).

6. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 3, wherein: the periphery of the heat insulation sleeve (131) is wrapped with a waterproof sleeve (132) for water prevention.

7. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 3, wherein: the air inlet holes (113) are integrally square, oblique baffles (1131) are vertically arranged on the air inlet holes (113) at equal intervals, the oblique baffles (1131) stretch into the interior of the box body (11), and the oblique baffles (1131) face the bottom of the box body (11) in an inclined mode.

8. The oil pipe protection heat dissipation device of the oil circulation temperature control machine according to claim 1, wherein: the heater (14) comprises a heating shell (141) and a heating rod (142), the heating rod (142) is installed inside the heating shell (141), and the oil guide pipe (13) located inside the heater (14) is spirally arranged on the periphery of the heating rod (142).

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