CN210666667U - Water-cooling heat dissipation ore digging machine - Google Patents

Abstract

The utility model relates to a dig ore deposit machine technical field provides a water-cooling heat dissipation digs ore deposit machine, including ore deposit machine body, water knockout drum, water cooling controller and hose, the ore deposit machine body outside is equipped with the water cooling controller, the water knockout drum sets up respectively the lateral wall upper portion and the lower part of ore deposit machine body are located upper portion the one end and the water cooling controller of water knockout drum are connected, and the other end is connected with this body coupling of ore deposit machine in order to input the water-cooling to the ore deposit machine body, are located the lower part the one end and this body coupling of ore deposit machine of water knockout drum, the other end are connected with water cooling controller with the water cooling controller of backward flow water-cooling to water cooling controller, the water knockout drum all is connected through hose leakproofness with water cooling controller, ore deposit. The utility model discloses a water-cooling controller forms the heat that the water-cooling circulation produced in to the ore deposit machine and cools down the heat dissipation, and ore deposit machine simple structure, radiating effect are good, and the leakproofness is good, ensures the reliability and the life-span that the ore deposit machine used.

Description

Water-cooling heat dissipation ore digging machine

Technical Field

The utility model relates to an dig ore deposit machine technical field, especially relate to a water-cooling heat dissipation digs ore deposit machine.

Background

With the development of digital currency mining machines, the computational power and power consumption of the mining machines are continuously improved, more and more heat is generated, and the heat needs to be further discharged.

At present, a digital currency mining machine on the market adopts a fan structure to dissipate heat, namely a plurality of radiating fins are arranged on a computing plate of the mining machine, and the front fan and the rear fan are used for dispelling wind and dissipating heat. Because the ore machine has large heat productivity and the rotating speed of the fan is fixed, the heat generated by the ore machine is difficult to be quickly discharged to the outside, so that the temperature in the ore machine rises and the use is unstable, and the service life of the ore machine is influenced.

Therefore, the heat dissipation problem of the existing mining machine structure is still to be improved, and becomes a problem to be researched urgently.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water-cooling heat dissipation digs ore deposit machine aims at solving current the produced heat of the ore deposit machine operation of digging and is difficult to discharge fast, and the temperature risees in making the ore deposit machine and leads to using unstablely, influences the life's of ore deposit machine problem.

The utility model discloses a realize like this:

the utility model provides a water-cooling heat dissipation digs ore deposit machine, includes ore deposit machine body, water knockout drum, water-cooling controller and hose, the ore deposit machine body outside is equipped with the water-cooling controller, the water knockout drum sets up respectively the lateral wall upper portion and the lower part of ore deposit machine body are located upper portion the one end and the water-cooling controller of water knockout drum are connected, and the other end is connected with this body coupling of ore deposit machine in order to input the water-cooling to the ore deposit machine body, are located the lower part the one end and the ore deposit machine body coupling of water knockout drum, the other end are connected with backward flow water-cooling to water-cooling controller with the water-cooling controller, the ore deposit machine body all is connected through hose leakproofness to it is right.

Preferably, the ore deposit machine body includes the shell, calculates power board, water cooler, power and control mainboard, be provided with at least one in the shell and calculate power board, every calculate power board back demountable installation have the water cooler with right calculate power board cooling heat dissipation, surface mounting has the power on the shell, power one side is equipped with the control mainboard, be equipped with the cover body on the shell, the cover body can be dismantled through the screw and cover the control mainboard, the control mainboard is connected with power and calculation power board electricity, the control mainboard with calculate power board communication connection.

Preferably, the water cooler includes water-cooling board, apron, sealing washer, water supply connector and water connectors, the water-cooling board is equipped with the water-cooling runner, the water-cooling board with the water-cooling runner is integrated into one piece structure, water-cooling board one side is inlayed and is equipped with airtight leak-proof water supply connector and water connectors, the both ends of water-cooling runner respectively with water supply connector, water connectors intercommunication are in order to form the water-cooling circulation, the water-cooling board is equipped with the edge the annular groove that the ring limit of water-cooling runner formed, be equipped with the sealing washer in the annular groove, the apron can be dismantled the lid and close in order to squeeze tightly on the water-cooling board prevent leaking during the sealing washer.

Preferably, at least one convex shunting bar is arranged at the bottom of the water-cooling flow channel so as to enable water flow to be uniformly filled in the water-cooling flow channel.

Preferably, the force calculation plate is attached to the water cooler through a heat conduction material.

Preferably, the side surface of the water separator is provided with at least one water separation port, the end part of the water separator is provided with a connecting port, and the connecting port is communicated with each water separation port.

Preferably, the water-cooling controller is provided with an operation panel, and one side of the operation panel is provided with a water inlet hole.

Preferably, the water cooler is made of aluminum profiles.

The utility model provides a water-cooling heat dissipation digs ore deposit machine mainly has following beneficial effect:

(1) adopt water-cooling controller to carry water-cooling to the ore deposit and backward flow, form the water-cooling circulation and cool down the heat dissipation to the heat that produces in the ore deposit machine, effectual reduction and the temperature in the control ore deposit machine ensure the stable use of ore deposit machine.

(2) The water-cooling heat dissipation structure is simple, the heat dissipation effect is good, the water-cooling sealing performance of the mining machine is excellent, and the service life of the mining machine is ensured.

Drawings

FIG. 1 is an assembly schematic view of the water cooled mining machine of the present invention;

FIG. 2 is a schematic illustration of the machine body of FIG. 1;

FIG. 3 is a schematic view of the water knockout vessel of FIG. 1;

FIG. 4 is a schematic diagram of the water cooler configuration of FIG. 2;

1. an ore machine body; 2. a water separator; 201. a water diversion port; 202. a connecting port; 3. a water-cooling controller; 301. an operation panel; 302. a water inlet hole; 4. a hose; 5. a housing; 6. calculating the strength board; 7. a water cooler; 701. a water-cooling plate; 702. a cover plate; 703. a seal ring; 704. a water inlet joint; 705. a water outlet joint; 706. a water-cooling flow channel; 707. an annular groove; 708. shunting strips; 8. a power source; 9. a control main board; 10. a cover body.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The embodiment of the utility model provides a water-cooling heat dissipation digs ore deposit machine, it is shown with reference to figure 1, including ore deposit machine body 1, water knockout drum 2, water-cooling controller 3 and hose 4, the 1 outside of ore deposit machine body is equipped with water-cooling controller 3, water knockout drum 2 sets up respectively the lateral wall upper portion and the lower part of ore deposit machine body 1 are located upper portion the one end and the water-cooling controller 3 of water knockout drum 2 are connected, and the other end is connected with ore deposit machine body 1 and is in order to input the water-cooling to ore deposit machine body 1, is located the lower part the one end and the ore deposit machine body 1 of water knockout drum 2 are connected, and the other end is connected with water-cooling controller 3, ore deposit machine body 1 all through hose 4 sealing connection, it is right when forming the water-cooling circulation.

In this embodiment, connect water knockout drum 2, water- cooling controller 3 and 1 leakproofness of ore deposit body through hose 4, utilize water-cooling controller 3 to carry water cooling to ore deposit body 1 and dispel the heat to the heat that ore deposit body 1 produced, make the temperature of ore deposit body 1 obtain reducing, water-cooling temperature after the heat dissipation can be higher than the water-cooling temperature before the heat dissipation, and will carry thermal water-cooling backward flow to water-cooling controller 3 through hose 4, water-cooling controller 3 utilizes the inside water-cooling compression to cool down the cooling, the water-cooling temperature that makes water-cooling controller 3 output keeps in certain moderate degree scope. It should be noted that the appropriate range may be adjusted according to the reasonable temperature required by the operating power of the mining machine, or according to the density of the heat generated by the operation of the mining machine. Through the mode of water-cooling heat dissipation, avoided not enough that current fan induced draft heat dissipation exists, the temperature that produces in making the ore deposit obtains effective heat dissipation and control, ensures that the ore deposit is used steadily.

Further, as shown in fig. 2, the ore mining machine body 1 comprises a shell 5, an effort calculating plate 6, a water cooler 7, a power supply 8 and a control main board 9, at least one effort calculating plate 6 is arranged in the shell 5, each effort calculating plate 6 is detachably provided with a water cooler 7 on the back side for cooling and radiating the effort calculating plate 6, the power supply 8 is arranged on the upper surface of the shell 5, the control main board 9 is arranged on one side of the power supply 8, a cover body 10 is arranged on the shell 5, the cover body 10 is detachably covered by the control main board 9 through screws, the control main board 9 is electrically connected with the power supply 8 and the effort calculating plate 6, and the control main board 9 is in communication connection with the effort calculating plate 6.

Be different from the ore deposit machine of traditional fan structure, this embodiment uses water cooler 7 to replace the fan structure, installs water cooler 7 laminating at calculation board 6 back, makes calculation board 6 at the produced heat transfer of calculation in-process to water cooler 7 to cool down the heat through the water-cooling in the water cooler 7, in order to reach the heat dissipation and protect calculation board 6's purpose. The force calculation board 6 has the capability of calculating digital currency at high speed, and can process complex calculation formulas and calculation results, the force calculation board 6 is in communication connection with the control main board 9, and data information generated by calculation is transmitted to an external system through the control main board 9 for analysis and processing of the external system.

In an optional embodiment, 3 force calculation plates 6 are arranged in the ore machine body 1, a water cooler 7 is installed on each force calculation plate 6 in a fitting mode, the water cooler 7 is respectively connected with one end of each water separator 2 located at the upper portion and the lower portion in a sealing mode, the water cooling controller 3 is respectively connected with the other end of each water separator 2 located at the upper portion and the lower portion in a sealing mode, so that cooling and heat dissipation of the force calculation plates 6 are achieved through water cooling circulation, each force calculation plate 6 and the water cooler 7 are installed independently, it is guaranteed that each water cooler 7 can conduct quick heat dissipation on the force calculation plates 6 in the water cooling circulation process, installation is simple, maintenance is convenient, it needs to be stated that a water cooling module is formed by combination of the force calculation plates 6 and the water coolers 7, and the efficiency of calculation capability is.

Further, referring to fig. 4, the water cooler 7 includes a water cooling plate 701, a cover plate 702, a sealing ring 703, a water inlet connector 704 and a water outlet connector 705, the water cooling plate 701 is provided with a water cooling channel 706, the water cooling plate 701 and the water cooling channel 706 are of an integrated structure, the water inlet connector 704 and the water outlet connector 705 which are airtight and leak-proof are embedded on one side of the water cooling plate 701, two ends of the water cooling channel 706 are respectively communicated with the water inlet connector 704 and the water outlet connector 705 to form a water cooling cycle, the water cooling plate 701 is provided with an annular groove 707 formed along an annular edge of the water cooling channel 706, the sealing ring 703 is arranged in the annular groove 707, and the cover plate 702 is detachably covered on the water cooling plate 701 to tightly squeeze the sealing ring 703 to prevent water leakage.

In this embodiment, the water-cooling plate 701 is made of an aluminum profile by a die-casting process, the water-cooling plate 701 is integrally formed into the water-cooling channel 706, the shape of the water-cooling channel 706 may be S-shaped or 0-shaped, the structure of the water-cooling channel 706 is designed according to the reference of the heating element of the force calculation plate 6 and is fully distributed in the water-cooling plate 701, the thickness between the bottom of the water-cooling channel 706 and the back of the force calculation plate 6 is moderate, so as to meet the requirement of heat dissipation without influencing the structure of the water-cooling plate 701, and the heat conduction speed is small. The cover plate 702 is detachably covered on the water cooling plate 701 through screws, and the sealing ring 703 is tightly squeezed by the cover plate 702 to prevent water leakage.

Further, at least one raised flow dividing strip 708 is disposed at the bottom of the water-cooling flow passage 706 to enable the water-cooling flow passage 706 to be uniformly filled with water.

In an alternative embodiment, the bottom of the water-cooling channel 706 is composed of 3 raised flow dividing strips 708, and the flow dividing strips 708 divide the water-cooling channel 706 into 4 water-cooling through grooves, so that water cooling is distributed to the water-cooling through grooves through the flow dividing strips 708 to uniformly fill the water-cooling channel 706, thereby ensuring that each area of the computation plate 6 can be cooled and exhausted in time through the water-cooling channel 706.

Further, the force calculation plate 6 is attached to the water cooler 7 through a heat conduction material.

For better heat that makes calculation power board 6 produce when the operation conducts to water cooler 7 fast, scribble the one deck heat conduction material between calculation power board 6 and water cooler 7, it is preferred, the heat conduction material is heat conduction silica gel, and its heat conductivility is strong, in time conducts to water cooler 7 to the heat that calculation power board 6 produced, is favorable to the timely effectual heat dissipation of water cooler 7, ensures the steady operation of calculation power board 6.

Further, referring to fig. 3, at least one water diversion port 201 is provided on a side surface of the water diverter 2, a connection port 202 is provided at an end of the water diverter 2, and the connection port 202 is communicated with each water diversion port 201.

In this embodiment, the water knockout drum 2 includes a connection port 202 and a plurality of water knockout drums 201, the water knockout drums 201 are selected according to the number of the water coolers 7 installed in the mining machine, the water knockout drums 201 may be 2, 3 or more water knockout drums 201, wherein the connection port 202 of each water knockout drum 2 is communicated with each water knockout drum 201 thereof to realize the water inlet and outlet of the plurality of water coolers 7.

Further, an operation panel 301 is arranged on the water-cooling controller 3, and a water inlet hole 302 is arranged on one side of the operation panel 301.

The water cooling controller 3 serves as an external device and is used for water cooling control, water can be led into the water cooling controller 3 through the water inlet hole 302 in advance, a worker can set the temperature of water cooling, the flow rate of the water cooling, the time and other items through the operation panel 301, and after adjustment is completed, the water cooling preheating is carried out firstly, and the mining machine is started for operation.

The above embodiments are only used to illustrate the technical solution of the present invention, and do not limit the protection scope of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from these embodiments without any inventive step, are within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art can still make no creative work on the condition of conflict, and make mutual combination, addition and deletion, or other adjustments according to the features in the embodiments of the present invention, thereby obtaining other technical solutions which are different and do not depart from the concept of the present invention, and these technical solutions also belong to the scope to be protected by the present invention.

Claims (8)

1. The utility model provides a water-cooling heat dissipation digs ore deposit machine, its characterized in that, includes ore deposit machine body, water knockout drum, water-cooling controller and hose, the ore deposit machine body outside is equipped with the water-cooling controller, the water knockout drum sets up respectively the lateral wall upper portion and the lower part of ore deposit machine body are located upper portion the one end and the water-cooling controller of water knockout drum are connected, and the other end is connected with this body input water-cooling to the ore deposit machine body with this body coupling of ore deposit, are located the lower part the one end and this body coupling of ore deposit machine of water knockout drum, the other end are connected with water-cooling controller with backward flow water-cooling to water-cooling controller, ore deposit machine body all are connected through hose leakproofness to it is right when forming.

2. A water-cooled heat dissipation mining machine as claimed in claim 1, wherein the mining machine body comprises a casing, a computing force plate, a water cooler, a power supply and a control main board, at least one computing force plate is arranged in the casing, the water cooler is detachably mounted on the back of each computing force plate to cool and dissipate heat of the computing force plate, the power supply is mounted on the upper surface of the casing, the control main board is arranged on one side of the power supply, a cover body is arranged on the casing, the cover body covers the control main board in a detachable mode through screws, the control main board is electrically connected with the power supply and the computing force plate, and the control main board is in communication connection with the computing force plate.

3. The mining machine according to claim 2, wherein the water cooler comprises a water cooling plate, a cover plate, a sealing ring, a water inlet joint and a water outlet joint, the water cooling plate is provided with a water cooling flow passage, the water cooling plate and the water cooling flow passage are of an integrally formed structure, one side of the water cooling plate is embedded with the air-tight and leakage-proof water inlet joint and water outlet joint, two ends of the water cooling flow passage are respectively communicated with the water inlet joint and the water outlet joint to form water cooling circulation, the water cooling plate is provided with an annular groove formed along the annular edge of the water cooling flow passage, the sealing ring is arranged in the annular groove, and the cover plate is detachably covered on the water cooling plate to prevent water leakage when the sealing ring is tightly squeezed.

4. A water cooled heat extraction mining machine as claimed in claim 3, wherein the bottom of the water cooled flow channel is provided with at least one raised diverter strip to provide uniform filling of the water cooled flow channel with water flow.

5. A water cooled heat extraction mining machine as claimed in any one of claims 2 to 4, wherein the computing plate and the water cooler are attached by a thermally conductive material.

6. A water cooled heat dissipating mining machine as claimed in claim 1, wherein the side of the water knockout drum is provided with at least one water knockout opening, and the end of the water knockout drum is provided with a connection opening which is through each water knockout opening.

7. A water cooled heat dissipating mining machine as claimed in claim 1, wherein the water cooled controller is provided with an operating panel having a water inlet hole on one side.

8. A water cooled heat dissipating mining machine as claimed in claim 1, wherein the water cooler is of aluminium section.

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