Cooling device for industrial equipment
Technical Field
The invention relates to the technical field of industrial equipment, in particular to a cooling device for industrial equipment.
Background
Cooling device belongs to the supplementary industrial equipment field of production water line, including fixing cooling wind pipeline and the wind head device on the wind head device the below of wind head device is provided with a hollow around annular rectangle steel pipe body, cooling wind pipe connection has improved the production speed of industrialization greatly in this rectangle steel pipe body's up end, cooling device's use.
However, the conventional cooling device for industrial equipment has large power consumption in the use process, small water flow cooling area in the cooling process, low heat dissipation performance and poor cooling effect.
Therefore, there is a need to provide a new cooling device for industrial equipment to solve the above technical problems.
Disclosure of Invention
The invention aims to provide a cooling device for industrial equipment, which has good heat dissipation performance and good cooling effect.
In order to solve the above technical problem, the present invention provides a cooling device for an industrial equipment, comprising: a condenser tube; the water inlet structure is fixed on the condensation pipe; the water pump is communicated with the condensation pipe; the condenser pipe is wound on the fixed structure, the fixed structure comprises a fixed plate and a supporting structure, the fixed plate is fixed at the bottom end of the condenser pipe, the supporting structure is fixed on the fixed plate, the supporting structure comprises a fixed cylinder, and the condenser pipe is wound on the fixed cylinder; the first cooling structure is fixed on the fixed cylinder and comprises a sealing plug, a first reset spring, a second fixed frame and a first cooling cylinder, the first cooling cylinder is fixed on the fixed cylinder, the second fixed frame is fixed on the first cooling cylinder, the first reset spring is connected with the second fixed frame and extends to the first cooling cylinder, the sealing plug is arranged at one end, deviating from the second fixed frame, of the first reset spring, and the sealing plug and the second fixed frame are symmetrically arranged at two ends of the first cooling cylinder; the second cooling structure is fixed on the fixed cylinder and comprises a second cooling cylinder, the second cooling cylinder is fixed on the fixed cylinder, and the condensation pipe is communicated with the second cooling cylinder; the water outlet is formed in one end, deviating from the second cooling cylinder, of the condensation pipe, industrial hot water flows into the first cooling cylinder of the first cooling structure from the water inlet structure, when the water amount in the first cooling cylinder is too much, the first return spring extends under the pressure of water flow, the sealing plug is separated from the first cooling cylinder, the water flow flows into the second cooling cylinder from the first cooling cylinder, the cooling is further performed, and the water flow is discharged from the condensation pipe through the water outlet under the adsorption effect of the water pump.
Preferably, the water inlet structure comprises a first fixing frame and a water inlet joint, the first fixing frame is fixed on the condensation pipe, and the water inlet joint is fixed on the first fixing frame.
Preferably, the fixing structure further comprises four fixing seats, and the four fixing seats are fixed at four corners of the bottom end of the fixing plate.
Preferably, the first cooling structure further comprises a roller and fan blades, the roller is rotatably connected with the first cooling cylinder, and the fan blades are rotatably connected with the sealing plug.
Preferably, the second cooling structure further comprises a second return spring, the second return spring is arranged between the second cooling cylinder and the roller, and the second return spring is rotatably connected with the first cooling cylinder.
Preferably, the support structure comprises a ball and a driving groove, the driving groove is spirally fixed on the first cooling cylinder, and the ball is arranged in the first cooling cylinder.
Preferably, the ball is disposed inside the driving groove between the first cooling cylinder and the fixed cylinder, and the first cooling cylinder is rotatably connected to the fixed cylinder.
Preferably, the condenser pipe is close to the one end in outlet is equipped with the early warning structure, the early warning structure includes control by temperature change structure, scale strip and early warning lamp, control by temperature change structure run through in the condenser pipe, the scale strip is fixed in the condenser pipe, the early warning lamp is fixed in the condenser pipe.
Preferably, the temperature control structure is in threaded connection with the condensation pipe, and the early warning lamp is electrically connected with the temperature control structure.
Preferably, the temperature control structure comprises a wiring terminal, a third reset spring, a sliding rod, a piston, mercury, a first sleeve, a second sleeve and a spring contact piece, the first sleeve is in threaded connection with the condensation pipe, the second sleeve is in threaded connection with the first sleeve, the wiring terminal is arranged at the top end of the second sleeve, the spring contact piece, the sliding rod, the third reset spring, the piston and the mercury are sequentially arranged in the wiring terminal and the first sleeve, the piston is in sliding connection with the first sleeve, the sliding rod is in sliding connection with the second sleeve, and the wiring terminal is electrically connected with the early warning lamp.
Compared with the related art, the cooling device for the industrial equipment provided by the invention has the following beneficial effects:
the invention provides a cooling device for industrial equipment, wherein industrial hot water flows into a first cooling cylinder of a first cooling structure from a water inlet structure, the hot water flows into the first cooling cylinder from the water inlet structure to be contacted with air, heat exchange is carried out between the hot water and the air, the contact area between the hot water and the air is increased, when the water amount in the first cooling cylinder is excessive, a first return spring extends under the pressure of water flow, a sealing plug is separated from the first cooling cylinder, the water flow flows into a second cooling cylinder from the first cooling cylinder, further cooling is carried out, then the water flow is discharged from a condensation pipe through a water outlet under the adsorption action of a water pump, the heat radiation performance and the cooling effect are improved by increasing the contact area between the water flow and the air, and meanwhile, electric energy is saved.
Drawings
FIG. 1 is a schematic structural view of a cooling apparatus for industrial equipment according to a preferred embodiment of the present invention;
FIG. 2 is a schematic view of the internal structure of the support structure shown in FIG. 1;
FIG. 3 is a schematic structural diagram of the temperature control structure shown in FIG. 2;
fig. 4 is a flowchart illustrating a method for controlling a cooling apparatus for an industrial plant according to the present invention.
Reference numbers in the figures: 1. the device comprises a fixing structure, 11, a fixing seat, 12, a fixing plate, 13, a supporting structure, 131, a ball, 132, a driving groove, 133, a fixing cylinder, 2, a water pump, 3, a condensation pipe, 4, a water outlet, 5, a water inlet structure, 51, a first fixing frame, 52, a water inlet joint, 6, an early warning structure, 61, a temperature control structure, 611, a wiring terminal, 612, a third return spring, 613, a sliding rod, 614, a piston, 615, mercury, 616, a first sleeve, 617, a second sleeve, 618, a spring contact piece, 62, a scale bar, 63, an early warning lamp, 7, a first cooling structure, 71, a roller, 72, a fan blade, 73, a sealing plug, 74, a first return spring, 75, a second fixing frame, 76, a first cooling cylinder, 8, a second cooling structure, 81, a second return spring, 82 and a second cooling cylinder.
Detailed Description
The invention is further described with reference to the following figures and embodiments.
Referring to fig. 1, fig. 2 and fig. 3, wherein fig. 1 is a schematic structural diagram of a cooling device for industrial equipment according to a preferred embodiment of the present invention; FIG. 2 is a schematic view of the internal structure of the support structure shown in FIG. 1; fig. 3 is a schematic structural diagram of the temperature control structure shown in fig. 2. The cooling device for industrial equipment comprises: a condenser tube 3; the water inlet structure 5 is fixed on the condensation pipe 3; the water pump 2 is communicated with the condensation pipe 3; the condenser tube 3 is wound on the fixed structure 1, the fixed structure 1 comprises a fixed plate 12 and a supporting structure 13, the fixed plate 12 is fixed at the bottom end of the condenser tube 3, the supporting structure 13 is fixed on the fixed plate 12, the supporting structure 13 comprises a fixed cylinder 133, and the condenser tube 3 is wound on the fixed cylinder 133; the first cooling structure 7 is fixed to the fixed cylinder 133, the first cooling structure 7 includes a sealing plug 73, a first return spring 74, a second fixed frame 75 and a first cooling cylinder 76, the first cooling cylinder 76 is fixed to the fixed cylinder 133, the second fixed frame 75 is fixed to the first cooling cylinder 76, the first return spring 74 is connected to the second fixed frame 75 and extends to the first cooling cylinder 76, one end of the first return spring 74, which is away from the second fixed frame 75, is provided with the sealing plug 73, and the sealing plug 73 and the second fixed frame 75 are symmetrically arranged at two ends of the first cooling cylinder 76; a second cooling structure 8, wherein the second cooling structure 8 is fixed to the fixed cylinder 133, the second cooling structure 8 includes a second cooling cylinder 82, the second cooling cylinder 82 is fixed to the fixed cylinder 133, and the condensation pipe 3 is in communication with the second cooling cylinder 82; and the water outlet 4 is arranged at one end of the condensation pipe 3, which is far away from the second cooling cylinder 82.
In order to facilitate the fixing device, be convenient for adjusting device to level, water inlet structure 5 includes first mount 51 and water supply connector 52, first mount 51 is fixed in condenser pipe 3, water supply connector 52 is fixed in first mount 51, fixed knot constructs 1 and still includes four fixing bases 11, four fixing base 11 is fixed in the bottom four corners department of fixed plate 12.
In order to improve the heat dissipation performance of the device, realize the convection of air, and promote the circulation of air, the first cooling structure 7 further comprises a roller 71 and fan blades 72, the roller 71 is rotatably connected to the first cooling cylinder 76, the fan 72 is rotatably connected to the sealing plug 73, the second cooling structure 8 further comprises a second return spring 81, the second return spring 81 is provided between the second cooling cylinder 82 and the roller 71, and the second return spring 81 is rotatably connected to the first cooling cylinder 76, the support structure 13 includes a ball 131 and a driving groove 132, the driving groove 132 is spirally fixed to the first cooling cylinder 76, the balls 131 are provided inside the first cooling cylinder 76, the balls 131 are disposed in the driving groove 132 between the first cooling cylinder 76 and the fixed cylinder 133, and the first cooling cylinder 76 is rotatably connected to the fixed cylinder 133.
An early warning structure 6 is arranged at one end, close to the water outlet 4, of the condensation pipe 3, the early warning structure 6 comprises a temperature control structure 61, a scale bar 62 and an early warning lamp 63, the temperature control structure 61 penetrates through the condensation pipe 3, the scale bar 62 is fixed to the condensation pipe 3, and the early warning lamp 3 is fixed to the condensation pipe 3; the temperature control structure 61 is in threaded connection with the condensation pipe 3, and the early warning lamp 63 is electrically connected with the temperature control structure 61.
In order to facilitate observation of the cooling temperature and adjustment of different early warning temperatures, the temperature control structure 61 includes a connection terminal 611, a third return spring 612, a sliding rod 613, a piston 614, mercury 615, a first sleeve 616, a second sleeve 617 and a spring contact piece 618, the first sleeve 616 is in threaded connection with the condensation tube 3, the second sleeve 617 is in threaded connection with the first sleeve 616, the connection terminal 611 is disposed at the top end of the second sleeve 617, the spring contact piece 618, the sliding rod 613, the third return spring 612, the piston 614 and the mercury 615 are sequentially disposed from the connection terminal 611 to the inside of the first sleeve 616, the piston 614 is in sliding connection with the first sleeve 616, the sliding rod 613 is in sliding connection with the second sleeve 617, and the connection terminal 611 is electrically connected with the early warning lamp 63.
Referring to fig. 4, fig. 4 is a flowchart illustrating a method for controlling a cooling apparatus for an industrial device according to the present invention; the control method of the cooling device for the industrial equipment comprises the following steps:
s1: installing equipment;
s11: connecting a water pipe;
specifically, the water inlet joint 52 of the device is connected with the water discharging end of the industrial equipment, and the water discharging port 4 is connected with the water inlet end of the industrial equipment;
s12: switching on a power supply;
specifically, the connection terminal 611 and the water pump 2 are respectively connected to a power supply.
S2: primary cooling;
s21: the first cooling drum 76 is cooled;
specifically, the industrial hot water flows into the first cooling cylinder 76 of the first cooling structure 7 from the water inlet joint 52, and the hot water flows into the first cooling cylinder 76 from the water inlet structure 5 to contact with air.
S22: once the fan blades 72 are cooled;
specifically, the first cooling cylinder 76 slides along the driving groove 132 under the gravity of the water flow, and simultaneously drives the fan blades 72 to rotate, so as to realize the convection of air.
S23: cooling fan blades 72 for the second time;
specifically, when the amount of water in the first cooling cylinder 76 is excessive, the first return spring 74 extends under the pressure of the water flow, the sealing plug 73 is separated from the first cooling cylinder 76, and the first cooling cylinder 76 slides along the driving groove 132 under the action of the second return spring 81, and simultaneously drives the fan blades 72 to rotate, so as to realize the convection of air.
S3: secondary cooling;
specifically, when the amount of water in the first cooling cylinder 76 is excessive, the first return spring 74 is expanded under the pressure of the water flow, the sealing plug 73 is separated from the first cooling cylinder 76, and the water flow flows from the first cooling cylinder 76 to the second cooling cylinder 82 for further cooling.
S4: cooling for the third time;
specifically, water flows through the water pump 2 and is discharged from the condensation pipe 3 through the water outlet 4 under the adsorption effect, and further cooling is achieved.
S5: temperature early warning;
s51: adjusting the early warning temperature;
specifically, the second sleeve 617 is rotated to align the bottom end of the second sleeve 617 with the warning scale on the scale bar 62.
S52: early warning work;
specifically, under the influence of the temperature of the water flowing through the condenser tube 3, the mercury 615 inside the first sleeve 616 expands to push the piston 614 to slide inside the first sleeve 616, the piston 614 drives the sliding rod 613 and the spring contact 618 to slide along the second sleeve 617, and the warning light 63 flashes when the spring contact 618 contacts the connection terminal 611.
S53: early warning reset;
specifically, when the early warning temperature decreases, the spring contact piece 618 is separated from the connection terminal 611 under the elastic force of the third return spring 612, and the warning is ended.
Compared with the related art, the cooling device for the industrial equipment provided by the invention has the following beneficial effects:
the invention provides a cooling device for industrial equipment, industrial hot water flows into the first cooling cylinder 76 of the first cooling structure 7 from the water inlet structure 5, the hot water flows into the first cooling cylinder 76 from the water inlet structure 5 to be contacted with air, and exchanges heat with outdoor air, so that the contact area of the hot water and the air is increased, when the water amount in the first cooling cylinder 76 is excessive, the first return spring 74 is stretched under the pressure of the water flow, the sealing plug 73 is separated from the first cooling cylinder 76, the water flow flows into the second cooling cylinder 82 from the first cooling cylinder 76 to be further cooled, then the water flow is discharged from the condensation pipe 3 through the water outlet 4 under the adsorption action of the water pump 2, the heat radiation performance and the cooling effect are improved by increasing the contact area of the water flow and the air, and the electric energy is saved, has good social benefit and economic benefit, and is suitable for popularization and use.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.