CN111336836A

CN111336836A - Circulating cooling mechanism

Info

Publication number: CN111336836A
Application number: CN202010147964.4A
Authority: CN
Inventors: 李兰清
Original assignee: Hangzhou Fuyang Yongxing Chemical Co ltd
Current assignee: Hangzhou Fuyang Yongxing Chemical Co ltd
Priority date: 2020-03-05
Filing date: 2020-03-05
Publication date: 2020-06-26

Abstract

The invention relates to a circulating cooling mechanism, which relates to the technical field of cooling equipment and comprises a cooling box, wherein a cooling pipe is arranged in the cooling box in a penetrating manner, two ends of the cooling pipe respectively extend out of the end surfaces of the two ends of the cooling box, a water pump is fixedly connected to the cooling box, a water inlet pipe is fixedly connected to a water inlet of the water pump, one end of the water inlet pipe is arranged in the cooling box in a penetrating manner, a drain pipe is fixedly connected to a drain port of the water pump, a radiating pipe is fixedly connected to one end, far away from the water pump, of the drain pipe, the radiating pipe is fixedly connected and communicated with one end, far away from the water pump, of the drain pipe, a connecting pipe is fixedly connected to the cooling box, one end of the connecting pipe is fixedly connected and communicated with the radiating pipe, the other end of the connecting pipe is fixedly connected to the cooling box and communicated with the. The method has the advantages of avoiding the evaporation of water vapor and reducing the waste of water resources.

Description

Circulating cooling mechanism

Technical Field

The invention relates to the technical field of cooling equipment, in particular to a circulating cooling mechanism.

Background

At present some chemical plants need to cool down the raw materials of some liquid when carrying out chemical product production, and the cooling mode that adopts usually is that liquid conveying pipeline's below sets up the cistern at present, is provided with the water pump in the cistern, takes out the continuous injection of back in the cistern and cools down on liquid conveying pipeline, and the water in the cistern has just formed the circulation cooling to liquid conveying pipeline like this. However, when the liquid conveying pipeline is cooled by the method, a large amount of water evaporation loss is generated on the liquid conveying pipeline, the loss is about 1/5 of the total amount of cooling circulating water, and the problem is very serious in a water shortage area.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a circulating cooling device which has the advantages that the cooling liquid is arranged in a cooling box, so that the water vapor evaporation can be avoided, and the waste of water resources is reduced.

The above object of the present invention is achieved by the following technical solutions: the utility model provides a circulating cooling mechanism, including the cooling case, wear to be equipped with the cooling pipe in the cooling case, the both ends of cooling pipe are stretched out from the terminal surface at cooling case both ends respectively, the rigid coupling has the water pump on the cooling case, the water inlet department rigid coupling of water pump has the inlet tube, the one end of inlet tube is worn to establish in the cooling case, the drain outlet department rigid coupling of water pump has the drain pipe, the one end rigid coupling that the water pump was kept away from to the drain pipe has the cooling tube, the one end rigid coupling and the intercommunication of water pump are kept away from to cooling tube and drain pipe, the rigid coupling has the connecting pipe on the cooling case, the one end and the cooling tube rigid coupling and the intercommunication of connecting pipe, the other end rigid coupling of connecting pipe on the cooling case and with cooling incasement intercommunication, the cooling incasement intussuseption is.

Through adopting above-mentioned technical scheme, when cooling down to the liquid in the liquid conveying pipe, liquid enters into in the cooling pipe from the one end of cooling pipe, and then in the other end through the cooling pipe continues to carry the liquid conveying pipe, at the state that this in-process water pump kept the start-up, in the liquid in the cooling pipe transmitted the heat to the coolant liquid, the coolant liquid gived off the outside through the cooling box to reach the purpose of cooling down to the liquid in the liquid conveying pipe. Simultaneously the water pump with the coolant liquid suction to the cooling tube in, the coolant liquid can be more quick after the cooling tube gives off the heat to the outside.

The present invention in a preferred example may be further configured to: and the cooling box is fixedly connected with an air blower blowing air towards the radiating pipe.

By adopting the technical scheme, the heat dissipation in the heat dissipation pipe to the outside can be accelerated.

The present invention in a preferred example may be further configured to: the cooling pipes are distributed in the cooling box in a spiral shape.

Through adopting above-mentioned technical scheme, increased the area of contact of cooling tube with the coolant liquid in the cooling box to make the coolant liquid in the cooling tube can give off the heat to the coolant liquid in more efficient.

The present invention in a preferred example may be further configured to: the cooling tube includes two first pipes and many second pipes, two first pipes respectively with connecting pipe and drain pipe rigid coupling and intercommunication, many second pipes all are located between two first pipes, the both ends of second pipe respectively with two first pipe intercommunications, the second pipe is the heliciform and distributes.

Through adopting above-mentioned technical scheme, increased the area of contact of cooling tube with the outside air and then made the radiating effect of cooling tube better.

The present invention in a preferred example may be further configured to: the lower surface rigid coupling of cooling box has the base, and the lower surface of base is provided with at least three universal wheel.

Through adopting above-mentioned technical scheme, can be more convenient change the position with cooling body through promoting the base.

The present invention in a preferred example may be further configured to: the lower surface of the base is provided with at least three rectangular holding grooves, a plurality of universal wheels are respectively positioned in the holding grooves, the bottom surfaces of the holding grooves are respectively provided with a connecting hole which is arranged along the height direction of the base, the inside of the base is provided with a cylindrical holding cavity, the holding cavity is arranged along the height direction of the base, the upper wall of the holding cavity is provided with a cylindrical adjusting cavity, the peripheral surface of the holding cavity is provided with a plurality of connecting cavities, one ends of the connecting cavities are respectively communicated with the holding cavity, the other ends of the connecting cavities are respectively communicated with the connecting holes, a supporting rod is connected in the connecting holes in a sliding manner, connecting rods are arranged in the connecting cavities, connecting blocks are connected in the holding cavity in a sliding manner, cylindrical rotating cavities are arranged in the connecting blocks, rotating blocks are connected in the rotating cavities in a rotating manner, rotating holes are arranged on the upper surface of, the other end of the rotating rod is fixedly connected with a driving rod, the top end of the driving rod is fixedly connected with a control rod, the outer peripheral surface of the control rod is in threaded connection with the inner peripheral surface of the adjusting cavity, the outer peripheral surface of the adjusting cavity is provided with a control cavity, the control rod is arranged in the control cavity and is arranged along the thickness direction of the base, two ends of the control rod are respectively in rotating connection with the side wall of the control cavity, the control rod is fixedly connected with a control gear, the outer peripheral surface of the driving rod is provided with a tooth socket matched with the control gear, the tooth socket is arranged along the length direction of the rotating rod, the driving rod is meshed with the control gear, the control rod is fixedly connected with a first bevel gear, the side wall of the base is provided with a driving cavity, a driving motor is fixedly connected in the driving cavity, the bottom surface of the driving cavity is provided with a through hole communicated with the control, a plurality of universal wheels are respectively and fixedly connected with the bottom ends of the four supporting rods.

Through adopting above-mentioned technical scheme, when cooling device need remove, start driving motor, driving motor drives control gear through first bevel gear and second bevel gear and rotates, and control gear drives the rotary rod rotatory, and the rotary rod is rotatory to drive the control lever rotatory, and the control lever moves down, and then in ejecting four universal wheels out of the holding tank of base lower surface to can promote cooling body and remove. Can start driving motor when cooling mechanism moves suitable position, driving motor's output shaft is the antiport this moment, and the control lever upward movement under driving motor's drive, and then with four universal wheels take in four holding tanks in, the lower surface and the ground contact of base, and then make cooling mechanism more stable.

The present invention in a preferred example may be further configured to: and a push rod which is convenient for the cooling mechanism to move is fixedly connected to the side wall of the base.

Through adopting above-mentioned technical scheme, the push rod makes cooling body more laborsaving when removing.

The present invention in a preferred example may be further configured to: the equal rigid coupling in both ends of cooling tube has the hose, the equal rigid coupling in one end that the cooling tube was kept away from to two hoses has fixed pipe, the one end rigid coupling that the hose was kept away from to fixed pipe has the installation pipe that the fixed pipe of diameter ratio is big, the one end of installation pipe towards fixed pipe is sealed, the one end rigid coupling that fixed pipe deviates from the hose is on the terminal surface of the fixed pipe of installation pipe orientation, and fixed pipe and installation pipe intercommunication, the rigid coupling is equipped with annular backing plate on the outer peripheral face of liquid conveying pipe, liquid conveying pipe's one end is worn to establish in the installation pipe, wear to be equipped with a plurality of first fixing bolt on the terminal surface of the fixed pipe of installation pipe orientation, first fixing bolt wears to establish into in the liquid conveying pipe, wear to be equipped with a plurality of second fixing bolt on the lateral wall that the.

By adopting the technical scheme, the hose has certain movement allowance, so that the cooling mechanism is convenient to install on the liquid conveying pipe.

The present invention in a preferred example may be further configured to: the lateral wall of the base plate facing the installation pipe and the end face of the liquid conveying pipe in the installation pipe are fixedly connected with sealing gaskets.

Through adopting above-mentioned technical scheme, increased the leakproofness between liquid conveying pipe and the installation pipe.

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

1. through setting up the cooling box, the cooling incasement sets up the cooling pipe, the both ends of cooling pipe link the bucket with liquid delivery pipe respectively, set up water pump and cooling tube on the cooling box, when cooling down the liquid in the liquid delivery pipe, liquid enters into in the cooling pipe from the one end of cooling pipe, then in the other end through the cooling pipe continues to carry the liquid delivery pipe, the state that the water pump kept the start at this in-process, liquid in the cooling pipe gives off the heat to the coolant liquid in, the coolant liquid gives off the outside through the cooling box, thereby reach the purpose that cools down to the liquid in the liquid delivery pipe. Simultaneously the water pump with the coolant liquid suction to the cooling tube in, the coolant liquid can be more quick after the cooling tube gives off the heat to the outside.

2. By arranging the base below the cooling box, universal wheels are arranged on the base, a containing groove is arranged on the lower surface of the base, a connecting hole, a connecting cavity, a containing cavity and an adjusting cavity are arranged in the base, a supporting rod is arranged in the connecting hole, a connecting rod is arranged in the connecting cavity, a connecting block is arranged in the containing cavity, a driving rod and an adjusting rod are arranged in the adjusting cavity, a control cavity is arranged on the inner side wall of the adjusting cavity, a rotating rod is arranged in the control cavity, a control gear and a first bevel gear are arranged on the rotating rod, a driving cavity is arranged on the base, a driving motor for driving the rotating rod to rotate is arranged in the driving cavity, when the cooling device needs to move, the driving motor is started, the driving motor drives the control gear to rotate through the first bevel gear and a second bevel gear, the control gear drives the rotating rod to rotate, the rotating rod drives the, thereby pushing the cooling mechanism to move. Can start driving motor when cooling mechanism moves suitable position, driving motor's output shaft is the antiport this moment, and the control lever upward movement under driving motor's drive, and then with four universal wheels take in four holding tanks in, the lower surface and the ground contact of base, and then make cooling mechanism more stable.

3. The hose is arranged at the two ends of the cooling pipe, the fixing pipe is arranged on the hose, the mounting pipe is arranged on the fixing pipe, the base plate is arranged on the liquid conveying pipe, the hose has certain movement allowance, and the cooling mechanism is arranged on the liquid conveying pipe conveniently.

Drawings

FIG. 1 is a schematic view showing the overall structure of the circulation cooling mechanism in the present embodiment;

FIG. 2 is a schematic view showing the internal structure of the highlighting cooling box in the present embodiment;

fig. 3 is a partially enlarged view of a portion a in fig. 2;

FIG. 4 is a schematic view showing a mounting structure of a salient universal wheel in the present embodiment;

FIG. 5 is a schematic view showing the internal structure of the projection base in this embodiment;

FIG. 6 is a schematic view showing a mounting structure of the highlighting drive motor in the present embodiment;

fig. 7 is a partially enlarged view of a portion B in fig. 6;

FIG. 8 is a schematic view showing the connection structure of the support rod, the connecting block, the drive rod and the control rod in this embodiment;

fig. 9 is a partially enlarged view of portion C of fig. 8;

FIG. 10 is a schematic view showing the internal structure of the bump connector block in this embodiment.

In the figure, 1, a cooling box; 11. a cooling pipe; 111. a hose; 1111. a fixed tube; 12. a connecting pipe; 13. a blower; 14. a liquid discharge pipe; 141. a cover body; 2. a water pump; 21. a water inlet pipe; 22. a drain pipe; 3. a radiating pipe; 31. a first tube; 32. a second tube; 4. a liquid delivery pipe; 41. a base plate; 5. a base; 51. accommodating grooves; 511. connecting holes; 5111. a support bar; 52. an accommodating chamber; 521. an adjustment chamber; 522. a connecting cavity; 5221. a connecting rod; 53. a control chamber; 531. rotating the rod; 5311. a control gear; 5312. a first bevel gear; 54. a drive chamber; 541. a drive motor; 5411. a second bevel gear; 55. a push rod; 551. a first lever; 552. a second lever; 6. a universal wheel; 7. connecting blocks; 71. a rotating chamber; 711. rotating the block; 72. rotating the hole; 721. rotating the rod; 8. a drive rod; 81. a control lever; 9. and (5) installing a pipe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, a circulating cooling device disclosed by the invention comprises a rectangular cooling box 1, a cooling pipe 11 penetrates through the cooling box 1, two ends of the cooling pipe 11 respectively extend out from the end surfaces of two ends of the cooling box 1, a water pump 2 is fixedly connected to the upper surface of the cooling box 1, a water inlet pipe 21 is arranged at the water inlet of the water pump 2, one end of the water inlet pipe 21 is fixedly connected and communicated with the water inlet of the water pump 2, the other end of the water inlet pipe 21 penetrates through the upper surface of the cooling box 1 and extends into the cooling box 1, a drain pipe 22 is arranged at the drain outlet of the water pump 2, one end of the drain pipe 22 is fixedly connected and communicated with the drain outlet of the water pump 2, the other end of the drain pipe 22 is connected with a cooling pipe 3, the cooling pipe 3 is fixedly connected and communicated with one end of the drain pipe 22 far away from the water pump 2, a connecting pipe 12 is fixedly, the other end of the connecting pipe 12 is fixedly connected to the upper surface of the cooling box 1 and is communicated with the interior of the cooling box 1, and the cooling box 1 is filled with cooling liquid. The circulating cooling device is arranged on the liquid conveying pipe 4, and two ends of the cooling pipe 11 are respectively communicated with the liquid conveying pipe 4.

When liquid to in the liquid delivery pipe 4 cools down, liquid enters into in the cooling pipe 11 from the one end of cooling pipe 11, then in the other end through cooling pipe 11 continues to carry liquid delivery pipe 4, in this in-process water pump 2 keeps the state of starting, in liquid in the cooling pipe 11 transmits the heat to the coolant liquid, the coolant liquid gives off the outside through cooling box 1 to reach the purpose of cooling to the liquid in the liquid delivery pipe 4. Simultaneously in water pump 2 with the cooling liquid suction to cooling tube 3, the cooling liquid can be more quick after the cooling tube 3 give off the heat to the outside.

The upper surface of the cooling box 1 is fixedly connected with an air blower 13, and the air blower 13 blows air towards the radiating pipe 3. This accelerates the dissipation of heat in the radiating pipe 3.

The cooling pipes 11 are distributed in a spiral shape in the cooling box 1. Thus, the contact area between the cooling pipe 11 and the cooling liquid in the cooling box 1 is increased, and the cooling liquid in the cooling pipe 11 can radiate heat to the cooling liquid more efficiently.

The radiating pipe 3 comprises two first pipes 31 and three second pipes 32, wherein the two first pipes 31 are arranged in parallel, and the two first pipes 31 are fixedly connected and communicated with the connecting pipe 12 and the drain pipe 22 respectively. The three second pipes 32 are located between the two first pipes 31, the three second pipes 32 are uniformly distributed along the length direction of the first pipes 31, and two ends of each second pipe 32 are respectively communicated with the two first pipes 31. The second tube 32 is helically arranged. By this arrangement, the contact area of the radiating pipe 3 with the external air is increased to make the radiating effect of the radiating pipe 3 better.

Referring to fig. 2 and 4, a rectangular base 5 is arranged right below the cooling box 1, the cooling box 1 is fixedly connected to the upper surface of the base 5, and four universal wheels 6 are arranged on the lower surface of the base 5. The cooling mechanism can be more conveniently replaced by pushing the base 5.

Referring to fig. 4 and 5, four rectangular receiving grooves 51 are formed in the lower surface of the base 5, the four receiving grooves 51 are respectively located at four corners of the base 5, and the four universal wheels 6 are respectively located in the four receiving grooves 51. Rectangular connecting holes 511 are formed in the bottom surfaces of the four accommodating grooves 51, and the connecting holes 511 are formed in the height direction of the base 5.

Referring to fig. 5 and 7, a cylindrical accommodating cavity 52 is formed in the base 5, the accommodating cavity 52 is located at the center of the base 5, the accommodating cavity 52 is formed along the height direction of the base 5, a cylindrical adjusting cavity 521 is formed in the upper wall of the accommodating cavity 52, the center line of the adjusting cavity 521 and the center line of the accommodating cavity 52 are located on the same straight line, four connecting cavities 522 are formed in the inner peripheral surface of the accommodating cavity 52, one ends of the four connecting cavities 522 are communicated with the accommodating cavity 52, and the other ends of the four connecting cavities 522 are respectively communicated with the top ends of the four connecting holes 511. A support rod 5111 with a rectangular cross section is connected in the connecting hole 511 in a sliding manner, connecting rods 5221 are arranged in the four connecting cavities 522, and the side walls of the connecting rods 5221 are connected with the side walls of the connecting cavities 522 in a sliding manner. A cylindrical connecting block 7 is slidably connected in the accommodating cavity 52.

Referring to fig. 10, a cylindrical rotating cavity 71 is formed in the connecting block 7, a rotating block 711 is rotationally connected in the rotating cavity 71, a rotating hole 72 is formed in the upper surface of the connecting block 7, a rotating rod 721 is rotationally connected in the rotating hole 72, one end of the rotating rod 721 is fixedly connected with the rotating block 711, a driving rod 8 is fixedly connected to the other end of the rotating rod 721, the driving rod 8 is arranged along the length direction of the adjusting cavity 521, a control rod 81 is fixedly connected to the top end of the driving rod 8, and the outer peripheral surface of the control rod 81 is in threaded connection with the inner peripheral surface.

Referring to fig. 6 and 8, a control cavity 53 is formed on the outer peripheral surface of the bottom of the adjusting cavity 521, a rotating rod 531 is arranged in the control cavity 53, the rotating rod 531 is arranged along the thickness direction of the base 5, two ends of the rotating rod 531 are respectively connected with the side wall of the control cavity 53 in a rotating manner, a control gear 5311 is sleeved on the rotating rod 531, the control gear 5311 is fixedly connected with the rotating rod 531, a tooth socket matched with the control gear 5311 is formed on the outer peripheral surface of the rotating rod 721, the tooth socket is arranged along the length direction of the rotating rod 721, and the rotating rod 721 is meshed with. The rotating rod 531 is sleeved with a first bevel gear 5312, the side wall of the base 5 is provided with a driving cavity 54, a driving motor 541 is fixedly connected in the driving cavity 54, the bottom surface of the driving cavity 54 is provided with a through hole, one end of the through hole is communicated with the driving cavity 54, the other end of the through hole is communicated with the control cavity 53, and an output shaft of the driving motor 541 extends into the control cavity 53 from the through hole. A second bevel gear 5411 (see fig. 9) engaged with the first bevel gear 5312 is fixed to a portion of the drive motor 541 located in the control chamber 53.

The four universal wheels 6 are respectively and fixedly connected with the bottom ends of the four supporting rods 5111. When the cooling device needs to move, the driving motor 541 is started, the driving motor 541 drives the control gear 5311 to rotate through the first bevel gear 5312 and the second bevel gear 5411, the control gear 5311 drives the rotating rod 721 to rotate, the rotating rod 721 drives the control rod 81 to rotate, the control rod 81 moves downwards, and then the four universal wheels 6 are ejected out of the accommodating groove 51 on the lower surface of the base 5, so that the cooling mechanism can be pushed to move. Can start driving motor 541 when cooling mechanism moves suitable position, the counter rotation is done this moment to driving motor 541's output shaft, and the control lever 81 is upward motion under driving motor 541's drive, and then with four universal wheels 6 income four holding tank 51 in, the lower surface and the ground contact of base 5, and then make cooling mechanism more stable.

Referring to fig. 1, a U-shaped push rod 55 is disposed on the side wall of the base 5, the push rod 55 includes two first rods 551 and a second rod 552, both ends of the push rod 55 are fixedly connected to the side wall of the base 5, and one ends of the two first rods 551 far away from the base 5 are obliquely and upwardly arranged. The push rod 55 makes the cooling mechanism more labor-saving when moving.

A liquid discharge pipe 14 is fixedly connected to the side wall of the cooling box 1, the liquid discharge pipe 14 is communicated with the cooling box 1, the liquid discharge pipe 14 is positioned at the bottom of the cooling box 1, and a cover body 141 is screwed on the liquid discharge pipe 14. When the coolant needs to be replaced, cover 141 may be unscrewed from drain pipe 14 to replace the coolant.

Referring to fig. 3, the equal rigid coupling in both ends of cooling tube 11 has hose 111, two hoses 111 all communicate with cooling tube 11, and two equal rigid couplings in one end that cooling tube 11 was kept away from to hose 111 have fixed pipe 1111, the one end rigid coupling that hose 111 was kept away from to fixed pipe 1111 has the installation pipe 9 that the fixed pipe 1111 of diameter ratio is big, the one end of installation pipe 9 towards fixed pipe 1111 is sealed, the one end rigid coupling that fixed pipe 1111 deviates from hose 111 is on the terminal surface of installation pipe 9 towards fixed pipe 1111, and fixed pipe 1111 and installation pipe 9 intercommunication. The central lines of the fixed pipe 1111 and the installation pipe 9 are located on the same straight line, an annular backing plate 41 is fixedly connected to the outer peripheral surface of the liquid delivery pipe 4, one end of the liquid delivery pipe 4 penetrates through the installation pipe 9, the inner diameter of the liquid delivery pipe 4 is the same as that of the fixed pipe 1111, and the outer diameter of the backing plate 41 is the same as that of the installation pipe 9. A plurality of first fixing bolts are arranged on the end face, facing the fixing pipe 1111, of the installation pipe 9 in a penetrating mode, the first fixing bolts are arranged in the liquid conveying pipe 4 in a penetrating mode, a plurality of second fixing bolts are arranged on the side wall, deviating from the installation pipe 9, of the backing plate 41, and the second fixing bolts are arranged in the installation pipe 9 in a penetrating mode. The first fixing bolt and the second fixing bolt fix the mounting pipe 9 and the liquid delivery pipe 4. By this arrangement, the cooling mechanism is easily mounted on the liquid delivery pipe 4.

The side wall of the backing plate 41 facing the installation pipe 9 and the end surface of the liquid conveying pipe 4 in the installation pipe 9 are fixedly connected with sealing gaskets. This increases the tightness between the liquid feed tube 4 and the mounting tube 9.

The implementation principle of the embodiment is as follows: wear to establish into installation pipe 9 with liquid delivery pipe 4 in, it is fixed with liquid delivery pipe 4 and installation pipe 9 with first fixing bolt and second fixing bolt, when liquid to liquid delivery pipe 4 is cooled down, liquid enters into in cooling pipe 11 from the one end of cooling pipe 11, then in liquid delivery pipe 4 continues to be carried through cooling pipe 11's the other end, this in-process water pump 2 keeps the state of starting, liquid in the cooling pipe 11 gives off the heat transfer to the coolant liquid in, the coolant liquid gives off the outside through cooling box 1, thereby reach the purpose of cooling down to the liquid in the liquid delivery pipe 4. Simultaneously in water pump 2 with the cooling liquid suction to cooling tube 3, the cooling liquid can be more quick after the cooling tube 3 give off the heat to the outside.

When the cooling mechanism needs to move, the driving motor 541 is started, the driving motor 541 drives the control gear 5311 to rotate through the first bevel gear 5312 and the second bevel gear 5411, the control gear 5311 drives the rotating rod 721 to rotate, the rotating rod 721 drives the control rod 81 to rotate, the control rod 81 moves downwards, and then the four universal wheels 6 are ejected out of the accommodating groove 51 on the lower surface of the base 5, so that the cooling mechanism can be pushed to move. Can start driving motor 541 when cooling mechanism moves suitable position, the counter rotation is done this moment to driving motor 541's output shaft, and the control lever 81 is upward motion under driving motor 541's drive, and then with four universal wheels 6 income four holding tank 51 in, the lower surface and the ground contact of base 5, and then make cooling mechanism more stable.

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

Claims

1. A circulative cooling mechanism which characterized in that: comprises a cooling box (1), a cooling pipe (11) is arranged in the cooling box (1) in a penetrating way, two ends of the cooling pipe (11) respectively extend out from the end faces of two ends of the cooling box (1), a water pump (2) is fixedly connected on the cooling box (1), a water inlet (21) is fixedly connected at the water inlet of the water pump (2), one end of the water inlet (21) is arranged in the cooling box (1) in a penetrating way, a drain pipe (22) is fixedly connected at the water drain (2), a radiating pipe (3) is fixedly connected at the end of the drain pipe (22) far away from the water pump (2), the radiating pipe (3) is fixedly connected and communicated with one end of the drain pipe (22) far away from the water pump (2), a connecting pipe (12) is fixedly connected on the cooling box (1), one end of the connecting pipe (12) is fixedly connected and communicated with the radiating pipe (3), the other end of the connecting pipe (12) is fixedly connected on the cooling box (1) and communicated with the cooling box (, the circulating cooling device is arranged on the liquid conveying pipe (4), and two ends of the cooling pipe (11) are respectively communicated with the liquid conveying pipe (4).

2. A circulating cooling mechanism according to claim 1, wherein: an air blower (13) blowing air towards the radiating pipe (3) is fixedly connected to the cooling box (1).

3. A circulating cooling mechanism according to claim 1, wherein: the cooling pipes (11) are distributed in the cooling box (1) in a spiral shape.

4. A circulating cooling mechanism according to claim 1, wherein: the radiating pipe (3) comprises two first pipes (31) and a plurality of second pipes (32), the two first pipes (31) are fixedly connected and communicated with the connecting pipe (12) and the drain pipe (22) respectively, the plurality of second pipes (32) are located between the two first pipes (31), two ends of each second pipe (32) are communicated with the two first pipes (31) respectively, and the second pipes (32) are distributed in a spiral shape.

5. A circulating cooling mechanism according to claim 1, wherein: the lower surface rigid coupling of cooling box (1) has base (5), and the lower surface of base (5) is provided with at least three universal wheel (6).

6. A circulating cooling mechanism according to claim 5, wherein: the lower surface of the base (5) is provided with at least three rectangular accommodating grooves (51), the universal wheels (6) are respectively positioned in the accommodating grooves (51), the bottom surfaces of the accommodating grooves (51) are respectively provided with a connecting hole (511) formed along the height direction of the base (5), the base (5) is internally provided with a cylindrical accommodating cavity (52), the accommodating cavity (52) is formed along the height direction of the base (5), the upper wall of the accommodating cavity (52) is provided with a cylindrical adjusting cavity (521), the inner circumferential surface of the accommodating cavity (52) is provided with a plurality of connecting cavities (522), one ends of the connecting cavities (522) are respectively communicated with the accommodating cavity (52), the other ends of the connecting cavities (522) are respectively communicated with the connecting holes (511), the connecting holes (511) are internally connected with a supporting rod (5111) in a sliding manner, the connecting rods (5221) are respectively arranged in the connecting cavities (522), the accommodating cavity (52) is connected with a connecting block (7) in a sliding manner, a cylindrical rotating cavity (71) is formed in the connecting block (7), a rotating block (711) is rotationally connected in the rotating cavity (71), a rotating hole (72) is formed in the upper surface of the connecting block (7), a rotating rod (721) is rotationally connected in the rotating hole (72), one end of the rotating rod (721) is fixedly connected with the rotating block (711), a driving rod (8) is fixedly connected to the other end of the rotating rod (721), a control rod (81) is fixedly connected to the top end of the driving rod (8), the outer circumferential surface of the control rod (81) is in threaded connection with the inner circumferential surface of the adjusting cavity (521), a control cavity (53) is formed in the outer circumferential surface of the adjusting cavity (521), a control rod (81) is arranged in the control cavity (53), the control rod (81) is arranged along the thickness direction of the base (5), two ends of the control rod (81) are respectively in rotational connection with the side wall of the control cavity (53), the tooth's socket with control gear (5311) adaptation is seted up on the outer peripheral face of actuating lever (8), the tooth's socket is laid along the length direction of rotary rod (721), actuating lever (8) and control gear (5311) meshing, the rigid coupling has first bevel gear (5312) on control lever (81), drive chamber (54) have been seted up on the lateral wall of base (5), the rigid coupling has driving motor (541) in drive chamber (54), set up the through-hole with control chamber (53) intercommunication on the bottom surface of drive chamber (54), the output shaft of driving motor (541) stretches into in control chamber (53) from the through-hole, and the rigid coupling has second bevel gear (5411) with first bevel gear (5312) meshing on the output shaft of driving motor 541 (541), a plurality of universal wheel (6) rigid coupling respectively are in the bottom of four spinal branch vaulting poles (5111).

7. A circulating cooling mechanism according to claim 6, wherein: and a push rod (55) which is convenient for the cooling mechanism to move is fixedly connected to the side wall of the base (5).

8. A circulating cooling mechanism according to claim 7, wherein: the both ends of cooling tube (11) all the rigid coupling be equipped with hose (111), the equal rigid coupling of one end that cooling tube (11) were kept away from to two hose (111) has fixed pipe (1111), the one end rigid coupling that hose (111) were kept away from to fixed pipe (1111) has installation pipe (9) that the diameter ratio is big than fixed pipe (1111), the one end of installation pipe (9) towards fixed pipe (1111) is sealed, the one end rigid coupling that fixed pipe (1111) deviates from hose (111) is on the terminal surface of installation pipe (9) towards fixed pipe (1111), and fixed pipe (1111) and installation pipe (9) intercommunication, the rigid coupling is equipped with annular backing plate (41) on the outer peripheral face of liquid conveyer pipe (4), the one end of liquid conveyer pipe (4) is worn to establish in installation pipe (9), a plurality of first fixing bolt wear to be equipped with on the terminal surface of installation pipe (9) towards fixed pipe (1111), first fixing bolt wears to establish in liquid conveyer pipe (4), a plurality of second fixing bolts penetrate through the side wall, deviating from the installation pipe (9), of the backing plate (41), and the second fixing bolts penetrate through the installation pipe (9).

9. A circulating cooling mechanism according to claim 8, wherein: the gasket (41) faces the side wall of the installation pipe (9) and the end face of the liquid conveying pipe (4) in the installation pipe (9) are fixedly connected with a sealing gasket.