CN216694553U - Heat dissipation coil pipe system - Google Patents

Abstract

The application discloses a heat dissipation coil pipe system, which comprises a fixing frame and a coil pipe, wherein the coil pipe comprises a plurality of heat dissipation pipes, the heat dissipation pipes are installed on the fixing frame, the fixing frame is provided with a water outlet pipe and a water inlet pipe, the two opposite ends of each heat dissipation pipe are respectively provided with a water outlet and a water inlet, the water outlet pipe is communicated with the water outlet, and the water inlet pipe is communicated with the water inlet; the fixing frame is provided with a limiting assembly used for fixing the position of the radiating pipe. This application has the effect that improves the radiating effect.

Description

Heat dissipation coil pipe system

Technical Field

The present application relates to the field of cooling towers, and more particularly, to a heat-dissipating coil system.

Background

The cooling tower is a device capable of cooling water, and waste heat generated in the industrial production or refrigeration process is generally guided away by cooling water; the cooling tower exchanges heat between the cooling water with the waste heat and the heat dissipating pipeline inside the tower, and transfers the waste heat to the air and dissipates the waste heat into the atmosphere.

When cooling water is cooled in the existing cooling tower, cooling liquid is generally introduced into a coil pipe and is connected with a condenser, so that water circulation in a radiating pipe is realized; in order to improve the cooling effect, a plurality of coils are usually provided, and the plurality of coils are respectively filled with cooling liquid.

In view of the above-mentioned related technologies, the inventor believes that the flow rate of the condensed water introduced into the plurality of coils is slow, and the water inflow is small, resulting in poor heat dissipation effect.

SUMMERY OF THE UTILITY MODEL

In order to improve the heat dissipation effect, this application provides a heat dissipation coil pipe system.

The application provides a heat dissipation coil pipe system adopts following technical scheme:

a heat dissipation coil pipe system comprises a fixing frame and a coil pipe, wherein the coil pipe comprises a plurality of heat dissipation pipes, the heat dissipation pipes are arranged on the fixing frame, the fixing frame is provided with a water outlet pipe and a water inlet pipe, two opposite ends of each heat dissipation pipe are respectively provided with a water outlet and a water inlet, the water outlet pipe is communicated with the water outlet, and the water inlet pipe is communicated with the water inlet; the fixing frame is provided with a limiting assembly used for fixing the position of the radiating pipe.

By adopting the technical scheme, the water outlets of the plurality of radiating pipes are communicated with the water outlet pipe, the water inlets of the plurality of radiating pipes are communicated with the water inlet pipe, and the cooling liquid can flow into the plurality of radiating pipes simultaneously after entering the water inlet pipe, so that the radiating efficiency of the radiating pipes is improved; when the cooling tube cools off water, vibration friction appears easily in the cooling tube, and spacing subassembly is fixed the cooling tube on the mount, and then can make the cooling tube stabilize on the mount, makes the difficult wearing and tearing broken hole that appears of cooling tube.

Preferably, the coil pipe is provided with a plurality of groups, the plurality of groups of coil pipes are arranged towards the vertical direction, two adjacent coil pipes are positioned at the water outlet and communicated with each other, and two adjacent coil pipes are positioned at the water inlet and communicated with each other.

Through adopting above-mentioned technical scheme, set up the multiunit coil pipe, the comdenstion water need pass through the multiunit coil pipe to the velocity of flow of refrigeration condensate water is slower, thereby can increase the area of contact of coolant liquid and coil pipe, improves the condensation effect of coil pipe.

Preferably, the radiating pipe comprises a plurality of elbow parts and a plurality of straight pipe parts, the straight pipe parts are arranged along the length direction of the fixing frame, the straight pipe parts are arranged along the direction perpendicular to the length direction of the fixing frame, two opposite ends of each elbow part are respectively connected with two adjacent straight pipe parts, and the elbow parts and the straight pipe parts are integrally formed.

By adopting the technical scheme, the two opposite ends of the elbow part are respectively connected with the straight pipe parts, so that the radiating pipe forms a snake-shaped loop, the cooling liquid enters the coil pipe from the water inlet, and leaves the coil pipe from the water outlet after passing through the straight pipe parts and the elbow parts, the contact area between the cooling liquid and the coil pipe is increased, and the condensation effect of the coil pipe is improved; elbow portion and straight tube portion integrated into one piece replace welded connection, the cost is reduced has reduced elbow portion and straight tube portion interface welded quantity, and then greatly reduced the coil pipe leak need the probability of maintenance, guaranteed the integratively of coil pipe and improved the refrigerated efficiency of coil pipe simultaneously.

Preferably, the mount is equipped with the polylith mounting panel, the mounting panel is followed the mount length direction is arranged, the mounting panel perpendicular to straight tube portion, straight tube portion wears to locate the mounting panel.

Through adopting above-mentioned technical scheme, set up the polylith mounting panel on the mount, the cooling tube all wears to locate with the mounting panel, and the position weight that the cooling tube is located between the mount is great, and easy tenesmus sets up the mounting panel and can play the supporting role to the intermediate position of cooling tube, and then stabilizes the cooling effect of cooling tube.

Preferably, the mounting plate is provided with a plurality of limiting holes, the limiting holes extend along the arrangement direction of the straight pipe parts, two adjacent straight pipe parts penetrate through the limiting holes, and the two straight pipe parts are respectively abutted against two opposite ends of the limiting holes.

Through adopting above-mentioned technical scheme, seted up a plurality of spacing holes on the mounting panel, the straight tube portion of cooling tube wears to establish and with the tip looks butt in spacing hole to make the cooling tube can be stabilized on the mount.

Preferably, the limiting assembly comprises a connecting rod, the connecting rod penetrates through the radiating pipe, the connecting rod is mounted on the mounting plate, and the connecting rod is perpendicular to the straight pipe part; the mounting panel is equipped with and is used for fixing the coupling assembling of connecting rod.

Through adopting above-mentioned technical scheme, when the coolant liquid flows in the cooling tube, vibration friction appears in the cooling tube easily, and connecting rod and cooling tube looks butt can effectively prevent wearing and tearing broken hole between cooling tube and the mount, lead to appearing leaking.

Preferably, coupling assembling includes the dwang, the dwang is worn to locate the connecting rod, the dwang is on a parallel with straight tube portion, the dwang is worn to locate the connecting rod with the mounting panel, the connecting rod with dwang threaded connection.

By adopting the technical scheme, the position of the connecting rod between the two mounting plates can be adjusted by rotating the rotating rod, and the connecting rod can be adjusted to the position between the two mounting plates to support the radiating pipe; the guide rod is arranged on the connecting rod and the mounting plate in a penetrating mode, and the guide rod is arranged on the fixing frame and can play a role in guiding the sliding of the connecting rod.

Preferably, two opposite ends of the limiting hole are provided with abutting plates, the cross section of each abutting plate is arc-shaped, the outer arc surfaces of the two abutting plates are fixedly connected with the inner side wall of the limiting hole, and the inner arc surfaces of the two abutting plates are respectively abutted to the two adjacent straight pipe portions.

Through adopting above-mentioned technical scheme, the intrados of butt joint board and straight tube portion looks butt set up butt portion on the mounting panel and can increase the area of contact of mounting panel and cooling tube to make the cooling tube be difficult for leading to the cooling tube to leak with the mounting panel friction.

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

1. the water outlets of the radiating pipes are communicated with the water outlet pipe, the water inlets of the radiating pipes are communicated with the water inlet pipe, and cooling liquid can flow into the radiating pipes simultaneously after entering the water inlet pipe, so that the cooling efficiency of the radiating pipes is improved; when the radiating pipe cools water, the radiating pipe is easy to generate vibration friction, and the limiting assembly fixes the radiating pipe on the fixing frame, so that the radiating pipe can be stabilized on the fixing frame, and the radiating pipe is not easy to generate wear and broken holes;

2. a plurality of groups of coil pipes are arranged, and cooling liquid needs to pass through the plurality of groups of coil pipes so as to cool the cooling liquid at a lower flow velocity, thereby increasing the contact area of the cooling liquid and the coil pipes and improving the condensation effect of the coil pipes;

3. when the condensate water flows in the radiating pipe, the radiating pipe is easy to vibrate and rub, and the connecting rod is abutted against the radiating pipe, so that the phenomenon that the hole is broken due to abrasion between the radiating pipe and the fixing frame to cause water leakage can be effectively prevented.

Drawings

Fig. 1 is a schematic view of the entire structure of embodiment 1.

Fig. 2 is a schematic view of the heat pipe structure of embodiment 1.

Fig. 3 is a schematic structural view of the fixing frame of embodiment 1.

FIG. 4 is a schematic view of the entire structure of embodiment 2.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Description of reference numerals:

1. a fixed mount; 11. a water inlet pipe; 12. a water outlet pipe; 13. mounting a plate; 131. a limiting hole; 14. a connecting rod; 15. rotating the rod; 16. a butt joint plate; 2. a coil pipe; 21. a radiating pipe; 211. a straight tube portion; 212. a bent portion; 22. a water inlet; 23. and (7) a water outlet.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a heat dissipation coil pipe system.

Example 1

Referring to fig. 1, the heat dissipation coil pipe system includes mount 1 and multiunit coil pipe 2, mount 1 is rectangular frame, multiunit coil pipe 2 is all installed on mount 1, multiunit coil pipe 2 is arranged towards vertical direction, every group coil pipe 2 all is equipped with many cooling tubes 21, many cooling tubes 21 are parallel to each other, many cooling tubes 21 intervals set up on mount 1, refer to fig. 2, water inlet 22 has been seted up to the one end that cooling tube 21 is close to 1 bottom of mount, delivery port 23 has been seted up to the one end that cooling tube 21 is close to 1 top of mount, coolant liquid gets into cooling tube 21 from water inlet 22, flow from delivery port 23, the hydrologic cycle in coil pipe 2 has been realized, make things convenient for coil pipe 2 to cool off water.

Referring to fig. 2 and 3, the fixing frame 1 is provided with a water outlet pipe 12 and a water inlet pipe 11, the water inlet pipe 11 is fixedly installed at a position close to the bottom of the fixing frame 1, the water outlet pipe 12 is positioned right above the water inlet pipe 11, and the water outlet pipe 12 is fixedly installed at a position far away from the bottom of the fixing frame 1; outlet pipe 12 and inlet tube 11 are parallel to each other, inlet tube 11 and outlet pipe 12 are located the same one end of mount 1, many cooling tubes 21's delivery port 23 all communicates with outlet pipe 12, many cooling tubes 21's water inlet 22 all communicates with inlet tube 11, the coolant liquid flows into many cooling tubes 21 from inlet tube 11 through a plurality of water inlets 22 in, flow outlet pipe 12 is joined through a plurality of delivery ports 23, outlet pipe 12 and inlet tube 11 converge, thereby improve the area of contact in coolant liquid and the coil pipe 2, improve the condensation effect of coil pipe 2.

Referring to fig. 2, each of the heat dissipation pipes 21 includes a plurality of straight pipe portions 211 and a plurality of elbow portions 212, the straight pipe portions 211 extend along the length direction of the fixing frame 1, the straight pipe portions 211 are arranged in a vertical direction, the cross sections of the elbow portions 212 are arc-shaped, two opposite ends of each elbow portion 212 are respectively communicated with the same end of two adjacent straight pipe portions 211, and the elbow portions 212 and the straight pipe portions 211 are integrally formed, so that the heat dissipation pipe 21 is not prone to water leakage and is low in manufacturing cost; the straight pipe portions 211 and the bent portions 212 form a serpentine circuit, and condensed water flows through the straight pipe portions 211 and the bent portions 212 after entering the radiating pipe 21, thereby improving the condensation effect of the radiating pipe 21.

Referring to fig. 3, mount 1 still fixed mounting has polylith mounting panel 13, polylith mounting panel 13 sets up on mount 1 along the length direction interval of mount 1, mounting panel 13 is the rectangular plate, polylith mounting panel 13 is parallel to each other and perpendicular with straight tube portion 211, a plurality of spacing holes 131 have been seted up on mounting panel 13, spacing hole 131 extends towards vertical direction, same spacing hole 131 is all worn to locate by per two straight tube portions 211, two straight tube portions 211 respectively with the both ends looks butt of spacing hole 131, and then make mounting panel 13 effectively fix cooling tube 21 on mount 1, improve the stability of cooling tube 21 on mount 1.

Still be equipped with connecting rod 14 on mount 1, connecting rod 14 fixed mounting is in the relative both sides of mounting panel 13, the relative both sides of connecting rod 14 respectively with two continuous straight tube portion 211 looks butt, connecting rod 14 perpendicular to straight tube portion 211, connecting rod 14 wears to locate cooling tube 21, connecting rod 14 cavity sets up, installation connecting rod 14 on mounting panel 13, when the comdenstion water flows in cooling tube 21, vibration friction appears easily in cooling tube 21, connecting rod 14 can effectively prevent wearing and tearing broken hole between cooling tube 21 and the mount 1 with cooling tube 21 looks butt, lead to appearing leaking.

The implementation principle of the embodiment 1 is as follows: the cooling liquid enters the plurality of radiating pipes 21 from the water inlet pipe 11 through the plurality of water inlets 22 respectively, and then leaves from the plurality of water outlets 23 to be converged into the water outlet pipe 12, so that the circulation of condensed water is realized, and the radiating efficiency of the radiating pipes 21 is improved; fixed mounting connecting rod 14 between cooling tube 21, when the comdenstion water flowed in cooling tube 21 and made connecting rod 14 appear vibrating, connecting rod 14 vibrated the cushioning effect to cooling tube 21, and straight tube portion 211 wears to locate mounting panel 13 and blocks in spacing hole 131 simultaneously, effectively fixes cooling tube 21 on mount 1, improves the stability of cooling tube 21 on mount 1.

Example 2

Referring to fig. 4 and 5, the difference between this embodiment and embodiment 1 is that the connection rod 14 is installed on the mounting plate 13 in a sliding manner, the fixing frame 1 is further provided with a rotation rod 15, the rotation rod 15 is parallel to the straight pipe portion 211, the rotation rod 15 is located at a position close to the end portion of the connection rod 14, the rotation rods 15 are all inserted into the connection rod 14 and the mounting plate 13, the rotation rod 15 is a screw rod, the rotation rod 15 is all in threaded connection with the connection rod 14 and the mounting plate 13, when the rotation rod 15 is rotated, the distance between the connection rod 14 and the mounting plate 13 can be adjusted, the connection rod 14 can be adjusted to the position between the two mounting plates 13, and the heat dissipation pipe 21 is supported.

Referring to fig. 5, the equal fixed mounting in the relative both ends that mounting panel 13 is located spacing hole 131 has butt plate 16, and butt plate 16's cross section is the arc, and two butt plate 16 set up relatively, wear to establish two straight tube portion 211 on spacing hole 131 respectively with two butt plate 16's intrados looks butt, butt plate 16's extrados and spacing hole 131's inside wall fixed connection.

The implementation principle of the embodiment 2 is as follows: the cooling liquid enters the plurality of radiating pipes 21 from the water inlet pipe 11 through the plurality of water inlets 22 respectively, and then leaves from the plurality of water outlets 23 to be converged into the water outlet pipe 12, so that the circulation of condensed water is realized, and the radiating efficiency of the radiating pipes 21 is improved; when the condensed water flows in the radiating pipe 21 to cause the connecting rod 14 to vibrate, the rotating rod 15 is rotated to adjust the position of the connecting rod 14, and the connecting rod 14 plays a role in buffering the vibration of the radiating pipe 21 and simultaneously plays a role in supporting the radiating pipe 21; the straight pipe portion 211 penetrates through the mounting plate 13 and is clamped in the limiting hole 131, and meanwhile, the abutting plate 16 abuts against the straight pipe portion 211, so that the radiating pipe 21 is effectively fixed on the fixing frame 1, and the stability of the radiating pipe 21 on the fixing frame 1 is improved.

The above embodiments are not intended to limit the scope of the present application, and therefore, all equivalent changes in structure, shape and principle of the present application should be considered within the scope of the present application.

Claims (8)

1. A heat-dissipating coil system, comprising: the radiating pipe heat exchanger comprises a fixing frame (1) and a coil pipe (2), wherein the coil pipe (2) comprises a plurality of radiating pipes (21), the radiating pipes (21) are installed on the fixing frame (1), the fixing frame (1) is provided with a water outlet pipe (12) and a water inlet pipe (11), the two opposite ends of each radiating pipe (21) are respectively provided with a water outlet (23) and a water inlet (22), the water outlet pipe (12) is communicated with the water outlet (23), and the water inlet pipe (11) is communicated with the water inlet (22); the fixing frame (1) is provided with a limiting assembly used for fixing the position of the radiating pipe (21).

2. The heat-dissipating coil system of claim 1, wherein: coil pipe (2) are provided with the multiunit, and the multiunit coil pipe (2) are arranged towards vertical direction, and adjacent two coil pipe (2) are located delivery port (23) position intercommunication, adjacent two coil pipe (2) are located the position intercommunication of water inlet (22).

3. The heat-dissipating coil system of claim 1, wherein: the radiating pipe (21) comprises a plurality of elbow parts (212) and a plurality of straight pipe parts (211), the straight pipe parts (211) are extended along the length direction of the fixing frame (1) and are arranged along the direction perpendicular to the length direction of the fixing frame (1), two opposite ends of each elbow part (212) are connected with the corresponding adjacent straight pipe parts (211), and the elbow parts (212) and the straight pipe parts (211) are integrally formed.

4. The heat-dissipating coil system of claim 3, wherein: the fixing frame (1) is provided with a plurality of mounting plates (13), the mounting plates (13) are arranged in the length direction of the fixing frame (1), the mounting plates (13) are perpendicular to the straight pipe portions (211), and the straight pipe portions (211) penetrate through the mounting plates (13).

5. The heat-dissipating coil system of claim 4, wherein: the mounting plate (13) is provided with a plurality of limiting holes (131), the limiting holes (131) extend along the arrangement direction of the straight pipe parts (211), two adjacent straight pipe parts (211) penetrate through the limiting holes (131), and the two straight pipe parts (211) are respectively abutted against two opposite ends of the limiting holes (131).

6. The heat-dissipating coil system of claim 4, wherein: the limiting assembly comprises a connecting rod (14), the connecting rod (14) penetrates through the radiating pipe (21), the connecting rod (14) is installed on the installing plate (13), and the connecting rod (14) is perpendicular to the straight pipe part (211); the mounting plate (13) is provided with a connecting assembly for fixing the connecting rod (14).

7. The heat-dissipating coil system of claim 6, wherein: coupling assembling includes dwang (15), dwang (15) are worn to locate connecting rod (14), dwang (15) are on a parallel with straight tube portion (211), dwang (15) are worn to locate connecting rod (14) with mounting panel (13), connecting rod (14) with dwang (15) threaded connection.

8. The heat-dissipating coil system of claim 5, wherein: two opposite ends of the limiting hole (131) are provided with abutting plates (16), the cross sections of the two abutting plates (16) are arc-shaped, the outer arc surfaces of the two abutting plates (16) are fixedly connected with the inner side wall of the limiting hole (131), and the inner arc surfaces of the two abutting plates (16) are respectively abutted to the two adjacent straight pipe parts (211).

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