CN117905912B - Tee bend for water-cooling pipeline - Google Patents

Abstract

The invention relates to the technical field of water-cooling pipelines, in particular to a tee joint for a water-cooling pipeline, which comprises a main conduit, wherein sealing structures are respectively arranged at two ends of the main conduit, the sealing structures are connected with a connecting structure, a steering structure is arranged in the middle of the main conduit, an angle adjusting structure is arranged on the steering structure, a supporting structure is arranged on the side surface of the main conduit, and the supporting structure is connected with a clamping structure; can seal the both ends of three-way pipe at any time through seal structure, make things convenient for the connection installation and the maintenance of pipeline, can promote the efficiency and the intensity of pipeline connection through connection structure, can adjust the direction of connection of side pipeline through turning to the structure, conveniently in time adjust in the installation, can adjust the angle of the pipeline of connecting the side pipe through angle modulation structure, can support wiring and pipeline outside through bearing structure, avoid directly contacting with the heat exchange tube.

Description

Tee bend for water-cooling pipeline

Technical Field

The invention relates to the technical field of water-cooling pipelines, in particular to a tee joint for a water-cooling pipeline.

Background

Modern electrical facilities often release certain heat in the course of working, and these heat continuous accumulation can cause different degree to the equipment and disturb even harm, and water cooling system is a common heat dissipation scheme, and the continuous flow and the heat exchange of coolant liquid can be guaranteed to the pipe network that often will be arranged in water cooling system, and wherein the tee bend is used for the UNICOM of three pipeline collection department, plays the function of changing the coolant liquid flow direction.

However, the existing three-way pipe is simple in structure, the pipeline needs to be connected with three joints in sequence during installation, sealing connection between the pipeline and the three-way pipe is inconvenient under the condition that the pipeline is long, meanwhile, the traditional three-way pipe is generally of a T-shaped structure, and is not applicable to pipeline connection in special environments, and the connection direction of the pipeline can be adjusted only by means of an additional steering joint.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a tee joint for a water cooling pipeline.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a tee bend for water-cooling pipeline, includes the main pipe, the both ends of main pipe are equipped with seal structure respectively, seal structure is connected with connection structure, the middle part of main pipe is equipped with turns to the structure, it is equipped with angle modulation structure to turn to the structure, the side of main pipe is equipped with bearing structure, bearing structure is connected with the clamp and holds the structure.

Specifically, seal structure includes conflict groove, conflict groove has been seted up to the inboard of main pipe, main pipe has the sealing plug through conflict groove sliding connection, the both sides of sealing plug are the inclined plane structure, the side fixedly connected with first sealed pad of sealing plug, the middle part threaded connection of sealing plug has adjusting screw, rotate between adjusting screw and the main pipe and be connected.

Specifically, connection structure includes first connector, the both ends of main pipe are contradicted respectively and are had a first connector, the tip fixedly connected with second sealed pad of first connector, first connector is inconsistent with the tip of main pipe through the second sealed pad, the side rotation of first connector is connected with the screwed collar, the inboard and the tip threaded connection of main pipe of screwed collar.

Specifically, set up first constant head tank on the screw thread circle, the side sliding connection of leading pipe has first location piece, fixedly connected with first spring between first location piece and the leading pipe, the inboard sliding connection of leading pipe has the transfer line, the one end of transfer line is inconsistent with the sealing plug, the other end of transfer line is inconsistent with the side of first location piece, the side fixedly connected with depression bar of transfer line.

Specifically, turn to the structure and include the side pipe, the side rotation of main pipe is connected with the side pipe, a plurality of through-holes have been seted up to the side of main pipe, the side of main pipe is equipped with the inclined plane circle, sliding connection between side pipe and the inclined plane circle, the side sliding connection of main pipe has the conflict circle, the side fixedly connected with third sealed pad of conflict circle, the side of third sealed pad is "V" type structure, the third is sealed to be filled up and is inconsistent with side pipe, inclined plane circle, the side threaded connection of main pipe has the pushing circle, the pushing circle is inconsistent with the conflict circle.

Specifically, the inboard sliding connection of side pipe has the mediation piece, fixedly connected with second spring between mediation piece and the side pipe, the tip of mediation piece passes through-hole and main pipe sliding connection, the tip section of mediation piece is triangle structure.

Specifically, angle modulation structure includes coupling hose, the tip fixedly connected with coupling hose of side pipe, coupling hose's the other end fixedly connected with second connector, the tip fixedly connected with side of second connector revolves the piece, the tip fixedly connected with connecting plate of side pipe, rotate between the side revolves the piece that connecting plate and homonymy set up and be connected.

Specifically, the inboard sliding connection of side whirl piece has the second locating piece, fixedly connected with third spring between second locating piece and the side whirl piece, the both ends of second locating piece all are hemisphere face structure, a plurality of second constant head tanks have been seted up on the connecting plate, the tip of second locating piece is inconsistent with the connecting plate through the second constant head tank, the side of side whirl piece rotates and is connected with the control panel, set up on the control panel and be curved empty slot.

Specifically, bearing structure includes the tooth's socket, the tooth's socket has been seted up to the side of main pipe, main pipe is connected with the mount pad through the tooth's socket rotation, the inboard sliding connection of mount pad has the tooth piece, fixedly connected with fourth spring between tooth piece and the mount pad, the tooth piece meshes with main pipe through the tooth's socket.

Specifically, the other end of tooth piece is contradicted and is had the interior slider, the both sides of interior slider are sliding connection respectively has a fixture block, fixedly connected with fifth spring between fixture block and the interior slider, the side sliding connection of mount pad has the push rod, the tip and the fixture block of push rod are inconsistent, mount pad tip fixedly connected with connecting rod, sliding connection has the control block on the connecting rod, fixedly connected with sixth spring between control block and the connecting rod.

Specifically, the clamping structure comprises a rotating shaft, the rotating shaft is connected to the inner side of the control block in a rotating manner, a torsion spring is fixedly connected between the rotating shaft and the control block, a traction rope is fixedly connected to the rotating shaft and wound on the rotating shaft, a fixing block is fixedly connected to the other end of the traction rope, a ferrule which is in a U-shaped structure is arranged on the side face of the fixing block, a release block is slidably connected to the end portion of the ferrule, a seventh spring is fixedly connected between the release block and the ferrule, a hook rod is fixedly connected to the fixing block, and the hook rod is clamped with the release block.

The beneficial effects of the invention are as follows:

(1) According to the tee joint for the water-cooling pipeline, the sealing structures are respectively arranged at the two ends of the main pipe, the sealing structures are connected with the connecting structures, the two ends of the tee joint pipe can be sealed at any time through the sealing structures, the connection, the installation and the maintenance of the pipeline are convenient, and the efficiency and the strength of the pipeline connection can be improved through the connecting structures.

(2) According to the tee joint for the water-cooling pipeline, the steering structure is arranged in the middle of the main pipe, the angle adjusting structure is arranged on the steering structure, the connection direction of the side pipeline can be adjusted through the steering structure, the tee joint is convenient to adjust in time in the installation process, and the angle of the pipeline connected with the side pipeline can be adjusted through the angle adjusting structure, so that the tee joint is suitable for installation requirements under different environments.

(3) According to the tee joint for the water-cooling pipeline, the supporting structure is arranged on the side face of the main pipeline, the clamping structure is connected with the supporting structure, wiring and pipelines on the outer side of the pipeline can be supported through the supporting structure, direct contact with the heat exchange pipeline is avoided, and the clamping structure can be used for fixing any number of pipelines.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of an overall structure provided by the present invention;

FIG. 2 is a schematic view of the connection structure of the main pipe and the side pipe shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 4 is a schematic view of the connection between the main conduit and the threaded collar shown in FIG. 1;

FIG. 5 is a schematic view of the connection structure of the main conduit and the through hole shown in FIG. 2;

FIG. 6 is a schematic view of the connection structure of the side pipe and the second connector shown in FIG. 1;

FIG. 7 is an enlarged view of the portion B shown in FIG. 6;

FIG. 8 is a schematic view of the structure of the connection board shown in FIG. 7;

FIG. 9 is a schematic view of the control panel of FIG. 7;

FIG. 10 is a schematic view of the connection between the main conduit and the mounting block shown in FIG. 1;

Fig. 11 is an enlarged view of the C part shown in fig. 10;

fig. 12 is a schematic diagram showing a connection structure of the control block and the spindle shown in fig. 11.

In the figure: 1. a main conduit; 2. a sealing structure; 201. adjusting a screw; 202. a sealing plug; 203. a first gasket; 204. a collision groove; 3. a connection structure; 301. a thread ring; 302. a first connector; 303. a second gasket; 304. a first positioning groove; 305. a first positioning block; 306. a first spring; 307. a transmission rod; 308. a compression bar; 4. a steering structure; 401. a side pipe; 402. pushing rings; 403. a contact ring; 404. a third gasket; 405. a bevel ring; 406. a through hole; 407. dredging blocks; 408. a second spring; 5. an angle adjusting structure; 501. a second connector; 502. a side rotating block; 503. a connecting plate; 504. a control panel; 505. a connecting hose; 506. a second positioning block; 507. a third spring; 508. a hollow groove; 509. a second positioning groove; 6. a support structure; 601. a mounting base; 602. a control block; 603. tooth slots; 604. tooth blocks; 605. a fourth spring; 606. a push rod; 607. an inner slide; 608. a fifth spring; 609. a clamping block; 610. a connecting rod; 611. a sixth spring; 7. a clamping structure; 701. a ferrule; 702. releasing the block; 703. a seventh spring; 704. a fixed block; 705. a hook rod; 706. a traction rope; 707. a rotating shaft; 708. and (3) a torsion spring.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-12, the tee joint for water-cooling pipelines comprises a main conduit 1, wherein sealing structures 2 are respectively arranged at two ends of the main conduit 1, the sealing structures 2 are connected with a connecting structure 3, a steering structure 4 is arranged in the middle of the main conduit 1, an angle adjusting structure 5 is arranged on the steering structure 4, a supporting structure 6 is arranged on the side surface of the main conduit 1, and the supporting structure 6 is connected with a clamping structure 7.

Specifically, seal structure 2 includes conflict groove 204, conflict groove 204 has been seted up to the inboard of main pipe 1, main pipe 1 has sealing plug 202 through conflict groove 204 sliding connection, sealing plug 202's both sides are inclined plane structure, sealing plug 202's side fixedly connected with first sealed pad 203, sealing plug 202's middle part threaded connection has adjusting screw 201, rotate between adjusting screw 201 and the main pipe 1 to be connected, be located main pipe 1's both ends and be equipped with a sealing plug 202 that is used for controlling main pipe 1 tip closure state respectively, sealing plug 202 both sides are the inclined plane, cooperate the inside conflict groove 204 of main pipe 1 for when sealing plug 202 slides in to conflict groove 204, can finally realize good sealedly to main pipe 1's current end through the effect of inclined plane, thereby conveniently carry out the installation or demolish the operation of three-way pipe under the circumstances that unnecessary coolant exists in the pipe or pipeline part is maintained, the user only need rotate the adjusting screw 201 of corresponding end can control main pipe 1 both ends closure state.

Specifically, the connection structure 3 includes a first connection head 302, two ends of the main conduit 1 are respectively abutted against the first connection head 302, the end portion of the first connection head 302 is fixedly connected with a second sealing pad 303, the first connection head 302 is abutted against the end portion of the main conduit 1 through the second sealing pad 303, the side surface of the first connection head 302 is rotatably connected with a threaded ring 301, the inner side of the threaded ring 301 is in threaded connection with the end portion of the main conduit 1, a first positioning groove 304 is formed in the threaded ring 301, the side surface of the main conduit 1 is slidably connected with a first positioning block 305, a first spring 306 is fixedly connected between the first positioning block 305 and the main conduit 1, the inner side of the main conduit 1 is slidably connected with a transmission rod 307, one end of the transmission rod 307 is abutted against the sealing plug 202, the other end of the transmission rod 307 is abutted against the side surface of the first positioning block 305, the side surface of the transmission rod 307 is fixedly connected with a pressing rod 308, when the two ends of the main conduit 1 are connected with the pipeline, for convenient operation, the two ends of the main conduit 1 are respectively provided with a first connector 302, the first connector 302 can be sealed and fixed with the pipeline to be installed in advance, then the first connector 302 can be rapidly connected with the main conduit 1, the installation efficiency is improved, the first connector 302 and the end part of the pipeline are sealed and fixed in actual use, then the thread ring 301 at the end part of the first connector 302 is screwed and fixed with the corresponding end of the main conduit 1, meanwhile, when the sealing plug 202 is in a sealed state, the end part of the main conduit 1 does not leak, the edge of the sealing plug 202 drives the transmission rod 307 to press the first positioning block 305 to the bottom, the first positioning block 305 does not play a role in positioning the thread ring 301, the resistance in the rotating process of the threaded ring 301 is reduced, and when the sealing plug 202 is opened, in order to improve the stability of threaded connection between the threaded ring 301 and the main guide pipe 1, the first positioning block 305 is in an extending state, and when a user rotates the threaded ring 301 to a state that the first positioning groove 304 is clamped with the first positioning block 305, the first connector 302 is installed and fixed, and meanwhile, the clamping effect of the first positioning block 305 can also avoid the situation that the threads are loosened after long-term use.

Specifically, the steering structure 4 includes a side pipe 401, the side surface of the main pipe 1 is rotatably connected with the side pipe 401, the side surface of the main pipe 1 is provided with a plurality of through holes 406, the side surface of the main pipe 1 is provided with a bevel ring 405, the side pipe 401 is slidably connected with the bevel ring 405, the side surface of the main pipe 1 is slidably connected with a collision ring 403, the side surface of the collision ring 403 is fixedly connected with a third sealing gasket 404, the side surface of the third sealing gasket 404 is in a V-shaped structure, the third sealing gasket 404 is in contact with the side pipe 401 and the bevel ring 405, the side surface of the main pipe 1 is in threaded connection with a pushing ring 402, the pushing ring 402 is in contact with the collision ring 403, the inner side of the side pipe 401 is slidably connected with a dredging block 407, a second spring 408 is fixedly connected between the dredging block 407 and the side pipe 401, the end of the dredging block 407 is slidably connected with the main pipe 1 through the through hole 406, in actual installation, if the direction of the side pipe 401 deviates, the user can directly rotate the side pipe 401, after the angle adjustment of the side pipe 401 is completed, the pushing rings 402 on two sides of the side pipe 401 are respectively screwed, so that the pushing rings 402 push the third sealing pads 404 on the side surfaces of the pushing rings 403 and tightly abut against the inclined rings 405 and the side pipe 401 at the same time to achieve the sealing effect, the side pipe 401 is adjusted at any angle, on the other hand, in order to ensure that the through holes 406 are always smooth, a user can directly rotate the side pipe 401 repeatedly, so that the dredging blocks 407 on the inner side of the side pipe 401 sequentially slide into the through holes 406 through the inclined surface structure, the dredging of the through holes 406 is realized, the normal flow of cooling liquid between the main guide pipe 1 and the side pipe 401 is ensured, and a good heat dissipation effect is achieved.

Specifically, the angle adjusting structure 5 comprises a connecting hose 505, the end part of the side pipe 401 is fixedly connected with the connecting hose 505, the other end of the connecting hose 505 is fixedly connected with a second connector 501, the end part of the second connector 501 is fixedly connected with a side rotating block 502, the end part of the side pipe 401 is fixedly connected with a connecting plate 503, the connecting plate 503 is rotationally connected with the side rotating block 502 arranged on the same side, the inner side of the side rotating block 502 is slidingly connected with a second positioning block 506, a third spring 507 is fixedly connected between the second positioning block 506 and the side rotating block 502, both ends of the second positioning block 506 are hemispherical structures, a plurality of second positioning grooves 509 are formed in the connecting plate 503, the end part of the second positioning block 506 is propped against the connecting plate 503 through the second positioning grooves 509, the side surface of the side rotating block 502 is rotationally connected with a control disc 504, an arc-shaped empty slot 508 is formed on the control panel 504, in some cases, the guide pipe led in by the side pipe 401 may not be in a vertical state with the main guide pipe 1, in order to improve the connection efficiency and stability, the end of the side pipe 401 is connected with a second connector 501 for connecting a pipeline through a connecting hose 505, the second connector 501 and the side pipe 401 rotate through rotation between a side rotating block 502 and a connecting plate 503, so as to realize adjustment of a connection angle, in order to position the angle of which the adjustment is completed, a plurality of second positioning slots 509 are formed on the connecting plate 503, the second connector 501 can be turned to a proper angle for pipeline connection through matching between the second positioning block 506 and the second positioning slots 509, after the adjustment is completed, the control panel 504 on the side rotating block 502 is rotated, the empty slot 508 on the control panel 504 is rotated to the other side, so that the control panel 504 directly collides with the end of the second positioning block 506, at this time, the second positioning block 506 cannot slide continuously, so as to complete the rotation angle of the current second connector 501, and ensure the strength and stability of the pipe connection.

Specifically, the supporting structure 6 includes a tooth slot 603, the side surface of the main conduit 1 is provided with the tooth slot 603, the main conduit 1 is rotationally connected with a mounting seat 601 through the tooth slot 603, the inner side of the mounting seat 601 is slidably connected with a tooth block 604, a fourth spring 605 is fixedly connected between the tooth block 604 and the mounting seat 601, the tooth block 604 is meshed with the main conduit 1 through the tooth slot 603, the other end of the tooth block 604 is abutted against an inner slide 607, two sides of the inner slide 607 are respectively slidably connected with a clamping block 609, a fifth spring 608 is fixedly connected between the clamping block 609 and the inner slide 607, the side surface of the mounting seat 601 is slidably connected with a push rod 606, the end part of the push rod 606 is abutted against the clamping block 609, the end part of the mounting seat 601 is fixedly connected with a connecting rod 610, a control block 602 is slidably connected on the connecting rod 610, a sixth spring 611 is fixedly connected between the control block 602 and the connecting rod 610, in the process of installing the pipeline, if a pipeline or the like which is very close to the outer side of the pipeline appears, in order to avoid direct contact with the heat exchange pipeline, the outer side of the main conduit 1 is provided with an installing seat 601 which can support an additional pipeline, the inner side of the installing seat 601 is provided with a tooth block 604, the tooth block 604 achieves the effect of fixing the current position by being meshed with a tooth groove 603 on the main conduit 1, when the angle of the installing seat 601 needs to be adjusted to adapt to the position of the outer side pipeline 401, only push rods 606 on two sides need to be pressed, so that the push rods 606 push the clamping blocks 609 to retract, at the moment, the clamping blocks 609 are not clamped with the installing seat 601, so that a user can directly pull the control block 602, the interference effect of the inner sliding block 607 is lost, the tooth block 604 can freely slide, and the user can rotate the installing seat 601 at the moment, after the angle adjustment is completed, the push rod 606 is released, the inner slide block 607 is pushed to the clamping block 609 to be clamped with the mounting seat 601 again, and the angle of the mounting seat 601 at the moment can be fixed.

Specifically, the clamping structure 7 includes a rotating shaft 707, the inner side of the control block 602 is rotatably connected with the rotating shaft 707, a torsion spring 708 is fixedly connected between the rotating shaft 707 and the control block 602, a traction rope 706 is fixedly connected with the rotating shaft 707, the traction rope 706 is wound around the rotating shaft 707, the other end of the traction rope 706 is fixedly connected with a fixing block 704, a ferrule 701 with a "U" shaped structure is arranged on the side of the fixing block 704, a release block 702 is slidably connected with the end of the ferrule 701, a seventh spring 703 is fixedly connected between the release block 702 and the ferrule 701, a hook rod 705 is fixedly connected with the fixing block 704, the hook rod 705 is clamped with the release block 702, after the angle adjustment of the mounting seat 601 is completed, the release block 702 on the end ferrule 701 is pressed, the clamping state between the hook rod 705 and the release block 702 is released, at this time, the ferrule 701 can be removed, after a pipeline to be fixed passes between the ferrule 701 and the control block 602, the ferrule 701 is fixed with the fixing block 704 again, a user can make the length of the traction rope 706 stretch out of the proper length of the ferrule 701 through pulling the ferrule 701, a hook rod 705 is fixed with the rotating shaft 706, a good effect can be ensured, and a good cooling effect can be achieved, and a good cooling effect can be ensured, and a pipe network can be realized.

When the invention is used, firstly, the two ends of the main conduit 1 are respectively provided with the sealing plugs 202 for controlling the closed state of the end part of the main conduit 1, the two sides of the sealing plugs 202 are inclined planes, and the sealing plugs 202 are matched with the abutting grooves 204 in the main conduit 1, so that when the sealing plugs 202 slide into the abutting grooves 204, the front end of the main conduit 1 can be well sealed finally under the action of the inclined planes, thereby facilitating the installation or the dismantling operation of the three-way pipe under the condition that redundant cooling liquid exists in the conduit or the pipeline is locally maintained, and a user can control the closed state of the two ends of the main conduit 1 only by rotating the adjusting screw 201 at the corresponding end, when the connection between the two ends of the main conduit 1 and the pipeline is carried out, for the convenience of operation, the two ends of the main conduit 1 are respectively provided with a first connector 302, the first connector 302 can be sealed and fixed with the pipeline to be installed in advance, then the first connector 302 can be quickly connected with the main conduit 1, the installation efficiency is improved, the first connector 302 and the end part of the pipeline are sealed and fixed in actual use, then the thread ring 301 at the end part of the first connector 302 and the corresponding end thread of the main conduit 1 are fixed, meanwhile, when the sealing plug 202 is in a sealing state, the end part of the main conduit 1 can not leak, at this time, the edge of the sealing plug 202 drives the transmission rod 307 to press the first positioning block 305 to the bottom, at this time, the first positioning block 305 does not play a role in positioning the threaded ring 301, so as to reduce the resistance in the rotation process of the threaded ring 301, and when the sealing plug 202 is opened, in order to promote the stability of the threaded connection between the threaded ring 301 and the main conduit 1, at this time, the first positioning block 305 is in an extended state, when the user rotates the threaded ring 301 to a state that the first positioning groove 304 is clamped with the first positioning block 305, the installation and fixation of the first connecting head 302 are completed, at the same time, the clamping effect of the first positioning block 305 can also avoid the situation that the long-term use of threads is loose, in actual installation, the side pipes 401 on the side surface of the main pipe 1 can rotate around the main pipe 1 in order to facilitate timely adjustment of the direction of the pipes, and a plurality of through holes 406 are formed in the middle of the main pipe 1 for maintaining a communication state with the side pipes 401, in actual installation, when the connection of the pipes on the two ends of the main pipe 1 is completed, if the direction of the side pipes 401 deviates, a user can directly rotate the side pipes 401, after the adjustment of the angle of the side pipes 401 is completed, the pushing rings 402 on the two sides of the side pipes 401 are respectively screwed down, the third sealing pad 404 on the side surface of the pushing ring 402 pushes the abutting ring 403 to tightly abut against the bevel ring 405 and the side tube 401 at the same time, thereby achieving the sealing effect, and realizing the adjustment of any angle of the side tube 401, on the other hand, in order to ensure the smooth through hole 406 all the time, the user can directly rotate the side tube 401 repeatedly, so that the dredging block 407 on the inner side of the side tube 401 slides into the through hole 406 through the bevel structure in turn, thereby realizing the dredging of the through hole 406, ensuring the normal flow of the cooling liquid between the main conduit 1 and the side tube 401, exerting good heat dissipation effect, and in some cases, the conduit introduced by the side tube 401 may not be in a vertical state with the main conduit 1, in order to improve the efficiency and stability of connection, the end part of the side pipe 401 is connected with a second connector 501 for connecting a pipeline through a connecting hose 505, the second connector 501 and the side pipe 401 rotate through the rotation between a side rotating block 502 and a connecting plate 503, and further the adjustment of the connection angle is realized, in order to position the angle of which the adjustment is completed, a plurality of second positioning grooves 509 are arranged on the connecting plate 503, the second connector 501 can be turned to a proper angle through the matching between a second positioning block 506 and the second positioning groove 509 to connect the pipeline, after the adjustment is completed, a control disc 504 on the side rotating block 502 is rotated, the empty slot 508 on the control panel 504 is rotated to the other side, so that the control panel 504 directly abuts against the end part of the second positioning block 506, at this time, the second positioning block 506 cannot continuously slide to complete the rotation angle of the current second connector 501, the strength and stability of the pipeline connection are ensured, if a pipeline which is very close to the outer side of the pipeline appears in the installation process of the pipeline, in order to avoid direct contact with the heat exchange pipeline, the outer side of the main conduit 1 is provided with an installation seat 601 which can support additional pipelines, the inner side of the installation seat 601 is provided with a tooth block 604, the tooth block 604 achieves the effect of fixing the current position by being meshed with the tooth groove 603 on the main conduit 1, when the angle of the mounting seat 601 needs to be adjusted to adapt to the position of the outer pipe 401 line, only the push rods 606 at two sides are needed to be pressed, so that the push rods 606 push the clamping blocks 609 to retract, at the moment, the clamping blocks 609 are not clamped with the mounting seat 601, so that a user can directly pull the control block 602, the inner sliding block 607 slides, the interference effect of the inner sliding block 607 is lost, the tooth block 604 can freely slide, at the moment, the user can rotate the mounting seat 601, the fixed angle is adjusted, after the angle adjustment is completed, the push rods 606 are released, the inner sliding block 607 is pushed to be clamped with the mounting seat 601 again, the angle of the mounting seat 601 at the moment can be fixed, after the angle adjustment of the mounting seat 601 is completed, the release block 702 positioned on the end ferrule 701 is pressed, the clamping state between the hook rod 705 and the release block 702 is released, the ferrule 701 can be removed at this time, a pipeline to be fixed is fixed between the ferrule 701 and the control block 602, the ferrule 701 and the fixing block 704 are fixed again, at this time, a user can pull the ferrule 701 to enable the hauling rope 706 to extend out for a proper length to achieve a good fixing effect on the pipeline, the fixed pipeline is more stable, the other end of the hauling rope 706 is fixed on the rotating shaft 707, the torsion spring 708 connected between the rotating shaft 707 and the control block 602 can ensure that the hauling rope 706 can be automatically recovered and provide a clamping effect on the pipeline, good finishing effect is achieved on the cooling pipe network.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. A tee bend for water-cooling pipeline, its characterized in that: the novel intelligent pipeline comprises a main pipeline (1), wherein sealing structures (2) are respectively arranged at two ends of the main pipeline (1), the sealing structures (2) are connected with connecting structures (3), steering structures (4) are arranged in the middle of the main pipeline (1), angle adjusting structures (5) are arranged on the steering structures (4), supporting structures (6) are arranged on the side surfaces of the main pipeline (1), and clamping structures (7) are connected with the supporting structures (6);

the sealing structure (2) comprises a collision groove (204), the inner side of the main guide pipe (1) is provided with the collision groove (204), the main guide pipe (1) is connected with a sealing plug (202) in a sliding manner through the collision groove (204), two sides of the sealing plug (202) are of an inclined surface structure, the side face of the sealing plug (202) is fixedly connected with a first sealing pad (203), the middle part of the sealing plug (202) is in threaded connection with an adjusting screw (201), and the adjusting screw (201) is in rotary connection with the main guide pipe (1);

The steering structure (4) comprises a side pipe (401), the side surface of the main pipe (1) is rotationally connected with the side pipe (401), a plurality of through holes (406) are formed in the side surface of the main pipe (1), an inclined surface ring (405) is arranged on the side surface of the main pipe (1), the side pipe (401) is in sliding connection with the inclined surface ring (405), an abutting ring (403) is slidably connected with the side surface of the main pipe (1), a third sealing gasket (404) is fixedly connected with the side surface of the abutting ring (403), the side surface of the third sealing gasket (404) is of a V-shaped structure, the third sealing gasket (404) is abutted against the side pipe (401) and the inclined surface ring (405), and a pushing ring (402) is in threaded connection with the side surface of the main pipe (1) and is abutted against the abutting ring (403);

The inner side of the side pipe (401) is slidably connected with a dredging block (407), a second spring (408) is fixedly connected between the dredging block (407) and the side pipe (401), the end part of the dredging block (407) is slidably connected with the main pipe (1) through a through hole (406), and the section of the end part of the dredging block (407) is of a triangular structure;

the angle adjusting structure (5) comprises a connecting hose (505), the end part of the side pipe (401) is fixedly connected with the connecting hose (505), the other end of the connecting hose (505) is fixedly connected with a second connector (501), the end part of the second connector (501) is fixedly connected with a side rotating block (502), the end part of the side pipe (401) is fixedly connected with a connecting plate (503), and the connecting plate (503) is rotationally connected with the side rotating blocks (502) arranged on the same side;

The inboard sliding connection of side whirl piece (502) has second locating piece (506), fixedly connected with third spring (507) between second locating piece (506) and the side whirl piece (502), both ends of second locating piece (506) all are hemisphere face structure, a plurality of second constant head tanks (509) have been seted up on connecting plate (503), the tip of second locating piece (506) is through second constant head tank (509) and connecting plate (503) looks butt, the side rotation of side whirl piece (502) is connected with control panel (504), set up on control panel (504) and be curved empty slot (508).

2. The tee for water cooled piping as set forth in claim 1, wherein: connection structure (3) are including first connector (302), the both ends of leading pipe (1) are contradicted respectively and are had a first connector (302), the tip fixedly connected with second sealed pad (303) of first connector (302), first connector (302) are inconsistent with the tip of leading pipe (1) through second sealed pad (303), the side rotation of first connector (302) is connected with screwed collar (301), the inboard of screwed collar (301) and the tip threaded connection of leading pipe (1).

3. The tee for water cooled piping as set forth in claim 2, wherein: the novel sealing device is characterized in that a first positioning groove (304) is formed in the threaded ring (301), a first positioning block (305) is connected to the side face of the main guide pipe (1) in a sliding mode, a first spring (306) is fixedly connected between the first positioning block (305) and the main guide pipe (1), a transmission rod (307) is connected to the inner side of the main guide pipe (1) in a sliding mode, one end of the transmission rod (307) is abutted to the sealing plug (202), the other end of the transmission rod (307) is abutted to the side face of the first positioning block (305), and a compression rod (308) is fixedly connected to the side face of the transmission rod (307).

4. The tee for water cooled piping as set forth in claim 1, wherein: the supporting structure (6) comprises tooth grooves (603), the side face of the main guide pipe (1) is provided with the tooth grooves (603), the main guide pipe (1) is rotationally connected with a mounting seat (601) through the tooth grooves (603), the inner side of the mounting seat (601) is slidably connected with a tooth block (604), a fourth spring (605) is fixedly connected between the tooth block (604) and the mounting seat (601), and the tooth block (604) is meshed with the main guide pipe (1) through the tooth grooves (603).

5. The tee for water cooled piping of claim 4, wherein: the other end of tooth piece (604) is contradicted and is had interior slider (607), the both sides of interior slider (607) are sliding connection respectively has fixture block (609), fixedly connected with fifth spring (608) between fixture block (609) and interior slider (607), the side sliding connection of mount pad (601) has push rod (606), the tip of push rod (606) is inconsistent with fixture block (609), mount pad (601) tip fixedly connected with connecting rod (610), sliding connection has control block (602) on connecting rod (610), fixedly connected with sixth spring (611) between control block (602) and connecting rod (610).

6. The tee for water cooled piping of claim 5, wherein: the clamping structure (7) comprises a rotating shaft (707), the rotating shaft (707) is connected to the inner side of the control block (602) in a rotating mode, a torsion spring (708) is fixedly connected between the rotating shaft (707) and the control block (602), a traction rope (706) is fixedly connected to the rotating shaft (707), the traction rope (706) is wound on the rotating shaft (707), a fixing block (704) is fixedly connected to the other end of the traction rope (706), a ferrule (701) in a U-shaped structure is arranged on the side face of the fixing block (704), a release block (702) is connected to the end portion of the ferrule (701) in a sliding mode, a seventh spring (703) is fixedly connected between the release block (702) and the ferrule (701), a hook rod (705) is fixedly connected to the fixing block (704), and the hook rod (705) is clamped with the release block (702).