CN209309503U - A kind of cooling tower Pipe installing structure - Google Patents
A kind of cooling tower Pipe installing structure Download PDFInfo
- Publication number
- CN209309503U CN209309503U CN201821620050.XU CN201821620050U CN209309503U CN 209309503 U CN209309503 U CN 209309503U CN 201821620050 U CN201821620050 U CN 201821620050U CN 209309503 U CN209309503 U CN 209309503U
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- Prior art keywords
- pipe
- connector
- delivery pipe
- support rod
- cooling tower
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Abstract
The utility model relates to a kind of cooling tower Pipe installing structures, cooling tower pipeline includes the first delivery pipe and the second delivery pipe, sliding sleeve is connected to the first connector in first delivery pipe, second delivery pipe is fixed with the second connector, first connector is threadedly engaged with the second connector, first connector includes the first pipe sleeve and snap-gauge, recess has sliding slot in first delivery pipe, snap-gauge is connected in sliding slot, the lateral wall of snap-gauge offers clamping groove, locating part is equipped in sliding slot, locating part is hinged on the corner of sliding slot, when the first connector is threadedly coupled with the second connector, the locating part other end opposite with hinged end is connected in clamping groove.The utility model is arranged in this way, when the threaded connection of the first connector and the second connector, the port of first delivery pipe is mutually abutted with the port of the second delivery pipe, first connector and the second connector are wrapped in the periphery at abutting, so that having leakproofness at abutting, the water in pipeline is not easy to ooze out from the abutting of delivery pipe.
Description
Technical field
The utility model relates to the technical fields of Pipe installing, more particularly, to a kind of cooling tower Pipe installing structure.
Background technique
Cooling tower is to use water as circulating coolant at present, and heat dissipation is absorbed from a system into atmosphere, to reduce
The device of water temperature.Cooling tower is joined end to end using more root canal roads to be sent to hot water in cooling tower for using.
Two root canal roads are connected and fixed when usual using the mode of welding by the existing two root canal roads that are fixed to each other, then again
It is connected with cooling tower, carries out the conveying of hot water.
Prior art among the above has the following deficiencies: and is fixed by welding between pipeline that water exists
The weld of conveying in pipeline, pipeline is easy by aqueous corrosion, and for a long time, the weld of pipeline is easy to happen under the corrosion of water
Phenomenon of rupture influences the leakproofness of two pipeline junctions.It needs to improve this.
Utility model content
The purpose of the utility model is to provide a kind of cooling tower Pipe installing structures, for realizing adjacent channel junction
Good sealing property.
The above-mentioned purpose of utility model of the utility model has the technical scheme that
A kind of cooling tower Pipe installing structure, the cooling tower pipeline includes the first delivery pipe and the second delivery pipe, described
The lateral wall of first delivery pipe sliding sleeve at nozzle is connected to the first connector, and the lateral wall of second delivery pipe is close to pipe
It is fixed with the second connector at mouthful, first connector is threadedly engaged with second connector, the first connector packet
The first pipe sleeve and snap-gauge are included, first delivery pipe is at nozzle around its sliding slot that circumferentially recess there are head and the tail to be closed, the card
Board is connected to the sliding slot, and the lateral wall of the snap-gauge offers clamping groove, is equipped with locating part, the locating part in the sliding slot
It is hinged on the corner of the sliding slot, when first connector is threadedly coupled with second connector, the locating part
The other end opposite with hinged end is connected in the clamping groove.
By using above-mentioned technical proposal, the first connector and are respectively set in the first delivery pipe and the second delivery pipe
When two connectors, the first connector and the second connector are threadedly coupled, the end of the end of the first delivery pipe and the second delivery pipe
It pushes against, is connected through a screw thread so that mutual pulling force is generated between the first connector and the second connector, so that each other not
Easily it is detached from.It is pushed against between first delivery pipe and the second delivery pipe, when the first connector and the second connector are threadedly coupled, first connects
Fitting and the second connector are wrapped in the periphery at abutting, so that having good leakproofness at abutting;Snap-gauge is connected to cunning
In slot, it can prevent the first connector from slipping away the first delivery pipe;Because during pipe water, it is existing that pipeline will appear vibration
As, it may result in the first connector and the second connector be mutually disengaged along the axial direction of pipeline, using locating part, the one of locating part
End is hinged on the corner of sliding slot, and one end opposite with hinged end is connected in clamping groove, shape between locating part, sliding slot and snap-gauge
At the shape of triangular support bracket, two connectors is prevented to be mutually disengaged, increases the first connector and the connection of the second connector
The stability at place.
The utility model is further arranged to: the locating part includes the support rod being hinged at the sliding slot, when described
When first connector is threadedly coupled with second connector, the support rod is connected in the clamping groove.
By using above-mentioned technical proposal, support rod is connected in clamping groove, when the first connector is axially moved
When, support rod generates the power with the force opposite direction for driving the first connector to generate axial movement to snap-gauge, so that the first connection
Part is not easy to be detached from the second connector.
The utility model is further arranged to: the clamping groove is provided with several around the axially spaced-apart of first delivery pipe
It is a.
By using above-mentioned technical proposal, because the turnning circle of each pipe sleeve is inconsistent, several clamping grooves is set, are made
Obtaining each conveyance conduit threaded connection back support rod can be connected in clamping groove.
The utility model is further arranged to: second connector includes the second pipe sleeve and fixture block, the fixture block and institute
State that the second pipe sleeve is integrally formed, the fixture block is connected on the side wall of second delivery pipe.
By using above-mentioned technical proposal, fixture block is connected on the side wall of the second delivery pipe, can be produced to the second delivery pipe
It is defeated to increase by first so that the first delivery pipe and the second delivery pipe are not susceptible to be detached from for the pulling force of raw first delivery pipe of direction
Send the stability between pipe and the second delivery pipe.
The utility model is further arranged to: the inner wall of first pipe sleeve is provided with internal screw thread around its circumferential direction, and described
Two pipe sleeve lateral walls are provided with external screw thread, the first pipe sleeve socket and second pipe sleeve around its circumferential direction.
By using above-mentioned technical proposal, the first pipe sleeve is rotated, the first pipe sleeve is socketed on the second pipe sleeve, when the first conveying
When the port of pipe pushes against the nozzle of the second delivery pipe, stop operating the first pipe sleeve, can realize two by rotating the first pipe sleeve
The connection of conveyance conduit, it is simple to operate.
The utility model is further arranged to: being provided with waterproof between the inner sidewall and the second delivery pipe of second pipe sleeve
Sealing ring, described waterproof grommet one end are abutted with the fixture block, the end face of the other end and second pipe sleeve.
By using above-mentioned technical proposal, when the first delivery pipe is abutted with the second delivery pipe, waterproof grommet will be abutted
Locate waterproof sealing, the water in pipeline is avoided to ooze out from the junction of conveyance conduit.
The utility model is further arranged to: the waterproof grommet is circumferentially arranged around second delivery pipe.
By using above-mentioned technical proposal, waterproof grommet is circumferentially arranged around the second delivery pipe, the first delivery pipe and the
Two delivery pipes abut when, waterproof grommet by abutting it is fully wrapped around live so that the water in pipeline be not easy from abutting ooze out.
The utility model is further arranged to: the cell wall setting of the sliding slot accommodates the accommodating groove of the support rod.
Support rod is placed on when the first delivery pipe and not connected the second delivery pipe by using above-mentioned technical proposal
In accommodating groove, compared to support rod is placed in sliding slot for, reduce support rod the space occupied in sliding slot, facilitate snap-gauge
It is slided in sliding slot.
The utility model is further arranged to: the side wall of the accommodating groove is provided with the elastic component for clamping the support rod,
When the support rod is located in the accommodating groove, the support rod is abutted with the elastic component.
There is friction between elastic component and support rod when placing support rod in accommodating groove by using above-mentioned technical proposal
Power, so that support rod can not be detached from accommodating groove under the gravity of itself, the placement that support rod is consolidated when being not used
In accommodating groove.
The utility model is further arranged to: screw is equipped on the support rod, when the support rod is connected to clamping
When in slot, the screw fixes the cell wall of the support rod and the sliding slot.
By using above-mentioned technical proposal, support rod is connected in clamping groove, using screw by the slot of support rod and sliding slot
Wall is fixed, so that support rod is not likely to produce loosening when by extraneous power, support rod is consolidated and is connected to clamping groove
On.
In conclusion the advantageous effects of the utility model are as follows:
1. passing through the threaded connection of the first pipe sleeve and the second pipe sleeve, so that conveyance conduit junction has good sealing
Property;
2. support rod is connected in card slot, when so that first sleeve and the second pipe sleeve being axially disengaging, support rod can
To prevent first sleeve and the second pipe sleeve to be detached from;
3. fixture block is connected on the side wall of the second delivery pipe, a drawing towards port direction is generated to the second delivery pipe
Power increases the stability of the first delivery pipe and the second delivery pipe;
4. waterproof grommet is arranged, the leakproofness at the first delivery pipe and the second delivery pipe abutting can be increased, so that pipe
Water in road is not easy to ooze out from the junction of pipeline.
Detailed description of the invention
Fig. 1 is the cross-sectional view of the present embodiment.
In figure, the 1, first delivery pipe;2, the second delivery pipe;3, the first connector;31, the first pipe sleeve;32, snap-gauge;4,
Two connectors;41, the second pipe sleeve;42, fixture block;5, support rod;6, sliding slot;7, waterproof grommet;8, elastic component;9, accommodating groove;
10, clamping groove;11, groove;12, screw.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
It referring to Fig.1, is a kind of cooling tower Pipe installing structure disclosed by the utility model, cooling tower pipeline includes cylinder
First delivery pipe 1 and the second delivery pipe 2.
First delivery pipe 1 is provided with the first connector 3 at nozzle, and the first connector 3 is by the of round tubular setting
One pipe sleeve 31 and circular snap-gauge 32 form, and first sleeve and snap-gauge 32 are integrally formed, and the section of the first connector 3 is L shape, the
The diameter of one pipe sleeve 31 is greater than the diameter of the first delivery pipe 1.The inner sidewall of first pipe sleeve 31 is around the circumferential and edge of the first pipe sleeve 31
Its length direction is equipped with internal screw thread;First delivery pipe 1 is at nozzle along its sliding slot 6 that circumferentially recess has head and the tail to be closed, snap-gauge
32 are connected on sliding slot 6, and slide in sliding slot 6.Snap-gauge 32 slides in sliding slot 6, and it is defeated can be detached from first to avoid snap-gauge 32
Send pipe 1.
Second delivery pipe 2 is fixed with the second connector 4 at nozzle, and the second connector 4 is by the of round tubular setting
Two pipe sleeves 41 and fixture block 42 form.Second pipe sleeve 41 and fixture block 42 are integrally formed, the rounded setting of fixture block 42;Second pipe sleeve 41
Diameter is greater than the diameter of the second delivery pipe 2, and the lateral wall of the second pipe sleeve 41 is equipped with and first along the length direction of the second pipe sleeve 41
When the external screw thread that pipe sleeve 31 is threadedly engaged, the first pipe sleeve 31 and the second pipe sleeve 41 are threadedly coupled, the first delivery pipe 1 and the second conveying
The port of pipe 2 mutually abuts.Circumferential recess on the side wall of second delivery pipe 2 along the second delivery pipe 2 has the recessed of fixed fixture block 42
Slot 11, groove 11 are end to end.Fixture block 42 is fixed in groove 11, so that the first pipe sleeve 31 and the second pipe sleeve 41 are threadedly coupled
When, fixture block 42 generates the pulling force at two delivery pipe abuttings of a direction to the second delivery pipe 2, increases at two delivery pipe abuttings
Stability.
Waterproof grommet 7 is fixed between second pipe sleeve 41 and the second delivery pipe 2, waterproof grommet 7 is around the second delivery pipe 2
Circumferential to place, one end of waterproof grommet 7 is abutted with the side wall of fixture block 42, and the other end is flushed with the port of the second pipe sleeve 41, when
When first delivery pipe 1 is abutted with the second delivery pipe 2,7 waterproof sealing of waterproof grommet is wrapped at abutting.Waterproof grommet 7 can
To increase the leakproofness at the first delivery pipe 1 and 2 abutting of the second delivery pipe.
Finite place piece is set in sliding slot 6, and locating part is support rod 5, and the corner of sliding slot 6 is equipped with articulated shaft, support rod 5
It is hinged on articulated shaft, the length of support rod 5 is equal to the depth of sliding slot 6;Axial direction of the lateral wall of snap-gauge 32 along the first delivery pipe 1
It is arranged at intervals with clamping groove 10, clamping groove 10, which is equipped with, is caught in mouth for what support rod 5 was caught in, when the first pipe sleeve 31 and the second pipe sleeve
When 41 threaded connection, support rod 5 is connected in clamping groove 10.Support rod 5, sliding slot 6 form the support of triangle between snap-gauge 32
Structure, support rod 5 can prevent the first pipe sleeve 31 and the second pipe sleeve 41 to be axially disengaging.
It is equipped with screw 12 towards vertical 6 bottom wall direction of sliding slot on support rod 5, the bottom wall recess of sliding slot 6 has revolves for screw 12
The threaded hole entered, when support rod 5 is connected in clamping groove 10, by screw 12 far from one end precession threaded hole of nut, spiral shell
Cap pushes against support rod 5, so that support rod 5 and sliding slot 6 are fixed.Support bars 5 and sliding slot 6 is fixed so that support rod 5 by
When the power in the external world, it is not easy and clamping groove 10 is detached from.
The side wall of sliding slot 6 be recessed along its length have receive the accommodating groove 9 of support rod 5 will when support rod 5 is not used
Support rod 5 is placed in accommodating groove 9, and support rod 5 is avoided to impact the sliding of snap-gauge 32.The side wall of accommodating groove 9 is along its length
Degree direction is fixed with elastic component 8, and elastic component 8 can be rubber block, and when support rod 5 is placed in accommodating groove 9, elastic component 8 is supported
It connects in support rod 5 close to the two sides of 9 two side walls of accommodating groove, so that support rod 5 under the gravity of itself, is not easily disconnected from receipts
Receive slot 9.
The installation principle of embodiment are as follows:
When carrying out two Pipe installings, waterproof grommet 7 is fixed on the inner sidewall of the second pipe sleeve 41, rotation first
Pipe sleeve 31, so that the first pipe sleeve 31 is socketed on the second pipe sleeve 41, until the port of the first delivery pipe 1 and the second delivery pipe 2 is mutual
It pushes against, stop operating the first pipe sleeve 31, and rotary supporting rod 5 is tightened screw 12, made so that support rod 5 is connected in clamping groove 10
It obtains support rod 5 and sliding slot 6 is fixed.
By the threaded connection of the first pipe sleeve 31 and the second pipe sleeve 41, so that being produced between the first pipe sleeve 31 and the second pipe sleeve 41
Raw mutual pulling force, is not easily disconnected from each other, after the first pipe sleeve 31 and the second pipe sleeve 41 are threadedly coupled, the first pipe sleeve 31 and the
Two pipe sleeves 41 are wrapped at 2 abutting of the first delivery pipe 1 and the second delivery pipe, realize the leakproofness connection at abutting;By support rod 5
It is connected in clamping groove 10, forms triangular support configurations between support rod 5, sliding slot 6 and snap-gauge 32, so that the first pipe sleeve 31 is not easy
It is detached from the second pipe sleeve 41, increases the stability of the first pipe sleeve 31 and the connection of the second pipe sleeve 41.
The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this
The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical
Within novel protection scope.
Claims (10)
1. a kind of cooling tower Pipe installing structure, it is characterised in that: the cooling tower pipeline includes the first delivery pipe (1) and second
Delivery pipe (2), the lateral wall of first delivery pipe (1) sliding sleeve at nozzle are connected to the first connector (3), and described second
The lateral wall of delivery pipe (2) is fixed with the second connector (4) at nozzle, and first connector (3) and described second connects
Fitting (4) is threadedly engaged, and first connector (3) includes the first pipe sleeve (31) and snap-gauge (32), first delivery pipe (1)
Around its sliding slot (6) that circumferentially recess has head and the tail to be closed at nozzle, the snap-gauge (32) is connected in the sliding slot (6), described
The lateral wall of snap-gauge (32) offers clamping groove (10), and locating part is equipped in the sliding slot (6), and the locating part is hinged on described
The corner of sliding slot (6), when first connector (3) is threadedly coupled with second connector (4), the locating part with
The opposite other end in hinged end is connected in the clamping groove (10).
2. a kind of cooling tower Pipe installing structure according to claim 1, it is characterised in that: the locating part includes hinged
Support rod (5) at the sliding slot (6), when first connector (3) is threadedly coupled with second connector (4),
The support rod (5) is connected in the clamping groove (10).
3. a kind of cooling tower Pipe installing structure according to claim 1, it is characterised in that: the clamping groove (10) is around institute
The axially spaced-apart for stating the first delivery pipe (1) is provided with several.
4. a kind of cooling tower Pipe installing structure according to claim 1, it is characterised in that: second connector (4)
Including the second pipe sleeve (41) and fixture block (42), the fixture block (42) and second pipe sleeve (41) are integrally formed, the fixture block
(42) it is connected on the side wall of second delivery pipe (2).
5. a kind of cooling tower Pipe installing structure according to claim 4, it is characterised in that: first pipe sleeve (31)
Inner wall is provided with internal screw thread around its circumferential direction, and the second pipe sleeve (41) lateral wall is provided with external screw thread around its circumferential direction, and described
One pipe sleeve (31) is socketed on second pipe sleeve (41).
6. a kind of cooling tower Pipe installing structure according to claim 4, it is characterised in that: second pipe sleeve (41)
It is provided between inner sidewall and the second delivery pipe (2) waterproof grommet (7), described waterproof grommet (7) one end and the fixture block
(42) it abuts, the end face of the other end and second pipe sleeve (41).
7. a kind of cooling tower Pipe installing structure according to claim 6, it is characterised in that: the waterproof grommet (7)
Circumferentially it is arranged around second delivery pipe (2).
8. a kind of cooling tower Pipe installing structure according to claim 2, it is characterised in that: the cell wall of the sliding slot (6)
The accommodating groove (9) for accommodating the support rod (5) is set.
9. a kind of cooling tower Pipe installing structure according to claim 8, it is characterised in that: the side of the accommodating groove (9)
Wall is provided with the elastic component (8) for clamping the support rod (5), when the support rod (5) be located at the accommodating groove (9) it is interior when, institute
Support rod (5) is stated to abut with the elastic component (8).
10. a kind of cooling tower Pipe installing structure according to claim 9, it is characterised in that: worn on the support rod (5)
Equipped with screw (12), when the support rod (5) be connected to clamping groove (10) it is interior when, the screw (12) is by the support rod (5)
It is fixed with the cell wall of the sliding slot (6).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821620050.XU CN209309503U (en) | 2018-09-30 | 2018-09-30 | A kind of cooling tower Pipe installing structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821620050.XU CN209309503U (en) | 2018-09-30 | 2018-09-30 | A kind of cooling tower Pipe installing structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209309503U true CN209309503U (en) | 2019-08-27 |
Family
ID=67670547
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821620050.XU Active CN209309503U (en) | 2018-09-30 | 2018-09-30 | A kind of cooling tower Pipe installing structure |
Country Status (1)
Country | Link |
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CN (1) | CN209309503U (en) |
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2018
- 2018-09-30 CN CN201821620050.XU patent/CN209309503U/en active Active
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