CN204005041U - Thermal insulation pipe joint - Google Patents

Abstract

The utility model is an insulated pipe joint, which at least includes: an insulating body integrally formed of foamed insulation material, based on pipe joints, such as cross-shaped pipe joints, Y-shaped pipe joints, T-shaped pipe joints, arc-shaped pipe joints, It is formed into the shape of a straight pipe joint, etc. In this way, the first element and the second element are provided on the thermal insulation body, and corresponding grooves are formed on the first element and the second element. By using the first element or The setting groove of the second element is provided for the pipe joint. After that, the second element or the first element is covered and tied with tape on the outside of the insulation body. The pipe joint can be completely covered to ensure that the liquid inside the pipe joint or The flow of gas.

Description

Insulation pipe joint

technical field

The utility model relates to a thermal insulation pipe joint, especially a pipe joint according to the shape of a cross-shaped pipe joint, a Y-shaped pipe joint, a T-shaped pipe joint, an arc-shaped pipe joint, a straight pipe joint, etc. The shape of the inner tube of the insulation pipe is an insulation body formed integrally with foam insulation material, and the first element and the second element of the insulation body are symmetrically formed with a setting groove to set the pipe joint. After that, the second element or the first The components are covered and tied with tape on the outside of the insulation body, so that the pipe joint can be completely covered to ensure the flow of liquid or gas inside the pipe joint and the insulation pipe.

Background technique

According to known thermal insulation pipe joints, such as the Chinese Taiwan Publication No. 200424468 invention patent titled "Three-in-One Foaming Thermal Insulation Pipe Joint", it is mainly to fill with a foam layer between the 900 pipe joint and the outer pipe, so as to Form 900 insulation pipe joints. In the aforementioned known technology, because the foam layer is directly coated on the outside of the 900 pipe joint, it will directly adhere to the outer surface of the inner pipe. or when the insulation pipe joint is connected with other equipment, the insulation pipe must be arranged on the inboard of the insulation pipe joint, causing the pipe diameter to shrink inwards, increasing the flow pressure of liquid or gas, and because of the aforementioned known 900 insulation pipe joints , has been directly molded with the foam layer. When the external pipe fittings are connected with the known 900 thermal insulation pipe joints, it is impossible to know whether the sealing has been completed, resulting in the leakage of the 900 thermal insulation pipe joints and the external pipe fittings. For this reason, the inventor of this case has accumulated many years of experience in the design and manufacture of various products, especially researching the shortcoming in the structure of the aforementioned thermal insulation pipe joint, and invented this case.

Utility model content

The purpose of this utility model is to provide a method that can improve the tight connection between the heat preservation pipe joint and the heat preservation pipe, and can completely cover the heat preservation pipe joint and the inner pipe connecting part of the heat preservation pipe, so as to ensure the transportation of the heat preservation pipe. Effect of liquid or gas.

In order to achieve the above-mentioned purpose, the thermal insulation pipe joint described in the present utility model at least includes: a thermal insulation body integrally formed by foam thermal insulation material, which is formed according to the shape of the inner tube of the pipe joint and thermal insulation pipe, so that the thermal insulation body A first component and a second component are provided, and corresponding first setting grooves and second setting grooves are respectively formed on the first component and the second component, and the first setting grooves and the second setting grooves are used to set the pipe joints Wherein, the first receiving groove and the second receiving groove corresponding to the outer side of the first setting groove of the aforementioned first element and the second setting groove of the second element are respectively provided to cover the inner tube of the thermal insulation pipe after being set, so , when the pipe joint and the inner pipe of the heat preservation pipe are connected to each other, the aforementioned second element and the first element can be covered, and the outer side of the heat preservation body is bound with tape, and the pipe joint and the inner pipe of the heat preservation pipe can be The connecting part is completely covered to ensure the flow of liquid or gas inside the pipe joint.

Further, the utility model also provides another heat-insulation pipe joint, which at least includes: an heat-insulation body integrally formed by foam heat-insulation material, which is formed according to the shape of the pipe joint and the inner pipe of the heat-insulation pipe, so that it is The thermal insulation body is provided with a first element and a second element, and forms corresponding first setting grooves and second setting grooves in the aforementioned first element and the second element, and uses the aforementioned first setting grooves and second setting grooves as tubes. The joint is arranged in which, the first receiving groove and the second receiving groove corresponding to the outer side of the first setting groove of the aforementioned first component and the second setting groove of the second component are respectively set, so as to cover the inner tube of the heat preservation pipe after setting In this way, when the pipe joint and the inner pipe of the heat preservation pipe are connected to each other, the aforementioned second element and the first element can be covered, and the pipe joint and the inner pipe connecting part of the heat preservation pipe can be completely covered to ensure The flow of liquid or gas inside a fitting.

The thermal insulation pipe joint described in the utility model is integrally formed with a foaming thermal insulation material and has a thermal insulation body, which is based on pipe joints, such as cross-shaped pipe joints, Y-shaped pipe joints, T-shaped pipe joints, and arc-shaped The shape of joints, inline pipe joints, etc., and the shape of the inner pipe of the heat preservation pipe are formed. In this way, the first element and the second element are provided on the heat preservation body, and the first element and the second element Form the setting grooves corresponding to each other, use the setting grooves of the first element or the second element to set the pipe joints in it, and then cover the second element or the first element, and bind it with tape on the outside of the heat preservation body. Cover the pipe joint and its connecting part with the inner pipe of the insulation pipe completely to ensure the flow of liquid or gas inside the pipe joint and the inner pipe of the insulation pipe.

In the thermal insulation pipe joint described in the utility model, wherein the pipe joint must be formed by plastic material or metal material, all are optional.

Description of drawings

The above and other objects, features and advantages of the present utility model will be apparent from the following description of the gist of the utility model and the preferred embodiments of its use and accompanying drawings, in which:

Fig. 1 is an exploded view of a T-shaped pipe joint and a thermal insulation body described in the present invention.

Fig. 2 is a combination diagram of the T-shaped pipe joint and the thermal insulation body described in the utility model.

Fig. 3 is an exploded view of the T-shaped pipe joint, heat preservation pipe and heat preservation body described in the present invention.

Fig. 4 is a combined view of the T-shaped pipe joint, heat preservation pipe and heat preservation body described in the present invention.

Fig. 5 is a combination diagram of the T-shaped pipe joint, heat preservation pipe and heat preservation body described in the utility model.

Fig. 6 is a cross-sectional view of the combination of the T-shaped pipe joint, the heat preservation pipe and the heat preservation body described in the present invention.

Fig. 7 is a combined view of the T-shaped pipe joint, heat preservation pipe and heat preservation body described in the present invention.

Fig. 8 is a view of the insulation body of the inline pipe joint described in the present invention.

Fig. 9 is a view of the thermal insulation body of the arc-shaped pipe joint according to the utility model.

Fig. 10 is a view of the thermal insulation body of the Y-shaped pipe joint described in the present invention.

[Description of main component symbols]

Insulation body 1

First element 10 Second element 11 Connecting part 12

First setting groove 100 Second setting groove 110

First receiving groove 101 Second receiving groove 111

Fitting 2

Insulation pipe 3 Inner pipe 30

Insulation body 1a Insulation body 1b Insulation body 1c

Detailed ways

In this way, in order to enable the public to fully understand the thermal insulation pipe joint described in the utility model, it is explained as follows according to the accompanying drawings:

As shown in Figure 1-7, it is an embodiment of the heat preservation pipe joint of the present invention composed of T-shaped pipe joints. The foam insulation material is made of PU polyurethane or polyurethane foam material (Polyurethane, PU for short), or is made of PE polyethylene (Polyethylene) foam material, or is made of PVC polyvinyl chloride (Poly Vinyl) Chloride, VC) foaming material, or other suitable foaming insulation materials are all fine. The aforementioned thermal insulation body 1 is based on the shape of the pipe joint 2, such as a cross-shaped pipe joint, a Y-shaped pipe joint, a T-shaped pipe joint, an arc-shaped pipe joint or a straight pipe joint, etc., and cooperates with the shape of the inner pipe of the heat preservation pipe. The shape is shaped, and this embodiment is based on the shape of the T-shaped pipe joint and the shape of the inner tube of the thermal insulation tube.

As shown in Figures 1 and 2, the thermal insulation body 1 described in the utility model is provided with a first element 10 and a second element 11, and a connecting portion 12 is arranged between the aforementioned first element 10 and the second element 11, so that the aforementioned The first element 10 and the second element 11 form a structure that can be opened and closed, which is convenient for covering the pipe joint 2. A first setting groove 100 is formed on the first element 10, and a second setting groove is formed on the second element 11. 110, the first setting groove 100 and the second setting groove 110 are symmetrical, and are shaped according to the surface shape of the pipe joint 2. Half of the shape is the best, of course, the first setting groove 100 can also be larger or smaller than half of the surface shape of the pipe joint 2, and the second setting groove 110 is corresponding to the first setting groove 100 and smaller or larger than the pipe joint Half of the surface shape of 2 is fine, as long as it can completely cover the pipe joint without leaving any gaps. Therefore, the aforementioned pipe joint 2 must first be set in the first setting groove 100 of the aforementioned first component 10 (as shown in FIGS. 2 and 4 ), or the second setting groove 110 of the aforementioned second component 11, and then place the aforementioned first The second element 11 or the first element 10 covers the outer surface of the pipe joint, so that the second setting groove 110 of the aforementioned second element 11 or the first setting groove 100 of the first element 10 can cover the outer surface of the pipe joint (such as Figure 5).

As shown in Figures 1-5, the aforementioned thermal insulation body 1 is located at the outer end of the first setting groove 100 of the aforementioned first element 10 and is provided with a first receiving groove 101 for the heat preservation pipe, and a second setting groove 110 of the aforementioned second element 11 The outer end of the thermal insulation pipe is also provided with a second receiving groove 111, the aforementioned first receiving groove 101 and the second receiving groove 111 are symmetrical, and are shaped according to the surface shape of the inner tube 30 of the insulating tube 3, therefore, the aforementioned first The receiving groove 101 and the second receiving groove 111 are preferably half of the surface shape of the inner tube 30 of the thermal insulation pipe 3, of course, the aforementioned first receiving groove 101 can also be larger or smaller than the surface shape of the inner tube 30 of the thermal insulation tube 3. Half of the aforementioned second receiving groove 111 is corresponding to the aforementioned first receiving groove 101 and is less than or greater than half of the surface shape of the inner tube 30 of the thermal insulation pipe 3, and it is not necessary, as long as it can completely cover the inner tube of the thermal insulation tube , leaving no gaps. Therefore, the inner tube 30 of the aforesaid insulation pipe 3 must first be arranged in the first receiving groove 101 of the aforementioned first component 10 (as shown in FIGS. 3 and 4 ), or the second receiving groove 111 of the aforementioned second component 11, Then the second element 11 or the first element 10 is covered on the outer surface of the inner tube 30 of the insulation pipe 3, so that the second receiving groove 111 of the aforementioned second element 11; or the first receiving groove 101 of the first element 10 It can be coated on the outer surface of the inner tube 30 of the insulation tube 3 (as shown in FIG. 5 ).

As shown in Figure 3-7, when the construction action of covering the inner pipe 30 of the pipe joint 2 and the heat preservation pipe 3 with the heat preservation body 1 is to connect the pipe joint 2 and the inner pipe 30 of the heat preservation pipe 3 with each other first, And when ensuring that the connecting part will not leak, the pipe joint 2 can be set in the first setting groove 100 of the aforementioned first element 10 (as shown in Figures 2 and 4), or the second setting groove of the aforementioned second element 11 110, while the inner tube 30 of the aforementioned thermal insulation pipe 3 is arranged in the first receiving groove 101 of the aforementioned first element 10 (as shown in Figures 3 and 4), or the second receiving groove 111 of the aforementioned second element 11, and then the The aforementioned second element 11 or first element 10 covers the outer surface of the pipe joint 2 and the inner pipe 30 of the heat preservation pipe 3 (as shown in Figures 5 and 6), and is bound with an adhesive tape 4 on the outside of the heat preservation body 1. The connection part between the pipe joint and the inner pipe 30 of the heat preservation pipe 3 is completely covered to ensure the flow of liquid or gas inside the pipe joint 2 and the inner pipe 30 of the heat preservation pipe 3 .

As shown in Figures 8-10, they are embodiments of the insulator 1a of the inline pipe joint, the insulator 1b of the curved pipe joint and the insulator 1c of the Y-shaped pipe joint described in the present invention. The novelty is not limited to the foregoing embodiments, as long as it is a pipe joint, any shape is within the category to be protected by the utility model.

To sum up, the thermal insulation pipe joint described in the present utility model can be wrapped with the preformed thermal insulation body 1 to the connecting part between the pipe joint 2 and the inner tube 30 of the thermal insulation pipe 3, and then bundled with adhesive tape. To ensure that the connecting part of the pipe joint 2 and the inner pipe 30 of the heat preservation pipe 3 accidentally leaks outside, it can also improve the heat preservation effect of the joint part of the pipe joint 2 and the inner pipe 30 of the heat preservation pipe 3, and prevent the inner pipe of the pipe joint 2 and the heat preservation pipe 3 from leaking out. 30. In addition to being affected by the external temperature, the connection part can also guarantee the tightness of the connection, which is indeed progressive and is the composition of this case.

Claims (14)

1. a heat-insulating pipe joint, it is characterized in that, at least comprise: by the integrated thermal insulator of foaming thermal-insulating, it is the moulding according to the shape of the inner tube of pipe joint and thermal insulation pipe, so, be to be provided with the first element and the second element in thermal insulator, and in first groove and second be set groove be set corresponding with each self-forming of the second element of aforementioned the first element, utilize aforementioned first groove and second is set groove is set thinks pipe joint setting wherein, being positioned at outside that aforementioned the first element first arranges groove arranges groove outside with second of the second element and respectively establishes the first corresponding holding groove and the second holding groove, the inner tube of thinking thermal insulation pipe arranges rear coated, so, after the inner tube of pipe joint and thermal insulation pipe overlaps, aforementioned the second element and the first element can be covered, and tie up with adhesive tape in thermal insulator outside, can be connected by pipe joint and with the inner tube of thermal insulation pipe part completely coated, guarantee flowing of pipe joint internal liquid or gas.

2. heat-insulating pipe joint as claimed in claim 1, is characterized in that, described thermal insulator is able to be made by PU polyurethane or polyurethane foam material, or is made by PE polyethylene foam-material, or is made by PVC polyvinyl-chloride foam material.

3. heat-insulating pipe joint as claimed in claim 1, is characterized in that, between the first element of described thermal insulator and the second element, establishes joint, to allow aforementioned the first element and the second element produce opening-closing structure.

4. heat-insulating pipe joint as claimed in claim 1, it is characterized in that, first of described thermal insulator arranges groove and second, and groove is set is symmetry shape, and the moulding with the surface configuration of pipe joint, and aforementioned first arranges groove and second, and groove is set is respectively the half of the surface configuration of pipe joint.

5. heat-insulating pipe joint as claimed in claim 1, it is characterized in that, first of described thermal insulator arranges the half that groove is greater than or less than the surface configuration of pipe joint, and second groove is set is groove is set and is less than or greater than the half of the surface configuration of pipe joint corresponding to aforementioned first, to be coated on pipe joint completely, do not stay gap.

6. heat-insulating pipe joint as claimed in claim 1, it is characterized in that, first of the first element of described thermal insulator arranges groove outboard end and establishes the first holding groove, and second groove outboard end be set establish the second holding groove of the second element, aforementioned the first holding groove and the second holding groove are symmetry shape, and with the surface configuration of the inner tube of thermal insulation pipe and moulding, aforementioned the first holding groove and the second holding groove are the half of the inner tube surface configuration of thermal insulation pipe.

7. heat-insulating pipe joint as claimed in claim 1, it is characterized in that, the first holding groove of described thermal insulator is greater than or less than the half of surface configuration of the inner tube of thermal insulation pipe, the second holding groove is less than or greater than the half of surface configuration of the inner tube of thermal insulation pipe corresponding to aforementioned the first holding groove, to be coated on the inner tube of thermal insulation pipe completely, do not stay gap.

8. a heat-insulating pipe joint, it is characterized in that, at least comprise: by the integrated thermal insulator of foaming thermal-insulating, it is the moulding according to the shape of the inner tube of pipe joint and thermal insulation pipe, so, be to be provided with the first element and the second element in thermal insulator, and in first groove and second be set groove be set corresponding with each self-forming of the second element of aforementioned the first element, utilize aforementioned first groove and second is set groove is set thinks pipe joint setting wherein, being positioned at outside that aforementioned the first element first arranges groove arranges groove outside with second of the second element and respectively establishes the first corresponding holding groove and the second holding groove, the inner tube of thinking thermal insulation pipe arranges rear coated, so, after the inner tube of pipe joint and thermal insulation pipe overlaps, aforementioned the second element and the first element can be covered, can be connected by pipe joint and with the inner tube of thermal insulation pipe part completely coated, guarantee flowing of pipe joint internal liquid or gas.

9. heat-insulating pipe joint as claimed in claim 8, is characterized in that, described thermal insulator is able to be made by PU polyurethane or polyurethane foam material, or is made by PE polyethylene foam-material, or is made by PVC polyvinyl-chloride foam material.

10. heat-insulating pipe joint as claimed in claim 8, is characterized in that, between the first element of described thermal insulator and the second element, establishes joint, to allow aforementioned the first element and the second element produce opening-closing structure.

11. heat-insulating pipe joints as claimed in claim 8, it is characterized in that, first of described thermal insulator arranges groove and second, and groove is set is symmetry shape, and the moulding with the surface configuration of pipe joint, therefore, aforementioned first groove and second is set groove is set is respectively the half of the surface configuration of pipe joint.

12. heat-insulating pipe joints as claimed in claim 8, it is characterized in that, first of described thermal insulator arranges the half that groove is greater than or less than the surface configuration of pipe joint, and second groove is set is groove is set and is less than or greater than the half of the surface configuration of pipe joint corresponding to aforementioned first, to be coated on pipe joint completely, do not stay gap.

13. heat-insulating pipe joints as claimed in claim 8, it is characterized in that, first element first of described thermal insulator arranges groove outboard end and establishes the first holding groove, and second groove outboard end be set establish the second holding groove of the second element, aforementioned the first holding groove and the second holding groove are symmetry shape, and with the surface configuration of the inner tube of thermal insulation pipe and moulding, aforementioned the first holding groove and the second holding groove are respectively the half of the inner tube surface configuration of thermal insulation pipe.

14. heat-insulating pipe joints as claimed in claim 13, it is characterized in that, the first holding groove of described thermal insulator is greater than or less than the half of surface configuration of the inner tube of thermal insulation pipe, the second holding groove is less than or greater than the half of surface configuration of the inner tube of thermal insulation pipe corresponding to aforementioned the first holding groove, to be coated on the inner tube of thermal insulation pipe completely, do not stay gap.