CN216739852U - Connecting seat and drainage valve group - Google Patents

Abstract

The utility model provides a connecting seat and drainage valves, connecting seat are including the admission valve passageway, business turn over water passageway, inclined channel, solenoid valve passageway and the freeze-proof valve passageway that communicate in proper order, and wherein, the admission valve passageway is used for installing the admission valve, and the solenoid valve passageway is used for installing the solenoid valve, and the freeze-proof valve passageway is used for installing the freeze-proof valve. Through the technical scheme provided by the utility model, organically integrated the function of each valve on a connecting seat, realized the integration of function for the structure of the connecting seat of being connected with a plurality of different valves, the drainage valves structure is compacter promptly, and is smaller and more exquisite, has reduced processes such as welding of external pipeline, has reduced processing and assembly cost.

Description

Connecting seat and drainage valve group

Technical Field

The utility model relates to a drain valve technical field particularly, relates to a connecting seat and drainage valves.

Background

At present, with the wide application of a drainage valve bank, the use requirement of the drainage valve bank is higher and higher, a connecting seat of the drainage valve bank in the prior art is often required to be connected with various external pipelines, including but not limited to a water inlet and outlet channel pipeline, an anti-freezing valve channel pipeline and the like, and the anti-freezing valve in the drainage valve bank in the prior art may have the situation that water is not completely drained or water is always drained in the process of using the drainage valve bank, so that the normal use of the drainage valve bank is influenced, and an additional auxiliary device is required to limit the anti-freezing valve.

SUMMERY OF THE UTILITY MODEL

The utility model provides a connecting seat and drainage valves to solve the many problems of the connecting seat external pipeline among the prior art.

In order to solve the problem, according to the utility model discloses an aspect, the utility model provides a connecting seat, connecting seat are including the admission valve passageway, business turn over water passageway, inclined channel, solenoid valve passageway and the freeze-proof valve passageway that communicate in proper order, and wherein, the admission valve passageway is used for installing the admission valve, and the solenoid valve passageway is used for installing the solenoid valve, and the freeze-proof valve passageway is used for installing the freeze-proof valve.

Furthermore, the air inlet valve channel is positioned above the water inlet and outlet channel, and the electromagnetic valve channel and the frost valve channel are positioned below the water inlet and outlet channel.

Furthermore, the water inlet and outlet channels are horizontally arranged, the air inlet valve channel is vertically arranged, and the anti-freezing valve channel is vertically arranged.

Furthermore, the electromagnetic valve channel is positioned between the water inlet and outlet channel and the antifreezing valve channel, the electromagnetic valve channel is horizontally arranged, and the inclined channel is obliquely arranged relative to the horizontal direction.

Furthermore, the air inlet valve channel and the frost valve channel are coaxially arranged, and the electromagnetic valve channel is vertical to the water inlet and outlet channel.

Further, the inner wall of the air inlet valve channel is provided with a first annular groove, and the first annular groove is used for placing a sealing ring.

Further, the inner wall of the electromagnetic valve channel is provided with a second annular groove, and the second annular groove is used for placing a sealing ring.

Further, the inner wall of the frost valve channel is provided with a third annular groove, and the third annular groove is used for placing a sealing ring.

Furthermore, the connecting seat comprises a connecting block, an air inlet valve joint, an anti-freezing valve joint and two water inlet and outlet joints, wherein the air inlet valve joint is arranged above the connecting block, the anti-freezing valve joint is arranged below the connecting block, and the two water inlet and outlet joints are respectively arranged on two opposite sides of the connecting block; the air inlet valve channel is positioned in the air inlet valve joint and the connecting block, the water inlet and outlet channels are positioned in the two water inlet and outlet joints and the connecting block, the inclined channel and the electromagnetic valve channel are positioned in the connecting block, and the antifreezing valve channel is positioned in the antifreezing valve joint and the connecting block.

Further, the admission valve passageway has the internal thread, all has the external screw thread on two business turn over water swivel's the outer wall, and the connecting seat is structure as an organic whole.

According to the utility model discloses an on the other hand provides a drainage valves, and drainage valves includes foretell connecting seat.

Use the technical scheme of the utility model, a connecting seat is provided, the connecting seat is including the admission valve passageway, business turn over water passageway, inclined passage, solenoid valve passageway and the freeze-proof valve passageway that communicate in proper order, and wherein, the admission valve passageway is used for installing the admission valve, and the solenoid valve passageway is used for installing the solenoid valve, and the freeze-proof valve passageway is used for installing the freeze-proof valve. By adopting the scheme, the air inlet valve channel, the water inlet and outlet channel, the electromagnetic valve channel and the anti-freezing valve channel are arranged on the connecting seat, and the corresponding valves are arranged on the corresponding channels, so that the functions of all the valves are organically integrated on one connecting seat, and the integration of the functions is realized, so that the connecting seat connected with a plurality of different valves is more compact and smaller in structure, compared with the condition that all the valves and a main pipeline need to be independently arranged in the prior art, the scheme reduces the procedures of welding of an external pipeline and the like, and reduces the processing and assembling cost; through oblique passageway intercommunication business turn over water passageway and solenoid valve passageway, saved the space of connecting seat more organically, make the structure compacter.

By the arrangement, the air inlet valve of the air inlet valve channel can discharge residual fluid in the water inlet channel and the water outlet channel while the normal flow of the fluid in the water inlet channel and the water outlet channel is not influenced, so that the situation that the residual fluid exists in the water inlet channel and the water outlet channel is avoided; the control of the connection or disconnection between the antifreezing valve channel and the electromagnetic valve channel is realized through the electromagnetic valve of the electromagnetic valve channel, and the condition that the antifreezing valve at the position of the antifreezing valve channel drains water all the time in the use process of the drainage valve group is avoided.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic structural diagram of a connection seat provided in an embodiment of the present invention;

fig. 2 shows a cross-sectional view of the connection socket of fig. 1.

Wherein the figures include the following reference numerals:

11. an intake valve passage; 111. a first annular groove; 12. a water inlet and outlet channel; 13. an inclined channel; 14. a solenoid valve channel; 141. a second annular groove; 15. a freeze valve channel; 151. a third annular groove; 16. connecting blocks; 17. an intake valve connector; 18. an anti-freeze valve joint; 19. a water inlet and outlet joint.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 and 2, an embodiment of the present invention provides a connecting seat, which includes an air intake valve channel 11, an inlet/outlet water channel 12, an inclined channel 13, a solenoid valve channel 14 and an anti-freezing valve channel 15, which are sequentially connected, wherein the air intake valve channel 11 is used for installing an air intake valve, the solenoid valve channel 14 is used for installing a solenoid valve, and the anti-freezing valve channel 15 is used for installing an anti-freezing valve.

In the embodiment, the air inlet valve channel 11, the water inlet and outlet channel 12, the electromagnetic valve channel 14 and the anti-freezing valve channel 15 are arranged on the connecting seat, and the corresponding valves are installed on the corresponding channels, so that the functions of all the valves are organically integrated on one connecting seat, and the integration of the functions is realized, so that the connecting seat connected with a plurality of different valves is more compact in structure and smaller, compared with the condition that all the valves and a main pipeline need to be arranged independently in the prior art, the arrangement of the scheme reduces the procedures of welding of an external pipeline and the like, and reduces the processing and assembling cost; the water inlet and outlet channel 12 and the electromagnetic valve channel 14 are communicated through the inclined channel 13, so that the space of the connecting seat is saved more organically, and the structure is more compact. By the arrangement, the air inlet valve of the air inlet valve channel 11 can discharge residual fluid in the water inlet and outlet channel 12 while the normal flow of the fluid in the water inlet and outlet channel 12 is not influenced, so that the situation that the residual fluid exists in the water inlet and outlet channel 12 is avoided; the solenoid valve of the solenoid valve channel 14 realizes the control of the connection or disconnection between the antifreezing valve channel 15 and the solenoid valve channel 14, and avoids the situation that the antifreezing valve at the position of the antifreezing valve channel 15 drains water all the time in the use process of the drainage valve group.

Specifically, the intake valve passage 11 is located above the water inlet and outlet passage 12, and the solenoid valve passage 14 and the antifreeze valve passage 15 are located below the water inlet and outlet passage 12. By the arrangement, the air inlet performance of the air inlet valve arranged in the air inlet valve channel 11 is improved, and the drainage efficiency of the drainage valve bank is improved.

As shown in fig. 1 and 2, the water inlet/outlet passage 12 is horizontally disposed, the air inlet valve passage 11 is vertically disposed, and the freeze valve passage 15 is vertically disposed. Due to the arrangement, the air inlet performance of the air inlet valve at the position of the air inlet valve channel 11 is further improved, the conveying capacity of residual fluid in the water inlet/outlet channel 12 is further improved, and the drainage efficiency of the drainage valve bank is improved. The antifreezing valve channel 15 is vertically arranged, so that fluid in the antifreezing valve at the position of the antifreezing valve channel 15 can flow out by the self weight, and the drainage performance of the antifreezing valve is improved.

As shown in fig. 2, the solenoid valve passage 14 is located between the water inlet/outlet passage 12 and the freeze valve passage 15, the solenoid valve passage 14 is horizontally disposed, and the inclined passage 13 is obliquely disposed with respect to the horizontal direction. In the embodiment, the electromagnetic valve channel 14 is located between the water inlet/outlet channel 12 and the freeze-proof valve channel 15, so that the space is better utilized, the structure of the drain valve group is more compact while the functions of all the valves in the drain valve group are not influenced, and the overall weight and height of the drain valve group are reduced. Moreover, the inclined channel 13 is inclined relative to the horizontal direction, which not only improves the fluidity of the fluid flowing into the solenoid valve channel 14 from the water inlet/outlet channel 12, but also saves the whole space of the connecting seat.

Specifically, the intake valve passage 11 and the antifreeze valve passage 15 are coaxially disposed, and the solenoid valve passage 14 is perpendicular to the water inlet and outlet passage 12. By the arrangement, the structure of the drainage valve bank is more compact, the processing difficulty is reduced, and the drainage efficiency of the drainage valve bank is further improved.

As shown in fig. 2, the inner wall of the intake valve passage 11 has a first annular groove 111, and the first annular groove 111 is used for placing a seal ring. By means of the arrangement, the sealing ring arranged at the position of the first annular groove 111 realizes sealing of the air inlet valve installed in the air inlet valve channel 11, and the air inlet valve channel 11 is prevented from still having a gap communicated with the outside after the air inlet valve is installed, so that the performance of the air inlet valve is prevented from being influenced.

Specifically, the inner wall of the solenoid valve passage 14 has a second annular groove 141, and the second annular groove 141 is used for placing a seal ring. With the arrangement, the sealing ring arranged at the position of the second annular groove 141 realizes the sealing of the electromagnetic valve installed in the electromagnetic valve channel 14, prevents the fluid flowing into the electromagnetic valve channel 14 from flowing out from the gap between the electromagnetic valve channel 14 and the electromagnetic valve through the water inlet and outlet channel 12, and ensures the performance of the water discharge valve group.

Further, the inner wall of the freeze valve passage 15 has a third annular groove 151, and the third annular groove 151 is used for placing a seal ring. By the arrangement, the sealing ring arranged at the position of the third annular groove 151 realizes sealing of the anti-freezing valve arranged in the anti-freezing valve channel 15, prevents the fluid flowing into the anti-freezing valve channel 15 from flowing out of a gap between the anti-freezing valve channel 15 and the anti-freezing valve from the electromagnetic valve channel 14, and ensures the performance of the drainage valve group.

As shown in fig. 1, the connecting seat comprises a connecting block 16, an air inlet valve joint 17, an anti-freezing valve joint 18 and two water inlet and outlet joints 19, wherein the air inlet valve joint 17 is arranged above the connecting block 16, the anti-freezing valve joint 18 is arranged below the connecting block 16, and the two water inlet and outlet joints 19 are respectively arranged at two opposite sides of the connecting block 16; wherein the air inlet valve channel 11 is positioned in an air inlet valve joint 17 and a connecting block 16, the water inlet and outlet channels 12 are positioned in two water inlet and outlet joints 19 and the connecting block 16, the inclined channel 13 and the electromagnetic valve channel 14 are positioned in the connecting block 16, and the anti-freezing valve channel 15 is positioned in an anti-freezing valve joint 18 and the connecting block 16. In this embodiment, the air inlet valve joint 17 is disposed above the connecting block 16, so that the air inlet valve in the air inlet valve joint 17 can quickly intake the antifreeze valve in the antifreeze valve joint 18, and the antifreeze valve in the antifreeze valve joint 18 can quickly drain water.

Specifically, the air inlet valve passage 11 has an internal thread, and the outer walls of the two water inlet and outlet connectors 19 are provided with external threads, and the connecting seats are of an integral structure. This arrangement facilitates the installation of the inlet valve, in particular the outer wall of the inlet valve having an external thread, the inlet valve being in threaded connection with the inlet valve passage 11. The outer walls of the two water inlet and outlet connectors 19 are provided with external threads, so that the water inlet and outlet connectors 19 are connected with an external main pipeline conveniently. And the connecting seat is of an integrated structure, so that the installation action of redundant pipelines and the like are omitted, and the centralized maintenance is facilitated.

Another embodiment not shown in the drawings of the present invention provides a valve assembly for draining, which comprises the above-mentioned connecting seat.

In this embodiment, the drainage valve group includes an air inlet valve, a main pipeline, an electromagnetic valve and an anti-freezing valve, each valve is correspondingly arranged in each valve channel, the water inlet and outlet channels 12 are communicated with the main pipeline, and by arranging the air inlet valve, residual fluid in the water inlet and outlet channels 12 is discharged while normal operation of the drainage valve group is not affected, so that the situation that residual fluid exists in the water inlet and outlet channels 12 is avoided; by arranging the electromagnetic valve, the connection or disconnection between the antifreezing valve channel 15 and the electromagnetic valve channel 14 is controlled, the condition that the antifreezing valve always drains water in the use process of the drainage valve bank is avoided, and the performance of the drainage valve bank is improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. The utility model provides a connecting seat, its characterized in that, the connecting seat is including the admission valve passageway (11), business turn over water passageway (12), inclined passage (13), solenoid valve passageway (14) and the freeze-proof valve passageway (15) that communicate in proper order, wherein, admission valve passageway (11) are used for installing the admission valve, solenoid valve passageway (14) are used for installing the solenoid valve, freeze-proof valve passageway (15) are used for installing the freeze-proof valve.

2. The connection socket according to claim 1, wherein the air inlet valve passage (11) is located above the water inlet and outlet passage (12), and the solenoid valve passage (14) and the frost valve passage (15) are located below the water inlet and outlet passage (12).

3. The connecting socket according to claim 2, wherein the water inlet and outlet passage (12) is horizontally arranged, the air inlet valve passage (11) is vertically arranged, and the frost valve passage (15) is vertically arranged.

4. The connecting socket according to claim 1 or 3, wherein the solenoid valve passage (14) is located between the water inlet and outlet passage (12) and the freeze valve passage (15), the solenoid valve passage (14) is horizontally disposed, and the inclined passage (13) is obliquely disposed with respect to the horizontal direction.

5. The connecting socket according to claim 3, wherein the air inlet valve passage (11) and the frost valve passage (15) are coaxially arranged, and the solenoid valve passage (14) is perpendicular to the water inlet and outlet passage (12).

6. The connecting socket according to claim 1, wherein the inner wall of the inlet valve channel (11) has a first annular groove (111), the first annular groove (111) being used for placing a sealing ring.

7. The connection receptacle according to claim 1, characterized in that the inner wall of the solenoid valve channel (14) has a second annular groove (141), the second annular groove (141) being intended to receive a sealing ring.

8. The connecting socket according to claim 1, wherein the inner wall of the freeze valve channel (15) has a third annular groove (151), the third annular groove (151) being used for placing a sealing ring.

9. The connector holder according to claim 2,

the connecting seat comprises a connecting block (16), an air inlet valve joint (17), an anti-freezing valve joint (18) and two water inlet and outlet joints (19), wherein the air inlet valve joint (17) is arranged above the connecting block (16), the anti-freezing valve joint (18) is arranged below the connecting block (16), and the two water inlet and outlet joints (19) are respectively arranged on two opposite sides of the connecting block (16);

wherein, admission valve passageway (11) is located admission valve connects (17) with in connecting block (16), business turn over water passageway (12) is located two business turn over water connects (19) with in connecting block (16), inclined passage (13) with solenoid valve passageway (14) is located in connecting block (16), freeze proof valve passageway (15) are located freeze proof valve connects (18) with in connecting block (16).

10. The connecting socket according to claim 9, wherein the air inlet valve passage (11) has an internal thread and the two water inlet and outlet fittings (19) have an external thread on the outer wall, and the connecting socket is of a unitary construction.

11. A discharge valve block, characterized in that the discharge valve block comprises the connection socket of any one of claims 1 to 10.

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