CN213897341U - Embedded part convenient to use - Google Patents

Abstract

The utility model relates to an embedded part convenient to use, including connector and three water route joint, the water route joint passes through connector body coupling setting. The three water path joints are composed of two water inlet joints and one water outlet joint, the two water inlet joints are respectively used for connecting cold and hot water inlets of the shower valve with a water flow pipeline in the wall body, and the water outlet joint is used for connecting a water outlet of the shower valve with the water flow pipeline in the wall body. The waterway connector is respectively arranged in a two-way connector or a three-way connector structure. At least one of the three waterway connectors is a three-way connector structure. The waterway connector of the three-way connector structure is additionally provided with one or two auxiliary partition plates, and the auxiliary partition plates are arranged in the waterway connector and close the water flow channel in the waterway connector. The utility model discloses a setting of supplementary baffle, the reducible shutoff to the water route joint's of three way connection structure the interface to promote the use convenience of built-in fitting and reduce its use cost.

Description

Embedded part convenient to use

Technical Field

The utility model relates to a bathroom product inserts device field of wall, concretely relates to built-in fitting convenient to use.

Background

With the development of society, more and more houses adopt to pack into the wall with the rivers pipeline and realize hiding the setting. And in current shower valve's setting, adopt interface cooperation such as the cold and hot water that is directed against the shower valve to advance water, go out water mostly and connect in the pre-buried of wall, the rethread connects like bent foot, and rivers pipe laying is troublesome and be difficult to fine and the shower valve interface is joined in marriage suitably, and then leads to the shower valve installation inconvenient, leads to the shower valve to install even and need pound the wall adjustment. And the bent foot joint occupies a large space, so that the space between the shower valve and the wall is large, the space of a toilet is occupied, the attractiveness of the toilet is influenced, and the like. And the installation process is complicated to adjust and inconvenient to install.

The inventor provides an embedded part for secretly installing a shower valve in the chinese utility model patent with patent number ZL201520823022.8, and it includes cold water joint and the hot water joint of connecting an organic whole through the connecting strip, still includes water connectors, and water connectors locates between cold water joint and the hot water joint, water connectors passes through the connecting strip is as an organic whole with cold water joint, hot water articulate respectively. The utility model discloses an embedded part is provided with out water connector, and convenient and muddy water of mixing the water valve body goes out the water end cooperation and is connected, if do not need this to connect, directly adopt the spiral shell head to seal can, adopt the utility model discloses an embedded part has made things convenient for user's installation and open installation to select, reduces to the broken probability of tearing open of wall body, and it is more convenient to use. However, in the application of the structure, when the water outlet joint, the cold water joint and the hot water joint have three-way joint structures, although the application range of the product is improved, the three-way joint needs to plug one of the joints by using a plug in the application, when large-scale installation is performed, a large amount of plug material cost and plug installation time need to be additionally increased, and the use is inconvenient and the application cost is high.

Disclosure of Invention

The utility model provides an embedded part convenient to use to solve above-mentioned problem.

The utility model adopts the following technical scheme:

the utility model provides an embedded part convenient to use, includes connector and three water route joint, and the water route joint passes through connector body coupling setting. The three water path joints are composed of two water inlet joints and one water outlet joint, the two water inlet joints are respectively used for connecting cold and hot water inlets of the shower valve with a water flow pipeline in the wall body, and the water outlet joint is used for connecting a water outlet of the shower valve with the water flow pipeline in the wall body. The waterway connector is respectively arranged in a two-way connector or a three-way connector structure. At least one of the three waterway connectors is a three-way connector structure, the waterway connector of the three-way connector structure is provided with three interfaces, and the three interfaces are composed of a first interface, a second interface and a third interface. The first connector is connected with a cold and hot water inlet or a water outlet of the shower valve. The waterway connector of the three-way connector structure is additionally provided with one or two auxiliary partition plates, and the auxiliary partition plates are arranged in the waterway connector and close the water flow channel in the waterway connector. When one auxiliary partition board is arranged, the auxiliary partition board is arranged close to the second interface or the third interface, and the auxiliary partition board seals a water flow channel from the first interface to the second interface or from the first interface to the third interface in the water path joint. When the number of the auxiliary partition plates is two, the two auxiliary partition plates are respectively arranged close to the second connector and the third connector, and the two auxiliary partition plates respectively seal water flow channels between the first connector and the second connector and between the first connector and the third connector in the water path joint.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages:

first, among the current house ornamentation, the rivers pipeline has the mode of setting up of arranging along ceiling or floor, and the water heater also has different positions that set up, and the rivers pipeline has various setting environment, sets up the demand promptly, and when having additional setting demands such as top shower, still must refer to the setting requirement of different additional setting structures in addition again. And the waterway connector of the three-way joint structure can ensure that an installer of the embedded part can select the second interface or the third interface according to the requirement of a water flow pipeline when the embedded part is installed, and only needs to plug the residual interfaces in a plugging mode such as a plugging mode, so that the applicability of the embedded part is greatly improved.

And secondly, the utility model discloses a setting of supplementary baffle can reduce the shutoff to the water route joint's of three way connection structure the interface to very big degree to promote the convenience in use of built-in fitting and reduce its use cost.

Specifically, when the waterway connector of the three-way joint structure is provided with the auxiliary partition plate, the embedded part of the corresponding structure can be selected according to actual needs, and the workload is reduced as much as possible. But the auxiliary partition can be broken when necessary to preserve the applicability of the embedment.

And when three way connection structure's water route joint set up two auxiliary partition boards, installer only need break two auxiliary partition board alternatives as required, compare in blocking second interface or third interface through the end cap, and the mode such as drilling or melting is run in reverse destroys auxiliary partition board, and work load and cost are obviously littleer.

Secondly, the utility model discloses an auxiliary baffle sets up low cost. Moreover, when the three water path connectors have the two-way connector structure and the three-way connector structure at the same time, due to the difference in the number, the position, the direction of the connectors and the like of the two-way connector structure, the embedded part producer and the seller may face a series of products with a particularly large number of structures, and in the production and sales process, more costs for goods management, packaging, inventory and the like are brought due to the excessive product types. The utility model discloses can cooperate like the scheme of two supplementary baffles through the three way connection structure of more quantity, reduce required product model through promoting single product suitability, and then reduce producer, seller's cost.

Further:

the opening orientations of the second interface and the third interface are arranged in a way of deviating from each other, and the opening orientations of the second interface and the third interface are both perpendicular to the opening orientation of the first interface.

The connecting body and the waterway connector are arranged in an injection molding and integral forming mode. The three water way joints are arranged in parallel along a straight line.

The connector is attached with a reinforcing rib which is arranged between the waterway connectors in a honeycomb structure. The honeycomb-shaped structure of the reinforcing rib is provided with openings which face the direction vertical to the arrangement direction of the waterway connectors.

Each waterway connector is internally provided with a connecting part which is an internal thread connecting part made of metal and is connected with the waterway connector in an injection molding manner.

At least one level bubble is attached to the connecting body and is arranged on the outer surface of the connecting body and/or the waterway connector.

The level bubble can be arranged in the following two ways:

the level bubble is provided with two, and two level bubbles set firmly in two surfaces that deviate from each other of above-mentioned connector. The two level bubbles are respectively arranged on two surfaces of the connecting body facing the opening of the second interface and the opening of the third interface upwards.

The level bubble is equipped with one, and the level bubble is cylindrical long level bubble, and the level bubble extends the setting along three above-mentioned water route joint direction of arranging. The two surfaces of the connecting body facing the second interface and the opening of the third interface upwards are respectively provided with an accommodating groove. The level bubble is arranged in one of the two accommodating grooves.

As can be seen from the above description of the structure of the further aspect of the present invention, compared with the prior art, the present invention has the following advantages:

first, the utility model discloses a setting of air level, when the built-in fitting installation, can directly adjust the built-in fitting with the help of the air level and be located the horizontal direction installation angle to make the built-in fitting reach the horizontal degree that needs, further promote product convenience in use. And the connector all sets up the air level or all sets up the structure that the air level was settled to the holding tank towards two ascending surfaces of second interface, third interface opening orientation, can be when the built-in fitting installation, no matter which orientation of above-mentioned two surfaces all can use the air level on this surface, promotes the convenience in use of product promptly further.

Second, the utility model discloses a structural strength of whole built-in fitting has been strengthened in the setting of strengthening rib, in the built-in fitting pre-buried back, in the face of like during the circumstances such as cement shrink, expend with heat and contract with cold, help promoting the whole compressive capacity of built-in fitting, and then can ensure the relative position between the water route joint, avoid leading to above-mentioned relative position to change owing to pre-buried main part deformation, and cause the unable installation of shower valve. The change of the relative position is mainly the change of the distance between the water path joints, and the reinforcing ribs of the honeycomb structure with the opening facing can pertinently strengthen the strength in the direction of the distance. When the embedded part is arranged by adopting an injection molding and integral forming structure, the reinforcing rib structure is convenient for demoulding during the production of the embedded part, is beneficial to saving the production material of the embedded part, can realize the weight reduction of the embedded part and the like. And when the embedded part is arranged by adopting an injection molding integrated forming structure, particularly a PPR integrated forming structure, the production precision of the embedded part can be better controlled, and the precision control of the distance between the water way joints is particularly facilitated.

Thirdly, the utility model discloses an embedded part inserts the shower valve through the rivers pipeline of two water connectors with the hot and cold water in the wall, and when there is additional setting demands such as top gondola water faucet, can also insert the rivers pipeline in the wall through water connector with the play water of shower valve, has reduced exposing of top gondola water faucet supply channel, and then makes setting up of top gondola water faucet more pleasing to the eye occupation of this top gondola water faucet supply channel to bathroom space of also having avoided. And in this kind of structure, only the pipeline in the wall, and the valve body of mixing and switch rivers all outside the wall, and structural stability in the wall is higher promptly, is difficult to seepage, damage etc. and the at utmost has weighed down and has hidden pipeline demand and later maintenance convenience demand. When the embedded part meets the use requirement of the top shower head without a hidden pipeline, the water outlet joint can be directly abandoned, the embedded part is used as a water inlet pipeline embedded part only used for supplying water for the shower valve, and the product applicability is higher.

Drawings

Fig. 1 is a schematic structural diagram of an embedded part according to the first embodiment of the present invention.

Fig. 2 is a schematic cross-sectional view of an embedded part of the present invention along the direction a-a in fig. 1 according to the first embodiment.

Fig. 3 is a schematic structural diagram of an embedded part according to the present invention in the second embodiment.

Fig. 4 is a schematic cross-sectional view of an embedded part of the present invention along the direction B-B in fig. 1 according to the second embodiment.

Fig. 5 is a schematic structural diagram of an embedded part according to the present invention in the third embodiment.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

The first embodiment is as follows:

referring to fig. 1, an embedded part convenient to use includes a connector 1 and three water path joints 2, and the water path joints 2 are integrally connected and arranged through the connector 1. The three water path joints 2 are arranged in parallel along a straight line. The three water path joints 2 are composed of two water inlet joints and one water outlet joint, the two water inlet joints are respectively used for connecting cold and hot water inlets of the shower valve with a water flow pipeline in the wall body, and the water outlet joint is used for connecting a water outlet of the shower valve with the water flow pipeline in the wall body. The water inlet connector and the water outlet connector are different only in the difference of the water inlet or the water outlet of the shower valve connected to the water inlet connector and the water outlet connector, and the water inlet connector and the water outlet connector are not different structurally, so that the specific reference to the water inlet connector and the water outlet connector is only relative to the shower valve connected to the water inlet connector and the water outlet connector when the embedded part is applied, and the specific reference is only to explain the position where the water way connector 2 is arranged and the pipeline communicated with.

With continued reference to fig. 1, the waterway connector 2 is a two-way connector or a three-way connector respectively. At least one of the three waterway connectors 2 is a three-way joint structure, the waterway connector 2 of the three-way joint structure is provided with three interfaces, and the three interfaces are composed of a first interface 201, a second interface 202 and a third interface 203. The opening directions of the second port 202 and the third port 203 are set to be away from each other, and the opening directions of the second port 202 and the third port 203 are both set to be perpendicular to the opening direction of the first port 201. In this embodiment, three water connectors 2 are used as two-way connector structures and one three-way connector structure for description, the directions of the connectors of the two-way connector structures of the water connectors 2 may be the same or opposite, and the positions of the three-way connector structures may be on both sides or between the two-way connector structures. As shown in fig. 1, the waterway connector 2 of the three-way joint structure is located between the waterway connectors 2 of the two-way joint structures, and the interface orientation of the waterway connector 2 of the two-way joint structures is the same as the orientation of the second interface 202, but otherwise, the structure may be modified adaptively.

Referring to fig. 1 and 2, the first connector 201 is connected to a hot and cold water inlet or outlet of the shower valve. The waterway connector 2 of the three-way joint structure is additionally provided with one or two auxiliary partition plates 21, and the auxiliary partition plates 21 are arranged in the waterway connector 2 and close the water flow channel in the waterway connector 2. The present embodiment is described by using one auxiliary partition 21 as described above, and the structure in which two auxiliary partitions 21 are provided can be referred to embodiment 2. An auxiliary partition 21 is disposed adjacent to the second port 202 or the third port 203, and the auxiliary partition 21 closes a water flow passage from the first port 201 to the second port 202 or from the first port 201 to the third port 203 in the water passage connector 2. Specifically, an auxiliary partition 21 is disposed adjacent to the second port 202, and the auxiliary partition 21 closes a water flow passage from the first port 201 to the second port 202 in the water pipe connector 2.

With continued reference to fig. 1 and 2, the connector 1 and the waterway connector 2PPR are integrally formed by injection molding. The connection of the waterway connector 2 and the water flow pipeline can adopt common PPR hot melting connection. The connecting body 1 is provided with a reinforcing rib 11, and the reinforcing rib 11 is arranged between the waterway connectors 2 in a honeycomb structure. The honeycomb structure of the reinforcing ribs 11 has openings arranged in a direction perpendicular to the arrangement direction of the waterway connector 2. Specifically, the reinforcing ribs 11 may be disposed on two surfaces of the connecting body 1 facing the opening of the second connector 202 and the third connector 203, and the honeycomb structure openings in the two surfaces are disposed away from each other. A connecting part 12 is attached to the interface of each waterway connector 2 for connecting with the cold and hot water inlet or outlet of the shower valve, the connecting part 12 is a metal female screw connecting part 12, and the connecting part 12 and the waterway connector 2 are integrally connected by injection molding. And the connection between the connection part 12 and the shower valve can be realized by a structure such as a reducing external thread joint.

With continued reference to fig. 1 and 2, two vials 13 are attached to the connecting body 1, and the vials 13 are provided on the outer surface of the connecting body 1. Two level vials 13 are fixed to two surfaces of the connector 1 that face away from each other. The two leveling vials 13 are provided on both surfaces of the connecting body 1 facing the second port 202 and the third port 203, which are open upward, that is, on the surface of the connecting body 1 where the reinforcing rib 11 is provided. The level bubble 13 is a cylindrical long level bubble 13, and the level bubble 13 extends along the arrangement direction of the three waterway connectors 2. The level bubble 13 is fixed on the surface of the connector 1 by gluing, injection molding, bonding, clamping and the like. Specifically, the level bubble 13 is disposed in the middle of the connector 1, that is, the waterway connector 2 of the three-way joint structure is located outside the circumferential edge where the first connector 201 extends. The vials 13 are conventional products and therefore the interior of the vials 13 is not shown in cross-section in fig. 2.

Example two:

referring to fig. 3, an embedded part convenient to use includes a connector 1 and three water path joints 2, and the water path joints 2 are integrally connected and arranged through the connector 1. The three water path joints 2 are arranged in parallel along a straight line. The three water path joints 2 are composed of two water inlet joints and one water outlet joint, the two water inlet joints are respectively used for connecting cold and hot water inlets of the shower valve with a water flow pipeline in the wall body, and the water outlet joint is used for connecting a water outlet of the shower valve with the water flow pipeline in the wall body. The water inlet connector and the water outlet connector are different only in the difference of the water inlet or the water outlet of the shower valve connected to the water inlet connector and the water outlet connector, and the water inlet connector and the water outlet connector are not different structurally, so that the specific reference to the water inlet connector and the water outlet connector is only relative to the shower valve connected to the water inlet connector and the water outlet connector when the embedded part is applied, and the specific reference is only to explain the position where the water way connector 2 is arranged and the pipeline communicated with the water way connector.

With continued reference to fig. 3, the waterway connector 2 is a two-way connector or a three-way connector respectively. At least one of the three waterway connectors 2 is a three-way joint structure, the waterway connector 2 of the three-way joint structure is provided with three interfaces, and the three interfaces are composed of a first interface 201, a second interface 202 and a third interface 203. The opening directions of the second port 202 and the third port 203 are set to be away from each other, and the opening directions of the second port 202 and the third port 203 are both set to be perpendicular to the opening direction of the first port 201. In this embodiment, three water path joints 2 are described as a two-way joint structure and two three-way joint structures, and the two-way joint structures may be located on two sides or between two three-way joint structures. As shown in fig. 3, the waterway connector 2 of the two-way joint structure is located between the waterway connectors 2 of the two-way joint structure, and the other cases described above may be adapted with reference to the structure.

Referring to fig. 3 and 4, the two first connectors 201 of the waterway connector 2 of the two three-way connector structures are respectively connected with the cold and hot water inlet or the water outlet of the shower valve. The waterway connector 2 of the three-way joint structure is additionally provided with one or two auxiliary partition plates 21, and the auxiliary partition plates 21 are arranged in the waterway connector 2 and close the water flow channel in the waterway connector 2. In this embodiment, the water path joint 2 of the three-way joint structure at the position of the section line B-B is provided with two auxiliary partition plates 21, one or two auxiliary partition plates 21 of the water path joint 2 of another three-way joint structure may be provided, and the structure in which one auxiliary partition plate 21 is provided may refer to embodiment 1. The two auxiliary partition plates 21 are respectively arranged adjacent to the second port 202 and the third port 203, and the two auxiliary partition plates 21 respectively close water flow channels between the first port 201 and the second port 202 and between the first port 201 and the third port 203 in the water path joint 2. When the waterway connector 2 with the structure is used, one auxiliary partition plate 21 can be broken through by using an electric heating iron, an electric drill and the like.

With continued reference to fig. 3 and 4, the connector 1 and the waterway connector 2PPR are integrally formed by injection molding. The connection of the waterway connector 2 and the water flow pipeline can adopt common PPR hot melting connection. The connecting body 1 is provided with a reinforcing rib 11, and the reinforcing rib 11 is arranged between the waterway connectors 2 in a honeycomb structure. The honeycomb structure of the reinforcing ribs 11 has openings arranged in a direction perpendicular to the arrangement direction of the waterway connector 2. Specifically, the reinforcing ribs 11 may be disposed on two surfaces of the connecting body 1 facing the opening of the second connector 202 and the third connector 203, and the honeycomb structure openings in the two surfaces are disposed away from each other. A connecting part 12 is attached to the interface of each waterway connector 2 for connecting with the cold and hot water inlet or outlet of the shower valve, the connecting part 12 is a metal female screw connecting part 12, and the connecting part 12 and the waterway connector 2 are integrally connected by injection molding. And the connection between the connection part 12 and the shower valve can be realized by a structure such as a reducing external thread joint.

With continued reference to fig. 3 and 4, a vial 13 is attached to the connecting body 1, and the vial 13 is disposed on an outer surface of the connecting body 1. One vial 13 may be provided on a side surface of the connecting body 1 facing upward from the opening of the first port 201. The method can also be realized by the following steps: the connecting body 1 is provided with a receiving groove 131 at the middle of each of two surfaces facing the opening of the second port 202 and the third port 203, and the vial 13 is placed in the receiving groove 131 of the two receiving grooves 131 which is located on the top surface of the embedment when the embedment is installed. The length direction of the receiving groove 131 extends along the arrangement direction of the three waterway connectors 2. Vial 13 is a cylindrical long vial 13.

Example three:

referring to fig. 5, the present embodiment differs from the second embodiment only in that:

first, the waterway connector 2 of this embodiment is a three-way connector structure. The auxiliary partition 21 of the waterway connector 2 of the three-way connector structure can be provided with one or two with reference to the first embodiment and the second embodiment.

Second, only one receiving groove 131 is provided in the present embodiment, and the receiving groove 131 in the present embodiment is an arbitrary one of the receiving grooves 131 in the second embodiment.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (8)

1. A convenient embedded part comprises a connecting body and three waterway connectors, wherein the waterway connectors are integrally connected through the connecting body; the three water path joints are composed of two water inlet joints and one water outlet joint, the two water inlet joints are respectively used for connecting cold and hot water inlets of the shower valve with a water flow pipeline in the wall body, and the water outlet joint is used for connecting a water outlet of the shower valve with the water flow pipeline in the wall body; the waterway connector is respectively arranged in a two-way connector or a three-way connector structure; the method is characterized in that: at least one of the three waterway connectors is a three-way connector structure, the waterway connector of the three-way connector structure is provided with three interfaces, and the three interfaces are composed of a first interface, a second interface and a third interface; the first connector is connected with a cold and hot water inlet or a cold and hot water outlet of the shower valve; the waterway connector of the three-way connector structure is additionally provided with one or two auxiliary partition plates, and the auxiliary partition plates are arranged in the waterway connector and close the water flow channel in the waterway connector; when one auxiliary partition plate is arranged, the auxiliary partition plate is arranged close to the second interface or the third interface, and the auxiliary partition plate seals a water flow channel from the first interface to the second interface or from the first interface to the third interface in the water path joint; when the number of the auxiliary partition plates is two, the two auxiliary partition plates are respectively arranged close to the second connector and the third connector, and the two auxiliary partition plates respectively seal water flow channels between the first connector and the second connector and between the first connector and the third connector in the water path joint.

2. The embedment of claim 1, wherein: the opening orientations of the second interface and the third interface are arranged in a mode of deviating from each other, and the opening orientations of the second interface and the third interface are both perpendicular to the opening orientation of the first interface.

3. The embedment of claim 1, wherein: the connecting body and the waterway connector are arranged in an injection molding and integral forming way; the three water way joints are arranged in parallel along a straight line.

4. A ready-to-use embedment according to claim 3, wherein: the connector is additionally provided with reinforcing ribs which are arranged between the waterway connectors in a honeycomb structure; the openings of the honeycomb structures of the reinforcing ribs are arranged in the direction perpendicular to the arrangement direction of the waterway connectors.

5. A ready-to-use embedment according to claim 3, wherein: each waterway connector is used for being connected with a cold and hot water inlet or a water outlet of the shower valve, a connecting part is additionally arranged in a connector, the connecting part is an internal thread connecting part made of metal materials, and the connecting part and the waterway connector are integrally connected in an injection molding mode.

6. A ready-to-use embedment according to claim 3, wherein: at least one level bubble is additionally arranged on the connecting body and is arranged on the outer surface of the connecting body and/or the waterway connector.

7. The embedment of claim 6, wherein: the two leveling bubbles are fixedly arranged on two surfaces of the connecting body, which are deviated from each other; the two leveling bubbles are respectively arranged on two surfaces of the connecting body facing the second interface and the third interface and the opening of the connecting body faces upwards.

8. The embedment of claim 6, wherein: the leveling bubble is a cylindrical long leveling bubble, and the leveling bubble extends along the arrangement direction of the three waterway connectors; two surfaces of the connecting body facing the second interface and the third interface and facing upwards are respectively provided with an accommodating groove; the level bubble is arranged in one of the two accommodating grooves.

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