CN218935476U - Support structure and faucet structure - Google Patents

Abstract

The utility model provides a support structure which comprises a support platform, wherein a bearing groove is formed in the upper side of the support platform, a positioning groove is formed in the peripheral side of the support platform, and a supporting groove is formed in the lower side of the support platform; based on the setting of the bracket structure, the positioning and the attachment of the tissue pipeline and the valve component between the water inlet end and the heating part can be effectively formed in the faucet structure applying the bracket structure, and meanwhile, the effective tissue layout of the structure is realized, and the volume control requirement of the faucet structure is met.

Description

Support structure and faucet structure

Technical Field

The utility model relates to the technical field of faucet structure application, in particular to a bracket structure and a faucet structure.

Background

In the prior art, in order to realize the instant heating function of the faucet structure, a heating structure is arranged in the faucet in a selective way, so that the water flow passing through the faucet can realize heat exchange and heating application; in order to ensure the heating efficiency of the hot water, the heating structure needs to be set to have larger output power, and when the heating structure starts to heat, the larger output power can lead to heat emission, so that the surface temperature of the faucet structure is increased; when touched by a user, or is susceptible to scalding.

In the prior art, in order to achieve coexistence of the hot water output function and the cold water output function of the faucet structure, a valve assembly is required to be arranged in the faucet structure for switching application requirements of waterways of the faucet structure. However, based on the addition of the valve assembly, the faucet structure in the prior art has the technical defect of complex structural design because of the condition of increased volume or the need of organizing waterways connected with the valve assembly.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a bracket structure and a tap structure.

The support structure comprises a support platform, wherein a bearing groove is formed in the upper side of the support platform, a positioning groove is formed in the outer peripheral side of the support platform, and a supporting groove is formed in the lower side of the support platform.

Further, a supporting part is vertically arranged on the upper side of the bracket platform; the upper end of the supporting part is provided with a supporting installation hole.

Further, the support parts are provided with at least two, each support part is arranged at the peripheral edge position of the upper side of the support platform, an upper mounting piece is arranged in the arrangement space of each support part on the upper side of the support platform, and the bearing groove is arranged on the upper mounting piece; the groove opening of the bearing groove is arranged towards the upper side.

Further, the positioning groove comprises a first groove and a second groove, the first groove is formed by concave on the support platform, the outer peripheral side of the support platform is provided with a positioning piece in a horizontal direction in an extending mode, and the second groove is formed in the positioning piece.

Further, a relief concave position concavely arranged is formed between the first groove and the second groove on the outer peripheral side of the bracket platform; the support part is arranged between the relief concave position and the first groove; the support groove is arranged between the first groove and the second groove.

Further, the upper side of the bracket platform is provided with a positioning wall extending vertically upwards along the peripheral edge position of the bracket platform.

Further, a lower mounting piece is arranged on the lower side of the support platform, the support groove is formed in the lower mounting piece, and a groove opening of the support groove is arranged towards the horizontal direction; the upper part of the lower mounting piece is provided with a connecting mounting hole, and the opening of the connecting mounting hole is arranged towards the horizontal direction; the direction of the opening of the connecting mounting hole is perpendicular to the direction of the slot opening of the supporting groove.

The faucet structure comprises a base shell, wherein a water inlet end and a water outlet end are arranged on the base shell, a heating part is arranged between the water inlet end and the water outlet end in the base shell, and the heating part is communicated with the water outlet end to form a waterway; the water inlet end is provided with a water inlet end, the heating part is connected with the water inlet end through a water channel, the water inlet end is connected with the water inlet end through a water channel, and the water inlet end is connected with the water inlet end through the water channel.

Further, the base shell comprises a base section which is arranged in a surrounding manner, a temperature control section which is arranged in a surrounding manner is positioned and connected in the base section, and a flowing space for flowing water supply flow is formed between the peripheral side wall of the temperature control section and the inner wall of the base section; the tissue pipeline comprises a first pipeline and a second pipeline, and the water inlet end, the first pipeline, the flowing space and the second pipeline are communicated with the heating part to form a waterway.

Further, a valve assembly is also included, the valve assembly being mounted in the support recess; the tissue pipeline is arranged in the positioning groove and/or the bearing groove; the valve component is communicated with the water channel formed between the tissue pipelines, and the water inlet end, the valve component, the water channel communicated between the tissue pipelines and the heating part are communicated with each other to form a water channel

The utility model has the beneficial effects that:

based on the setting of the bracket structure, the positioning and the attachment of the tissue pipeline and the valve component between the water inlet end and the heating part can be effectively formed in the faucet structure applying the bracket structure, and meanwhile, the effective tissue layout of the structure is realized, and the volume control requirement of the faucet structure is met.

The faucet structure is based on the combined application of the base section and the temperature control Duan Jiegou, so that a flowing space arranged on the inner wall side of the base section is formed between the water inlet end and the water outlet end of the faucet, when the faucet is used for hot water, unheated cold water can flow into the flowing space, a cooling layer consisting of flowing cold water is formed on the base shell, and the possibility of scalding during heating is avoided; under the setting of the support structure, the structure can effectively organize the multi-end pipelines, and ensure the stable installation of the internal components of the faucet structure.

Drawings

FIG. 1 is a schematic view of a faucet assembly arrangement according to the present utility model;

FIG. 2 is a partial schematic view of FIG. 1;

FIG. 3 is a schematic view of the mounting application of the bracket structure of the present utility model;

FIG. 4 is a first schematic view of the stent structure of the present utility model;

fig. 5 is a second schematic view of the stent structure of the present utility model.

Reference numerals illustrate:

a base shell 1, a water inlet end 101, a water outlet end 102, a base section 11, a platform section 12, a control panel 121, a tissue pipeline 13, a first pipeline 131, a second pipeline 132,

A temperature control section 2, a first through hole 21, a second through hole 22,

A flow space 3, a heating part 4, a heating substrate 40, a heat conduction water pipe 41, a heating element 42,

The support structure 5, the support platform 50, the positioning wall 500, the bearing groove 51, the upper mounting piece 511, the first groove 521, the second groove 522, the positioning piece 523, the relief recess 524, the support groove 53, the lower mounting piece 531, the relief recess 5311, the connection mounting hole 532, the support portion 54, the support mounting hole 541, the temperature sensor 56, the valve assembly 6, the mounting connection hole 60, the valve water inlet 61, and the valve water outlet 62.

Detailed Description

In order to make the technical scheme, the purpose and the advantages of the utility model more clear, the utility model is further explained below with reference to the drawings and the embodiments.

As shown in fig. 1 to 5, the application principle of the faucet structure cooling application mode of the present utility model is as follows: when the tap structure outputs hot water flow, the cold water flow is enabled to flow in a fitting way on the inner wall of the base shell 1 of the tap structure, and a temperature control layer formed by the cold water flow is formed on the inner wall of the base shell 1.

The cooling application mode is set based on a faucet structure, the faucet structure comprises a base shell 1, a water inlet end 101 and a water outlet end 102 are arranged on the base shell 1, a heating part 4 is arranged in the base shell 1, and a communicating flow channel is formed among the water inlet end 101, the heating part 4 and the water outlet end 102; in the process of flowing the water flow from the water inlet end 101 to the heating part 4, the water flow is arranged around and close to the inner wall of the base shell 1, so that a temperature control layer formed by the water flow is formed on the inner wall of the base shell 1.

Example 1:

specifically, the faucet structure is set as follows: the whole base shell 1 is arranged along the vertical direction, the base shell 1 comprises a base body section 11 which is arranged at the lower part in a surrounding manner, and a platform section 12 is arranged at the upper end of the base body section 11 in an extending manner along the horizontal direction; the base body section 11 is arranged in a cylindrical shape along the vertical direction, the lower end of the base body section 11 is provided with the water inlet end 101, and the lower side of one end of the platform section 12 far away from the base body section 11 is provided with the water outlet end 102; the heating part 4 is arranged at the upper section of the basal body section 11.

The temperature control section 2 is arranged in a surrounding manner in a positioning manner in the base body section 11, the temperature control section 2 is arranged in a cylindrical manner along the vertical direction, the temperature control section 2 is arranged coaxially with the shell, a flowing space 3 for flowing water supply flow is formed between the outer peripheral side wall of the temperature control section 2 and the inner wall of the base body section 11, and the flowing space 3 is integrally matched with the base body section 11 and is likewise arranged in a cylindrical manner.

The water inlet end 101, the flow space 3, the heating part 4 and the water outlet end 102 form a communicating flow passage, and the temperature control layer is formed in the flow space 3 during the flowing process of water flow.

As a preferred embodiment, the two ends of the side wall of the temperature control section 2 are provided with a first through hole 21 and a second through hole 22, the first through hole 21 and the second through hole 22 are located at the lower part of the side wall of the temperature control section 2, and the height of the second through hole 22 is lower than that of the first through hole 21. The water inlet end 101, the inner side of one end temperature control section 2, the first through hole 21, the flowing space 3 and the second through hole 22 are communicated with the inner side of the other end temperature control section 2 in a waterway manner to form a temperature control flow passage.

The external cold water flows from the temperature control flow passage, forms a temperature control layer extending towards the upper side in the flow space 3 along the extending direction of the inner wall of the base shell 1, and then is input into the temperature control section 2 positioned at the lower part of the base shell 1, and is input into the heating part 4 towards the upper side for heating; the temperature control layer is integrally arranged in the base shell 1 from the water inlet end 101 to the heating part 4 in a range; the water source is guided out from the water outlet end 102 after being heated by the heating part 4. The inner side of the lower part of the base body section 11 is provided with a tissue pipeline 13, the tissue pipeline 13 comprises a first pipeline 131 for leading water source from the water inlet end 101 to the position of the first through hole 21 and conveying the water source into the flowing space 3, and a second pipeline 132 for leading water source output from the position of the second through hole 22 and conveying the water source into the heating part 3, and the flow channel tissue requirement of the temperature control flow channel is met based on the arrangement of the tissue pipeline 13.

Example 2:

in order to meet the requirement of the tap structure that the output application of the normal-temperature water source is considered besides the output of the heating water source, in the embodiment, a valve assembly 6 is further arranged in the tap structure, and the valve assembly 6 can be arranged based on the electromagnetic valve structure in the prior art.

Specifically, the application principle is as follows:

the water inlet end 101 is provided with a first water inlet end and a second water inlet end respectively, the first pipeline 131 is communicated with the first water inlet end, the valve water inlet 61 of the valve assembly 6 is communicated with the second water inlet end, and the valve water outlet 62 of the valve assembly 6 is communicated with the second pipeline 132.

In the process of preparing hot water, a first water inlet end of the faucet structure is opened, an external normal-temperature water source is input from the first water inlet end, a first pipeline 131 passes through a first through hole 21, a flowing space 3, a second through hole 22 and a second pipeline 132 to the position of the heating part 4, the heating part 4 is in a heating state, and after the normal-temperature water source is heated by the heating part 4, the hot water is led out to the position of the water outlet end 102; at this time, the valve assembly 6 is closed.

In the process of producing water at normal temperature, the second water inlet end of the faucet structure is opened, an external normal temperature water source is input from the second water inlet end, guided into the second pipeline 132 by the valve assembly 6, and output to the position of the heating part 4 through the second pipeline 132, the heating part 4 is in a non-heating state, and the normal temperature water source is guided by a waterway of the heating part 4 to be led out to the position of the water outlet end 102; at this time, the first water inlet end is closed.

For temperature detection of the water supply to the heating portion 4, a temperature sensor 56 is optionally provided in the faucet structure at a position between the second pipe 132 and the heating portion 4.

As a preferred embodiment, the present utility model provides a stent structure 5 application for the purpose of stabilizing the installation of the tissue tract 13 and the heating part 4 in the base housing 1.

The support structure 5 comprises a support platform 50 arranged along the horizontal direction, and a positioning wall 500 extends upwards vertically along the peripheral edge of the upper side of the support platform 50; the support platform 50 upside is provided with the bearing recess 51, support platform 50 periphery side is provided with the positioning groove, support platform 50 downside is provided with the support recess 53.

At least two supporting parts 54 are vertically arranged at the peripheral edge position of the upper side of the bracket platform 50, a supporting installation hole 541 is arranged at the upper end of each supporting part 54, an upper installation piece 511 is arranged in the arrangement space of each supporting part 54 at the upper side of the bracket platform 50, and the bearing groove 51 is arranged on the upper installation piece 511; the groove opening of the support groove 51 is disposed toward the upper side.

The positioning groove comprises a first groove 521 and a second groove 522, wherein the first groove 521 is formed on the positioning wall 500 by being recessed, so that a groove opening of the first groove 521 is arranged along a horizontal direction; the positioning wall 500 has a positioning member 523 extending in a horizontal direction on an outer peripheral side thereof, and the second groove 522 is provided on the positioning member 523. The slot opening of the second recess 522 is oriented in a horizontal direction.

The bracket platform 50 has a relief recess 524 formed between the first recess 521 and the second recess 522 on the outer peripheral side of the positioning wall 500; the supporting portion 54 is disposed between the relief recess 524 and the first groove 521.

The lower side of the bracket platform 50 is provided with a lower mounting piece 531, the supporting groove 53 is arranged on the lower mounting piece 531, and the supporting groove 531 is arranged between the first groove 521 and the second groove 522; the groove opening of the supporting groove 53 is arranged toward the horizontal direction; a connection mounting hole 532 is formed at the upper part of the lower mounting member 531, and an opening of the connection mounting hole 532 is disposed toward the horizontal direction; the opening direction of the connection mounting hole 532 is perpendicular to the groove opening direction of the support groove 53.

The lower mounting piece 531 is provided with a recess 5311 corresponding to the first recess 521.

The heating part 4 comprises a heating substrate 40, and a heat-conducting water pipe 41 made of a heat-conducting material, preferably a heat-conducting metal or a heat-conducting ceramic, is arranged on the heating substrate 40; a heating element 42 is provided on the heating substrate 40 on the outer peripheral side of the heat conductive pipe 41; in the positioning arrangement of the heating substrate 40, one end of the heat-conducting water pipe 41 is communicated with the water inlet end 101 through the second pipeline 132, the flow space 3 and the first pipeline 131, and the other end is communicated with the water outlet end 102.

In the application of the support structure 5, the support groove 51 supports the second pipeline 132 and forms a direct support for the installation position of the temperature sensor 56 in the second pipeline 132, so that the influence of the contact position of the temperature sensor 56 in the second pipeline 132 caused by deformation of the pipeline bearing force is avoided, and the detection deviation is caused. Simultaneously, the second groove 522 in the bracket structure 5 clamps and positions the vertically extending second pipeline 132 section; the second pipe 132 is integrally formed in a stable mounting connection with the bracket structure 5.

In the application of the support structure 5, the support groove 53 effectively supports and positions the whole valve assembly 6, and the mounting hole 60 of the valve assembly 6 is matched with the connecting mounting hole 532 through the connecting mounting hole 532 arranged on the lower mounting piece 531, and then the valve assembly 6 is locked and positioned through the screw in a screwed mode. The relief recess 524 in the bracket structure 5 forms relief for the connection position between the valve assembly 6 and the second pipeline 132, so that the pipeline arrangement situation between the valve assembly 6 and the second pipeline 132 is more concentrated and compact; the valve assembly 6 as a whole is in stable mounting connection with the support structure 5.

In the application of the bracket structure 5, the first groove 521 limits the connection position of the temperature control section 2 and the first pipeline 131, and meanwhile, the lower mounting piece 531 enables the first pipeline 131 to be arranged in the base section 11 more intensively and tightly by avoiding the arrangement of the concave 5311; and a stable installation connection relationship is formed among the first pipeline 131, the temperature control section 2 and the bracket structure 5.

Two sets of support parts 54 are provided, one set of support parts 54 is provided on one side of the support platform 50 and located between the relief recess 524 and the first recess 521, and the other set of support parts 54 is provided on the other side of the support platform 50; the heating substrate 40 is provided with attachment holes corresponding to the support portions 54, so that the support mounting holes 541 on the upper side of the support portions 54 of the valve assembly 6 are matched with the attachment holes, and then the support structure 5 and the heating portion 4 are locked and positioned by screwing, so that a stable mounting connection relationship is formed between the support structure and the heating portion 4.

The upper side of the platform section 12 is provided with a control panel 121, the control panel 121 is provided with a control button, and the control panel 121 is controllably electrically connected with the heating part 4 and the valve assembly 6 through a control program built in a factory.

The foregoing is merely a preferred embodiment of the present utility model, and modifications of the embodiments described above can be made by those skilled in the art without departing from the implementation principles of the present utility model, and the corresponding modifications should also be considered as the protection scope of the present utility model.

Claims (10)

1. The support structure is characterized by comprising a support platform, wherein a bearing groove is formed in the upper side of the support platform, a positioning groove is formed in the peripheral side of the support platform, and a supporting groove is formed in the lower side of the support platform.

2. The stand structure of claim 1, wherein a support portion is provided vertically upward on an upper side of the stand platform; the upper end of the supporting part is provided with a supporting installation hole.

3. The bracket structure of claim 2, wherein at least two support parts are provided, each of the support parts is arranged at a peripheral position of an upper side of the bracket platform, an upper mounting member is provided at the upper side of the bracket platform in an arrangement space of each of the support parts, and the bearing groove is provided on the upper mounting member; the groove opening of the bearing groove is arranged towards the upper side.

4. The bracket structure of claim 2, wherein the positioning groove comprises a first groove and a second groove, the first groove is formed on the bracket platform in a concave manner, the outer peripheral side of the bracket platform is provided with a positioning piece in a horizontal extending manner, and the second groove is arranged on the positioning piece.

5. The bracket structure of claim 4, wherein a relief recess is formed in the bracket platform peripheral side between the first recess and the second recess; the support part is arranged between the relief concave position and the first groove; the support groove is arranged between the first groove and the second groove.

6. A support structure as claimed in claim 1, wherein the upper side of the support platform is provided with a locating wall extending vertically upwardly along a peripheral location thereof.

7. The bracket structure according to any one of claims 1 to 6, wherein a lower mounting member is provided on a lower side of the bracket platform, the support groove is provided on the lower mounting member, and a groove opening of the support groove is provided toward a horizontal direction; the upper part of the lower mounting piece is provided with a connecting mounting hole, and the opening of the connecting mounting hole is arranged towards the horizontal direction; the direction of the opening of the connecting mounting hole is perpendicular to the direction of the slot opening of the supporting groove.

8. The faucet structure is characterized by comprising a base shell, wherein a water inlet end and a water outlet end are arranged on the base shell, a heating part is arranged between the water inlet end and the water outlet end in the base shell, and the heating part and the water outlet end form water path communication; the support structure as claimed in any one of claims 1 to 7 is arranged between the heating part and the water inlet end, a tissue pipeline is arranged on the support structure in a positioning and attaching way, and the heating part and the water inlet end are communicated with each other through the tissue pipeline to form a waterway.

9. The faucet structure of claim 8, wherein the base housing includes a circumferentially disposed base section, a circumferentially disposed temperature control section is positioned within the base section, and a flow space for flow of water supply flow is provided between a peripheral side wall of the temperature control section and an inner wall of the base section; the tissue pipeline comprises a first pipeline and a second pipeline, and the water inlet end, the first pipeline, the flowing space and the second pipeline are communicated with the heating part to form a waterway.

10. The faucet structure of claim 8, further comprising a valve assembly mounted in the support recess; the tissue pipeline is arranged in the positioning groove and/or the bearing groove; the valve component is communicated with the water channel formed between the tissue pipelines, and the water inlet end, the valve component, the water channel communicated between the tissue pipelines and the heating part are communicated with each other to form a water channel.

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