CN209781761U - Constant temperature faucet structure - Google Patents

Abstract

The utility model provides a constant temperature faucet structure, which comprises a switching handle, a valve body and a bubbler shell; a valve body is fixedly embedded in the inner side of the zinc alloy round main body; the bottom of the swing water nozzle is also fixedly provided with a swing joint; a swinging joint O-RING is also arranged between the swinging water nozzle and the swinging joint; and a bubbler gasket, a bubbler and a bubbler shell are arranged at an outlet at one side of the swinging water nozzle. This device is with constant temperature main part plastic mold shaping production for the inner core, zinc alloy shaping production is used to the shell, because the inner core is plastic mold shaping production, the yield is high, and is with low costs, it is complicated to have solved current constant temperature main part waterway structure, the big costly technical problem of loss, and simultaneously, owing to used the plastic inner core, the main part calorific capacity is few, it is high to have solved main part surface temperature, easily cause the technical problem of scald, practice thrift manufacturing cost, the market of being convenient for promotes, avoid constant temperature main part surface to generate heat and the possibility of the scald that causes.

Description

constant temperature faucet structure

Technical Field

The utility model belongs to the technical field of tap, more specifically say, in particular to constant temperature faucet structure.

Background

The water tap is a popular name of a water valve, is used for controlling the size of water flow to be switched on and off, and has the effect of saving water. The water tap has a very fast updating speed, and develops from an old cast iron process to an electroplating knob type water tap, a stainless steel single-temperature single-control water tap, a stainless steel double-temperature double-control water tap and a kitchen semi-automatic water tap. At present, more and more consumers purchase faucets, and the faucets are comprehensively considered from various aspects such as materials, functions, shapes and the like.

Based on the foregoing, the inventor found that the current constant temperature faucet main part is mainly produced through brass casting, and the water route structure is complicated, and the loss is too big, and the cost is too high, and the cost is high, in addition, because the main part is formed by brass casting, the constant temperature main part can appear after long service life that the surface temperature of main part is higher, causes the scald easily.

Therefore, in view of the above, research and improvement are made on the existing structure and defects, and a constant temperature faucet structure is provided, so as to achieve the purpose of having more practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a constant temperature faucet structure to solve present constant temperature faucet main part and mainly through brass casting production, the waterway structure is complicated, and the loss is too big, and is with too high costs, and the cost is high, in addition, because the main part is formed by brass casting, it is higher that main part surface temperature can appear after the constant temperature main part live time is long, causes the problem of scald easily.

The purpose and the efficacy of the thermostatic faucet structure of the utility model are achieved by the following concrete technical means:

A constant-temperature faucet structure comprises a switching handle, a hexagon socket head cap screw, a hole plug, a handle gasket, a gland, a round head screw, a spline sleeve, a water diversion valve core, a valve body, a water inlet gasket, a water inlet nut, a one-way valve, a water inlet joint, a filter screen gasket, O-RING, a water outlet joint, a constant-temperature valve core, a valve core screw, a limiting block, a temperature-adjusting handle, a handle pin, a copper button, a spring, a zinc alloy round main body, a lower joint, a lower water diversion valve core, a lower gasket, a swing water nozzle, a swing joint O-RING, a swing joint, a bubbler gasket, a bubbler and a bubbler shell; a valve body is fixedly embedded in the inner side of the zinc alloy round main body; one side of the valve body is embedded with a water distribution valve core; one side of the water distribution valve core is also provided with a round head screw and a spline sleeve; one side of the zinc alloy round main body is also fixedly connected with a switching handle, and a handle gasket and a gland are also fixedly arranged between the switching handle and the zinc alloy round main body; an inner hexagonal screw is embedded into the outer side of the switching handle through threads; a hole plug is arranged on the outer side of the inner hexagonal screw; the top of the zinc alloy round main body is fixedly embedded with a water outlet joint, and an O-RING is arranged between the water outlet joint and the zinc alloy round main body; two water inlet joints are symmetrically embedded and mounted on the outer side of the zinc alloy round main body; a water inlet nut is arranged on the outer side of each of the two water inlet joints, and a filter screen gasket is arranged on the rear side of each water inlet joint; the front sides of the two water inlet joints are respectively provided with a water inlet gasket and a one-way valve; a thermostatic valve core is embedded and mounted on the other side of the valve body; the other side of the thermostatic valve core is provided with a gear sleeve through a round head screw; the other side of the thermostatic valve core is also provided with a temperature adjusting handle through an inner hexagonal screw, and the outer side of the inner hexagonal screw is provided with a hole plug; a spring is embedded and mounted at the top of the temperature adjusting handle; a copper button is fixedly arranged at the top of the spring, and a handle pin is embedded into one side of the copper button; a handle gasket and a limiting block are also arranged between the temperature adjusting handle and the thermostatic valve core; the bottom of the thermostatic valve core is also provided with a valve core screw in an embedded mode through threads; a lower water distributing valve core is embedded and installed at the bottom of the zinc alloy round main body, and an O-RING and a lower connector are also arranged between the lower water distributing valve core and the zinc alloy round main body; the outer side of the lower water distribution valve core is fixedly connected with a swing water nozzle, and the top of the swing water nozzle is fixedly provided with a lower gasket; the bottom of the swing water nozzle is also fixedly provided with a swing joint; a swinging joint O-RING is also arranged between the swinging water nozzle and the swinging joint; and a bubbler gasket, a bubbler and a bubbler shell are arranged at an outlet at one side of the swinging water nozzle.

Furthermore, the valve body is made of plastic and is produced by molding through a mold during processing.

Furthermore, the zinc alloy round main body is produced by forming zinc alloy, and the valve body is directly embedded and installed on the inner side of the zinc alloy round main body.

compared with the prior art, the utility model discloses following beneficial effect has:

This device is with constant temperature main part plastic mold shaping production for the inner core, zinc alloy shaping production is used to the shell, because the inner core is plastic mold shaping production, the yield is high, and is with low costs, it is complicated to have solved current constant temperature main part waterway structure, the big costly technical problem of loss, and simultaneously, owing to used the plastic inner core, the main part calorific capacity is few, it is high to have solved main part surface temperature, easily cause the technical problem of scald, practice thrift manufacturing cost, the market of being convenient for promotes, avoid constant temperature main part surface to generate heat and the possibility of the scald that causes.

Drawings

Fig. 1 is a schematic view of the split structure of the present invention.

Fig. 2 is a schematic view of the structure of the present invention.

fig. 3 is a schematic axial side structure diagram of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

A switching handle-1; 2, inner hexagonal screws; a hole plug-3; a handle pad-4; a gland-5; round head screw-6; a flower tooth sleeve-7; a water diversion valve core-8; a valve body-9; a water inlet gasket-10; a water inlet nut-11; a one-way valve-12; a water inlet joint-13; screen washer-14; 0-RING-15; a water outlet joint-16; a thermostatic valve core-17; valve core screw-18; a limiting block-19; a temperature adjusting handle-20; a handle pin-21; copper button-22; a spring-23; zinc alloy round body-24; a lower joint-25; a lower water diversion valve core-26; a lower gasket-27; a swing water nozzle-28; swing joint 0-RING-29; a swing joint-30; a bubbler pad-31; bubbler-32; bubbler cabinet-33.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

As shown in figures 1 to 3:

The utility model provides a constant temperature water tap structure, including switching handle 1, hexagon socket head cap screw 2, stopple 3, handle gasket 4, gland 5, button head screw 6, flower tooth cover 7, divide water case 8, valve body 9, water inlet gasket 10, inlet nut 11, check valve 12, water inlet joint 13, filter screen gasket 14, 0-RING15, go out water joint 16, constant temperature case 17, case screw 18, stopper 19, handle 20, handle pin 21, copper button 22, spring 23, zinc alloy circle main part 24, lower clutch 25, divide water case 26 down, lower gasket 27, sway water tap 28, sway joint 0-RING29, sway joint 30, bubbler gasket 31, bubbler 32 and bubbler shell 33; a valve body 9 is fixedly embedded and installed on the inner side of the zinc alloy round main body 24; one side of the valve body 9 is embedded with a water diversion valve core 8; one side of the water diversion valve core 8 is also provided with a round head screw 6 and a spline sleeve 7; one side of the zinc alloy round main body 24 is also fixedly connected with a switching handle 1, and a handle gasket 4 and a gland 5 are also fixedly arranged between the switching handle 1 and the zinc alloy round main body 24; an inner hexagonal screw 2 is embedded into the outer side of the switching handle 1 through threads; a hole plug 3 is arranged on the outer side of the inner hexagonal screw 2; the top of the zinc alloy round main body 24 is fixedly embedded with a water outlet joint 16, and a 0-RING15 is arranged between the water outlet joint 16 and the zinc alloy round main body 24; two water inlet connectors 13 are symmetrically embedded and mounted on the outer side of the zinc alloy round main body 24; the outer sides of the two water inlet joints 13 are respectively provided with a water inlet nut 11, and the rear sides of the water inlet joints 13 are respectively provided with a filter screen gasket 14; the front sides of the two water inlet joints 13 are respectively provided with a water inlet gasket 10 and a one-way valve 12; a thermostatic valve core 17 is embedded and installed on the other side of the valve body 9; the other side of the thermostatic valve core 17 is provided with a gear sleeve 7 through a round head screw 6; the other side of the thermostatic valve core 17 is also provided with a temperature adjusting handle 20 through an inner hexagonal screw 2, and the outer side of the inner hexagonal screw 2 is provided with a hole plug 3; a spring 23 is embedded and installed at the top of the temperature adjusting handle 20; a copper button 22 is fixedly arranged at the top of the spring 23, and a handle pin 21 is embedded and installed at one side of the copper button 22; a handle gasket 4 and a limiting block 19 are also arranged between the temperature adjusting handle 20 and the thermostatic valve core 17; a valve core screw 18 is embedded and installed at the bottom of the thermostatic valve core 17 through threads; a lower water distributing valve core 26 is embedded and installed at the bottom of the zinc alloy round main body 24, and a 0-RING15 and a lower joint 25 are also arranged between the lower water distributing valve core 26 and the zinc alloy round main body 24; the outer side of the lower water diversion valve core 26 is fixedly connected with a swing water nozzle 28, and the top of the swing water nozzle 28 is fixedly provided with a lower gasket 27; the bottom of the swinging water nozzle 28 is also fixedly provided with a swinging joint 30; a swing joint 0-RING29 is also arranged between the swing nozzle 28 and the swing joint 30; a bubbler pad 31, a bubbler 32 and a bubbler case 33 are provided at an outlet of one side of the rocking nozzle 28.

The valve body 9 is made of plastic and is produced by molding the die during processing, and the valve body 9 is produced by molding the plastic die, so that the finished product rate is high, the cost is low, and the technical problems of complex structure, large loss and high cost of the existing constant-temperature main body water channel are solved.

The round zinc alloy main body 24 is produced by forming zinc alloy, the valve body 9 is directly embedded in the inner side of the round zinc alloy main body 24, the heat productivity of the main body is low due to the use of the plastic inner core, and the technical problem that the round zinc alloy main body 24 is high in surface temperature and easy to scald is solved.

The specific use mode and function of the embodiment are as follows:

The utility model discloses in, be connected the inlet tube with the water supply connector 13 of this device when using, then accessible handle 20 that adjusts the temperature of water, switch out water and cut off the water supply through switching handle 1, water can outwards flow through the delivery port of swaing water injection well choke 28 one side when going out water, this device is produced valve body 9 with the plastic mold shaping, 24 zinc alloy shaping productions of zinc alloy circle main part, because valve body 9 is the plastic mold shaping production, the yield is high, the cost is also low, it is complicated to have solved current constant temperature main part waterway structure, the big costly technological problem of loss, and simultaneously, owing to used the plastics inner core, main part calorific capacity is few, it is high to have solved 24 surface temperature of zinc alloy circle main part, easily cause the technical problem of scald, practice thrift manufacturing cost, the market of being convenient for promotes, avoid constant temperature main part surface to generate heat and the possibility of the scald.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. A constant temperature faucet structure is characterized in that: the constant-temperature faucet structure comprises a switching handle (1), an inner hexagonal screw (2), a hole plug (3), a handle gasket (4), a gland (5), a round head screw (6), a flower tooth sleeve (7), a water distribution valve core (8), a valve body (9), a water inlet gasket (10), a water inlet nut (11), a one-way valve (12), a water inlet joint (13), a filter screen gasket (14), 0-RING (15) and a water outlet joint (16), the device comprises a constant temperature valve core (17), a valve core screw (18), a limiting block (19), a temperature adjusting handle (20), a handle pin (21), a copper button (22), a spring (23), a zinc alloy round main body (24), a lower joint (25), a lower water distributing valve core (26), a lower gasket (27), a swing water nozzle (28), a swing joint 0-RING (29), a swing joint (30), a bubbler gasket (31), a bubbler (32) and a bubbler shell (33); a valve body (9) is fixedly embedded and installed on the inner side of the zinc alloy round main body (24); one side of the valve body (9) is embedded with a water diversion valve core (8); one side of the water diversion valve core (8) is also provided with a round head screw (6) and a spline sleeve (7); one side of the zinc alloy round main body (24) is also fixedly connected with a switching handle (1), and a handle gasket (4) and a gland (5) are also fixedly arranged between the switching handle (1) and the zinc alloy round main body (24); an inner hexagonal screw (2) is embedded into the outer side of the switching handle (1) through threads; a hole plug (3) is arranged on the outer side of the inner hexagonal screw (2); a water outlet joint (16) is fixedly embedded in the top of the zinc alloy round main body (24), and a 0-RING (15) is arranged between the water outlet joint (16) and the zinc alloy round main body (24); two water inlet joints (13) are symmetrically embedded in the outer side of the zinc alloy round main body (24); the outer sides of the two water inlet joints (13) are respectively provided with a water inlet nut (11), and the rear sides of the water inlet joints (13) are respectively provided with a filter screen gasket (14); the front sides of the two water inlet joints (13) are respectively provided with a water inlet gasket (10) and a one-way valve (12); the other side of the valve body (9) is embedded with a thermostatic valve core (17); the other side of the thermostatic valve core (17) is provided with a gear sleeve (7) through a round head screw (6); the other side of the thermostatic valve core (17) is also provided with a temperature adjusting handle (20) through an inner hexagonal screw (2), and the outer side of the inner hexagonal screw (2) is provided with a hole plug (3); a spring (23) is embedded and mounted at the top of the temperature adjusting handle (20); a copper button (22) is fixedly arranged at the top of the spring (23), and a handle pin (21) is embedded into one side of the copper button (22); a handle gasket (4) and a limiting block (19) are also arranged between the temperature adjusting handle (20) and the thermostatic valve core (17); a valve core screw (18) is embedded into the bottom of the thermostatic valve core (17) through threads; a lower water diversion valve core (26) is embedded and installed at the bottom of the zinc alloy round main body (24), and a 0-RING (15) and a lower joint (25) are also arranged between the lower water diversion valve core (26) and the zinc alloy round main body (24); the outer side of the lower water distribution valve core (26) is fixedly connected with a swing water nozzle (28), and the top of the swing water nozzle (28) is fixedly provided with a lower gasket (27); a swinging joint (30) is fixedly arranged at the bottom of the swinging water nozzle (28); a swing joint 0-RING (29) is also arranged between the swing nozzle (28) and the swing joint (30); and a bubbler gasket (31), a bubbler (32) and a bubbler shell (33) are arranged at an outlet at one side of the swinging water nozzle (28).

2. The thermostatic faucet structure of claim 1, wherein: the valve body (9) is made of plastic and is produced by molding through a mold during processing.

3. the thermostatic faucet structure of claim 1, wherein: the zinc alloy round main body (24) is produced by forming zinc alloy, and the valve body (9) is directly embedded and installed on the inner side of the zinc alloy round main body (24).