TWM378312U - Control structure of constant-temperature valve - Google Patents

Description

V. New description: [New technical field] The new type relates to a temperature control structure, especially a thermostatic valve control structure with a ceramic layer. [Prior Art] Conventional conventional faucets generally control the water temperature by controlling the cold water and hot water faucet switches. The user must continuously rotate the cold water and hot water switch to select the appropriate water temperature to bathe or wash hands. After completion, the switch ash of cold water and hot water must be turned back to the starting position to turn off the water source of cold water and hot water. If it needs to be used again, 'the faucet switch of cold water and hot water must be rotated again, and the two tap switches should be adjusted to the required The temperature can be used, which is not only inconvenient to use, but also wastes time and water consumption when adjusting the water temperature. Therefore, the Patent No. 347039 of the Republic of China proposes a temperature sensor combination structure for a constant temperature faucet. Please refer to the figure "Fig.", which is a creation proposed by the creator of the new type many years ago. The temperature measuring temperature sensor 1, the axial type detecting group 2 for axially displacing the temperature sensor 1, and the annular compression spring 3 for providing the reverse force of the temperature sensor 1. The user only needs to open the faucet water outlet switch and set the water temperature to maintain the constant temperature state by the temperature sensor 丨 combination structure of the temperature faucet in the case. The temperature sensor 1 in the case is installed in a copper sleeve 4, and the copper sleeve 4 and the rubber collar 5 in the temperature sensor 1 are axially oriented by the temperature sensor 1 Displacement and friction' However, the copper collar 4 is liable to increase the friction with the rubber collar 5 due to the scale of the card, thereby affecting the service life of the rubber collar 5 and is also prone to excessive friction due to excessive friction. It is not easy to make axial displacement and jam, which affects the functionality of using temperature adjustment. Because ί lacks f2^ to hold a re-satisfied _, the product has a product [new type and proposed this new type. The ΐΐ ΐΐ ΐΐ , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Right-'the present invention provides a thermostatic valve control structure, which comprises a working piece, a piece, a water inlet casing connected to the screw-in component, and an axial displacement member of the lining core _, the Wei The whistling part: the control unit that uses the rotation to make the axial expansion; the inlet housing has a hot water inlet and a cold water inlet and a water stop washer; the axial displacement member has a Γΐίί in the miscellaneous direction Displacement (4) of the temperature sensor rod - laid in the axial vertical S ceramic layer - the end of the temperature sensing rod - the end of the screw-in assembly of the young part of the sleeve is provided with an elastic element, and the elasticity The component is resisted in the inlet housing, and the axial displacement member is axially displaced by axial expansion and contraction of the regulating portion. The ceramic raft has a smooth surface called low friction with the water stop, and the hunting is performed by the The axial displacement of the axial displacement member controls the opening of the water inlet of the hot water inlet. ', 7 It can be seen from the above that the novel temperature control valve structure of the present invention utilizes the ceramic layer on the surface of the axial displacement member to have a smooth surface to reduce the friction with the water stop ring and has acid resistance and is not easy to be stuck. Scale, simple structure and longevity advantages solve the problem of easy to scale in the prior art, and also solve the problem that the rubber sleeve ring in the prior art is easily caused by the scale of the sleeve card. $ [Embodiment] The detailed description and technical contents of the present invention will now be described with reference to the following figures: Refer to "Fig. 2" and "Fig. 3", and Fig. 2 is a novel embodiment of the preferred embodiment. Schematic diagram of structural decomposition, "Fig. 3" is a schematic diagram of the hot water discharge of the structural section of the novel-preferred embodiment, such as riding: this is a kind of strange temperature valve control structure, which includes a screw-in component 1G, - a water inlet housing 2G connected to the screw-in assembly 10, and an axial displacement member 30 in the bridging water inlet housing 2G. The shaft center portion of the screw-in assembly 1 has a shaft for rotation To the telescopic leg portion 11; the water inlet casing 2 ()__ way is connected to the screw-in assembly 10' and has a hot water inlet 2, a cold water inlet 22 and a water stop ring 23, a water washer 23 is disposed between the hot water inlet 21 and the cold water inlet 22; the axial displacement member 3Q has a temperature sensing rod 31 and a ceramic layer 32 laid on the surface of the axial displacement member 3, The end of the temperature sensing rod 抵 is resisted on the leg n of the screw-in assembly 1G, and the other __ end sleeve is provided with an elastic tl 33 and the elastic member 33 is resisted in the water inlet casing 2, the axial displacement member 30 is axially displaced by the axial expansion and contraction of the leg portion u, and the hot water inlet 21 and the cold water inlet are controlled. The opening size of the opening block 23 is in close contact with the pottery layer 32 for blocking the flow of cold water or hot water through the gap between the pottery layer 32 and the water inlet casing 20. It should be particularly noted that the ceramic layer 32 has a smooth surface to reduce the friction between the water washer 23 and the ceramic layer 32 is a lyophilized resin mainly composed of nanometer cerium oxide. Therefore, it has the characteristics of wear resistance, low friction, acid and alkali resistance, difficulty in scaling and long service life. In addition, the water inlet housing 20 further has two filter members 24, which are respectively disposed on the hot water inlet 21 and the cold water inlet 22 for filtering into the water inlet housing 20. Hot water and cold water to reduce the miscellaneous water in the M378312 'in this' requires special instructions, the following description and the schema in order to clearly reveal the action mode of the new type 'Lai Jue 24 removed, but implemented in one of the models In the way, 'Wei Shui Shell 2 〇 has Wei dynasty 24

The secret is shown in Figure 3, which is the intention of the structural section of the preferred embodiment of the present invention. In this Wei Cai, the miscellaneous relationship between the water and the cold water is known to _ The width of the layer % is such that the axial displacement member 3 is sized by the axial Na (four) silk water inlet 21 and the "cold water inlet 22". The miscellaneous displacement member 3 is provided with a plurality of through holes 34'. The nuclear core is moved axially by the 'spinning_weising type component (1) 11 toward the cold water inlet 22, thereby reducing the s cold water inlet 22 The opening. Is a schematic diagram of the cold water outlet of the structural section of the preferred embodiment of the present invention. The axial displacement member 3 is axially displaced in the direction of the hot water inlet 21 by the axial extension of the regulating portion u. The opening of the hot water inlet 21 is reduced or even closed, thereby adjusting or closing the hot water intake amount.

Similarly, please refer to FIG. 5, which is the novel-preferred embodiment of the county output 4®, according to the above-mentioned real money reading _ to the displacement member 30 adjusted to the water inlet σ 21 and the cold water into The hot water between the nozzles 22 and the cold water inlet σ 22 is simultaneously introduced into the water. The cold water flowing into the water inlet casing flows into the hot water inlet 21 through the through holes 34 of the axial displacement member 3G. - The end is mixed with the hot water to achieve the purpose of mixing water. In addition, see "Figure 6"', as shown in the figure, the thermostatic valve control structure is more suitable - providing hot water and cold water supply body dragon body 4〇, wherein the water supply dragon body fairy water supply port 41 and - cold water supply port 42. The hot water inlet 21 of the water inlet casing 20 is connected to the cold water inlet 22. 6 Here, it should be specially stated that the water mixing mentioned in this manual is not only a mixed water of the hot water and cold water. 'This new type of thermostatic valve control structure can provide a pure cold water. Water, therefore, when it is not possible to limit the water mixture must be mixed with hot water and cold water. In summary, since the thermostatic valve control structure of the present invention utilizes the ceramic layer 32 on the surface of the axial displacement member 30 to have a smooth surface to reduce the friction with the water stop gasket 23 in the water inlet casing 20, and has It has the advantages of acid and alkali resistance, not easy to form scale, simple structure and long service life. It solves the problem that the copper sleeve in the prior art is not resistant to acid and easy to be corroded and easily stuck with scales, and also solves the problem of copper sleeve card scale. Ir causes a problem of excessive friction with the wire loop. Therefore, the new model is highly progressive and meets the requirements for applying for a new type of patent. The application is filed according to law, and the Prayer Council has granted patents as soon as possible. The present invention has been described in detail above, but the above description is only for the new type - the preferred embodiment, and the scope of the new implementation is not limited. All changes and modifications made in accordance with the scope of this new application shall remain within the scope of the patent. [Simple description of the diagram] Fig. 2 温 剌 剌 剌 定 定 定 定 定 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' Schematic diagram of the hot water and water structure of the structural section Fig. 4 'This is a new type of structure that is better and better. ^ The knot of a preferred embodiment - Fig. 6 'This is a new type of control faucet of the preferred embodiment. Description of component symbols] Conventional technology M378312 I: Temperature sensor 2: Axial plug type 3: Ring compression spring 4: Copper sleeve 5: Rubber collar This new type 10: Screw-in assembly II: Control unit 20: Water housing 21: hot water inlet 22: cold water inlet 23: water stop washer 24: filter member 30: axial displacement member 31: temperature sensing rod 32: ceramic layer 33: elastic member 34: through hole 40: water supply dragon Body 41: hot water supply port 42: cold water supply port 8

Claims (1)

M378312 ' VI. Patent application scope: ' ι · A thermostatic valve control structure, including a · a screw-in component, the screw-in component has a control part of the rotation of the axis for axial expansion; and the screw-in type An inlet housing connected to the assembly, the inlet housing has a hot water inlet, a cold water inlet and a water stop gasket; - an axial displacement member disposed in the inlet housing, the axial displacement member Having a ceramic layer laid on the surface of the axial displacement member, the axial displacement member is connected to the regulating portion, and axial displacement is performed by axial expansion and contraction of the control portion, the (four) layer having a smooth surface The frictional force with the water stop gasket in the water inlet casing is lowered and the opening of the hot water inlet and the cold water inlet is controlled by the axial displacement of the axial displacement member. 2. The thermostatic control knot as described in the scope of claim 2, wherein the axial displacement member further has a temperature sensing rod, one end of the temperature sensing rod is resisted on the regulating portion of the screw-in component, and the other end sleeve An elastic element is provided and the resilient element resists within the water inlet housing. 3. The thermostatic valve control structure according to claim 1, wherein a gap between the hot water inlet in the inlet housing and the cold water inlet corresponds to a width I of the pottery layer. The ceramic layer of the axial displacement member controls the size of the hot water inlet and the cold water inlet opening by axial displacement. 4. The thermostatic valve control structure according to claim 1, wherein the axial displacement member is provided with a plurality of through holes for the water supply flow, and the ceramic layer is closely connected with the water stop gasket of the inlet housing. . 9 mj/qjiz 槿, the thermostatic valve control knot described in the first paragraph of the application scope of the Shangguang application is connected to the inlet housing in a screw-locking manner. Media Ganzhan such as the patent claim 辜 has been around the value of the temperature control valve control in the first item. The material of the pottery layer is the nano-scale dioxotomy: the lyogel resin. In the battle furnace, 7Gan asks the strange temperature valve control in the first paragraph of the patent scope to control the water supply body. The pure body temperature (4) structure has the structure of providing hot water and cold water, as described in item 7 of the patent scope of the printing and printing. The thermostatic valve control port 丄^ The water supply body has a cold water supply port and a hot water supply I, and the hot water inlet port of the inlet casing is connected to the cold water inlet.