CN106939509B - Garment Steamer Machine drain valve - Google Patents

Abstract

The present invention provides a kind of Garment Steamer Machine drain valves, including valve plug, temperature-sensitive end cap, the drain valve is located at the discharge pipe line end of the minimum pipeline of Garment Steamer Machine, the valve plug holds round column, just different colours are presented in one cylindrical metal part of intermediate portion ring packet, the temperature that the temperature-sensitive end cap can be conducted according to cylindrical metal part.Draining can be realized without dismantling Garment Steamer Machine in the present invention, convenient and strength-saving；Discharge structure is located at the minimum point of Garment Steamer Machine pipe-line system, can all empty water remaining in pipeline；It can avoid scalding when draining according to residual liquid temperature in the color judgement machine of heat-sensitive variable colour block；It can be drained in time according to the color tips of heat-sensitive variable colour block, avoid residual water long-time indwelling in Garment Steamer Machine, avoiding bacteria breed, extend Garment Steamer Machine service life.

Description

Garment Steamer Machine drain valve

Technical field

The present invention relates to a kind of drain valves, in particular to Garment Steamer Machine drain valve.

Background technique

In daily life, people often have clothes to need ironing, as the improvement of people's living standards, people couple The requirement of clothes ironing effect is also higher and higher, and old-fashioned electric iron needs that water appropriate is added every now and then in use, It is cumbersome and larger to clothing damage, so steam-type Garment Steamer Machine is increasingly liked by people.

Existing Garment Steamer Machine pattern is varied, after Garment Steamer Machine use, often residual fraction high-temperature water in machine, and one As specification only prompt user a period of time such as to need to drain again after water is cooling, but the cooling specific time is at present simultaneously None very specific time range, user are not aware that specifically when water can just cool down completely, if too early pouring The danger that may be scalded pours be likely to result in case intussusception endophytic bacteria again too late, influences health.And the prior art In, the design of the discharge structure of Garment Steamer Machine it is very unreasonable, each use, which finishes water tank will be taken off, to be taken by pond, The water inlet of water tank is unscrewed, and the water in case could be poured out, and certain water tanks are very heavy later equipped with water, and pouring process is time-consuming to take Power, to Garment Steamer Machine using above bringing great inconvenience.In addition waterway pipe can also remain a part of water in Garment Steamer Machine main body, It will lead to water for a long time and occur rotten, bacterium easy to breed generates scale, or even can generate corrosion, shadow to the electronic device in machine The service life for ringing Garment Steamer Machine, is in addition also possible to that leakage situation can occur, and the situations such as occur leaking electricity, extremely dangerous.

Therefore, existing Garment Steamer Machine is more difficult there is water remaining in steam generator cleaning and scale removal process is time-consuming and laborious The problem of.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of valve plug for Garment Steamer Machine, It can be used as a kind of standarized component, efficiently solve that existing Garment Steamer Machine drainage efficiency is low and the sordid technical problem of draining, from And Garment Steamer Machine is cooperated to use, and can be used as the standard foundation of product development.

To achieve the above object, the present invention provides a kind of Garment Steamer Machine drain valve, including a valve plug and with the plug tip Connected temperature-sensitive end cap；The valve plug is connected by connecting band with Garment Steamer Machine main body, and the valve plug is embedded with the heat carrier of perforation, The heat carrier is in contact with the temperature-sensitive end cap；Wherein the valve plug passes through connection band connection and drainage pipeline, the draining Drain valve in pipeline is located at the drainage pipeline least significant end；

The temperature-sensitive end cap includes following parts by weight material:

The temperature-sensitive end cap further includes 5-10 parts of diphenol propanes, 0.5-1 parts of dimethyl silicone polymer and 0.5-1 parts To diphenylamines.

Preferably, the valve plug uses rubber material.

Preferably, the heat carrier uses stainless steel material.

The beneficial effects of the present invention are:

1, draining can be realized without dismantling Garment Steamer Machine, it is convenient and strength-saving；

2, discharge structure is located at the minimum point of Garment Steamer Machine pipe-line system, can all empty water remaining in pipeline；

3, it can avoid scalding when draining according to residual liquid temperature in the color change judgement machine of valve plug end cap；

4, draining in time can be prompted according to the color change of valve plug end cap, avoid residual water long-time indwelling in Garment Steamer Machine It is interior, bacteria breed is avoided, Garment Steamer Machine service life is extended.

Detailed description of the invention

Fig. 1 is the structural schematic diagram after Garment Steamer Machine drain valve provided by the invention is opened；

Fig. 2 is the structural schematic diagram after Garment Steamer Machine drain valve provided by the invention is closed；

Fig. 3 is the structural schematic diagram of Garment Steamer Machine drain valve distributing position on Garment Steamer Machine provided by the invention；

Appended drawing reference: 100- drain valve；200- drainpipe；300- threeway head；400- water inlet pipe；500- water tank；600- steams Vapour generator；700- shell；800- steam connection tube；900- spray head；101- temperature-sensitive end cap；102- valve plug；103- stainless steel gold Belong to part；104- connecting band.

Specific embodiment

Present invention will be described in further detail below with reference to the accompanying drawings, to enable those skilled in the art referring to specification text Word can be implemented accordingly.

Connect as shown in figure 3, Garment Steamer Machine drain valve 100 provided by the invention is located at threeway head 300 on the minimum pipeline of Garment Steamer Machine The end of the drainpipe 200 connect, drainpipe 200 extend at Garment Steamer Machine shell 700, and end is closed by valve plug 102, with reference to Fig. 1 Fig. 2, Garment Steamer Machine drain valve 100 provided by the invention, including valve plug 102, temperature-sensitive end cap 101, valve plug 102 are located at drainpipe 200 End, the middle section of valve plug 102 has one at the top of valve plug 102 by the columned stainless steel metal part 103 of ring packet one One end of temperature-sensitive end cap 101, stainless steel metal part 103 is contacted with the water in drainpipe 200, and one end is connected with temperature-sensitive end cap 101, As shown in figure 3, drain valve 100 is located at the 200 tunnel end of drainpipe of the minimum pipeline of Garment Steamer Machine, water tank 500 and steam generator 600 It is connected by water inlet pipe 400, drainpipe 200 is connected with water inlet pipe 400 by threeway head 300, and drainpipe 200 is to tilt down 's.With reference to Fig. 1, valve plug 102 and drainpipe 200 are not isolated two parts, after valve plug 102 is pulled out, valve plug 102 Edge is connected with 200 part of drainpipe.

The specific work process of Garment Steamer Machine drain valve provided by the invention is as follows: when Garment Steamer Machine work, drainpipe 200 are closed by valve plug 102 this moment, and water flows to steam generator 600 by water inlet pipe 400 from water tank 500, are turned water by heating Become vapor, vapor is sprayed by steam connection tube 800 from spray head 900.Water after Garment Steamer Machine stops working, in pipeline Temperature is transferred to temperature-sensitive end cap 101 rapidly by the stainless steel metal part 103 at 102 middle part of valve plug by temperature, so that temperature-sensitive end cap 101 Color change occurs for the heat discoloration coating on surface, and user can judge the water in Garment Steamer Machine pipeline according to this color change Temperature shows that the volume water temperature in Garment Steamer Machine pipeline is reduced to 30 DEG C hereinafter, can when blue is presented in 101 color of temperature-sensitive end cap Safety drain, the water that can be discharged in Garment Steamer Machine pipeline by extracting valve plug 102.

And drainage pipeline 200 of the invention is located at the minimum point of entire water circuit system, and it can be by the residual inside Garment Steamer Machine Water all excludes clean.With reference to Fig. 1, the valve plug 102 and drainpipe 200 of drain valve 100 are not isolated two parts, work as valve plug After 102 are pulled out, the edge of valve plug 102 has a connecting band 104 to be connected with drainpipe 200, in this way during draining, pulls out Valve plug 102 out realize draining, valve plug 102 are filled in drainage pipeline 200 again after drained water, avoid valve plug 102 from losing, and very It is convenient.

After traditional Garment Steamer Machine stops working, user prompts after Garment Steamer Machine is stood a period of time again according only to specification Draining, but it is specific stand how long, if so far that studies have shown that draining is more early, the possible intracorporal water temperature of machine is not also very Heat is easy to happen the danger of scald, if the time of repose time is longer, in the pipeline of body and bacterium easy to breed, and pipeline Interior water is also possible to that the circuit system of Garment Steamer Machine can be corroded, and the danger of short circuit occurs, and can also reduce the service life of Garment Steamer Machine.

Garment Steamer Machine drain valve 100 provided by the invention, temperature-sensitive end cap 101 can according to the variation of temperature turn colors, Wherein temperature-sensitive end cap includes the material of following parts by weight:

It also include 0.5-1 parts of dimethyl silicone polymers, also comprising 0.5-1 parts to diphenylamines.

The manufacturing process of heat discoloration coating on 100 temperature-sensitive end cap 101 of drain valve is as follows:

(1) it takes 50-70 parts of saturated hydroxy polyester resins and 10-20 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 15-22 parts of palmityl alcohols, 10-15 parts of dimethylaminobenzaldehydes, 5-10 parts of diphenol propanes and step are successively weighed (1) mixture is sufficiently stirred, by the mixture being stirred using three vertical double screw extruders temperature be 100 DEG C at melt squeeze It is out and cooling, cooling time 15-20min；

(3) 0.5-1 parts of dimethyl silicone polymers and 0.5-1 parts are sequentially added in step (2) again to diphenylamines, in 140- 10-15min is kneaded at 145 DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

Wherein for saturated hydroxy polyester resin for making end cap curing molding, barium sulfate increases the cause of temperature-sensitive end cap as filler Close property saves raw material, and dimethylaminobenzaldehyde is used as intermediate in the feed, facilitates colorant colour developing, and diphenol propane is main As color forming agent, dimethyl silicone polymer can protect temperature-sensitive end cap as protective agent, have good electrical insulating property, to diphenylamines Antioxidation is played, temperature-sensitive end cap contains palmityl alcohol, and main function is that temperature-sensitive end cap is made to be influenced to increase by temperature change, can Color change occurs in time when small change occurs for temperature.

Using temperature-sensitive end cap made from the above method is with temperature t and that there is a situation where color changes is as follows:

T≤30 DEG C are blue；

30 DEG C of t≤50 DEG C < are in light red；

50 DEG C of t≤80 DEG C < are in brownish red；

80 DEG C of t > are in aubergine.

Compared with prior art, temperature-sensitive end cap provided by the invention contains palmityl alcohol, and main function is to make temperature-sensitive end cap It is influenced to increase by temperature change, color change can occur in time when small change occurs for temperature, be listed below utilization The case study on implementation and comparison case of the manufacturing method of heat discoloration coating disclosed by the invention comprising have:

Embodiment 1

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 19 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part of dimethyl silicone polymer and 0.8 part are sequentially added in step (2) again to diphenylamines, in 140-145 10-15min is kneaded at DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Embodiment 2

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 19 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part of dimethyl silicone polymer is added into step (2) again, is kneaded 10-15min at 140-145 DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Embodiment 3

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 19 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part is added into step (2) again to diphenylamines, is kneaded 10-15min at 140-145 DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Embodiment 4

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 19 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) product that step (2) obtains is kneaded 10-15min at 140-145 DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Comparative example 1

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, are sufficiently stirred with the mixture of step (1) Mix, by the mixture being stirred using three vertical double screw extruders temperature be 100 DEG C at melting extrusion and cooling, cooling time For 15-20min；

(3) 0.8 part of dimethyl silicone polymer and 0.8 part are sequentially added in step (2) again to di-n-propylamine, in 140-145 10-15min is kneaded at DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Comparative example 2

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 14 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part of dimethyl silicone polymer and 0.8 part are sequentially added in step (2) again to di-n-propylamine, in 140-145 10-15min is kneaded at DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Comparative example 3

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 15 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part of dimethyl silicone polymer and 0.8 part are sequentially added in step (2) again to di-n-propylamine, in 140-145 10-15min is kneaded at DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Comparative example 4

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 22 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part of dimethyl silicone polymer and 0.8 part are sequentially added in step (2) again to di-n-propylamine, in 140-145 10-15min is kneaded at DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

Comparative example 5

(1) it takes 60 parts of saturated hydroxy polyester resins and 15 parts of barium sulfate to be put into a mixing bowl, stirs evenly；

(2) 23 parts of palmityl alcohols, 12 parts of dimethylaminobenzaldehydes, 8 parts of diphenol propanes are successively weighed, it is mixed with step (1) Object is closed to be sufficiently stirred, by the mixture being stirred using three vertical double screw extruders be 100 DEG C in temperature at melting extrusion and cold But, 15-20min cooling time；

(3) 0.8 part of dimethyl silicone polymer and 0.8 part are sequentially added in step (2) again to di-n-propylamine, in 140-145 10-15min is kneaded at DEG C；

(4) required shape is suppressed, using electrothermostat baking-curing 10min, solidification temperature is 200 DEG C, i.e., Obtain temperature-sensitive end cap 101.

(5) prepare the one glass 100 DEG C hot water for being placed with thermometer, temperature-sensitive end cap obtained is put into cup and observes end cap Color change.

In conclusion table is made in the test result of the above test case, it is as follows:

As seen from the above table, palmityl alcohol plays the role of the temperature effect of temperature-sensitive end cap critical, too little or too much all Influence temperature-sensitive end cap the metachromasia time and as a result, and palmityl alcohol effect between 15-22 parts by weight it is best, in addition, plus Enter additive dimethyl silicone polymer and to diphenylamines after, using temperature-sensitive end cap 101 provided by the invention manufacturing method be made Temperature-sensitive end cap 101, according to the sensitive discoloration of temperature change, if it is slightly slow to contain only dimethyl silicone polymer metachromasia, if containing only There is the effect for being not achieved to diphenylamines and normally changing colour, after the two is all added, the variation of temperature-sensitive end cap is sensitive, according to temperature Variation shows different colors.It is prompted according to its color change, user can determine whether the water temperature inside Garment Steamer Machine, when temperature-sensitive end Lid 101 show when blue is presented the water in pipeline be reduced to 30 DEG C and 30 DEG C hereinafter, can safety drain, will not scald Danger, and it is time saving and energy saving, user no longer need it is meaningless it is equal for a long time, improve drainage efficiency.

In addition it also overcomes traditional Garment Steamer Machine and realizes draining by extracting water tank 500, it is time-consuming and laborious, and can not be by machine Internal remaining water is discharged, and can breed bacterium, open circuit potential element reduces the service life of Garment Steamer Machine, and discharge structure position The water in Garment Steamer Machine pipeline can all be arranged by extracting valve plug 102 when the minimum point of Garment Steamer Machine pipe-line system, draining Except clean.

Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With it can be fully applied to various fields suitable for the present invention, for those skilled in the art, can be easily Realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details and legend shown and described herein.

Claims (3)

1. a kind of Garment Steamer Machine drain valve, which is characterized in that including a valve plug and the temperature-sensitive end cap being connected with the plug tip；It is described Valve plug is connected by connecting band with Garment Steamer Machine main body, and the valve plug is embedded with the heat carrier of perforation, the heat carrier and the sense Warm end cap is in contact；

Wherein the valve plug is connected to drainage pipeline by connecting band, and the drain valve in the drainage pipeline is located at the drainpipe Road least significant end；

The temperature-sensitive end cap includes following parts by weight material:

The temperature-sensitive end cap further includes 5-10 parts of diphenol propane, 0.5-1 parts of dimethyl silicone polymer and 0.5-1 parts of pair Diphenylamines.

2. Garment Steamer Machine drain valve as described in claim 1, it is characterised in that: the valve plug uses rubber material.

3. Garment Steamer Machine drain valve as described in claim 1, it is characterised in that: the heat carrier uses stainless steel material.