CN111451204A

CN111451204A - Leather fabric down jacket cleaning equipment

Info

Publication number: CN111451204A
Application number: CN202010355391.4A
Authority: CN
Inventors: 吴昆明; 张传贵
Original assignee: Anhui Warren Technology Co ltd
Current assignee: Anhui Warren Technology Co ltd
Priority date: 2020-04-29
Filing date: 2020-04-29
Publication date: 2020-07-28

Abstract

The invention relates to leather fabric down jacket cleaning equipment which comprises a mixed injection unit, a high-temperature heating unit and a vertical flow mechanism, wherein the high-temperature heating unit is arranged between the mixed injection unit and the vertical flow mechanism; the mixed spraying unit mixes the cleaning agent and the dry ice to form a mixture to be sprayed, the sprayed mixture passes through the high-temperature heating unit to reach the vertical flow mechanism to spray and wash the down jacket on the vertical flow mechanism, and the cleaning agent on the down jacket is blown down along the surface of the down jacket by wind power discharged from an air port of the vertical flow mechanism to be separated from the down jacket; the invention cleans the surface of the leather down jacket in a jet flow mode, does not damage the leather fabric, has no contact of any mechanical structure with the leather fabric, and has no mechanical damage and scratch.

Description

Leather fabric down jacket cleaning equipment

Technical Field

The invention belongs to the technical field of down jackets, and particularly relates to cleaning equipment for a down jacket made of a leather fabric.

Background

The coat filled with the down filling material in the leather down coat has a huge and mellow appearance. The down jacket generally has more than half of the amount of the duck down, and meanwhile, some fine feathers can be mixed, the duck down is cleaned and disinfected at high temperature, and then the down jacket is filled in clothes. The outer part is made of leather, and the leather down jacket has better heat retention. It is usually worn by people in cold regions and is also commonly used by polar researchers.

The leather down is the best natural material for human warm keeping so far, and is made into down jackets by people after being processed by processes of washing, drying, grading and the like. Compared with artificial materials, the warm-keeping capacity of the down feather is three times that of common artificial materials.

Leather down jackets are high-end products in the down industry. The Down is composed of Down (Down) and Feather (Feather). The outer cortex is made up of the dermis, such as sheepskin, pigskin, fox skin, and the like.

The high-grade leather down jacket generally adopts more than 90% of white goose down or more than 90% of white duck down, the true more than 90% of down jacket has strong heat retention and high filling power, and the down jacket is light and comfortable to wear. The cortex is mainly selected from beaver rabbit skin, mink skin, fox skin, racoon dog skin, and washing sheep skin.

In the prior art, manual cleaning is generally adopted for cleaning the surface of the leather down jacket, and the traditional dry cleaning and water washing modes can cause irreversible damage to the leather fabric of the leather down jacket.

Disclosure of Invention

The invention aims to solve the problems and provide leather fabric down jacket cleaning equipment capable of automatically cleaning.

The invention realizes the purpose through the following technical scheme:

a leather fabric down jacket cleaning device comprises a mixed injection unit, a high-temperature heating unit and a vertical flow mechanism, wherein the high-temperature heating unit is arranged between the mixed injection unit and the vertical flow mechanism, the vertical flow mechanism comprises a clothes hanger and an air box above the clothes hanger, and a strip-shaped air port is arranged at the bottom of the air box;

the mixed spraying unit mixes the cleaning agent and the dry ice to form a mixture to be sprayed, the sprayed mixture passes through the high-temperature heating unit to reach the vertical flow mechanism to spray and wash the down jacket on the vertical flow mechanism, and the cleaning agent on the down jacket is blown down along the surface of the down jacket by wind power discharged from an air port of the vertical flow mechanism to be separated from the down jacket.

As a further optimization scheme of the invention, the mixed injection unit comprises a three-way pipe, a main inlet pipe, a main outlet pipe, an auxiliary inlet pipe and a storage unit, wherein the three-way pipe is provided with a main inlet, an auxiliary inlet and a main outlet, the main inlet and the auxiliary inlet are positioned on the same horizontal axis, the main inlet is connected with the outlet of the main inlet pipe, the main outlet is connected with the inlet of the main outlet pipe, the auxiliary inlet is connected with the outlet of the auxiliary inlet pipe, and the inlet of the auxiliary inlet pipe is connected with the storage unit;

the main inlet pipe and the main outlet pipe are both horn-shaped, and the calibers of the main inlet pipe and the main outlet pipe are gradually increased from one end close to the three-way pipe to one end far away from the three-way pipe. The import that enters the pipe is through the export of pipe connection pump, the access connection cleaner supply pipe of pump, the pump is with cleaner pump income main pipe, advance the pipe from main and enter into the three-way pipe, again from the three-way pipe entering main exit tube, discharge from main exit tube, because main exit tube and main pipe all are the loudspeaker form, the two is connected the tee bend and is constituted a structure similar to venturi tube, produce the negative pressure in the three-way pipe, the negative pressure is with the dry ice in the storage unit through vice pipe suction three-way pipe of advancing, mix the back with the cleaner and spout from main exit tube.

As a further optimization of the invention, the storage unit is a funnel, and an outlet of the funnel is connected with the secondary inlet pipe.

As a further optimized scheme of the present invention, the high temperature heating unit is a heating box, a heater is arranged inside the heating box, and openings corresponding to the mixing and spraying units are arranged on both sides of the heating box for the mixture sprayed by the mixing and spraying units to pass through.

As a further preferable aspect of the present invention, an opening of the heating box on a side close to the mixing and ejecting unit is smaller than an opening on a side close to the vertical flow mechanism.

As a further optimization scheme of the invention, the internal temperature of the high-temperature heating unit is 200 ℃.

A cleaning method of leather fabric down jacket cleaning equipment comprises the following steps:

step S1, adding dry ice into a storage unit of the mixing and spraying unit;

s2, conveying a cleaning agent to the mixing and spraying unit, and mixing the cleaning agent with the dry ice in the storage unit to form a mixture for spraying;

the mixture sprayed by the mixing and spraying unit in the steps S3 and S2 passes through the high-temperature heating unit, the dry ice is completely gasified, and the cleaning agent jet flow containing the microbubbles is formed and is sprayed out of the high-temperature heating unit;

s4, the jet flow of the cleaning agent ejected in the step S3 reaches the surface of the down jacket on the clothes rack of the vertical flow mechanism, and the surface of the down jacket is cleaned; after the cleaning, the air outlet of the air box of the vertical flow mechanism is used for discharging air downwards to remove the cleaning agent on the surface of the down jacket.

As a further optimized scheme of the invention, the cleaning agent comprises the following components in parts by weight:

15-25 parts of neat's foot oil, 5-10 parts of methyl benzoate, 0.5-3 parts of lipase, 10-12 parts of modified silicone oil, 3-6 parts of pine needle essential oil, 10-15 parts of plant-extracted eucalyptus oil, 25-40 parts of isopropanol, 3-5 parts of dodecyl dimethyl benzyl chloride, 3-8 parts of sodium metasilicate pentahydrate, 5-12 parts of benzoic acid, 7-9 parts of an animal collagen composition, 4-5 parts of 13-butanediol, 0.02-0.04 part of a polypeptide composition, 2-3 parts of hyaluronic acid and 2-3 parts of a surfactant.

As a further optimization scheme of the invention, the animal collagen composition is a composition of fish collagen and ossein, and the ratio of the fish collagen to the bone collagen is as follows: 1-3: 3-5.

The collagen has strong ability of absorbing water around the environment; the unique triple-helical structure of the ossein and the hydrophilic groups in collagen molecules avoid excessive water from permeating into the leather fabric of the down jacket. The composition of the fish collagen and the ossein protein is adopted, and the effect of the ossein protein can be realized through reasonable proportion, and the increase of the ossein protein to the viscosity of the cleaning agent can be reduced.

As a further optimization scheme of the invention, the polypeptide composition comprises hexapeptide-8 and dipeptide-3, and the proportion is that the hexapeptide-8: dipeptide-3 ═ 1-3: 1-3. The polypeptide composition can better permeate into the dermal fabric by matching with the oil component in the cleaning agent, so as to maintain the dermal fabric.

The invention has the beneficial effects that:

1) the invention cleans the surface of the leather down jacket in a jet flow mode, does not damage the leather fabric, has no contact of any mechanical structure with the leather fabric, and has no mechanical damage and scratch;

2) the device provided by the invention can be matched with a special cleaning agent, and micro bubbles generated by dry ice gasification in the cleaning process can play an effect equivalent to foaming without adding a foaming agent.

Drawings

FIG. 1 is a schematic structural diagram of the present invention in accordance with one embodiment;

FIG. 2 is a schematic structural view of a mixing and injecting unit according to the first embodiment of the present invention;

FIG. 3 is a flow chart of the cleaning process of the present invention according to one embodiment.

In the figure: the device comprises a mixing and spraying unit 100, a high-temperature heating unit 200, a vertical flow mechanism 300, a three-way pipe 101, a main inlet pipe 102, a main outlet pipe 103, an auxiliary inlet pipe 104, a storage unit 105, a heating box 201, a clothes hanger 301 and a wind box 302.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example one

As shown in fig. 1-2, a leather fabric down jacket cleaning device comprises a mixed injection unit 100, a high-temperature heating unit 200 and a vertical flow mechanism 300, wherein the high-temperature heating unit 200 is arranged between the mixed injection unit 100 and the vertical flow mechanism 300, the vertical flow mechanism 300 comprises a clothes hanger 301 and an air box 302 above the clothes hanger 301, and the bottom of the air box 302 is provided with a strip-shaped air port;

the mixed spraying unit 100 mixes the cleaning agent and the dry ice to form a mixture, the mixture is sprayed out, the sprayed mixture passes through the high-temperature heating unit 200 to reach the vertical flow mechanism 300, the down jacket on the vertical flow mechanism 300 is sprayed, and the cleaning agent on the down jacket is blown down along the surface of the down jacket by wind power discharged from an air port of the vertical flow mechanism 300 and separated from the down jacket.

As shown in the figure, the mixed injection unit 100 includes a three-way pipe 101, a main inlet pipe 102, a main outlet pipe 103, an auxiliary inlet pipe 104 and a storage unit 105, the three-way pipe 101 is provided with a main inlet, an auxiliary inlet and a main outlet, wherein the main inlet and the auxiliary inlet are located on the same horizontal axis, the main inlet is connected with the outlet of the main inlet pipe 102, the main outlet is connected with the inlet of the main outlet pipe 103, the auxiliary inlet is connected with the outlet of the auxiliary inlet pipe 104, and the inlet of the auxiliary inlet pipe 104 is connected with the storage unit 105;

the main inlet pipe 102 and the main outlet pipe 103 are both in a horn shape, and the calibers of the main inlet pipe 102 and the main outlet pipe 103 are gradually increased from one end close to the three-way pipe 101 to one end far away from the three-way pipe 101. The inlet of the main inlet pipe 102 is connected with the outlet of the pump through a pipeline, the inlet of the pump is connected with a cleaning agent supply pipe, the cleaning agent is pumped into the main inlet pipe 102 by the pump, enters the three-way pipe 101 from the main inlet pipe 102, enters the main outlet pipe 103 from the three-way pipe 101, and is discharged from the main outlet pipe 103, the main outlet pipe 103 and the main inlet pipe 102 are both in a horn shape, the main outlet pipe 103 and the main inlet pipe are connected with the three-way pipe to form a structure similar to a venturi tube, negative pressure is generated in the three-way pipe 101, the dry ice in the storage unit 105 is pumped into the three-way pipe 101 through the auxiliary inlet pipe 104 by the negative.

Preferably, the storage unit 105 is a funnel, the outlet of which is connected to the secondary inlet pipe 104.

Preferably, a refrigeration device is provided on the storage unit 105. Keeping the internal temperature low.

The high temperature heating unit 200 is a heating box 201, a heater is provided inside the heating box 201, and openings corresponding to the mixing and spraying units 100 are provided at both sides of the heating box 201, through which the mixture sprayed by the mixing and spraying units 100 passes.

Preferably, the opening of the heating box 201 on the side close to the mixing and spraying unit 100 is smaller than the opening on the side close to the vertical flow mechanism 300. The ratio is about 1: 6.

Preferably, the opening of the heating box 201 is circular.

Preferably, an opening of the heating box 201 near one side of the mixing and spraying unit 100 is connected with an outlet of the mixing and spraying unit 100.

Preferably, the internal temperature of the high temperature heating unit 200 is 200 ℃.

The inside heating through the heater of heating case 201 produces a high temperature region, make the thing that jets out of mixed injection unit 100 pass through the high temperature region heating, the result of heating is because the existence of dry ice, the dry ice gasification absorbs a large amount of heats and passes the high temperature region for a short time and can not cause the loss to cleaner activity, simultaneously dry ice is the blowout after mixing with the cleaner in advance, can carry out good dispersion to the cleaner in gasification, and form a large amount of microbubble, the cleaner that contains a large amount of microbubbles produces the effect and washs the genuine leather surface fabric after spouting on the down coat, wash on the one hand through the cleaning performance of cleaner itself, on the other hand through the kinetic energy that the fracture of microbubble produced at the surface fabric production mechanical action, cooperate the cleaner to reach a better cleaning performance.

As shown in fig. 3, a method for cleaning a leather fabric down jacket includes the following steps:

step S1, adding dry ice to the storage unit 105 of the mix spray unit 100; the dry ice added is in the form of particles with a particle size of about 0.5 cm.

Step S2, delivering a cleaning agent to the mixing and spraying unit 100, mixing the cleaning agent with the dry ice in the storage unit 105 to form a mixture, and spraying the mixture;

the mixture sprayed from the mixing and spraying unit 100 in steps S3 and S2 passes through the high temperature heating unit 200, the dry ice is completely gasified, and the cleaning agent jet flow containing the micro bubbles is formed and is ejected from the high temperature heating unit 200;

the cleaning agent jet flow ejected in the step S4 and the step S3 reaches the surface of the down jacket on the clothes rack 301 of the vertical flow mechanism 300, and the surface of the down jacket is cleaned; after cleaning, the air outlet of the air box 302 of the vertical flow mechanism 300 blows air downwards to remove the cleaning agent on the surface of the down jacket.

Example two

The invention provides a cleaning agent applied to cleaning equipment for leather fabric down jackets, which comprises the following components in parts by weight:

the feed additive comprises 15 parts of neatsfoot oil, 5 parts of methyl benzoate, 0.5 part of lipase, 10 parts of modified silicone oil, 3 parts of pine needle essential oil, 10 parts of plant-extracted eucalyptus oil, 25 parts of isopropanol, 3 parts of dodecyl dimethyl benzyl chloride, 3 parts of sodium metasilicate pentahydrate, 5 parts of benzoic acid, 7 parts of an animal collagen composition, 4 parts of 13-butanediol, 0.02 part of a polypeptide composition, 2 parts of hyaluronic acid and 2 parts of a surfactant.

The animal collagen composition is a composition of fish collagen and ossein, and the mixture ratio of the fish collagen is that the fish collagen: 1-3: 3-5.

The polypeptide composition comprises hexapeptide-8 and dipeptide-3, and the mixture ratio of the hexapeptide-8: dipeptide-3 ═ 1-3: 1-3. The polypeptide composition can better permeate into the dermal fabric by matching with the oil component in the cleaning agent, so as to maintain the dermal fabric.

Preferably, the surfactant is sodium stearate.

EXAMPLE III

the feed additive comprises cow-foot oil 19, methyl benzoate 6, lipase 1, modified silicone oil 11, pine needle essential oil 4, plant-extracted eucalyptus oil 13, isopropanol 30, dodecyl dimethyl benzyl chloride 3, sodium metasilicate pentahydrate 3, benzoic acid 6, an animal collagen composition 7, 13-butanediol 4, a polypeptide composition 0.02, hyaluronic acid 2 and a surfactant 2.

Example four

20 parts of neatsfoot oil, 8 parts of methyl benzoate, 2 parts of lipase, 11 parts of modified silicone oil, 5 parts of pine needle essential oil, 12 parts of plant-extracted eucalyptus oil, 35 parts of isopropanol, 4 parts of dodecyl dimethyl benzyl chloride, 6 parts of sodium metasilicate pentahydrate, 9 parts of benzoic acid, 8 parts of an animal collagen composition, 4.5 parts of 13-butanediol, 0.03 part of a polypeptide composition, 3 parts of hyaluronic acid and 3 parts of a surfactant.

EXAMPLE five

25 parts of neat's foot oil, 10 parts of methyl benzoate, 3 parts of lipase, 12 parts of modified silicone oil, 6 parts of pine needle essential oil, 15 parts of plant-extracted eucalyptus oil, 40 parts of isopropanol, 5 parts of dodecyl dimethyl benzyl chloride, 8 parts of sodium metasilicate pentahydrate, 12 parts of benzoic acid, 9 parts of an animal collagen composition, 5 parts of 13-butanediol, 0.04 part of a polypeptide composition, 3 parts of hyaluronic acid and 3 parts of a surfactant.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims

1. The utility model provides a genuine leather surface fabric down coat cleaning equipment which characterized in that: the device comprises a mixed injection unit, a high-temperature heating unit and a vertical flow mechanism, wherein the high-temperature heating unit is arranged between the mixed injection unit and the vertical flow mechanism, the vertical flow mechanism comprises a clothes hanger and an air box above the clothes hanger, and the bottom of the air box is provided with a strip-shaped air port;

2. The leather fabric down jacket cleaning device as claimed in claim 1, wherein: the mixed injection unit comprises a three-way pipe, a main inlet pipe, a main outlet pipe, an auxiliary inlet pipe and a storage unit, wherein the three-way pipe is provided with a main inlet, an auxiliary inlet and a main outlet, the main inlet and the auxiliary inlet are positioned on the same horizontal axis, the main inlet is connected with the outlet of the main inlet pipe, the main outlet is connected with the inlet of the main outlet pipe, the auxiliary inlet is connected with the outlet of the auxiliary inlet pipe, and the inlet of the auxiliary inlet pipe is connected with the storage unit;

the main inlet pipe and the main outlet pipe are both horn-shaped, and the calibers of the main inlet pipe and the main outlet pipe are gradually increased from one end close to the three-way pipe to one end far away from the three-way pipe.

3. The leather fabric down jacket cleaning device as claimed in claim 1, wherein: the storage unit is a funnel, and an outlet of the funnel is connected with an auxiliary inlet pipe.

4. The leather fabric down jacket cleaning device as claimed in claim 1, wherein: the high-temperature heating unit is a heating box, a heater is arranged in the heating box, openings corresponding to the mixing and spraying units are arranged on two sides of the heating box, and a mixture sprayed by the mixing and spraying units passes through the openings.

5. The leather fabric down jacket cleaning device as claimed in claim 1, wherein: the opening of the heating box close to one side of the mixing and spraying unit is smaller than the opening of the heating box close to one side of the vertical flow mechanism.

6. The leather fabric down jacket cleaning device as claimed in claim 1, wherein: the internal temperature of the high-temperature heating unit is 200 ℃.

7. A cleaning method of leather fabric down jacket cleaning equipment as claimed in any one of claims 1 to 6, characterized in that: the method comprises the following steps:

step S1, adding dry ice into a storage unit of the mixing and spraying unit;

8. The cleaning method of the leather fabric down jacket cleaning equipment as claimed in claim 7, wherein the cleaning method comprises the following steps: the cleaning agent comprises the following components in parts by weight:

9. The cleaning method of the leather fabric down jacket cleaning equipment as claimed in claim 8, wherein the cleaning method comprises the following steps: the animal collagen composition is a composition of fish collagen and bone collagen, and the mixture ratio of the fish collagen to the bone collagen is as follows: 1-3: 3-5.

10. The cleaning method of the leather fabric down jacket cleaning equipment as claimed in claim 8, wherein the cleaning method comprises the following steps: the polypeptide composition comprises hexapeptide-8 and dipeptide-3, and the mixture ratio of the hexapeptide-8: dipeptide-3 ═ 1-3: 1-3.