CN216090243U - Hand cleaning and nursing base station arranged in ceramic factory - Google Patents

Abstract

The utility model discloses a hand cleaning and nursing base station arranged in a ceramic factory, which comprises a hand washing machine, a hand cleaning and nursing base station control module and a hand cleaning and nursing base station control module, wherein the hand washing machine comprises a first shell, a massage nozzle and a drying piece; the massage nozzle is positioned on the side wall of the upper cavity of the first shell, and the drying piece is positioned in the lower cavity of the first shell; the base station trunk assembly comprises a second shell and an electrolytic cell, wherein the electrolytic cell is positioned in the second shell and communicated with the upper chamber; the utility model is arranged in a hand cleaning and nursing base station of a ceramic factory, and chemical residues left by hands of workers in the operation of the ceramic factory are processed and neutralized through an arranged electrolytic cell; meanwhile, the water yield and the pressure of the massage nozzle are controlled through circuit connection to carry out certain relieving massage on the hands of workers; and finally, hand drying treatment is carried out through the drying piece, the integrated washing and protecting function is completed, the size occupies a small area, and multiple rows of the washing and protecting device can be arranged in a factory.

Description

Hand cleaning and nursing base station arranged in ceramic factory

Technical Field

The utility model relates to a hand cleaning and nursing technology, in particular to a hand cleaning and nursing base station arranged in a ceramic factory.

Background

The production of domestic main ceramic daily necessities is finished in Yixing city of Jiangsu province, and the production line of a ceramic factory is mostly composed of a raw material workshop, an injection molding workshop, a glazing workshop, a sintering workshop and a sorting workshop. During the whole production process of ceramic daily necessities, workers can be exposed to a great deal of chemically corrosive liquid such as mud, glaze water, paint and the like, and a great deal of mechanical object operation is carried out, and hands of the workers are more or less subjected to occupational invasion. There are no products or facilities in the domestic factory production line that provide clean care for the health of workers' hands. Workers only clean hands through a traditional integrated type wash basin facility, and special chemical residues on the hands of the workers cannot be treated; the cleaning efficiency is low, cleaning is finished only in a flushing mode, and hands of workers cannot be nursed and massaged; drying after cleaning cannot be carried out; the sanitation degree is poor, and a large amount of water scale and raw material sediment exist in the hand washing table in the factory. The above problems become a key technical problem to be solved in the art.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments, and in this section as well as in the abstract and the title of the application, some simplifications or omissions may be made to avoid obscuring the purpose of this section, the abstract and the title of the application, and such simplifications or omissions are not intended to limit the scope of the utility model.

The present invention has been made keeping in mind the above problems occurring in the prior art and/or the problems occurring in the prior art.

Therefore, the technical problem to be solved by the utility model is that the existing wash basin can not treat the special chemical residues on the hands of workers; the cleaning efficiency is low, cleaning is finished only in a flushing mode, and hands of workers cannot be cleaned, nursed and massaged; the problem that drying can not be carried out after cleaning.

In order to solve the technical problems, the utility model provides the following technical scheme: a hand cleaning and nursing base station set up in a ceramic factory comprises,

the hand washing machine comprises a first shell, a massage nozzle and a drying piece; the massage nozzle is positioned on the side wall of the upper cavity of the first shell, and the drying piece is positioned in the lower cavity of the first shell;

the base station body assembly comprises a second shell and an electrolytic cell, wherein the electrolytic cell is positioned in the second shell and communicated with the upper chamber.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: the second shell is provided with a knob, a valve is arranged in the massage nozzle, and the knob is connected with the valve through a circuit.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: the drying part comprises a motor fan and a first infrared sensor, the motor fan is located in a lower cavity of the first shell, and the first infrared sensor is located at the bottom of the lower cavity.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: the electrolytic cell comprises an anode electrode, a cathode electrode and a supporting plate, wherein the anode electrode and the cathode electrode are fixedly connected inside the electrolytic cell through the supporting plate, and electrolyte is stored inside the electrolytic cell.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: the electrolyte is dilute salt water or dilute hydrochloric acid solution.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: and a water discharging piece is arranged in the second shell.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: the drainage piece comprises a water inlet pipe, a water storage pipe and a sewage pipe;

the top of the water inlet pipe is connected to the bottom of the electrolytic cell;

the two ends of the water storage pipe are respectively connected between the upper cavity and the electrolytic cell;

and two ends of the sewage pipe are respectively connected into the upper cavity and the bottom cavity of the second shell.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: and a second infrared sensor is arranged on the side wall of the upper chamber of the first shell.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: and a filter element is arranged in the middle of the top of the bottom cavity.

As a preferred aspect of the hand cleaning nursing base station installed in the ceramic factory according to the present invention, wherein: the back of the first shell is connected with a buckle; the surface of the second shell is connected with an upper clamping groove and a lower clamping groove.

The utility model has the beneficial effects that: the hand cleaning and nursing base station arranged in the ceramic factory can electrolyze salt and water raw materials by using the positive and negative electrodes through the arranged electrolytic cell to obtain slightly acidic electrolytic water, and the chemical residues left by the hands of workers in the operation of the ceramic factory are treated and neutralized in the cleaning process; meanwhile, the water yield and the pressure of the massage nozzle are controlled through circuit connection to carry out certain relieving massage on the hands of workers; finally, hand drying treatment is carried out through the drying piece, and an integrated washing and protecting function is completed; the hand cleaning and nursing base station arranged in the ceramic factory is connected to the water pipe system of the factory, and water inlet and water discharge are respectively carried out through the two pipelines, so that the sanitation degree is high. The structure and the appearance occupy small area, and can be arranged in a factory in multiple rows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is a schematic diagram of an overall structure of a hand cleaning and nursing base station installed in a ceramic factory according to the present invention;

FIG. 2 is an electrical schematic diagram of a second embodiment of a hand cleaning and care base station installed in a ceramic factory according to the present invention;

FIG. 3 is a schematic cross-sectional view of a hand washing unit installed in a hand cleaning and nursing station of a ceramic factory according to the present invention;

FIG. 4 is a schematic cross-sectional view of an electrolytic cell of a hand cleaning and nursing base station installed in a ceramic factory according to the present invention;

FIG. 5 is a schematic diagram of an overall cross-sectional side view of a hand cleaning and nursing base station installed in a ceramic factory according to the present invention;

fig. 6 is a schematic sectional view of a base station body assembly of a hand cleaning and nursing base station installed in a ceramic factory according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, wherein the cross-sectional views illustrating the structure of the device are not enlarged partially according to the general scale for convenience of illustration when describing the embodiments of the present invention, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 3, the present embodiment provides a hand cleaning and nursing base station installed in a ceramic factory, which includes a hand washing machine 100 including a first housing 101, a massage nozzle 102, and a drying element 103; the massage nozzle 102 is positioned on the side wall of the upper chamber 104 of the first shell 101, and the drying part 103 is positioned in the lower chamber 105 of the first shell 101;

the base station trunk assembly 200 comprises a second shell 201 and an electrolytic cell 202, wherein the electrolytic cell 202 is positioned in the second shell 201, and the electrolytic cell 202 is communicated with the upper chamber 104.

It should be noted that the massage nozzles 102 are fixed on the side wall of the upper chamber 104 of the first casing 101, specifically, the first casing 101 is divided into an upper chamber and a lower chamber, the top of the first casing 101 is an open hollow casing structure, the massage nozzles may be square in structure, and the number of the massage nozzles is several, and the massage nozzles are arranged on the side wall of the upper chamber 104 in three rows.

It should be noted that the drying element is fixed in the lower chamber 105 of the first casing 101, specifically, the bottom of the lower chamber 105 is arranged with an air outlet, and the drying element is mainly used for drying the moisture of the hand when in use.

It should be noted that the electrolytic cell 202 is fixed to the upper internal end of the second casing 201, in particular, the electrolytic cell 202 is located at a height higher than that of the hand-washing machine 100, facilitating the flow of water into the upper chamber 104. When the device is used, the water pump at the lower part of the electrolytic cell 202 firstly pumps water flow into the electrolytic cell 202, and the electrolytic cell device electrolyzes the salt and water raw materials by using the positive electrode and the negative electrode to obtain slightly acidic electrolyzed water. In 2002, 6 months, the Ministry of health and labor in Japan recognizes that the slightly acidic electrolyzed water is a usable food additive and is widely applied in China such as Japan and Korea at present, compared with other chemical bactericides, the slightly acidic electrolyzed water has the function of quickly and broadly killing microorganisms and is harmless to the health and the environment of a human body, and the slightly acidic electrolyzed water is used as cleaning liquid flowing into a hand washing machine to ensure that the slightly acidic electrolyzed water has the functions of disinfecting the hands of workers, neutralizing acid and alkali (most of mud is alkaline) and removing heavy metal ion residues.

It should be noted that the second casing 201 serves as a support body of the hand cleaning and nursing base station, the bottom end of the second casing is fixedly connected to the ground, and the hand washing member 100 is fixedly connected to one side of the second casing. The hand washing unit 100 integrates cleaning, massaging and drying functions.

Example 2

Referring to fig. 3, the difference between the present embodiment and the previous embodiment is that a hand cleaning and nursing base station installed in a ceramic factory includes a hand washing machine 100, which includes a first housing 101, a massage nozzle 102, and a drying unit 103; the massage nozzle 102 is positioned on the side wall of the upper chamber 104 of the first shell 101, and the drying part 103 is positioned in the lower chamber 105 of the first shell 101;

the base station trunk assembly 200 comprises a second shell 201 and an electrolytic cell 202, wherein the electrolytic cell 202 is positioned in the second shell 201, and the electrolytic cell 202 is communicated with the upper chamber 104.

Further, a knob 203 is provided on the second housing 201, a valve 102a is provided in the massage nozzle 102, and the knob 203 is electrically connected to the valve 102 a.

Further, the upper chamber 104 side wall of the first housing 101 is provided with a second infrared sensor 106.

It should be noted that the side wall of the upper chamber 104 is provided with a water inlet a and a water outlet b, which are respectively located at the upper end and the lower end of the massage nozzle 102, and a second infrared sensor 106 is arranged between the water inlet a and the massage nozzle 102.

It should be noted that a valve 102a is disposed in the massage nozzle 102 and is connected to the knob 203 of the second housing 201 through a circuit, and specifically, the valve may be a proportional butterfly valve.

During the use, both hands get into upper portion cavity 104, and second infrared sensor 106 starts, and water inlet a goes out water automatically, and clean nursing of automatic start: firstly, guiding a worker to soak for 30-60 s through a second shell top indicating screen c; during the soaking process, a plurality of pressure nozzles on the inner side of the water tank of the hand washing machine continuously spray water flows with different flow rates and pressures so as to complete the vibration of water waves, meanwhile, the massage nozzles can be controlled to spray water flows with different flow rates or pressures by rotating the knob 203 with hands, and the hand can be massaged by different flow rates; after soaking and massage are finished, sewage is automatically discharged through the water outlet b, and meanwhile, a new water flow is quickly sprayed from the water inlet a to wash and clean hands of workers; after the cleaning and nursing are completed, the hands are taken out, the water inlet operation is performed again after the second infrared sensor 106 senses the water, new electrolyte water is discharged through the water inlet a and stored in the upper chamber 104, and the upper chamber 104 is kept in a state that slightly acidic electrolyte water is contained inside for the next round or sudden use.

Example 3

Referring to fig. 4, the difference between the present embodiment and the previous embodiment is that a hand cleaning and nursing base station installed in a ceramic factory includes a hand washing machine 100, which includes a first housing 101, a massage nozzle 102, and a drying unit 103; the massage nozzle 102 is positioned on the side wall of the upper chamber 104 of the first shell 101, and the drying part 103 is positioned in the lower chamber 105 of the first shell 101;

the base station trunk assembly 200 comprises a second shell 201 and an electrolytic cell 202, wherein the electrolytic cell 202 is positioned in the second shell 201, and the electrolytic cell 202 is communicated with the upper chamber 104.

Further, the electrolytic cell 202 includes an anode electrode 202a, a cathode electrode 202b, and a support plate 202d, wherein the anode electrode 202a and the cathode electrode 202b are connected and fixed inside the electrolytic cell 202 by the support plate 202d, and the electrolyte 204 is stored inside the electrolytic cell 202.

Further, the electrolyte 204 is a dilute saline solution or a dilute hydrochloric acid solution.

It should be noted that the raw material box d is inserted into the upper end of the electrolytic cell 202, and when the salt or hydrochloric acid is consumed in the electrolytic cell, the raw material box d can be drawn out by a worker, and the raw material box d is inserted into the electrolytic cell 202 again after the salt is supplemented.

The support plate 202d is connected to the inside of the electrolytic cell 202, and circular holes are formed at both ends thereof to be engaged with the anode electrode 202a and the cathode electrode 202b, respectively, and the anode electrode 202a and the cathode electrode 202b are mounted on the support plate 202 d.

Note that the electrolyte 204 is a dilute saline solution or a dilute hydrochloric acid solution. The 'subacid electrolyzed water' is novel non-thermal sterilization technology developed in recent years, and is functional water with sterilization property, which is formed by electrolyzing a small amount of electric energy consumed by dilute salt water or dilute hydrochloric acid solution under the action of an electric field, wherein the sterilization depends on effective chlorine contained in the electrolyzed water, the pH value is close to neutral and is 5.0-6.5, the electrolyzed water in the pH range has the advantages that the effective chlorine almost completely exists in the form of hypochlorous acid molecules (HClO) with extremely strong sterilization effect, the sterilization capability of the electrolyzed water is 80-150 times of hypochlorite (ClO-), the sterilization capability is strong, and the electrolyzed water has the characteristics of low pH value, high oxidation reduction potential (ORp) and effective chlorine (ACC) with certain concentration.

Example 4

Referring to fig. 1 and 5, the present embodiment provides a hand cleaning and nursing base station installed in a ceramic factory, which includes a hand washing machine 100, including a first housing 101, a massage nozzle 102, and a drying element 103; the massage nozzle 102 is positioned on the side wall of the upper chamber 104 of the first shell 101, and the drying part 103 is positioned in the lower chamber 105 of the first shell 101;

the base station trunk assembly 200 comprises a second shell 201 and an electrolytic cell 202, wherein the electrolytic cell 202 is positioned in the second shell 201, and the electrolytic cell 202 is communicated with the upper chamber 104.

Further, the drying part 103 includes a motor fan 103a and a first infrared sensor 103c, the motor fan 103a is located in the lower chamber 105 of the first casing 101, and the first infrared sensor 103c is located at the bottom of the lower chamber 105.

The motor fan 103a is fixed to the middle inside the lower chamber 105 of the first casing, and the first infrared sensor is disposed outside the bottom of the lower chamber 105.

During the use, moist both hands stretch to the bottom of lower part cavity 105, and after the response of first infrared sensor 103c, through the operation of circuit automatic control motor fan, the bottom air outlet produces the stoving wind and dries to the hand.

Example 5

Referring to fig. 5 to 6, the embodiment provides a hand cleaning and nursing base station installed in a ceramic factory, which includes a hand washing machine 100 including a first housing 101, a massage nozzle 102, and a drying part 103; the massage nozzle 102 is positioned on the side wall of the upper chamber 104 of the first shell 101, and the drying part 103 is positioned in the lower chamber 105 of the first shell 101;

the base station trunk assembly 200 comprises a second shell 201 and an electrolytic cell 202, wherein the electrolytic cell 202 is positioned in the second shell 201, and the electrolytic cell 202 is communicated with the upper chamber 104.

Further, a drain 205 is provided in the second housing 201.

Furthermore, the drainage member 205 comprises a water inlet pipe 205a, a water storage pipe 205b and a sewage pipe 205 c;

the top of the water inlet pipe 203a is connected with the bottom of the electrolytic cell 202 and the upper chamber 104;

the two ends of the water storage pipe passage 203b are respectively connected between the upper chamber 102 and the electrolytic cell 202;

the two ends of the sewage pipe 203c are respectively connected to the upper chamber 104 and the bottom chamber 206 of the second housing (201).

It should be noted that, the second casing 201 is used as a base station support body and also includes water inlet and outlet functions, the water inlet pipe 205 is arranged at one side inside the second casing 201, one end f of the water inlet pipe is grounded to a factory water pipe system, the other end is respectively connected to the bottom of the electrolytic cell 202 and the upper chamber 104, and when in use, water flow is pumped into the electrolytic cell 202 for electrolysis; in the last step of washing and protecting, the water flow is pumped and directly and quickly sprays new water flow through the water inlet a to wash and clean the hands of workers.

It should be noted that the two ends of the water-collecting tube 203b are connected between the upper chamber 102 and the electrolytic cell 202, and when in use, the electrolyte 204 flows directly from the electrolytic cell 202 through the water-collecting tube 203b to be stored in the upper chamber 104, specifically, the water-collecting tube is in a square flat structure.

Further, a filter element 207 is disposed in the middle of the top of the bottom chamber 206.

It should be noted that the waste water pipe 203c is disposed inside the second casing 201, is located at the other side of the water inlet pipe 203a, and has two ends respectively connected to the upper chamber 104 and the bottom chamber 206 of the second casing 201, when in use, waste water is discharged into the waste water pipe 203c through the water outlet b of the upper chamber 104, flows into the bottom chamber 206 of the second casing 201, is filtered by the filter element, and is discharged through the drain outlet e.

Furthermore, a buckle 107 is connected to the back of the first shell 101; an upper card slot 208 and a lower card slot 209 are connected to the surface of the second housing 201.

It should be noted that the first casing 101 and the second casing 201 are connected in a snap manner, and specifically, the snap 107 is inserted into the space between the upper snap groove 208 and the lower snap groove 209 from the middle, so that the hand washing component 100 is fixed on one side of the second casing 201.

Claims (10)

1. The utility model provides a set up in clean nursing basic station of hand of ceramic factory which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the hand washing machine (100) comprises a first shell (101), a massage nozzle (102) and a drying piece (103); the massage nozzle (102) is positioned on the side wall of an upper chamber (104) of the first shell (101), and the drying part (103) is positioned in a lower chamber (105) of the first shell (101);

a base station torso assembly (200) comprising a second housing (201), an electrolytic cell (202), said electrolytic cell (202) being located inside said second housing (201), said electrolytic cell (202) being in communication with an upper chamber (104).

2. The hand cleaning nursing base station set up in ceramic factory according to claim 1, characterized in that: a knob (203) is arranged on the second shell (201), a valve (102a) is arranged in the massage nozzle (102), and the knob (203) is connected with the valve (102a) through a circuit.

3. The hand cleaning nursing base station set up in ceramic factory according to claim 2, characterized in that: the drying part (103) comprises a motor fan (103a) and a first infrared sensor (103c), wherein the motor fan (103a) is positioned in a lower chamber (105) of the first shell (101), and the first infrared sensor (103c) is positioned at the bottom of the lower chamber (105).

4. The hand cleaning nursing base station set up in ceramic factory according to claim 3, characterized in that: the electrolytic cell (202) comprises an anode electrode (202a), a cathode electrode (202b) and a support plate (202d), wherein the anode electrode (202a) and the cathode electrode (202b) are fixedly connected inside the electrolytic cell (202) through the support plate (202d), and an electrolyte (204) is stored inside the electrolytic cell (202).

5. The hand cleaning nursing base station set up in ceramic factory according to claim 4, characterized in that: the electrolyte (204) is dilute salt water or dilute hydrochloric acid solution.

6. The hand cleaning nursing base station set up in ceramic factory according to claim 5, characterized in that: be provided with drain (205) in second casing (201), drain (205) include water inlet pipe expert (205a), water inlet pipe expert (205a) top connect in electrolytic cell (202) bottom with upper portion cavity (104).

7. The hand cleaning nursing base station set up in ceramic factory according to claim 6, characterized in that: the drainage piece (205) further comprises a water inlet pipe passage (205a), a water storage pipe passage (205b) and a sewage pipe passage (205 c); the two ends of the water storage pipe through (205b) are respectively connected between the upper chamber (104) and the electrolytic cell (202);

two ends of the sewage pipe (205c) are respectively connected to the upper chamber (104) and the bottom chamber (206) of the second shell (201).

8. The hand cleaning nursing base station set up in ceramic factory according to claim 7, characterized in that: and a second infrared sensor (106) is arranged on the side wall of the upper chamber (104) of the first shell (101).

9. The hand cleaning nursing base station set up in ceramic factory according to claim 8, characterized in that: a filter element (207) is arranged in the middle of the top of the bottom chamber (206).

10. The hand cleaning nursing base station set up in ceramic factory according to claim 9, characterized in that: the back of the first shell (101) is connected with a buckle (107); an upper clamping groove (208) is formed in the top of the surface of the second shell (201), and a lower clamping groove (209) is formed in the bottom of the surface of the second shell (201).

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