CN217887793U - Biological hand disinfection exempts from compounding device for hydrogel processing - Google Patents

Abstract

The utility model relates to a hydrogel technical field is exempted from in hand disinfection, and discloses a biological hand disinfection exempts from compounding device for hydrogel processing, including main part mechanism, defoaming mechanism and mixing mechanism, defoaming mechanism is located the inside lower extreme of main part mechanism, mixing mechanism is located the inside upper end of main part mechanism, main part mechanism includes jar body, bottom plate, supporting leg, inlet pipe, discharging pipe, solenoid valve one, mixes inner tank, defoaming inner tank and control panel, bottom plate fixed mounting is at the lower extreme of the jar body. This biological hand disinfection exempts from compounding device for hydrogel processing can take out the inside air of defoaming inner tank through installation evacuation pump, makes its inside vacuum state that is to this bubble with in the gel is eliminated, and the vibrting spear shakes in the inside of gel simultaneously, utilizes the vibrations of its production to eliminate the bubble of gel inside, has avoided the gel because of stirring inside bubble appearance, causes the influence to the processing in later stage.

Description

Biological hand disinfection exempts from compounding device for hydrogel processing

Technical Field

The utility model relates to a hydrogel technical field is exempted from in hand disinfection specifically is a biological hand disinfection exempts from compounding device for hydrogel processing.

Background

The hand disinfection hydrogel is a hand disinfection gel, which takes trichloro-hydroxyl diphenyl ether, ethanol and a skin care agent as main components, is generally transparent, can kill hand pathogenic bacteria without washing hands with water, different raw materials of the hand disinfection hydrogel need to be mixed when the hand disinfection hydrogel is processed, but a large amount of bubbles can appear in the gel after the gel is mixed, the bubbles in the gel are easy to influence subsequent production when the gel is subpackaged in subsequent production, and the gel is often required to be taken out after mixing and stirring to eliminate the bubbles in the gel, so that the operation is complicated and inconvenient.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a biological hand disinfection exempts from compounding device for hydrogel processing to propose in solving above-mentioned background art nevertheless after the gel mixes, a large amount of bubbles can appear in its inside, when subcontracting in follow-up production, its inside bubble causes the influence to subsequent production easily, often need take out the gel after mixing the stirring and eliminate the inside bubble of gel, operate comparatively loaded down with trivial details, and comparatively inconvenient problem.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a biological hand disinfection exempts from compounding device for hydrogel processing, includes main part mechanism, defoaming mechanism and mixing mechanism, defoaming mechanism is located the inside lower extreme of main part mechanism, mixing mechanism is located the inside upper end of main part mechanism, main part mechanism includes a jar body, bottom plate, supporting leg, inlet pipe, discharging pipe, solenoid valve one, mixes inner tank, defoaming inner tank and control panel, bottom plate fixed mounting is at the lower extreme of the jar body, supporting leg fixed mounting is at the lower extreme of bottom plate, inlet pipe fixed mounting is at the both ends about jar body upper end, discharging pipe fixed mounting is at the lower extreme of bottom plate, the upper end and the jar body fixed intercommunication of discharging pipe, a solenoid valve fixed mounting is at the middle part of discharging pipe, mix inner tank fixed mounting in the internal upper end of jar, defoaming inner tank fixed mounting is at the internal lower extreme of jar, control panel fixed mounting is at the front end of the jar body.

Preferably, defoaming mechanism includes evacuation pump, oscillator, vibrting spear, intake pipe, second solenoid valve and dust screen, evacuation pump fixed mounting is at the middle part of jar body left end, evacuation pump's right-hand member extends to the inside of defoaming inner tank, can take out the inside air of defoaming inner tank through installing evacuation pump, makes its inside be in vacuum state to this eliminates the bubble in the gel.

Preferably, both ends about oscillator fixed mounting is at the bottom plate lower extreme, the upper end of oscillator extends to the inside of defoaming inner tank, vibrting spear fixed mounting shakes in the inside of gel through installing the vibrting spear in the upper end of oscillator, utilizes the vibrations of its production to eliminate the inside bubble of gel, has avoided the gel because of stirring inside bubble appearance, causes the influence to the processing in later stage.

Preferably, intake pipe fixed mounting is at the middle part of jar body left end, the right-hand member of intake pipe extends to the inside of defoaming inner tank, two fixed mounting of solenoid valve are at the middle part of intake pipe, dust screen fixed mounting can intake the inside ejection of compact of being convenient for of defoaming inner tank through installing the intake pipe at the left end of intake pipe.

Preferably, mixing mechanism includes hybrid motor, puddler, electric plate, communicating pipe, solenoid valve three, refrigerator, refrigeration circulating pipe and leads the cold drawing, hybrid motor fixed mounting is in the upper end of the jar body, hybrid motor's transmission end extends to the inside of mixing the inner tank, puddler fixed mounting is in hybrid motor's transmission end, puddler fixed mounting is in the outer end of puddler, the puddler can drive the puddler through installation hybrid motor and rotate and mix the gel in the outer end evenly distributed of puddler.

Preferably, the electric heating plate is fixedly installed inside the stirring rod, the communicating pipe is fixedly installed in the middle of the mixing inner tank and the defoaming inner tank, the three electromagnetic valves are fixedly installed in the middle of the communicating pipe, and the gel can be heated when being mixed by the gel through the installation of the electric heating plate, so that the gel is at a proper temperature, and the mixing effect of the gel is improved.

Preferably, the refrigerator is fixedly installed at the upper end of the left end of the tank body, the refrigeration circulating pipe is fixedly installed at the outer end of the mixing inner tank, two ends of the refrigeration circulating pipe are fixedly connected with the refrigerator, the cold guide plate is fixedly installed at the inner end of the refrigeration circulating pipe, the control screen is electrically connected with the electromagnetic valve III, the refrigerator, the mixing motor, the electromagnetic valve II, the vacuum pumping pump, the oscillator, the electromagnetic valve I and the electric heating plate, the gel can be refrigerated by installing the refrigerator, and the gel is prevented from being locally overheated in the mixing process to influence the processing effect of the gel.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the mixing device for the biological hand disinfection hydrogel-free processing, air in the defoaming inner tank can be pumped out by installing the vacuum pump, so that the interior of the mixing device is in a vacuum state, bubbles in gel are eliminated, the vibrating rod vibrates in the gel, and the bubbles in the gel are eliminated by utilizing the vibration generated by the vibrating rod, so that the influence on the later processing caused by the bubbles in the gel due to stirring is avoided;

2. according to the mixing device for the biological hand disinfection hydrogel-free processing, the gel can be heated when being mixed by installing the electric heating plate, so that the gel is at a proper temperature, and the mixing effect of the gel is improved;

3. this biological hand disinfection exempts from compounding device for hydrogel processing can refrigerate gel through installing the refrigerator, avoids gel local overheat to appear at the in-process that mixes, influences the processing effect of gel.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic view of the structure of the refrigeration cycle tube with enlarged partial detail section;

FIG. 4 is a schematic view of the local detail enlarged cross-section structure of the intake tube of the present invention;

FIG. 5 is a schematic view of the three-dimensional structure of the vibrating rod of the present invention;

fig. 6 is a schematic diagram of the local detail enlarged cross-sectional structure of the mixing mechanism of the present invention.

In the figure: 1. a main body mechanism; 101. a tank body; 102. a base plate; 103. supporting legs; 104. a feed pipe; 105. a discharge pipe; 106. a first electromagnetic valve; 107. mixing the inner tank; 108. a defoaming inner tank; 109. a control screen; 2. a defoaming mechanism; 201. a vacuum pump is pumped; 202. an oscillator; 203. a vibrating rod; 204. an air inlet pipe; 205. a second electromagnetic valve; 206. a dust screen; 3. a mixing mechanism; 301. a hybrid motor; 302. a mixing rod; 303. a stirring rod; 304. an electric hot plate; 305. a communicating pipe; 306. a third electromagnetic valve; 307. a refrigerator; 308. a refrigeration circulating pipe; 309. and (4) conducting the cold plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a biological hand disinfection exempts from compounding device for hydrogel processing, including main body mechanism 1, defoaming mechanism 2 and mixing mechanism 3, defoaming mechanism 2 is located the inside lower extreme of main body mechanism 1, mixing mechanism 3 is located the inside upper end of main body mechanism 1, main body mechanism 1 includes jar body 101, bottom plate 102, supporting leg 103, inlet pipe 104, discharging pipe 105, solenoid valve 106, mix inner tank 107, defoaming inner tank 108 and control panel 109, bottom plate 102 fixed mounting is at the lower extreme of jar body 101, supporting leg 103 fixed mounting is at the lower extreme of bottom plate 102, inlet pipe 104 fixed mounting is at the left and right sides both ends of jar body 101 upper end, discharging pipe 105 fixed mounting is at the lower extreme of bottom plate 102, the upper end and jar body 101 fixed intercommunication of discharging pipe 105, solenoid valve 106 fixed mounting is in the middle part of discharging pipe 105, mix inner tank 107 fixed mounting is at the inside upper end of jar body 101, defoaming inner tank 108 fixed mounting is at the inside lower extreme of jar body 101, control panel 109 fixed mounting is at the front end of jar body 101.

The defoaming mechanism 2 comprises a vacuum pumping pump 201, an oscillator 202, a vibrating rod 203, an air inlet pipe 204, a second electromagnetic valve 205 and a dustproof net 206, the vacuum pumping pump 201 is fixedly installed in the middle of the left end of the tank body 101, the right end of the vacuum pumping pump 201 extends into the defoaming inner tank 108, the oscillator 202 is fixedly installed at the left end and the right end of the lower end of the bottom plate 102, the upper end of the oscillator 202 extends into the defoaming inner tank 108, the vibrating rod 203 is fixedly installed at the upper end of the oscillator 202, the air inlet pipe 204 is fixedly installed in the middle of the left end of the tank body 101, the right end of the air inlet pipe 204 extends into the defoaming inner tank 108, the second electromagnetic valve 205 is fixedly installed in the middle of the air inlet pipe 204, the dustproof net 206 is fixedly installed at the left end of the air inlet pipe 204, after raw materials are mixed, a third electromagnetic valve 306 is opened, the raw materials flow into the defoaming inner tank 108 through a communication pipe 305, after the mixed raw materials enter the defoaming inner tank 108, the vibrator 202 is started, the vibrating elimination is carried out to drive the vibrating rod 203 to vibrate and eliminate bubbles in the surface of the gel, then the vacuum pump 201 is started to enable the air in the defoaming inner tank 108, the defoaming inner tank to enter the defoaming inner tank 108, and then the gel discharging pipe 105, the gel is discharged outside of the defoaming inner tank 105, and the gel is discharged through the electromagnetic valve 105, and the defoaming inner tank 106, and the defoaming gel.

The mixing mechanism 3 comprises a mixing motor 301, a mixing rod 302, a stirring rod 303, an electric heating plate 304, a communication pipe 305, a third electromagnetic valve 306, a refrigerator 307, a refrigeration circulation pipe 308 and a cold guide plate 309, wherein the mixing motor 301 is fixedly arranged at the upper end of the tank body 101, the transmission end of the mixing motor 301 extends into the mixing inner tank 107, the mixing rod 302 is fixedly arranged at the transmission end of the mixing motor 301, the stirring rod 303 is fixedly arranged at the outer end of the mixing rod 302, the stirring rods 303 are uniformly distributed at the outer end of the mixing rod 302, the electric heating plate 304 is fixedly arranged in the stirring rod 303, the communication pipe 305 is fixedly arranged in the middle of the mixing inner tank 107 and the defoaming inner tank 108, the third electromagnetic valve 306 is fixedly arranged in the middle of the communication pipe 305, the refrigerator 307 is fixedly arranged at the upper end of the left end of the tank body 101, the refrigeration circulation pipe 308 is fixedly arranged at the outer end of the mixing inner tank 107, two ends of the refrigeration circulation pipe 308 are fixedly connected with the 307, the cold guide plate 309 is fixedly arranged at the inner end of the refrigeration circulation pipe 308, the control screen 109 and the third electromagnetic valve 306, the electromagnetic valve 307, the mixing motor 301, the vacuum pump 201, the oscillator 202, the first electromagnetic valve 304, the first electromagnetic valve 106 and the electric heating plate 105 are electrically connected with the mixing motor 107, then the mixing motor 301 is started to drive the mixing rod 302 to rotate, the mixing rod 302 drives the stirring rod 303 to rotate, the raw materials are mixed, and in the mixing process, when the raw materials need to be heated, the control screen 109 controls the electric heating plate 304 to be started, the mixed raw material is heated, and when the raw material needs to be cooled, the refrigerator 307 is started to circulate the refrigerant liquid inside the refrigerator to refrigerate inside the refrigeration circulating pipe 308, and is conducted into the interior of the mixing inner tank 107 through the cold conduction plate 309 to cool the raw material.

The working principle is as follows: when hand disinfection is carried out on hydrogel, firstly used materials are added into a mixing inner tank 107 through a discharge pipe 105, then a mixing motor 301 is started to drive a mixing rod 302 to rotate, the mixing rod 302 drives a stirring rod 303 to rotate, raw materials are mixed, in the mixing process, when the raw materials need to be heated, a control screen 109 controls an electric heating plate 304 to be started, the mixed raw materials are heated, when the raw materials need to be cooled, a refrigerator 307 is started to enable refrigerating fluid inside the refrigerator to circulate inside a refrigerating circulation pipe 308 to be refrigerated, the refrigerating fluid is conducted into the mixing inner tank 107 through a cold guide plate 309 to cool the raw materials, after the raw materials are mixed, a solenoid valve III 306 is started, the raw materials flow into the defoaming inner tank 108 through a communication pipe 305, after the mixed raw materials enter the defoaming inner tank 108, an oscillator 202 is started to drive a vibrating rod 203 to vibrate, bubbles in the gel are eliminated, the bubbles are suspended on the surface of the gel, then the air in the defoaming inner tank 108 is extracted through a suction pipe 201, the vacuum state of the inner tank 108 is kept in a vacuum state, the vacuum pump is started to eliminate the bubbles in the gel, and the inner tank 105 is exhausted outside through a defoaming solenoid valve 106, and the defoaming inner tank 108, and the vacuum pump is exhausted out the gel after the defoaming solenoid valve 205 is started.

It should be finally noted that the above only serves to illustrate the technical solution of the present invention, and not to limit the scope of the present invention, and that simple modifications or equivalent replacements performed by those skilled in the art to the technical solution of the present invention do not depart from the spirit and scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a biological hand disinfection exempts from compounding device for hydrogel processing, includes main body mechanism (1), defoaming mechanism (2) and mixing mechanism (3), its characterized in that: defoaming mechanism (2) are located the inside lower extreme of main part mechanism (1), mixing mechanism (3) are located the inside upper end of main part mechanism (1), main part mechanism (1) is including jar body (101), bottom plate (102), supporting leg (103), inlet pipe (104), discharging pipe (105), solenoid valve (106), mixed inner tank (107), defoaming inner tank (108) and control panel (109), bottom plate (102) fixed mounting is at the lower extreme of jar body (101), supporting leg (103) fixed mounting is at the lower extreme of bottom plate (102), both ends about inlet pipe (104) fixed mounting is in jar body (101) upper end, discharging pipe (105) fixed mounting is at the lower extreme of bottom plate (102), the upper end and the jar body (101) fixed intercommunication of discharging pipe (105), solenoid valve (106) fixed mounting is at the middle part of discharging pipe (105), mixed inner tank (107) fixed mounting is in the inside upper end of jar body (101), inner tank (108) fixed mounting is at the inside lower extreme of jar body (101), control panel (109) fixed mounting is at the front end of the jar body (101).

2. The mixing device for biological hand disinfection and hydrogel-free processing according to claim 1, characterized in that: defoaming mechanism (2) is including evacuation pump (201), oscillator (202), vibrting spear (203), intake pipe (204), two (205) of solenoid valve and dust screen (206), evacuation pump (201) fixed mounting is at the middle part of jar body (101) left end, the right-hand member of evacuation pump (201) extends to the inside of defoaming inner tank (108).

3. The mixing device for biological hand disinfection and hydrogel-free processing according to claim 2, characterized in that: the vibration device (202) is fixedly arranged at the left end and the right end of the lower end of the bottom plate (102), the upper end of the vibration device (202) extends into the inner defoaming tank (108), and the vibrating rod (203) is fixedly arranged at the upper end of the vibration device (202).

4. The mixing device for biological hand disinfection and hydrogel-free processing according to claim 3, characterized in that: intake pipe (204) fixed mounting is in the middle part of jar body (101) left end, the right-hand member of intake pipe (204) extends to the inside of defoaming inner tank (108), solenoid valve two (205) fixed mounting is in the middle part of intake pipe (204), dust screen (206) fixed mounting is in the left end of intake pipe (204).

5. The mixing device for biological hand disinfection and hydrogel-free processing according to claim 4, characterized in that: mixing mechanism (3) are including hybrid motor (301), puddler (302), puddler (303), electric hot plate (304), communicating pipe (305), three (306) solenoid valves, refrigerator (307), refrigeration cycle pipe (308) and lead cold plate (309), hybrid motor (301) fixed mounting is in the upper end of jar body (101), the transmission end of hybrid motor (301) extends to the inside of mixing inner tank (107), puddler (302) fixed mounting is at the transmission end of hybrid motor (301), puddler (303) fixed mounting is in the outer end of puddler (302), puddler (303) is in the outer end evenly distributed of puddler (302).

6. The mixing device for biological hand disinfection and hydrogel-free processing according to claim 5, characterized in that: the electric heating plate (304) is fixedly installed inside the stirring rod (303), the communicating pipe (305) is fixedly installed in the middle of the mixing inner tank (107) and the defoaming inner tank (108), and the electromagnetic valve III (306) is fixedly installed in the middle of the communicating pipe (305).

7. The mixing device for biological hand disinfection and hydrogel-free processing according to claim 6, characterized in that: the refrigerator (307) is fixedly installed at the upper end of the left end of the tank body (101), the refrigeration circulating pipe (308) is fixedly installed at the outer end of the mixing inner tank (107), two ends of the refrigeration circulating pipe (308) are fixedly connected with the refrigerator (307), the cold guide plate (309) is fixedly installed at the inner end of the refrigeration circulating pipe (308), and the control screen (109) is electrically connected with the electromagnetic valve III (306), the refrigerator (307), the mixing motor (301), the electromagnetic valve II (205), the vacuum pumping pump (201), the oscillator (202), the electromagnetic valve I (106) and the electric heating plate (304).

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