CN219128396U - Preparation facilities of biological antibacterial agent - Google Patents

Abstract

The utility model discloses a preparation device of a biological bacteriostat, and belongs to the technical field of biological bacteriostat equipment. The device comprises a stirring assembly, wherein the stirring assembly comprises a tank body, a first motor, a stirring piece and a liquid outlet pipe; one end of the tank body is provided with a liquid inlet and a feed inlet; the first motor is arranged at one end of the tank body provided with the liquid inlet; the output end of the first motor extends towards the inside of the tank body and is connected with the stirring piece; the liquid outlet pipe is communicated with one end of the tank body; the liquid outlet pipe is provided with a valve; the filter assembly comprises a box body, a supporting plate, an active carbon layer, a safety door and a liquid discharge pipe; the box body is communicated with the liquid outlet pipe; the side surface of the box body, which is close to one end of the liquid outlet pipe, is provided with an opening, and a corresponding opening of the safety door is arranged on the box body; the corresponding openings of the plurality of support plates are arranged on the inner wall of the box body; the active carbon layer is arranged on the supporting plate; the drain pipe is arranged at one end of the box body far away from the drain pipe. The utility model has simple structure and convenient disassembly, and can shorten the replacement time of the active carbon layer.

Description

Preparation facilities of biological antibacterial agent

Technical Field

The utility model belongs to the technical field of biological bacteriostat equipment, and particularly relates to a preparation device of a generator bacteriostat.

Background

The biological bacteriostat is used for inhibiting microorganism proliferation, and can be applied to food to prevent the food from being infected by bacteria or fungi so as to improve the shelf life of the food. The raw materials of the biological bacteriostat for food comprise solid raw materials and liquid raw materials, and the liquid raw materials and the solid raw materials are mixed and stirred through a preparation device during preparation. The utility model of patent publication No. CN212942474U, for example, discloses a preparation device of natural bacteriostat.

The device includes agitating unit, agitating unit upper end fixed mounting motor one, agitating unit upper end, motor one both sides fixed mounting inlet and feed inlet, motor lower extreme, agitating unit inner wall fixed mounting pivot one, a pivot outer wall demountable installation stirring leaf, agitating unit lower extreme demountable installation pipeline, pipeline inner wall fixed mounting valve, agitating unit lower extreme's inner wall fixed mounting blast apparatus, blast apparatus includes the air pump, the air pump can dismantle the connection intake pipe. Although the device can filter out the impurity after mixing, impurity filter layer is fixed mounting, can not dismantle, can cause the jam after long-term use, and the filter effect is poor, and whole device life is short, and the structure is comparatively complicated.

Disclosure of Invention

In order to solve the technical problems in the background art, the utility model provides a preparation device of a biological bacteriostatic agent, which has a simple structure and can replace a filtering part.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a device for preparing a biological bacteriostat, comprising: the stirring assembly comprises a tank body, a first motor, a stirring piece and a liquid outlet pipe; a liquid inlet and a feed inlet are formed in one end of the tank body; the first motor is arranged at one end of the tank body provided with a liquid inlet; the output end of the first motor extends towards the inside of the tank body and is connected with the stirring piece; the liquid outlet pipe is communicated with one end of the tank body, which is far away from the liquid inlet; the liquid outlet pipe is provided with a valve; the filter assembly comprises a box body, a supporting plate, an active carbon layer, a safety door and a liquid discharge pipe; the box body is communicated with the liquid outlet pipe; an opening is formed in the side face, close to one end of the liquid outlet pipe, of the box body, and the corresponding opening of the safety door is arranged on the box body; a plurality of supporting plates are arranged on the inner wall of the box body corresponding to the openings, so that supporting protrusions are formed on the inner wall of the box body; the activated carbon layer stretches into the box body through the opening and is placed on the supporting plate; the liquid discharge pipe is arranged at one end of the box body, which is far away from the liquid outlet pipe.

As a further improvement of the technical scheme, the box body and the activated carbon layer are both rectangular structures.

As a further improvement of the technical solution, the filter assembly further comprises a flow dividing plate; the splitter plate is arranged in the box body; the splitter plate is positioned between the activated carbon layer and the liquid outlet pipe.

As a further improvement of the technical scheme, the splitter plate is positioned right above the activated carbon layer; and a space is reserved between the bottom surface of the flow distribution plate and the top layer of the activated carbon layer.

As a further improvement of the technical scheme, a plurality of through holes are formed in the plate surface of the supporting plate.

As a further improvement of the technical scheme, the preparation device of the biological bacteriostat also comprises a grinding component; the grinding component is arranged at one end of the tank body provided with a feed inlet; the grinding assembly comprises a grinding box, a second motor, a grinding roller and a feeding hopper; the grinding box is communicated with the feed inlet; the two grinding rollers are rotatably arranged in the grinding box; the second motor is positioned at the outer side of the grinding box; the output end of the second motor faces to one grinding roller and is connected with the grinding roller; the two grinding rollers are in gear transmission connection; the feed hopper is connected with the top of the grinding box.

As a further improvement of the technical scheme, one end of the grinding roller is provided with a gear, and the two grinding rollers are driven by the gear; a baffle plate is arranged at one end of the grinding box, which is close to the gear; the partition plate divides the grinding box into two working cavities.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model has simple structure and convenient disassembly, and can shorten the replacement time of the active carbon layer; when the activated carbon layer is blocked, the safety door is opened, and the activated carbon layer is taken out and replaced, so that the filtering effect is ensured, the quality of the biological bacteriostat is improved, the service life of the whole device is prolonged, manufacturing resources are saved, and the production cost is reduced; meanwhile, the opening of the box body is corresponding to the active carbon layer and is of an equal rectangular structure, the opening size of the box body is larger than or equal to the cross section of the active carbon layer, the operation is simplified, the active carbon layer is convenient to place or take out, and the replacement time is shortened.

2. The supporting plate surface of the utility model is provided with a plurality of through holes, and the plurality of through holes are distributed in a rectangular array so as to facilitate the liquid medicine left in the gap between the active carbon layer and the box body to flow to the bottom of the box body better through the through holes.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a device for preparing a biological bacteriostat according to the present utility model;

FIG. 2 is an overall top view provided by the present utility model;

FIG. 3 is a cross-sectional view at A-A in FIG. 2;

FIG. 4 is a schematic view of the structure of the supporting plate and the case provided by the utility model;

FIG. 5 is a schematic view of a polishing assembly according to the present utility model;

reference numerals: the device comprises a stirring assembly, a 11-tank body, a 12-first motor, a 13-stirring piece, a 14-liquid outlet pipe, a 15-liquid inlet, a 16-feed inlet, a 17-valve, a 2-filtering assembly, a 21-box body, a 22-supporting plate, a 23-active carbon layer, a 24-safety door, a 25-liquid discharge pipe, a 26-splitter plate, a 3-grinding assembly, a 31-grinding box, a 32-second motor, a 33-grinding roller, a 34-feed hopper, a 35-gear and a 36-partition plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present utility model fall within the protection scope of the present utility model. Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs.

The terms "first," "second," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. Also, unless the context clearly indicates otherwise, singular forms "a," "an," or "the" and similar terms do not denote a limitation of quantity, but rather denote the presence of at least one. The terms "comprises," "comprising," or the like are intended to cover a feature, integer, step, operation, element, and/or component recited as being present in the element or article that "comprises" or "comprising" does not exclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. "up", "down", "left", "right" and the like are used only to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

Embodiment one:

as shown in fig. 1 to 5, a device for preparing a biological bacteriostatic agent, comprising: the stirring assembly 1, wherein the stirring assembly 1 comprises a tank 11, a first motor 12, a stirring piece 13 and a liquid outlet pipe 14; one end of the tank 11 is provided with a liquid inlet 15 and a feed inlet 16; the first motor 12 is arranged in the center of one end of the tank 11 provided with the liquid inlet 15; the output end of the first motor 12 extends towards the inside of the tank 11, penetrates through the tank 11 and is connected with the stirring piece 13 through a key slot or a spline, and the stirring piece 13 can be a helical blade for stirring or a stirring shaft is provided with a plurality of stirring rods; the liquid outlet pipe 14 is communicated with the center of one end of the tank 11 far away from the liquid inlet 15; the liquid outlet pipe 14 is provided with a valve 17, and the valve 17 can be an electromagnetic valve or a flow valve and the like; the filter assembly 2, the filter assembly 2 includes a box 21, a support plate 22, an activated carbon layer 23, a safety door 24 and a drain pipe 25; the top of the box body 21 is communicated with the liquid outlet pipe 14; an opening is formed in the side face, close to one end of the liquid outlet pipe 14, of the box body 21, a safety door 24 is hinged to the box body 21 corresponding to the opening and used for opening or closing the opening, and a sealing strip is arranged on the safety door 24 so as to seal the opening when the safety door 24 is closed and prevent liquid in the box body 21 from flowing out; the corresponding openings of the plurality of support plates 22 are arranged on the inner wall of the box body 21, the bottom surfaces of the support plates 22 and the openings are on the same horizontal plane, the width of the support plates 22 is smaller, the plurality of support plates 22 do not isolate the inner space of the box body 21, the plurality of support plates form support protrusions on the inner wall of the box body 21 and support the edges of the activated carbon layer 23; the active carbon layer 23 extends into the box body 21 through the opening, the edge of the active carbon layer 23 is placed on the supporting plate 22, the rest part is overhead in the box body 21, and the active carbon layer 23 is porous active carbon; the drain pipe 25 is provided on a side wall of the end of the tank 21 remote from the drain pipe 14. In addition, it should be noted that the specific type of the first motor and the valve is not an improvement of the present application, and the connection manner of the first motor and the stirring element is a conventional connection, which is not described in detail herein.

The working mode is as follows:

before the raw materials are injected into the tank 11, the valve 17 is closed, the liquid outlet pipe 14 is closed, the liquid raw materials and the solid raw materials are respectively injected into the tank 11 through the liquid inlet 15 and the feed inlet 16, the first motor 12 is started, the first motor 12 drives the stirring piece 13 to stir the liquid raw materials and the solid raw materials to form biological bacteriostatic agent liquid medicine, after the stirring is finished, the valve 17 is opened, the biological bacteriostatic agent liquid medicine flows into the tank 21 through the liquid outlet pipe 14, the liquid medicine enters the top of the tank 21 and flows downwards from top to bottom, solid impurities in the liquid medicine are adsorbed by the active carbon layer 23 and filtered, and the filtered liquid medicine is discharged out of the tank 21 through the liquid outlet pipe 25; when the activated carbon layer 23 is blocked, the safety door 24 is opened, and the activated carbon layer 23 is taken out and replaced, so that the filtering effect is ensured, the quality of the biological bacteriostat is improved, the service life of the whole device is prolonged, the manufacturing resources are saved, and the production cost is reduced.

As shown in fig. 4, preferably, the case 21 and the activated carbon layer 23 are both rectangular structures, the openings of the case 21 correspond to the activated carbon layer 23, and are also rectangular structures with equal opening sizes of the case 21 being greater than or equal to the cross section of the activated carbon layer 23, so that the operation is simplified, the activated carbon layer 23 is conveniently placed or taken out, and the replacement time is reduced.

As shown in fig. 4, preferably, the plate surface of the support plate 22 is provided with a plurality of through holes, and the plurality of through holes are distributed in a rectangular array; when the chemical liquid enters the tank 21, a small part of the chemical liquid does not pass through the activated carbon layer 23, but remains in the gap between the activated carbon layer 23 and the tank 21, and the chemical liquid in the gap flows better through the through holes.

Embodiment two:

as shown in fig. 3, the difference is that the filter assembly 2 is further provided with a flow dividing plate 26 as compared with the first embodiment; the splitter plate 26 is horizontally arranged in the box body 21; the flow distribution plate 26 is located between the activated carbon layer 23 and the liquid outlet pipe 14, a plurality of through holes are uniformly distributed on the flow distribution plate 26, when the liquid medicine enters the box 21, the liquid medicine firstly passes through the flow distribution plate 26 and then flows through the activated carbon layer 26, when the liquid medicine passes through the flow distribution plate 26, the flow distribution plate 26 distributes the liquid medicine into the activated carbon layer 23, the phenomenon that the liquid medicine intensively flows through the middle part of the activated carbon layer 23 to cause the middle part of the activated carbon layer 23 to be blocked is avoided, the situation that the peripheral edge is good is avoided, and the utilization rate of the activated carbon layer 23 is improved.

As shown in fig. 3, the diverter plate 26 is preferably located directly above the activated carbon layer 23; the bottom surface of the splitter plate 26 is spaced from the top layer of the activated carbon layer 23.

Embodiment III:

as shown in fig. 1 to 3 and 5, the difference is that a grinding component 3 is added compared with the first embodiment; the grinding component 3 is arranged at one end of the tank 11 provided with the feed inlet 16 and is positioned near the feed inlet 16; the grinding assembly 3 comprises a grinding box 31, a second motor 32, a grinding roller 33 and a feed hopper 34; the grinding box 31 is communicated with the feed inlet 16, and the grinding box 31 is positioned above the feed inlet 31; the two grinding rollers 33 are rotatably arranged in the grinding box 31 through bearing seats, the two grinding cabinets 33 are horizontally arranged at intervals, and a gap with smaller interval is reserved between the two grinding cabinets; the second motor 32 is located outside the grinding box 31; the output end of the second motor 32 faces the shaft body of a grinding roller 33 and is connected with the grinding roller through a coupling; the two grinding rollers 33 are connected in a gear transmission manner; the feed hopper 34 is connected with the top of the grinding box 31; the solid raw material is poured into the feed hopper 34, the second motor 32 drives one grinding roller 33, the two grinding rollers 33 start to rotate towards the gap between through gear transmission, the solid raw material is ground, the solid raw material with larger caking or particles falls into the tank 11 after being dispersed, the mixing and stirring effect of the solid raw material and the liquid raw material is improved, in addition, a filter screen can be arranged at the bottom of the grinding box 31, and impurities of the ground solid raw material are screened. In addition, it should be noted that the specific model related to the second motor is not an improvement of the present utility model, and the connection manner of the second motor and the grinding roller is a conventional connection, which will not be described in detail herein.

As shown in fig. 5, preferably, one end of the grinding roller 33 is provided with a gear 35, and the two grinding rollers 33 are driven by the gear 35; a baffle plate 36 is arranged at one end of the grinding box 33 close to the gear; the partition plate 36 divides the grinding box 31 into two working cavities, one is a working cavity for transmitting work of the gears, and the other is a working cavity for grinding by the grinding roller, so that solid raw materials are prevented from being dispersed to the working positions of the gears when entering the grinding box 31, the solid raw materials are polluted, and the quality of the biological bacteriostat is reduced.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. A device for preparing a biological bacteriostatic agent, comprising:

the stirring assembly (1), the stirring assembly (1) comprises a tank body (11), a first motor (12), a stirring piece (13) and a liquid outlet pipe (14); one end of the tank body (11) is provided with a liquid inlet (15) and a feed inlet (16); the first motor (12) is arranged at one end of the tank body (11) provided with a liquid inlet (15); the output end of the first motor (12) extends towards the inside of the tank body (11) and is connected with the stirring piece (13); the liquid outlet pipe (14) is communicated with one end of the tank body (11) far away from the liquid inlet (15); a valve (17) is arranged on the liquid outlet pipe (14);

the filter assembly (2), the filter assembly (2) comprises a box body (21), a supporting plate (22), an active carbon layer (23), a safety door (24) and a liquid discharge pipe (25); the box body (21) is communicated with the liquid outlet pipe (14); an opening is formed in the side face, close to one end of the liquid outlet pipe (14), of the box body (21), and the corresponding opening of the safety door (24) is arranged on the box body (21); a plurality of supporting plates (22) are arranged on the inner wall of the box body (21) corresponding to the openings, so that supporting protrusions are formed on the inner wall of the box body (21); the activated carbon layer (23) extends into the box body (21) through the opening and is placed on the supporting plate (22); the liquid discharge pipe (25) is arranged at one end of the box body (21) far away from the liquid outlet pipe (14).

2. The device for preparing a biological bacteriostat according to claim 1, characterized in that the tank (21) and the activated carbon layer (23) are both rectangular in structure.

3. The device for preparing a biological bacteriostatic agent according to claim 1, characterized in that said filtering assembly (2) further comprises a diverter plate (26); the splitter plate (26) is arranged in the box body (21); the splitter plate (26) is located between the activated carbon layer (23) and the outlet pipe (14).

4. A device for the preparation of a biological bacteriostatic agent according to claim 3, characterized in that said diverter plate (26) is located directly above said activated carbon layer (23); a space is reserved between the bottom surface of the splitter plate (26) and the top layer of the activated carbon layer (23).

5. The device for preparing the biological bacteriostat according to claim 1, characterized in that a plurality of through holes are formed on the plate surface of the supporting plate (22).

6. A device for the preparation of a biological bacteriostatic agent according to any one of claims 1-5, characterized by further comprising an abrasive assembly (3); the grinding component (3) is arranged at one end of the tank body (11) provided with a feed inlet (16); the grinding assembly (3) comprises a grinding box (31), a second motor (32), a grinding roller (33) and a feed hopper (34); the grinding box (31) is communicated with the feed inlet (16); the two grinding rollers (33) are rotatably arranged in the grinding box (31); the second motor (32) is positioned outside the grinding box (31); the output end of the second motor (32) faces one grinding roller (33) and is connected with the grinding roller; the two grinding rollers (33) are in gear transmission connection; the feed hopper (34) is connected with the top of the grinding box (31).

7. The device for preparing a biological bacteriostat according to claim 6, characterized in that one end of the grinding roller (33) is provided with a gear (35), and the two grinding rollers (33) are driven by the gear (35); a baffle plate (36) is arranged at one end, close to the gear, of the grinding box (31); the partition plate (36) divides the grinding box (31) into two working chambers.

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