CN216757551U - Multi-position cleaning equipment for porous glass plate gas absorption bottles - Google Patents

Abstract

The utility model discloses multi-position cleaning equipment for gas absorption bottles of porous glass plates, which relates to the technical field of gas absorption bottle cleaning, and comprises a cleaning box body and a water inlet pipeline, wherein a circulating assembly is arranged between the cleaning box body and the water inlet pipeline, an upper cleaning rack and a lower cleaning rack are arranged in the cleaning box body, a plurality of basket racks are arranged on each upper cleaning rack and each lower cleaning rack, and each basket rack is used for fixing one absorption bottle for cleaning and can clean a plurality of absorption bottles; the cleaning box body is provided with a recovery water tank below, the circulating component comprises a circulating pipeline and a circulating pump, and the circulating pipeline is provided with three ends. The multi-position cleaning equipment for the gas absorption bottle of the porous glass plate, provided by the utility model, is fully automatically operated by arranging the upper cleaning frame and the lower cleaning frame, does not need to be attended to manually, liberates the cleaning time of experimenters, can be put into more experimental tests, provides a repeated cleaning mode, is provided with the heating element heating water in the recovery box and is added with the cleaning agent through the cleaning agent regulator, and has a better cleaning effect.

Description

Multi-position cleaning equipment for porous glass plate gas absorption bottles

Technical Field

The utility model relates to the technical field of gas absorption bottle cleaning, in particular to multi-position cleaning equipment for a porous glass plate gas absorption bottle.

Background

The absorption bottle is a glass container for collecting pollutants in the atmosphere by a solution absorption method. In order to collect a certain pollutant component in the atmosphere, a solution with a specific component is filled in an absorption bottle, a pollutant to be detected is absorbed when gas passes through the absorption liquid, and the concentration of the pollutant in the atmosphere can be determined through analysis and measurement. The main performance indexes of the absorption bottle are the optimum sampling flow, absorption efficiency and resistance drop under the condition of filling a certain amount of absorption liquid. The common absorption bottles have different structural forms such as porous glass plate absorption, bubble absorption, impact absorption and the like.

The cleaning mode of the gas absorption bottle in the prior art is as follows: the first method is manual cleaning, one end of the first method is connected with a tap water rubber hose, and the first method is repeated for washing for many times, so that the cleaning is complicated, water sources are wasted, and personnel are occupied; the second kind is to use cleaning equipment, washs through the mode that the foaming was shaken, the drawback: only one washing can be carried out at a time, the semi-automatic washing machine belongs to semi-automatic washing, and the manpower is needed to be continuously matched in the washing process, so that the time of personnel is occupied. The existing cleaning mode is small in cleaning quantity and occupies a large amount of time of personnel, and therefore the multi-position cleaning equipment for the gas absorption bottle of the porous glass plate is provided.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide multi-position cleaning equipment for a gas absorption bottle of a porous glass plate, which can effectively solve the problems of complex cleaning, water source waste, personnel occupation, small cleaning number of cleaning modes and large time of personnel occupation in the background technology.

In order to solve the technical problems, the utility model is realized by the following technical scheme: a multi-position cleaning device for a porous glass plate gas absorption bottle comprises a cleaning box body and a water inlet pipeline, wherein a circulating assembly is arranged between the cleaning box body and the water inlet pipeline, an upper cleaning frame and a lower cleaning frame are arranged inside the cleaning box body, a plurality of baskets are arranged on each upper cleaning frame and each lower cleaning frame, and each basket is used for fixing one absorption bottle for cleaning and can be used for cleaning a plurality of absorption bottles;

a recovery water tank is arranged below the cleaning tank body, the circulation assembly comprises a circulation pipeline and a circulation pump, the circulation pipeline is provided with three ends, two ends of the circulation pipeline are respectively connected with the top of the cleaning tank body, the other end of the circulation pipeline is connected with the outer wall of the recovery water tank, the circulation pump is arranged on the circulation pipeline, and the circulation pipeline is matched with the circulation pump for circulation cleaning without wasting water resources;

the inside spray arm and the spray arm down of being equipped with of washing box, the inside heating member that is equipped with of recovery tank, be equipped with the washing liquid adder on the water intake pipe, it is connected with circulation pipeline one end to go up the spray arm, spray arm installs in washing bottom half down, and the washing liquid adder adds the washing liquid to the water intake pipe, and the washing liquid mixes the water and enters into circulation pipeline.

Preferably, a water inlet pump and a water inlet valve are sequentially arranged on the water inlet pipeline, the water inlet pump is positioned between the cleaning liquid adder and the water inlet valve, the water inlet valve is used for controlling the circulation of the water inlet pipeline, and the water inlet pump is used for pressurizing.

Preferably, the cleaning box body is hinged to a box door, a PLC control system is arranged on the box door, the PLC control system is electrically connected with each valve, the water pump, the drying fan and the cleaning liquid adder, and the electrical elements are controlled through the PLC control system.

Preferably, be equipped with dry subassembly on last wash rack and the wash rack down, dry subassembly includes air inlet pipeline and drying fan, it is hollow structure to go up wash rack and wash rack down, be connected with air inlet pipeline on last wash rack and the wash rack down, the drying fan output is connected to the air-supply line, be equipped with a plurality of exhaust vents on going up wash rack and wash rack down, a plurality of exhaust vents are linear array equidistance and arrange, and the air-supply line goes out the air with the hot-blast exhaust vent through the wash rack that produces of drying fan, goes up the wash rack and has the wash port down moreover.

Preferably, the upper spray arm and the lower spray arm are both rotary spray arms, and a plurality of spray heads are arranged on the upper spray arm and the lower spray arm.

Preferably, the recycling water tank is provided with a drainage assembly at the bottom, the drainage assembly comprises a drainage pipeline, a drainage valve and a drainage pump, the drainage pipeline is communicated with the recycling water tank, the drainage pipeline is provided with the drainage valve and the drainage pump in sequence from the top to the bottom, and the drainage pipeline drains the cleaned water.

Preferably, be equipped with first pipeline and second pipeline on the recovery water tank, be equipped with the acid pump on the first pipeline, be equipped with the alkali pump on the second pipeline, derive after the acid pump carries out the acid liquid washing, derive after the alkali pump carries out the alkaline liquid washing.

The utility model has the following beneficial effects:

according to the utility model, the upper cleaning frame and the lower cleaning frame are arranged, each cleaning frame is provided with a plurality of baskets, each basket is fixed with one U-shaped porous glass plate gas absorption bottle, the plurality of U-shaped porous glass plate gas absorption bottles are cleaned at one time, the full-automatic cleaning machine runs automatically, does not need to be attended manually, frees the cleaning time of experimenters, can be put into more experimental tests, adopts a circulating pipeline to be respectively connected with the cleaning box and the recovery box, provides power through a circulating pump, provides a repeated cleaning mode, arranges a heating element for heating water in the recovery box, and adds a cleaning agent through a cleaning solution regulator, and has better cleaning effect.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings 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 that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall structure of a multi-position cleaning apparatus for a gas absorption bottle of a porous glass plate according to the present invention;

FIG. 2 is a schematic diagram of a front view structure of a multi-position cleaning apparatus for a gas absorption bottle of a porous glass plate according to the present invention;

FIG. 3 is a schematic isometric view of a multi-position cleaning apparatus for a gas absorption bottle of a multi-hole glass plate according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of a cleaning box of the multi-position cleaning device for the gas absorption bottle of the porous glass plate of the present invention;

fig. 5 is a cross-sectional view taken at a-a of fig. 3 in accordance with the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

110. cleaning the box body; 120. a water inlet pipeline; 130. a recovery water tank; 140. a water inlet pump; 150. a water inlet valve; 160. a box door; 170. a PLC control system; 210. an upper cleaning frame; 220. a lower cleaning frame; 230. a basket frame; 240. an upper spray arm; 250. a lower spray arm; 260. a shower head; 310. a circulation line; 320. a circulation pump; 330. a heating member; 340. a cleaning liquid adder; 410. an air intake pipeline; 420. a drying fan; 510. a drain line; 520. a drain valve; 530. draining pump; 540. a first conduit; 550. a second conduit; 560. an acid pump; 570. and (4) an alkali pump.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the utility model is a multi-position cleaning device for gas absorption bottles of porous glass plates, comprising a cleaning box body 110 and a water inlet pipeline 120, wherein a circulating component is arranged between the cleaning box body 110 and the water inlet pipeline 120, an upper cleaning rack 210 and a lower cleaning rack 220 are arranged inside the cleaning box body 110, a plurality of baskets 230 are arranged on each upper cleaning rack 210 and each lower cleaning rack 220, and each basket 230 is used for fixing one absorption bottle for cleaning and can clean a plurality of absorption bottles;

the recovery water tank 130 is arranged below the cleaning tank body 110, the circulation component comprises a circulation pipeline 310 and a circulation pump 320, the circulation pipeline 310 is provided with three ends, two ends of the circulation pipeline 310 are respectively connected with the top of the cleaning tank body 110, the other end of the circulation pipeline 310 is connected with the outer wall of the recovery water tank 130, the circulation pump 320 is arranged on the circulation pipeline 310, the circulation pipeline 310 is matched with the circulation pump 320 for circulation cleaning, and water resources are not wasted;

the heating element 330 is arranged in the recovery water tank 130, the cleaning solution adder 340 is arranged on the water inlet pipeline 120, the upper spray arm 240 is connected with one end of the circulating pipeline 310, the lower spray arm 250 is installed at the bottom of the cleaning tank body 110, the cleaning solution adder 340 adds cleaning solution to the water inlet pipeline 120, and the cleaning solution is mixed with water and enters the circulating pipeline 310.

The water inlet pipeline 120 is sequentially provided with a water inlet pump 140 and a water inlet valve 150, the water inlet pump 140 is positioned between the cleaning solution adder 340 and the water inlet valve 150, the circulation of the water inlet pipeline 120 is controlled by the water inlet valve 150, and the water is pressurized by the water inlet pump 140.

The cleaning box body 110 is hinged to a box door 160, the PLC control system 170 is arranged on the box door 160, the PLC control system 170 is electrically connected with each valve, the water pump, the drying fan 420 and the cleaning liquid adding device 340, and the PLC control system 170 controls electrical elements.

Go up and be equipped with drying assembly on wash rack 210 and lower wash rack 220, drying assembly includes air inlet pipeline 410 and drying fan 420, it is hollow structure to go up wash rack 210 and wash rack 220 down, it is connected with air inlet pipeline 410 on wash rack 210 and the wash rack 220 down, air inlet pipeline 410 connects drying fan 420 output, it is equipped with a plurality of exhaust vents on wash rack 210 and the wash rack 220 down to go up, a plurality of exhaust vents are linear array equidistance and arrange, air inlet pipeline 410 carries out the air-out through the exhaust vent of wash rack with the hot-blast exhaust that drying fan 420 produced, and go up wash rack 210 and wash rack 220 down and have the wash port.

The upper spray arm 240 and the lower spray arm 250 are both rotary spray arms, and a plurality of spray heads 260 are arranged on the upper spray arm 240 and the lower spray arm 250.

The recovery tank 130 is provided at the bottom thereof with a drain assembly including a drain line 510, a drain valve 520, and a drain pump 530, the drain line 510 communicating with the recovery tank 130, the drain line 510 being provided with the drain valve 520 and the drain pump 530 in order from the top to the bottom, the drain line 510 draining the cleaned water.

The recovery water tank 130 is provided with a first pipeline 540 and a second pipeline 550, the first pipeline 540 is provided with an acid pump 560, the second pipeline 550 is provided with an alkali pump 570, the acid pump 560 is used for cleaning acidic liquid and then leading out, and the alkali pump 570 is used for cleaning alkaline liquid and then leading out.

When the cleaning device is used by personnel, firstly, two ends of a utensil are connected to the basket frame 230, pure water or ultrapure water is used as a working medium, water in the cleaning box body 110 is circulated in the circulating pipeline 310 through the large-flow circulating pump 320, the upper spraying arm 240 and the lower spraying arm 250 are rotated to be matched with the spraying head 260, the water is respectively and uniformly sprayed to the outer wall and the inner wall of an article to be cleaned, the article is powerfully cleaned, and meanwhile, cleaning liquid can be automatically added through the cleaning liquid adding device 340, so that the cleaning is more effective and thorough; in addition, the cleaning water can be automatically heated by the heating element 330 to thermally sterilize the cleaning articles, the air inlet pipeline 410 exhausts the hot air generated by the drying fan 420 through the air outlet of the washing rack, the drain holes are arranged below the upper washing rack 210 and the lower washing rack 220 to blow out the residual water inside the washed ware and effectively dry the ware, and the drain pipeline 510 drains the cleaned water.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The multiposition cleaning equipment for the gas absorption bottle of the porous glass plate is characterized by comprising a cleaning box body (110) and a water inlet pipeline (120), wherein a circulating assembly is arranged between the cleaning box body (110) and the water inlet pipeline (120), an upper cleaning frame (210) and a lower cleaning frame (220) are arranged inside the cleaning box body (110), and a plurality of basket frames (230) are arranged on each of the upper cleaning frame (210) and the lower cleaning frame (220);

a recovery water tank (130) is arranged below the cleaning tank body (110), the circulating assembly comprises a circulating pipeline (310) and a circulating pump (320), the circulating pipeline (310) is provided with three ends, two ends of the circulating pipeline (310) are respectively connected with the top of the cleaning tank body (110), the other end of the circulating pipeline (310) is connected with the outer wall of the recovery water tank (130), and the circulating pump (320) is arranged on the circulating pipeline (310);

wash inside spray arm (240) and spray arm (250) down of being equipped with of box (110), the inside heating member (330) that is equipped with of recovery tank (130), be equipped with washing liquid adder (340) on inlet channel (120), it is connected with circulation pipeline (310) one end to go up spray arm (240), spray arm (250) are installed in washing box (110) bottom down.

2. The multi-station cleaning apparatus for gas absorption bottles for multi-well glass plates according to claim 1, characterized in that: the water inlet pipeline (120) is sequentially provided with a water inlet pump (140) and a water inlet valve (150), and the water inlet pump (140) is positioned between the cleaning liquid adder (340) and the water inlet valve (150).

3. The multi-stage cleaning apparatus for gas absorption bottles for porous glass plates of claim 1, wherein: one side of the cleaning box body (110) is hinged with a box door (160), and a PLC control system (170) is arranged on the box door (160).

4. The multi-station cleaning apparatus for gas absorption bottles for multi-well glass plates according to claim 1, characterized in that: go up wash rack (210) and be equipped with drying assembly on wash rack (220) down, drying assembly includes air inlet pipeline (410) and drying fan (420), it is hollow structure to go up wash rack (210) and wash rack (220) down, go up wash rack (210) and be connected with air inlet pipeline (410) on wash rack (220) down, drying fan (420) output is connected in air inlet pipeline (410), upward be equipped with a plurality of exhaust vents on wash rack (210) and wash rack (220) down, a plurality of exhaust vents are linear array equidistance and arrange.

5. The multi-station cleaning apparatus for gas absorption bottles for multi-well glass plates according to claim 1, characterized in that: the upper spray arm (240) and the lower spray arm (250) are both rotary spray arms, and a plurality of spray heads (260) are arranged on the upper spray arm (240) and the lower spray arm (250).

6. The multi-stage cleaning apparatus for gas absorption bottles for porous glass plates of claim 1, wherein: the bottom of the reclaimed water tank (130) is provided with a drainage assembly, the drainage assembly comprises a drainage pipeline (510), a drainage valve (520) and a drainage pump (530), the drainage pipeline (510) is communicated with the reclaimed water tank (130), and the drainage pipeline (510) is provided with the drainage valve (520) and the drainage pump (530) in sequence from top to bottom.

7. The multi-station cleaning apparatus for gas absorption bottles for multi-well glass plates according to claim 1, characterized in that: the recycling water tank (130) is provided with a first pipeline (540) and a second pipeline (550), the first pipeline (540) is provided with an acid pump (560), and the second pipeline (550) is provided with an alkali pump (570).

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