CN212469141U - Cleaning device for columnar microalgae culture facility - Google Patents

Abstract

The utility model belongs to the technical field of the ware washs. For solving the technical problem that little algae is bred and exists with glass container in the cleaning process, the utility model provides a belt cleaning device of column little algae breed facility, including the stereoplasm delivery pipe of a perpendicular setting, with the delivery pipe fixed and use the delivery pipe as the wash rack in axle center, the wash rack can wind delivery pipe free rotation, its characterized in that: a drain valve is arranged at the bottom end of the water supply pipe, and a water inlet valve is arranged on a pipeline close to the top end of the water supply pipe; the siphon is arranged in the water supply pipe, the bottom end of the siphon is positioned above the drain valve, the top end of the siphon extends out of the wall of the water supply pipe below the water inlet valve, the wall of the siphon at the extending position is hermetically connected with the wall of the water supply pipe, and the extending end of the siphon is provided with a hose connector. The utility model has the advantages that: after the cleaning is finished, the cleaning liquid in the container is automatically discharged by utilizing the siphon tube, the effect of no need of manual operation is achieved, and the cleaning efficiency is greatly improved.

Description

Cleaning device for columnar microalgae culture facility

Technical Field

The utility model belongs to the technical field of the ware washs, concretely relates to belt cleaning device of column little algae facility of breeding.

Background

Modern microalgae cultivation is mainly divided into open water pool and glass pipeline reactor cultivation, but two cultivation modes both require a secondary plastic film, a glass fiber reinforced plastic cylindrical barrel or other cultivation facilities made of glass materials to provide algae seeds. However, the plastic film type cultivation plastic bag is easy to damage, has low recycling rate, is easy to generate plastic garbage, and is gradually replaced by a microalgae cultivation facility with good light transmittance and difficult damage of the glass cylindrical round bottom. The cylindrical round-bottom glass container is used for microalgae cultivation, the container needs to be cleaned after internal algae liquid is removed, residual microalgae and newly-thrown microalgae species are prevented from being mixed, and meanwhile sundries such as moss and the like generated on the inner surface of the container also need to be cleaned. Because the diameter and the height of the glass container are large, manual cleaning is difficult to realize, and the inner wall of the container is generally cleaned by an electric rotating brush at present. However, after the washing, the discharge of the washing water in the container causes certain obstacles, and due to the heavy weight, it is very difficult to pour the glass container manually, and the glass container is also broken easily, and if the glass container is scooped out manually, the operation efficiency is obviously very low.

Disclosure of Invention

For solving the technical problem that little algae is bred and exists with glass container in the cleaning process, the utility model provides a belt cleaning device of column little algae breeding facility utilizes the device can adopt electronic abluent mode to accomplish to the container inner wall, can utilize the mode of siphon to discharge the washing water in the container automatically after accomplishing simultaneously.

In order to realize the technical purpose, the utility model discloses a technical scheme does: the utility model provides a belt cleaning device of facility is bred to column little algae, includes the stereoplasm delivery pipe of a perpendicular setting, and fixed and use the delivery pipe as the wash rack of axle center with the delivery pipe, the wash rack can wind delivery pipe free rotation, its characterized in that: a drain valve is arranged at the bottom end of the water supply pipe, and a water inlet valve is arranged on a pipeline close to the top end of the water supply pipe; the siphon is arranged in the water supply pipe, the bottom end of the siphon is positioned above the drain valve, the top end of the siphon extends out of the wall of the water supply pipe below the water inlet valve, the wall of the siphon at the extending position is hermetically connected with the wall of the water supply pipe, and the extending end of the siphon is provided with a hose connector.

Furthermore, the cleaning frame at least comprises a rectangular frame, the water supply pipe penetrates through the centers of the upper frame body and the lower frame body of the rectangular frame, the rectangular frame and the water supply pipe are fixedly connected through a bearing, and cleaning brushes are arranged on the outer side surfaces of the bottom frame body of the rectangular frame and the outer side surfaces of the left frame body and the right frame body.

Furthermore, a bearing sleeve is arranged at the connecting part of the rectangular frame and the water supply pipe, the bearing sleeve and the rectangular frame are fixed into a whole, the bearing is positioned in the bearing sleeve, and outer ring teeth are arranged on the outer surface of the bearing sleeve; the driving gear is fixed on a motor shaft and drives the rectangular frame to rotate through the driving of the motor.

Further, the surface of support body is equipped with the cleaning brush mounting groove about the rectangular frame, and the mounting groove cross-section is "protruding" style of calligraphy, and inside the mounting groove was installed at the bottom of the brush of cleaning brush, the inside compression spring that is equipped with of mounting groove, the both ends of spring support with the tank bottom of mounting groove and the bottom of the brush of cleaning brush respectively.

Furthermore, the bottom end of the water supply pipe is located inside the cleaning frame, and a hose is connected to the bottom end of the water supply pipe.

Furthermore, a float is sleeved on the hose connected with the tail end of the water supply pipe.

The utility model has the advantages that: the electric drive cleaning frame is utilized to rapidly rotate in the container to achieve the purpose of rapidly cleaning the inner wall of the container, and meanwhile, after cleaning is finished, the siphon pipe can be utilized to automatically discharge cleaning liquid in the container by controlling the closing and opening of the water inlet valve and the water discharge valve, so that the effect of no need of manual operation is achieved, and the cleaning efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a structural sectional view taken along line B-B in FIG. 1.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and embodiments.

As shown in fig. 1, a cleaning device for a columnar microalgae culture facility comprises a hard water supply pipe 1 and a cleaning frame 2 which are vertically arranged, wherein the water supply pipe 1 is made of a metal pipe, the cleaning frame 2 is a rectangular frame, in the embodiment, the cleaning frame 2 is of a single-frame structure, and a plurality of rectangular frames can be combined and fixed in a cross mode according to actual needs.

As shown in fig. 1, a water supply pipe 1 passes through the centers of the upper and lower frame bodies of the washing frame 2, and when a multi-frame structure is adopted, the water supply pipe 1 is used as a cross connection point of the multi-frame.

Adopt bearing 3 to be connected between delivery pipe 1 and the wash rack 2, for guaranteeing the stability of wash rack 2, can be equipped with many horizontal connecting rods inside wash rack 2, delivery pipe 1 pass horizontal connecting rod and with horizontal connecting rod between adopt the bearing to connect fixedly equally. As can be seen from fig. 1, the wash rack 2 is free to rotate about the water supply pipe 1.

As shown in the attached figure 1, a bearing sleeve 4 is arranged outside the connecting bearing at the top, and the bearing sleeve 4 is fixedly connected with the cleaning frame 2; still include motor 5, the fixed drive gear 6 that is equipped with on the motor shaft is equipped with the outer ring tooth on the surface of bearing housing 4, and the outer ring tooth meshes with drive gear 6, and through the rotation of motor, drive gear 6 drives bearing housing 4 and rotates to realize that wash rack 2 is rotary motion around delivery pipe 1.

As shown in fig. 1, the cleaning brushes 7 are mounted on the outer surfaces of the left and right frame bodies of the cleaning frame and the bottom surface of the bottom frame body, and the cleaning brushes 7 mounted on the left and right frame bodies are mounted in a vertically staggered manner to ensure that the inner walls of the cylindrical aquaculture facility are completely cleaned, so that the cleaning brushes 7 can clean the inner walls of the aquaculture facility without omission after the cleaning frame 2 is rotated.

In operation, the cleaning frame 2 is communicated with the cleaning brush 7 and placed in the cultivation facility, the bristles of the cleaning brush 7 are in contact with the inner wall and the bottom of the cultivation facility, water is supplied to the inside of the facility through the water supply pipe 1, then the motor is started, and the cleaning action is completed on the inside of the facility through the cleaning brush 7 by the rotation of the cleaning frame 2.

In order to solve the technical problem of different inner diameters of columnar culture devices, in this embodiment, the cleaning brush 7 is installed in an elastic and telescopic manner. As shown in fig. 2, a cleaning brush mounting groove 8 is formed in the outer surface of the left and right frame bodies of the rectangular frame, the cross section of the mounting groove 8 is in a convex shape, the bottom of the cleaning brush 7 is mounted in the mounting groove 8, a compression spring 9 is arranged in the mounting groove, and the two ends of the spring 9 are respectively supported by the bottom of the mounting groove 8 and the bottom of the cleaning brush 7.

After adopting the structure, the cleaning brush 7 can move back and forth in the mounting groove 8, thereby being suitable for cleaning operation of culture facilities with different inner diameters.

As shown in fig. 1, a water inlet valve 10 and a water discharge valve 11 are provided on a water supply pipe 1, the water discharge valve 11 is installed at a position close to the bottom end of the water supply pipe, the water inlet valve 10 is installed at a position close to the top end of the water supply pipe 1, a siphon tube 12 is provided inside the water supply pipe 1, the bottom end of the siphon tube 12 is located above the water discharge valve 11, the top end of the siphon tube 12 extends out from the wall of the water supply pipe below the water inlet valve 10, the siphon tube 12 is hermetically connected with the extending portion of.

When the device is operated, the hose is connected to the hose connector 13 and hangs down from the outside of the columnar cultivation facility, when the device works, the water inlet valve 10 and the water discharge valve 11 are opened to supply cleaning water into the cultivation facility, at the moment, as long as the water level in the facility does not exceed the top end of the siphon pipe 12, no water flows out of the siphon pipe, when the water level in the facility reaches a certain height, the water inlet valve 10 is closed, the motor is started, the cleaning frame 2 rotates to clean the inner wall of the facility, after the cleaning is finished, the water discharge valve 11 is closed, the water inlet valve 10 is opened, the liquid level in the siphon pipe 12 rises along with the liquid level in the water supply pipe 1, when the liquid level exceeds the top end of the siphon pipe 12, the siphon pipe 12 discharges water outwards through the hose, at the moment, the water inlet valve.

As shown in fig. 1, the bottom end of the water supply pipe 1 cannot exceed the bottom frame body of the washing rack 2, otherwise, the bottom end of the water supply pipe 1 may cause an obstacle during washing, but the lifting of the bottom end of the water supply pipe 1 may cause water inside the facility to be drained, and therefore, the hose 14 is connected to the bottom end of the water supply pipe 1, the length of the hose 14 should not be too long, so as to prevent the hose 14 from being entangled with the washing rack 2, as long as the end opening of the hose 14 can be in contact with the bottom of the facility. As shown in the attached figure 1, in order to prevent the hose 14 from causing obstacle to cleaning, a floater 15 is arranged on the body of the hose 14, the floater 15 drives the port of the hose 14 to float upwards along with the rising of the water level in the facility, the hose 14 is always positioned in the cleaning frame 2, and when water is drained, the floater 15 falls along with the falling of the water level until the port of the hose 14 is contacted with the bottom of the facility, and the water in the facility is completely drained.

Claims (6)

1. The utility model provides a belt cleaning device of facility is bred to column little algae, includes the stereoplasm delivery pipe of a perpendicular setting, and fixed and use the delivery pipe as the wash rack of axle center with the delivery pipe, the wash rack can wind delivery pipe free rotation, its characterized in that: a drain valve is arranged at the bottom end of the water supply pipe, and a water inlet valve is arranged on a pipeline close to the top end of the water supply pipe; the siphon is arranged in the water supply pipe, the bottom end of the siphon is positioned above the drain valve, the top end of the siphon extends out of the wall of the water supply pipe below the water inlet valve, the wall of the siphon at the extending position is hermetically connected with the wall of the water supply pipe, and the extending end of the siphon is provided with a hose connector.

2. The cleaning device for cylindrical microalgae cultivation facilities as claimed in claim 1, wherein: the cleaning frame at least comprises a rectangular frame, the water supply pipe penetrates through the centers of the upper frame body and the lower frame body of the rectangular frame, the rectangular frame and the water supply pipe are fixedly connected through a bearing, and cleaning brushes are arranged on the outer side surfaces of the bottom frame body of the rectangular frame and the left and right frame bodies.

3. The cleaning device for cylindrical microalgae cultivation facilities as claimed in claim 2, wherein: the bearing sleeve is arranged at the connecting part of the rectangular frame and the water supply pipe, the bearing sleeve and the rectangular frame are fixed into a whole, the bearing is positioned in the bearing sleeve, and the outer surface of the bearing sleeve is provided with outer ring teeth; the driving gear is fixed on a motor shaft and drives the rectangular frame to rotate through the driving of the motor.

4. The cleaning device for cylindrical microalgae cultivation facilities as claimed in claim 2 or 3, wherein: the surface of support body is equipped with the cleaning brush mounting groove about the rectangular frame, and the mounting groove cross-section is "protruding" style of calligraphy, and inside the mounting groove was installed at the bottom of the brush of cleaning brush, the inside compression spring that is equipped with of mounting groove, the both ends of spring respectively with the tank bottom of mounting groove and the brush end support of cleaning brush.

5. The cleaning device for cylindrical microalgae cultivation facilities as claimed in claim 1, 2 or 3, wherein: the bottom of delivery pipe is located the inside of wash rack, connects the hose in the bottom of delivery pipe.

6. The cleaning device for cylindrical microalgae cultivation facilities as claimed in claim 5, wherein: the flexible pipe connected with the end of the water supply pipe is sleeved with a buoy.

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