CN219270066U - High-efficient sterilization apparatus of haematococcus pluvialis - Google Patents

Abstract

The utility model discloses a high-efficiency sterilization device for haematococcus pluvialis, which comprises a feeding device body, wherein the top of the feeding device body is communicated with a discharging bin through an arc-shaped opening, and a discharging ball is arranged in the discharging bin; the outer wall of the charging device body is provided with a first motor, and the output end of the first motor is connected with a first rotating shaft rotatably arranged in the inner cavity of the charging device body; the first rotating shaft is connected with a first connecting rod, one end of the first connecting rod is hinged with a second connecting rod, one end of the second connecting rod is hinged with a movable frame, and the side wall of the movable frame is attached to the inner wall of the feeding device body; the top of the movable frame is provided with a bump; the side wall of the feeding device body is communicated with a sterilizing device body of the sterilizing device through a pipeline, and a first ultraviolet sterilizing lamp is arranged at the top of the sterilizing device body. Compared with the traditional manual feeding, the automatic feeding device is more accurate in feeding, high in working efficiency, capable of avoiding mixing of mixed bacteria and beneficial to improvement of sterilization effect.

Description

High-efficient sterilization apparatus of haematococcus pluvialis

Technical Field

The utility model relates to the technical field of algae processing equipment, in particular to a high-efficiency sterilization device for haematococcus pluvialis.

Background

Haematococcus pluvialis is a green alga of freshwater single cell, belonging to the genus Haematococcus of the order Chlorophyta, the order of Leuconostoc. The algae accumulate astaxanthin in large amounts to be red, so the algae is called haematococcus pluvialis. The haematococcus is an alga food which is discovered in the current scientific community and is rich in nutritional value and medicinal value after spirulina and chlorella.

In recent years, haematococcus pluvialis is considered as one of the best raw materials for extracting astaxanthin. When the haematococcus pluvialis is used for extracting astaxanthin, the collected haematococcus pluvialis needs to be sterilized. In order to ensure the sterilization effect, the haematococcus sterilization device needs intermittent feeding when in use. However, the existing haematococcus sterilization devices lack automatic intermittent feeding devices, intermittent feeding is mostly carried out manually, the working efficiency is low, and bacteria are easy to mix in frequent feeding, so that the sterilization effect is affected.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the efficient sterilization device for haematococcus pluvialis, which effectively solves the technical problems that the existing haematococcus pluvialis sterilization device lacks an automatic intermittent feeding device, intermittent feeding is mostly carried out manually, the working efficiency is low, bacteria are easy to mix in during frequent feeding, and the sterilization effect is affected.

The technical scheme provided by the utility model is as follows:

the high-efficiency sterilization device for haematococcus pluvialis comprises an automatic intermittent feeding device and a sterilization device, wherein the automatic intermittent feeding device comprises a feeding device body, the top of the feeding device body is communicated with a discharging bin through an arc opening, and the top of the discharging bin is communicated with an external material storage tank through a conveying pipe; a blanking ball is arranged in the blanking bin; the outer wall of the charging device body is provided with a first motor, and the output end of the first motor is connected with a first rotating shaft rotatably arranged in the inner cavity of the charging device body; the first rotating shaft is connected with a first connecting rod, one end of the first connecting rod is hinged with a second connecting rod, one end of the second connecting rod is hinged with a movable frame, and the side wall of the movable frame is attached to the inner wall of the feeding device body; the top of the movable frame is provided with a lug, and when the second connecting rod rotates to a vertical position right above the first connecting rod, the lug just pushes the blanking ball to the top of the blanking bin; the side wall of the feeding device body is communicated with a sterilizing device body of the sterilizing device through a pipeline, and a first ultraviolet sterilizing lamp is arranged at the top of the sterilizing device body.

Further, the side wall of the movable frame is integrally connected with a vertical wing plate, and the wing plate is attached to the inner wall of the feeding device body.

Further, a splitter plate is arranged in the inner cavity of the sterilization device body, the splitter plate is positioned below the pipeline, and a plurality of overflow holes are formed in the splitter plate.

Further, the splitter plate is in an inverted V shape.

Further, a second ultraviolet sterilizing lamp is arranged below the flow dividing plate.

Further, the second ultraviolet sterilizing lamp is spiral.

Further, a discharging device is arranged below the second ultraviolet sterilizing lamp in the inner cavity of the sterilizing device body, the discharging device comprises a second motor fixedly connected to the outer wall of the sterilizing device body, the output end of the second motor is connected with a second rotating shaft, and spiral feeding blades are arranged on the second rotating shaft; and a discharge hole is communicated with the side wall of the sterilizing device body opposite to the second motor.

The utility model has the following beneficial effects:

the utility model discloses an realize intermittent type nature automatic material conveying through automatic intermittent type feeding device to through the rotational speed of adjusting first motor, can adjust reinforced frequency, compare in traditional manual feeding, it is more accurate to add, and work efficiency is high, avoids mixing into miscellaneous fungus, helps improving the sterilization effect.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment;

FIG. 2 is a side view of the manifold of FIG. 1;

fig. 3 is a schematic diagram of the structure of the automatic intermittent feeding device in two extreme states.

In the figure: 1. an automatic intermittent feeding device; 101. a charging device body; 102. discharging the material bin; 103. a material conveying pipe; 104. discharging balls; 105. a moving rack; 106. a first rotating shaft; 107. a first link; 108. a second link; 109. a bump; 110. a wing plate; 111. a pipe; 112. an arc opening; 2. a sterilization device; 201. a sterilization device body; 202. a first ultraviolet sterilization lamp; 203. a diverter plate; 204. a second ultraviolet sterilizing lamp; 205. a discharge port; 206. an overflow hole; 301. a second motor; 302. a second rotating shaft; 303. spiral feeding blades.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

As shown in fig. 1-3, an efficient sterilization device for haematococcus pluvialis comprises an automatic intermittent feeding device 1 and a sterilization device 2, wherein the automatic intermittent feeding device 1 comprises a feeding device body 101, the top of the feeding device body 101 is communicated with a discharging bin 102 through an arc-shaped opening 112, and the top of the discharging bin 102 is communicated with an external material storage tank through a conveying pipe 103; a blanking ball 104 is arranged in the blanking bin 102; the outer wall of the feeding device body 101 is provided with a first motor, and the output end of the first motor is connected with a first rotating shaft 106 rotatably arranged in the inner cavity of the feeding device body 101; the first rotating shaft 106 is connected with a first connecting rod 107, one end of the first connecting rod 107 is hinged with a second connecting rod 108, one end of the second connecting rod 108 is hinged with a movable frame 105, and the side wall of the movable frame 105 is attached to the inner wall of the feeding device body 101; the top of the movable frame 105 is provided with a convex block 109, and when the second connecting rod 108 rotates to a vertical position right above the first connecting rod 107, the convex block 109 just pushes the baiting ball 104 to the top of the baiting bin 102; the side wall of the feeding device body 101 is communicated with a sterilizing device body 201 of the sterilizing device 2 through a pipeline 111, and a first ultraviolet sterilizing lamp 202 is arranged at the top of the sterilizing device body 201.

Above-mentioned high-efficient sterilization apparatus of haematococcus pluvialis realizes intermittent type nature automatic material conveying through automatic intermittent type feeding device 1 to through the rotational speed of adjusting first motor, can adjust the frequency of reinforced, compare in traditional manual feeding, it is more accurate to add, and work efficiency is high, avoids mixing into miscellaneous fungus, helps improving the sterilization effect.

Specifically, the side wall of the movable frame 105 is integrally connected with a vertical wing plate 110, and the wing plate 110 is attached to the inner wall of the feeding device body 101. The wing plate 110 can play a role of guiding, so that the moving frame 105 can be more stable in the moving process.

Specifically, a splitter plate 203 is installed in the inner cavity of the sterilization device body 201, the splitter plate 203 is located below the pipeline 111, and a plurality of overflow holes 206 are formed in the splitter plate 203. After entering the inner cavity of the sterilization device body 201, the algae liquid is dispersed and stays under the action of the splitter plate 203, so that the effective acting time of the first ultraviolet sterilization lamp can be prolonged.

Specifically, in order to prevent the algae liquid from directly falling down through the overflow hole 206, the flow dividing plate 203 is in an inverted V shape, so that the algae liquid can more fully spread to two sides of the flow dividing plate 203, and the flow area is increased.

Specifically, in order to further improve the sterilization effect, a second ultraviolet sterilization lamp 204 is installed below the flow dividing plate 203.

Specifically, in order to improve the sterilization effect of the second ultraviolet sterilization lamp 204, the second ultraviolet sterilization lamp 204 is spiral.

Specifically, in order to facilitate discharging, a discharging device 3 is installed below the second ultraviolet sterilizing lamp 204 in the inner cavity of the sterilizing device body 201, the discharging device 3 comprises a second motor 301 fixedly connected to the outer wall of the sterilizing device body 201, the output end of the second motor 301 is connected with a second rotating shaft 302, and a spiral feeding blade 303 is installed on the second rotating shaft 302; the side wall of the sterilizing device body 201 opposite to the second motor 301 is communicated with a discharge hole 205.

The working principle of the utility model is as follows:

in operation, the first motor, the first ultraviolet sterilization lamp 202, the second ultraviolet sterilization lamp 204, and the second motor 301 are turned on. The first motor drives the first rotating shaft 106 to rotate, so that the first connecting rod 107 is driven to rotate, the first connecting rod 107 drives the second connecting rod 108 to move, and the second connecting rod 108 pushes the moving frame 105 to move up and down under the limiting effect of the moving frame 105, so that the bumps 109 intermittently jack up the baiting balls 104. When the lower ball 104 is embedded on the arc-shaped opening 112 at the top of the feeding device body 101 under the self gravity, algae liquid enters the lower bin 102 from the conveying pipe 103 for temporary storage, when the lower ball 104 is jacked up by the convex block 109, the algae liquid in the lower bin 102 flows into the upper part of the movable frame 105 in the feeding device body 101 through the arc-shaped opening 112, gradually drops along with the downward movement of the movable frame 105, flows into the pipeline 111 when being flush with the pipeline 111, then enters the inside of the sterilizing device body 201, and then falls onto the splitter plate 203. The first ultraviolet sterilizing lamp 202 sterilizes the algae liquid, and the sterilized algae liquid falls to the lower part through the overflow hole 206 and falls to the bottom of the sterilizing device body 201 after the sterilizing action of the second ultraviolet sterilizing lamp 204. The second motor 301 drives the second rotating shaft 302 and the spiral feeding blade 303 to rotate, so that the algae liquid is gradually pushed to the discharge hole 205 to be discharged.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An efficient sterilization device for haematococcus pluvialis, which is characterized in that: the automatic intermittent feeding device comprises an automatic intermittent feeding device (1) and a sterilizing device (2), wherein the automatic intermittent feeding device (1) comprises a feeding device body (101), the top of the feeding device body (101) is communicated with a discharging bin (102) through an arc-shaped opening (112), and the top of the discharging bin (102) is communicated with an external material storage tank through a conveying pipe (103); a blanking ball (104) is arranged in the blanking bin (102); the outer wall of the feeding device body (101) is provided with a first motor, and the output end of the first motor is connected with a first rotating shaft (106) rotatably arranged in the inner cavity of the feeding device body (101); a first connecting rod (107) is connected to the first rotating shaft (106), one end of the first connecting rod (107) is hinged with a second connecting rod (108), one end of the second connecting rod (108) is hinged with a movable frame (105), and the side wall of the movable frame (105) is attached to the inner wall of the feeding device body (101); the top of the movable frame (105) is provided with a lug (109), and when the second connecting rod (108) rotates to a vertical position right above the first connecting rod (107), the lug (109) just pushes the blanking ball (104) to the top of the blanking bin (102); the side wall of the feeding device body (101) is communicated with a sterilizing device body (201) of the sterilizing device (2) through a pipeline (111), and a first ultraviolet sterilizing lamp (202) is arranged at the top of the sterilizing device body (201).

2. The high-efficiency sterilization device for haematococcus pluvialis according to claim 1, wherein: the side wall of the movable frame (105) is integrally connected with a vertical wing plate (110), and the wing plate (110) is attached to the inner wall of the feeding device body (101).

3. The high-efficiency sterilization device for haematococcus pluvialis according to claim 1 or 2, wherein: a splitter plate (203) is arranged in the inner cavity of the sterilization device body (201), the splitter plate (203) is positioned below the pipeline (111), and a plurality of overflow holes (206) are formed in the splitter plate.

4. The high-efficiency sterilization device for haematococcus pluvialis according to claim 3, wherein: the splitter plate (203) is in an inverted V shape.

5. The high-efficiency sterilization device for haematococcus pluvialis according to claim 3, wherein: a second ultraviolet sterilizing lamp (204) is arranged below the flow dividing plate (203).

6. The high-efficiency sterilization device for haematococcus pluvialis according to claim 5, wherein: the second ultraviolet sterilizing lamp (204) is spiral.

7. The high-efficiency sterilization device for haematococcus pluvialis according to claim 6, wherein: a discharging device (3) is arranged below the second ultraviolet sterilizing lamp (204) in the inner cavity of the sterilizing device body (201), the discharging device (3) comprises a second motor (301) fixedly connected to the outer wall of the sterilizing device body (201), the output end of the second motor (301) is connected with a second rotating shaft (302), and a spiral feeding blade (303) is arranged on the second rotating shaft (302); the side wall of the sterilizing device body (201) opposite to the second motor (301) is communicated with a discharge hole (205).

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