CN111606476A

CN111606476A - Microorganism inactivation device

Info

Publication number: CN111606476A
Application number: CN202010457383.0A
Authority: CN
Inventors: 刘富存; 赵纪领
Original assignee: Zhengzhou Zhongran Supply Chain Management Co ltd
Current assignee: Zhengzhou Zhongran Supply Chain Management Co ltd
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2020-09-01

Abstract

The invention belongs to the field of microorganism treatment equipment, and particularly relates to a microorganism inactivation device, wherein the bottom of an extinguishing tank is communicated with a rotary pipeline, the rotary pipeline is communicated with a filtering assembly, the inactivation tank is arranged on one side of the upper part of the rotary pipeline, and the filtering assembly is arranged on one side of the lower part of the rotary pipeline; the jar body is coniform hollow structure, jar body upper portion diameter is greater than its lower part diameter, jar body upper portion one side sets up the oral siphon, the oral siphon export is tangent with jar side wall, jar body middle part sets up rotatory stick, rotatory stick bottom and motor looks sealing connection, the motor drives rotatory stick and rotates, jar body bottom one side sets up the outlet pipe, outlet pipe inlet end department sets up the filter screen, the outlet pipe is connected with the water pump, jar internal packing has the water layer, the water layer is wrapped up in and is carried outer ceramic particles and sand grain, outer ceramic particles is ceramic material's solid sphere structure, the granule of quartz material is chooseed for use to the sand. The invention can thoroughly break the cell wall of the microorganism in the liquid and can thoroughly inactivate the microorganism in the liquid.

Description

Microorganism inactivation device

Technical Field

The invention belongs to the field of microorganism treatment equipment, and particularly relates to a microorganism inactivation device.

Background

The Chinese granted patent name ' device and method for inactivating microorganisms in liquid ' application number ' CN201510015526.1 ' discloses the following scheme ' the inactivation device comprises: the device comprises a container, a first pipeline and a second pipeline are tangentially installed on the upper portion of the container, and an included angle between the first pipeline and the second pipeline is an acute angle; the conveying pipe is provided with an opening at one end, and the opening end is arranged in the container; the third pipeline is arranged at the upper part of the conveying pipe and is communicated with the inside of the conveying pipe; a pump mounted upstream of the first and second conduits. The invention has the advantages of safety, low cost, high reliability and the like. In the scheme, the liquid microorganisms are inactivated in the container, so that the inactivation effect is poor, the microbial cell wall rupture degree of the container is limited only by the cyclone effect, and even the purpose of microbial cell wall rupture cannot be achieved completely.

Disclosure of Invention

In order to solve the problems of the prior art, the invention provides a microorganism inactivation device.

In order to achieve the purpose, the invention adopts the following technical scheme: a microorganism inactivation device comprises an inactivation tank, a rotary pipeline and a filtering assembly, wherein the bottom of the fire extinguishing tank is communicated with the rotary pipeline, the rotary pipeline is communicated with the filtering assembly, the inactivation tank is arranged on one side of the upper part of the rotary pipeline, and the filtering assembly is arranged on one side of the lower part of the rotary pipeline;

the inactivation jar is including a jar body, the oral siphon, rotatory stick, outlet pipe and outer ceramic granule and sand grain, jar body is coniform hollow structure, jar body upper portion diameter is greater than its lower part diameter, jar body upper portion one side sets up the oral siphon, the oral siphon export is tangent with jar side wall, jar body middle part sets up rotatory stick, rotatory stick bottom and motor looks sealing connection, the motor drives rotatory stick and rotates, jar body bottom one side sets up the outlet pipe, outlet pipe inlet end department sets up the filter screen, the outlet pipe is connected with the water pump, jar internal packing has the water layer, the parcel has outer ceramic granule and sand grain in the water layer, outer ceramic granule is the solid sphere structure of ceramic material, the granule of quartz material is chooseed for use to the.

Preferably, the upper part of the tank body is provided with a cover body, the cross section of the cover body is semicircular, one side of the cover body is hinged with one side of the upper part of the tank body, and the other end of the cover body is fixedly connected with the cover body through a bolt.

The optimized rotating rod comprises a main rod, side rods, a main rod inner cavity, side rod inner cavities and inner ceramic particles, wherein the main rod is circular, the side rods are fixed on two sides of the main rod, the side rods are obliquely and downwards arranged, the included angle alpha between the main rod and the side rods is 60-63 degrees, the main rod inner cavity is formed in the main rod, the side rod inner cavities are formed in the side rods, the main rod inner cavity is communicated with the side rod inner cavities, the main rod inner cavity and the side rod inner cavities are filled with a plurality of inner ceramic particles, and the inner ceramic particles are of solid ball structures made of ceramic materials; the side bar side wall is provided with a plurality of side holes in a run-through way, and the main bar outer wall is provided with a plurality of main holes in a run-through way.

Preferably the rotary pipeline is of a spiral structure, one end of the rotary pipeline is provided with a pipeline inlet, the other end of the rotary pipeline is provided with a pipeline outlet, the pipeline inlet is communicated with the outlet end of the water outlet pipe, the diameter of the rotary pipeline far away from the water outlet pipe is smaller than the diameter close to the water outlet pipe, and a buffer tank is arranged between the rotary pipeline and the filtering component.

The optimized buffer box comprises a box inlet pipe, a box body, an inclined plane, a first water outlet and a second water outlet, wherein the box inlet pipe is communicated with a pipeline outlet, the box inlet pipe is arranged on one side of the upper part of the box body, the box body is hollow and three-dimensional, the inclined plane is fixedly arranged at the bottom of the box body, an included angle beta between the inclined plane and a horizontal line is 15-20 degrees, the bottom end of the inclined plane is provided with the first water outlet, and the upper end of the inclined; a buffer cavity is arranged in the box body.

Preferably, the first water outlet is connected with the first water outlet pipe, and the first water outlet pipe is provided with a first valve.

Preferably, the water outlet II is connected with a water outlet pipe II, and a valve II is arranged on the water outlet pipe II.

The filtering component preferably comprises a filtering box, a spun yarn particle layer, a pebble layer and a charcoal particle layer, wherein the spun yarn particle layer, the pebble layer and the charcoal particle layer are arranged in the filtering box; the bottom of the filter tank is provided with a filter tank water outlet pipe, and the filter tank water outlet pipe is provided with a third valve.

Compared with the prior art, the invention has the beneficial effects that: the invention thoroughly breaks the cell wall of microorganism in the liquid, can thoroughly inactivate the microorganism in the liquid, breaks the wall of the microorganism in the liquid by the impact of the outer ceramic particles and sand grains in the inactivation tank and the rotating rod in the reverse rotation, in addition, the hollow structure of the rotating rod enables the rotating rod to further continuously break the wall of the microorganism in the water body by the inner ceramic particles in the rotation, then the subsequent rotating pipeline and the water body further act to break the wall of the microorganism in the water body, and the final liquid is filtered by the filtering component.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a schematic view of the position relationship between the water inlet pipe and the tank body according to the present invention.

FIG. 3 is a schematic view of the inactivation tank of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following examples, which are provided only for illustrating the present invention and are not intended to limit the scope of the present invention.

Please refer to fig. 1-3, which illustrates a microorganism inactivation apparatus, comprising an inactivation tank 1, a rotary pipeline 2 and a filtering assembly 3, wherein the bottom of the fire-extinguishing tank 1 is communicated with the rotary pipeline 2, the rotary pipeline 2 is communicated with the filtering assembly 3, the inactivation tank 1 is arranged at one side of the upper part of the rotary pipeline 2, and the filtering assembly 3 is arranged at one side of the lower part of the rotary pipeline 2; inactivation jar 1 is through the cutting stirring to the water for thereby reach the purpose of microorganism inactivation of the destruction of the microorganism cell wall in the water, thereby make water and 2 inner walls of helical tube carry out collision friction and inactivate with higher speed the fracture of microorganism cell wall through 2 steps one of helical tube, the water after the microorganism inactivation enters into to filter component 3 and filters can.

The inactivation tank 1 comprises a tank body 10, an inlet pipe 11, a rotating rod 12, a water outlet pipe 13, outer ceramic particles 14 and sand grains 15, wherein the tank body 10 is of a conical hollow structure, the diameter of the upper part of the tank body 10 is larger than that of the lower part of the tank body, the inlet pipe 11 is arranged on one side of the upper part of the tank body 10, the outlet of the inlet pipe 11 is tangent to the side wall of the tank body 10, so that water entering the tank body 10 enters the tank body 10 along the tangential direction of the tank body 10 to generate vortex, the probability that microbial cell walls in water in the tank body 10 are damaged is improved, the rotating rod 12 is arranged in the middle of the tank body 10, the bottom of the rotating rod 12 is hermetically connected with a motor 120, the motor 120 drives the rotating rod 12 to rotate, when the vortex of the water in the tank body 10 generates anticlockwise motion, the motor 120 simultaneously drives the rotating rod, a water outlet pipe 13 is arranged on one side of the bottom of the tank body 10, a filter screen 131 is arranged at the water inlet end of the water outlet pipe 13, the filter screen 131 prevents the outer ceramic particles 14 and the sand particles 15 from flowing out of the tank body 10, the water outlet pipe 13 is connected with a water pump 131, a water layer 100 is filled in the tank body 10, the outer ceramic particles 14 and the sand particles 15 are wrapped and clamped in the water layer 100, the outer ceramic particles 14 are of a solid sphere structure made of ceramic, and the sand particles 15 are made of quartz; the outer ceramic particles 14 and the sand particles 15 continuously impact microorganisms in the water body during the stirring process of the water body to accelerate the rupture of the microbial cell walls in the water body.

The cover body 101 is arranged on the upper part of the tank body 10, the cross section of the cover body 101 is semicircular, one side of the cover body 101 is hinged with one side of the upper part of the tank body 10, and the other end of the cover body 101 is fixedly connected with the cover body 101 through a bolt 1011. The cover body 101 is covered during operation, the cover body 101 provides a stable operation environment for the tank body 10, the water body inactivation operation is prevented from being interfered by external factors,

the rotating rod 12 comprises a main rod 121, side rods 122, a main rod inner cavity 1231, side rod inner cavities 1232 and inner ceramic particles 124, the main rod 121 is in a circular shape, the side rods 122 are fixed on two sides of the main rod 121, the side rods 122 accelerate the impact frequency and area of the rotating rod 12 and a water body, the side rods 122 are obliquely and downwards arranged, the included angle alpha between the main rod 121 and the side rods 122 is 60-63 degrees, the preferred included angle alpha is 63 degrees, the main rod inner cavity 1231 is formed in the main rod 121, the side rod inner cavity 1232 is formed in the side rods 122, the main rod inner cavity 1231 is communicated with the side rod inner cavity 2, the main rod inner cavity 1231 and the side rod inner cavity 1232 are filled with a plurality of inner ceramic particles 124, and the inner ceramic particles 124 are in a solid ball structure made of ceramic materials; the side wall of the side rod 122 is provided with a plurality of side holes 1221 in a penetrating way, and the outer wall of the main rod 121 is provided with a plurality of main holes 1211 in a penetrating way; during the rotation of the main rod 121, the main rod inner cavity 1231 and the side rod inner cavity 1232 exchange with the external water body through the main hole 1211 and the side hole 1221, and the water body entering the main rod inner cavity 1231 and the side rod inner cavity 1232 acts on the microbial cell walls in the water body to be further damaged at the same time of the ceramic particles 124 in the main rod inner cavity 1231 and the narrow space of the side rod inner cavity 1232.

The rotary pipeline 2 is of a spiral structure, one end of the rotary pipeline 2 is provided with a pipeline inlet 21, the other end of the rotary pipeline 2 is provided with a pipeline outlet 22, the pipeline inlet 21 is communicated with the outlet end of the water outlet pipe 13, the diameter of the rotary pipeline 2 far away from the water outlet pipe 13 is smaller than that close to the water outlet pipe 13,

a buffer tank 4 is arranged between the rotary pipeline 2 and the filtering component 3,

the buffer tank 4 comprises a tank inlet pipe 41, a tank body 42, an inclined surface 43, a first water outlet 441 and a second water outlet 442, the tank inlet pipe 41 is communicated with the pipeline outlet 22, the tank inlet pipe 41 is arranged on one side of the upper portion of the tank body 42, the tank body 42 is hollow and three-dimensional, the inclined surface 43 is fixedly arranged at the bottom of the tank body 42, an included angle beta between the inclined surface 43 and the horizontal line is 15-20 degrees, the preferable included angle beta is 18 degrees, the inclined surface 43 is convenient for precipitation of impurities such as sand bodies, the precipitated impurities are discharged through the first water outlet 441, a first water outlet 441 is arranged at the bottom end of the inclined surface 43; a buffer chamber 420 is arranged in the box body 42; the buffer chamber 420 serves as a temporary storage for the body of water, while the relatively clean body of water is discharged from the upper water outlet port 442.

The first water outlet 441 is connected with a first water outlet pipe 4411, and a first valve 44111 is arranged on the first water outlet pipe 4411;

the second water outlet 442 is connected with a second water outlet pipe 4421, and a second valve 44211 is arranged on the second water outlet pipe 4421;

the filter assembly 3 comprises a filter box 31, a spun yarn layer 32, a pebble layer 33 and a charcoal granule layer 34, wherein the spun yarn layer 32, the pebble layer 33 and the charcoal granule layer 34 are arranged in the filter box 31, the spun yarn layer 32 is arranged at the upper part of the pebble layer 33, and the pebble layer 33 is arranged at the upper part of the charcoal granule layer 34; a filter tank water outlet pipe 311 is arranged at the bottom of the filter tank 31, and a valve III 3111 is arranged on the filter tank water outlet pipe 311; the filtering component 3 can well filter and remove impurities from the water body after the microorganisms are inactivated.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims

1. A microbial deactivation apparatus, comprising: the fire extinguishing tank comprises an inactivation tank, a rotary pipeline and a filtering assembly, wherein the bottom of the fire extinguishing tank is communicated with the rotary pipeline, the rotary pipeline is communicated with the filtering assembly, the inactivation tank is arranged on one side of the upper part of the rotary pipeline, and the filtering assembly is arranged on one side of the lower part of the rotary pipeline;

2. The microbial deactivation apparatus of claim 1, wherein: the tank body is characterized in that a cover body is arranged on the upper portion of the tank body, the cross section of the cover body is semicircular, one side of the cover body is hinged with one side of the upper portion of the tank body, and the other end of the cover body is fixedly connected with the cover body through a bolt.

3. The microbial deactivation apparatus of claim 2, wherein: the rotary rod comprises a main rod, side rods, a main rod inner cavity, side rod inner cavities and inner ceramic particles, the main rod is circular, the side rods are fixed on two sides of the main rod, the side rods are obliquely and downwards arranged, the included angle alpha between the main rod and the side rods is 60-63 degrees, the main rod inner cavity is formed in the main rod, the side rod inner cavities are formed in the side rods, the main rod inner cavity is communicated with the side rod inner cavities, the main rod inner cavity and the side rod inner cavities are filled with a plurality of inner ceramic particles, and the inner ceramic particles are of solid ball structures made of ceramic materials; the side bar side wall is provided with a plurality of side holes in a run-through way, and the main bar outer wall is provided with a plurality of main holes in a run-through way.

4. The microbial deactivation apparatus of claim 1, wherein: the rotary pipeline is of a spiral structure, one end of the rotary pipeline is provided with a pipeline inlet, the other end of the rotary pipeline is provided with a pipeline outlet, the pipeline inlet is communicated with the outlet end of the water outlet pipe, the diameter of the rotary pipeline far away from the water outlet pipe is smaller than the diameter close to the water outlet pipe, and a buffer tank is arranged between the rotary pipeline and the filtering component.

5. The microbial deactivation apparatus of claim 4, wherein: the buffer tank comprises a tank inlet pipe, a tank body, an inclined plane, a first water outlet and a second water outlet, the tank inlet pipe is communicated with a pipeline outlet, the tank inlet pipe is arranged on one side of the upper portion of the tank body, the tank body is hollow and three-dimensional, the inclined plane is fixedly arranged at the bottom of the tank body, an included angle beta between the inclined plane and a horizontal line is 15-20 degrees, the bottom end of the inclined plane is provided with the first water outlet, and the upper end of the inclined; a buffer cavity is arranged in the box body.

6. The microbial deactivation apparatus of claim 5, wherein: the first water outlet is connected with the first water outlet pipe, and the first water outlet pipe is provided with a first valve.

7. The microbial deactivation apparatus of claim 5, wherein: the water outlet II is connected with a water outlet pipe II, and a valve II is arranged on the water outlet pipe II.

8. The microbial deactivation apparatus of claim 4, wherein: the filter assembly comprises a filter box, a spun yarn particle layer, a pebble layer and a charcoal particle layer, wherein the spun yarn particle layer, the pebble layer and the charcoal particle layer are arranged in the filter box; the bottom of the filter tank is provided with a filter tank water outlet pipe, and the filter tank water outlet pipe is provided with a third valve.