CN114160299A

CN114160299A - Based on biological assay flotation separation device

Info

Publication number: CN114160299A
Application number: CN202111290626.7A
Authority: CN
Inventors: 陈秀英
Original assignee: Individual
Current assignee: Taizhou Sitong Water Supply And Sewage Material Co ltd
Priority date: 2021-11-02
Filing date: 2021-11-02
Publication date: 2022-03-11
Anticipated expiration: 2041-11-02
Also published as: CN114160299B

Abstract

The invention relates to a flotation separation device, in particular to a flotation separation device based on a biological experiment. The invention aims to solve the technical problem of how to design a flotation separation device based on biological experiments, which has low operation cost and simple operation and can avoid environmental pollution. In order to solve the technical problem, the invention provides a flotation separation device based on biological experiments, which comprises: the upper part of the frame is connected with a loading frame; the upper part of one side of the loading frame is connected with the guide plate; the guide plate is connected with the first contact rod in a sliding way; the first filter screen is connected to the first contact rod. According to the invention, the driving mechanism, the loading frame and the first filter screen are matched to operate to separate microorganisms on the ore, so that the effect of separating the microorganisms on the ore is achieved.

Description

Based on biological assay flotation separation device

Technical Field

The invention relates to a flotation separation device, in particular to a flotation separation device based on a biological experiment.

Background

In modern society, many ores are collected, the surface of which contains a certain amount of microorganisms, including bacteria, viruses, fungi, and some small protists, microscopic algae, etc., which are small and closely related to human beings. In order to better utilize the ore, it is generally necessary to separate the microorganisms on the surface of the ore from the ore.

At present, the mode of separating the microorganism on the ore surface is usually separated by a large amount of chemical agents of manual application, and the above-mentioned mode is higher in cost when the operation, and operation process is comparatively loaded down with trivial details, comparatively consumes the manpower, still causes a certain amount of pollution to the environment easily, can not satisfy people's demand.

Therefore, it is necessary to design a flotation separation device based on biological experiment, which has low operation cost and simple operation and can avoid polluting the environment.

Disclosure of Invention

(1) Technical problem to be solved

In order to overcome the defects that the operation cost is high, the operation process is complicated, the labor is consumed, and a certain amount of pollution to the environment is easily caused in the above mode, the invention provides the flotation separation device based on the biological experiment, which has the advantages of low operation cost and simplicity in operation and can avoid the pollution to the environment.

(2) Technical scheme

In order to solve the technical problem, the invention provides a flotation separation device based on a biological experiment, which comprises a frame, wherein the upper part of the frame is connected with a charging frame; the upper part of one side of the loading frame is connected with the guide plate; the guide plate is connected with the first contact rod in a sliding way; the first contact rod is connected with a first filter screen; the first contact rod is connected to the first filter screen and is in sliding fit with the material loading frame; the driving mechanism is arranged on the charging frame.

Preferably, the second contact bar is slidable in an L-shape on the loading frame.

Preferably, the driving mechanism comprises a double-shaft motor, and the double-shaft motor is arranged on the loading frame; the two sides of the charging frame are provided with the first guide rods; the output shaft of the double-shaft motor is connected with a threaded rod; the inclined frame is connected between the two first guide rods in a sliding mode, the first contact rods are in sliding fit with the inclined frame, the inclined frame is connected with clamping blocks, and the clamping blocks are in threaded fit with the threaded rods.

Preferably, the device also comprises a rotating mechanism, the rotating mechanism comprises a first fixing plate, and the lower part of one side of the charging frame is connected with the first fixing plate; the baffle, the last rotation type of first fixed plate is connected with the baffle, and the apopore of loading frame lower part can be blocked to the baffle lower part, and it has the thread groove to open on the baffle.

Preferably, the recycling device further comprises a recycling mechanism, the recycling mechanism comprises a collecting box, the frame is connected with the collecting box, a second one-way valve is connected to a water inlet of the collecting box, and the water inlet of the collecting box is aligned to a water outlet of the charging frame; the cylinder body is connected to the collecting box; the piston is connected to the cylinder body in a sliding manner; the collecting box is connected with a second fixing plate which is in sliding fit with the piston; the first connecting pipe is connected between the air outlet end of the cylinder body and the collecting box; the second connecting pipe is connected to the collecting box and connected with the charging frame, the liquid outlet end of the second connecting pipe extends into the charging frame, and the second connecting pipe is connected with a first one-way valve.

Preferably, the device also comprises a transmission mechanism, wherein the transmission mechanism comprises a first rotating shaft, and the other output shaft of the double-shaft motor is connected with the first rotating shaft; the first rotating shaft is connected with a one-way gear; the collecting box is connected with a third fixing plate; the transmission gear is rotatably connected to the third fixing plate, and the one-way gear is meshed with the transmission gear; the piston is connected with a second rotating shaft; and a connecting plate is hinged between the second rotating shaft and the transmission gear.

Preferably, the device also comprises a moving mechanism, the moving mechanism comprises second guide rods, and the loading frame is connected with two second guide rods; the sliding rod is connected between the two second guide rods in a sliding manner, and a return spring is connected between the sliding rod and the second guide rods; the sliding rod is connected with a third contact rod which is in sliding fit with the thread groove; the inclined frame is connected with an extrusion plate, and the extrusion plate is matched with the slide rod.

Preferably, the device also comprises a collecting mechanism, wherein the collecting mechanism comprises a placing frame, and the upper part of one side of the charging frame is connected with the placing frame; the lower part of the placing frame is connected with a second filter screen; the rotating plate is rotatably connected to the placing frame; the handle is connected with the rotating plate.

(3) Has the advantages that:

1. according to the invention, the driving mechanism, the loading frame and the first filter screen are matched to operate to separate microorganisms on the ore, so that the effect of separating the microorganisms on the ore is achieved.

2. The water recycling device can be used for recycling water by the aid of the cooperation of the recycling mechanism and the transmission mechanism, and waste of water resources is effectively avoided.

3. The method only needs to add water during operation, has low operation cost and simple operation, and does not cause pollution to the environment.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic partial perspective structure of the present invention.

Fig. 3 is a second partial three-dimensional structural diagram of the present invention.

Fig. 4 is a perspective view of a third partial structure of the present invention.

Fig. 5 is a schematic perspective view of the collecting mechanism of the present invention.

The labels in the figures are: 1-frame, 2-loading frame, 3-guide plate, 4-first contact rod, 5-first filter screen, 6-second contact rod, 8-driving mechanism, 81-double-shaft motor, 82-first guide rod, 83-threaded rod, 84-clamping block, 85-inclined frame, 9-rotating mechanism, 91-first fixing plate, 92-baffle, 93-threaded groove, 10-recovery mechanism, 100-first one-way valve, 101-collecting box, 102-second one-way valve, 103-cylinder body, 104-piston, 105-second fixing plate, 106-first connecting pipe, 107-second connecting pipe, 11-transmission mechanism, 111-first rotating shaft, 112-one-way gear, 113-third fixing plate, 114-transmission gear, 115-connecting plate, 116-second rotating shaft, 12-moving mechanism, 121-second guide rod, 122-sliding rod, 123-third contact rod, 124-extrusion plate, 125-return spring, 13-collecting mechanism, 131-placing frame, 132-second filter screen, 133-rotating plate and 134-handle.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a based on biological assay flotation separation device, as shown in fig. 1-2, including frame 1, material loading frame 2, deflector 3, first contact lever 4, first filter screen 5, second contact lever 6 and actuating mechanism 8, frame 1 upper portion is connected with

material loading frame

2, 2 rear side upper portions of material loading frame are connected with deflector 3, sliding connection has first contact lever 4 on deflector 3, be connected with first filter screen 5 on first contact lever 4, be connected with second contact lever 6 on first filter screen 5,

second contact lever

6 and 2 sliding fit of material loading frame are equipped with actuating mechanism 8 on the material loading frame 2.

The second contact lever 6 can slide in an L-shape on the loading frame 2.

The driving mechanism 8 comprises a double-shaft motor 81, first guide rods 82, a threaded rod 83, a fixture block 84 and an inclined frame 85, the double-shaft motor 81 is installed on the front side of the charging frame 2, the first guide rods 82 are installed on the left side and the right side of the charging frame 2, the inclined frame 85 is connected between the two first guide rods 82 in a sliding mode, the first contact rod 4 is in sliding fit with the inclined frame 85, the threaded rod 83 is connected to an output shaft of the double-shaft motor 81, the fixture block 84 is connected to the inclined frame 85, and the fixture block 84 is in threaded fit with the threaded rod 83.

When the microorganisms need to be subjected to flotation separation, the device can be used, firstly, a user can place ores to be separated in a loading frame 2, then, the user adds water into the loading frame 2, at the moment, the microorganisms in the ores float on the water surface, then, the user can start a double-shaft motor 81 to drive a threaded rod 83 to rotate, the threaded rod 83 rotates to drive a clamping block 84 to move upwards, the clamping block 84 moves upwards to drive an inclined frame 85 to move upwards, the inclined frame 85 drives a first contact rod 4 to move rightwards when moving upwards, the first contact rod 4 moves rightwards to drive all devices thereon to move rightwards together, a first filter screen 5 can drive the floating microorganisms to move rightwards together when moving rightwards, after the first filter screen 5 moves rightwards to the limit, the inclined frame 85 continues to move upwards to drive the first contact rod 4 to move upwards, the first contact rod 4 moves upwards to drive all devices thereon to move upwards together, at this moment, the first filter screen 5 can drag microorganisms out, after the first contact rod 4 moves upwards to the limit, the inclined frame 85 continues to move upwards to drive the first contact rod 4 to move rightwards again, so that the second contact rod 6 is driven to swing along the loading frame 2, the first contact rod 4 moves rightwards to enable the first filter screen 5 to incline, the collection frame can be placed below the first filter screen 5 at the moment, the microorganisms can be collected, after the collection is finished, the double-shaft motor 81 is started to rotate reversely, and therefore the microorganisms can be subjected to flotation separation.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 4, the device further comprises a rotating mechanism 9, the rotating mechanism 9 comprises a first fixing plate 91 and a baffle 92, the first fixing plate 91 is connected to the lower portion of the front side of the loading frame 2, the baffle 92 is rotatably connected to the first fixing plate 91, the lower portion of the baffle 92 can block a water outlet hole in the lower portion of the loading frame 2, and a threaded groove 93 is formed in the baffle 92.

When the water in the loading frame 2 needs to be discharged, the baffle 92 can be twisted to rotate ninety degrees, so that the baffle 92 no longer blocks the water outlet hole of the loading frame 2, and at the moment, the water in the loading frame 2 is discharged through the water outlet hole.

As shown in fig. 3-4, the recycling device 10 further comprises a recycling mechanism 10, the recycling mechanism 10 comprises a first check valve 100, a collection box 101, a second check valve 102, a cylinder 103, a piston 104, a second fixing plate 105, a first connecting pipe 106 and a second connecting pipe 107, the collection box 101 is connected to the frame 1, the second check valve 102 is connected to a water inlet of the collection box 101, the water inlet of the collection box 101 is aligned with a water outlet of the loading frame 2, the cylinder 103 is connected to the front side of the collection box 101, the piston 104 is slidably connected to the cylinder 103, the second fixing plate 105 is connected to the front side of the collection box 101, the second fixing plate 105 is slidably matched with the piston 104, the first connecting pipe 106 is connected between the air outlet of the cylinder 103 and the collection box 101, the second connecting pipe 107 is connected to the loading frame 2, the liquid outlet of the second connecting pipe 107 extends into the loading frame 2, the first check valve 100 is connected to the second connection pipe 107.

Discharged water all can fall in collecting box 101 in the material loading frame 2, when need add water in toward the material loading frame 2, reciprocating motion about can the pulling piston 104, reciprocating motion about the piston 104 squeezes gas into collecting box 101 through first connecting pipe 106 in, can extrude inside water when the gas in the collecting box 101 is too much, thereby squeeze into second connecting pipe 107 with the inside water of collecting box 101 in, the water in the second connecting pipe 107 then is discharged into in the material loading frame 2, so, just can carry out recycle to water, avoid extravagant.

Example 3

On the basis of the embodiment 2, as shown in fig. 3, the device further includes a transmission mechanism 11, the transmission mechanism 11 includes a first rotating shaft 111, a one-way gear 112, a third fixing plate 113, a transmission gear 114, a connecting plate 115 and a second rotating shaft 116, the other output shaft of the dual-shaft motor 81 is connected with the first rotating shaft 111, the first rotating shaft 111 is connected with the one-way gear 112, the front side of the collecting box 101 is connected with the third fixing plate 113, the third fixing plate 113 is connected with the transmission gear 114 in a rotating manner, the one-way gear 112 is engaged with the transmission gear 114, the piston 104 is connected with the second rotating shaft 116, and the connecting plate 115 is hinged between the second rotating shaft 116 and the transmission gear 114.

The double-shaft motor 81 drives the first rotating shaft 111 to rotate when being started, the one-way gear 112 cannot rotate at the moment, when the double-shaft motor 81 rotates reversely, the first rotating shaft 111 can be driven to rotate reversely, the first rotating shaft 111 rotates reversely to drive the one-way gear 112 to rotate, the one-way gear 112 rotates to drive the transmission gear 114 to rotate, the transmission gear 114 rotates to drive the piston 104 to reciprocate left and right through the connecting plate 115, and therefore the piston 104 does not need to be pulled to reciprocate left and right manually, and manpower is effectively saved.

As shown in fig. 2 and 4, the material loading device further includes a moving mechanism 12, the moving mechanism 12 includes a second guide rod 121, a slide rod 122, a third contact rod 123, a pressing plate 124 and a return spring 125, the two second guide rods 121 are connected to the front side of the material loading frame 2, the slide rod 122 is slidably connected between the two second guide rods 121, the return spring 125 is connected between the slide rod 122 and the second guide rod 121, the third contact rod 123 is connected to the slide rod 122, the third contact rod 123 is slidably engaged with the threaded groove 93, the pressing plate 124 is connected to the inclined frame 85, and the pressing plate 124 is engaged with the slide rod 122.

The inclined frame 85 drives the extrusion plate 124 to move upwards when moving upwards, after the extrusion plate 124 moves upwards to contact with the sliding rod 122, the extrusion plate 124 continues to move upwards to push the sliding rod 122 to move upwards, the return spring 125 is stretched, the sliding rod 122 drives the third contact rod 123 to move upwards when moving upwards, the third contact rod 123 moves upwards to drive the baffle 92 to rotate through the threaded groove 93, when the baffle 92 rotates to no longer block the water outlet hole of the material loading frame 2, the first filter screen 5 just inclines to pour out the microorganisms thereon, when the inclined frame 85 moves downwards, the extrusion plate 124 also moves downwards, when the extrusion plate 124 moves downwards to no longer abut against the sliding rod 122, the sliding rod 122 resets under the action of the return spring 125, the baffle 92 also resets under the cooperation of the threaded groove 93 and the third contact rod 123, because the second connecting pipe 107 needs a certain time in the water adding process, the second connecting pipe 107 is added with water after the baffle 92 is reset, so that the sliding rod 122 does not need to be pulled manually to move, and manpower is effectively saved.

As shown in fig. 5, the device further comprises a collecting mechanism 13, wherein the collecting mechanism 13 comprises a placing frame 131, a second filter screen 132, a rotating plate 133 and a handle 134, the placing frame 131 is connected to the upper portion of the right side of the loading frame 2, the second filter screen 132 is connected to the lower portion of the placing frame 131, the rotating plate 133 is rotatably connected to the right side of the placing frame 131, and the handle 134 is connected to the rotating plate 133.

When the first filter screen 5 is inclined, microorganisms in the first filter screen will fall into the placing frame 131 and be blocked by the second filter screen 132, and when the microorganisms on the second filter screen 132 need to be taken out, the handle 134 is pulled to drive the rotating plate 133 to rotate, and then the microorganisms on the second filter screen 132 are taken out.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a based on biological assay flotation separation device which characterized in that, including: the device comprises a frame (1), wherein the upper part of the frame (1) is connected with a loading frame (2); the upper part of one side of the loading frame (2) is connected with the guide plate (3); the guide plate (3) is connected with the first contact rod (4) in a sliding manner; the first filter screen (5) is connected to the first contact rod (4); the first filter screen (5) is connected with a first contact rod (6), and the first contact rod (6) is in sliding fit with the charging frame (2); the driving mechanism (8) is arranged on the loading frame (2).

2. A separation device based on biological experimental flotation according to claim 1, characterized in that the second contact bar (6) can slide along the L-shape on the loading frame (2).

3. A flotation separation device based on biological experiments according to claim 2, characterized in that the driving mechanism (8) comprises: the double-shaft motor (81) is arranged on the charging frame (2); the two sides of the charging frame (2) are provided with the first guide rods (82); the output shaft of the double-shaft motor (81) is connected with the threaded rod (83); the two first guide rods (82) are connected with the inclined frame (85) in a sliding mode, the first contact rod (4) is in sliding fit with the inclined frame (85), the inclined frame (85) is connected with a clamping block (84), and the clamping block (84) is in threaded fit with the threaded rod (83).

4. The flotation separation device based on biological experiments is characterized in that the flotation separation device further comprises a rotating mechanism (9), and the rotating mechanism (9) comprises: the lower part of one side of the charging frame (2) is connected with a first fixing plate (91); the baffle (92), the baffle (92) is connected with on first fixed plate (91) the commentaries on classics formula, and the apopore of baffle (92) lower part can block dress material frame (2) lower part, has screw thread groove (93) on baffle (92).

5. The flotation separation device based on the biological experiment is characterized in that the flotation separation device further comprises a recovery mechanism (10), and the recovery mechanism (10) comprises: the frame (1) is connected with the collecting box (101), a water inlet of the collecting box (101) is connected with a second one-way valve (102), and the water inlet of the collecting box (101) is aligned to a water outlet of the charging frame (2); the cylinder body (103) is connected to the collection box (101); the piston (104) is connected to the cylinder body (103) in a sliding manner; the collecting box (101) is connected with a second fixing plate (105), and the second fixing plate (105) is in sliding fit with the piston (104); a first connecting pipe (106) is connected between the air outlet end of the cylinder body (103) and the collecting box (101); the second connecting pipe (107) is connected to the collecting box (101), the second connecting pipe (107) is connected with the charging frame (2), the liquid outlet end of the second connecting pipe (107) extends into the charging frame (2), and the second connecting pipe (107) is connected with the first one-way valve (100).

6. The flotation separation device based on the biological experiment is characterized in that the flotation separation device further comprises a transmission mechanism (11), and the transmission mechanism (11) comprises: the other output shaft of the first rotating shaft (111) and the double-shaft motor (81) is connected with the first rotating shaft (111); the first rotating shaft (111) is connected with the one-way gear (112); the third fixing plate (113) is connected to the collecting box (101); the transmission gear (114) is rotatably connected to the third fixing plate (113), and the one-way gear (112) is meshed with the transmission gear (114); the piston (104) is connected with a second rotating shaft (116); a connecting plate (115) is hinged between the second rotating shaft (116) and the transmission gear (114).

7. The flotation separation device based on biological experiments according to claim 6, characterized in that the flotation separation device further comprises a moving mechanism (12), and the moving mechanism (12) comprises: the charging frame (2) is connected with two second guide rods (121); the sliding rod (122) is connected between the two second guide rods (121) in a sliding manner, and the return spring (125) is connected between the sliding rod (122) and the second guide rods (121); the sliding rod (122) is connected with a third contact rod (123), and the third contact rod (123) is in sliding fit with the threaded groove (93); the inclined frame (85) is connected with an extrusion plate (124), and the extrusion plate (124) is matched with the sliding rod (122).

8. The flotation separation device based on biological experiments according to claim 7, characterized in that the device further comprises a collecting mechanism (13), and the collecting mechanism (13) comprises: the upper part of one side of the loading frame (2) is connected with the placing frame (131); the lower part of the placing frame (131) is connected with the second filter screen (132); a rotating plate (133), wherein the placing frame (131) is rotatably connected with the rotating plate (133); the handle (134) is connected with the handle (134) on the rotating plate (133).