CN113634037A - Multi-tube type solid-liquid separation and filtration device - Google Patents

Abstract

The invention relates to the technical field of solid-liquid separation, in particular to a multi-tube type solid-liquid separation filtering device, which comprises a base and a separation unit, wherein the base is provided with the separation unit; the invention can solve the following problems existing at present: when the existing solid-liquid separation equipment is used for separating the same solid-liquid mixture, a plurality of liquid samples can be separated only by working for a plurality of times, and when the same solid-liquid separation equipment is used for separating different solid-liquid mixtures, the problem of mutual pollution is easily caused; the existing solid-liquid separation equipment can not complete the technical purpose of timely cleaning residues attached to the inner wall of a filter material while separating a solid-liquid mixture, so that the separation efficiency of the solid-liquid mixture is reduced, the solid-liquid separation rate is reduced, and waste is caused.

Description

Multi-tube type solid-liquid separation and filtration device

Technical Field

The invention relates to the technical field of solid-liquid separation, in particular to a multi-tube type solid-liquid separation filtering device.

Background

The solid-liquid separation technology is widely applied to the fields of chemical industry, petroleum, food, pharmacy, mineral separation, coal, water treatment, ships and the like, but the common solid-liquid separation equipment at present has the following problems: 1. when the existing solid-liquid separation equipment is used for separating the same solid-liquid mixture, a plurality of liquid samples can be separated only by working for a plurality of times, and when the same solid-liquid separation equipment is used for separating different solid-liquid mixtures, the problem of mutual pollution is easily caused.

2. The existing solid-liquid separation equipment can not complete the technical purpose of timely cleaning residues attached to the inner wall of a filter material while separating a solid-liquid mixture, so that the separation efficiency of the solid-liquid mixture is reduced, the solid-liquid separation rate is reduced, and waste is caused.

Disclosure of Invention

The invention aims to provide a multi-tube type solid-liquid separation and filtration device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-tube solid-liquid separation filter device comprises a base and a separation unit, wherein the separation unit is arranged on the base.

The base upper surface edge evenly is provided with a plurality ofly to vertical auxiliary strut along its circumference direction, and every middle part between to auxiliary strut is provided with the detaching unit, and base upper surface central point puts and is provided with supplementary montant, and it has electric putter to articulate jointly between supplementary montant upper end and the detaching unit.

The detaching unit includes the separation slide, the separation slider, the separation screw rod, the knockout drum body and filtering component, the separation slide has been seted up to the upper and lower both ends symmetry of auxiliary strut, it is provided with the separation slider to slide in the separation slide, separation slider symmetrical arrangement in two relative separation slides from top to bottom, it is provided with the separation screw rod to rotate on the auxiliary strut, pass through threaded connection between separation slider and the separation screw rod, and the threaded connection direction of rotation between two separation sliders that are located on same auxiliary strut and the separation screw rod is opposite, it is provided with the knockout drum body to rotate at the middle part between every auxiliary strut, and it is provided with filtering component jointly to be located between every four separation sliders and the knockout drum body to in the auxiliary strut.

As a further scheme of the invention: the filter assembly comprises an upper support plate, a filter pressing plate, a lower support plate, a filter bottom plate, a liquid receiving channel, a liquid discharge pipe, a filter element, a filter motor and a filter chuck, an upper support plate is arranged between two separation sliders above each pair of auxiliary supporting rods, the lower surface of the upper support plate is provided with the filter pressing plate, a lower support plate is arranged between two separation sliders below each pair of auxiliary supporting rods, the upper surface of the lower support plate is provided with the filter bottom plate, the bottom of the inner wall of the separation tank body is provided with an annular liquid receiving channel, the liquid receiving channel is provided with the liquid discharge pipe below, the filter pressing plate and the filter bottom plate are provided with the filter element together, the lower part of the outer wall of the filter element is attached to the liquid receiving channel, the middle part of the upper support plate is provided with the filter motor, the output end of the filter motor is provided with the filter chuck, and the filter chuck is inserted.

As a further scheme of the invention: the filter core divide into the multilayer from inside to outside, and the filter mesh size on the filter core diminishes from inside to outside in proper order, and every layer of filter core is the filter screen section of thick bamboo of cylinder structure, and the filter screen section of thick bamboo that just is located in the adjacent filter screen section of thick bamboo and leans on interior filter screen section of thick bamboo outer wall top to be provided with ring groove, and the position leans on outer filter screen section of thick bamboo and knockout drum inner wall top to be provided with annular cardboard, ring groove and annular cardboard joint.

As a further scheme of the invention: the lower surface of the filtering pressing plate is attached to the upper end of the filtering screen cylinder, the upper supporting plate is rotatably provided with a linkage gear, the linkage gear is located between the adjacent filtering screen cylinders, linkage racks are arranged on opposite surfaces of the adjacent filtering screen cylinders, and the linkage gears are meshed with the linkage racks.

As a further scheme of the invention: the upper surface of the filter bottom plate is attached to the lower ends of the filter screen cylinders, and a slag receiving groove is formed in the position, between the adjacent filter screen cylinders, of the upper surface of the filter bottom plate.

As a further scheme of the invention: the inner wall of the filter screen cylinder is provided with a filter scraping rod in a sliding mode, the filter scraping rod is of a spiral structure, the lower end of the filter scraping rod is provided with a filter support rod, the filter support rod is of an elastic telescopic structure, the upper surface of the filter bottom plate is evenly provided with a plurality of filter stop blocks along the circumferential direction of the upper surface of the filter bottom plate, and the filter support rod is in contact with the filter stop blocks.

As a further scheme of the invention: the bottom of the inner wall of the filter screen cylinder is obliquely provided with a filter shovel plate, and the filter shovel plate is in sliding contact with the slag receiving groove.

As a further scheme of the invention: the inclination directions of the filtering shovel plates on the inner walls of the adjacent filtering net cylinders are opposite.

Compared with the prior art, the invention has the following advantages: 1. through the combined action of a plurality of separation units, can once only carry out the rotary separation respectively to the solid-liquid mixture of same kind, improve the efficiency that liquid sample detected, and when carrying out rotary separation to the solid-liquid mixture of different classes, can effectively avoid the problem of mutual contamination to the accuracy that liquid sample detected data has been improved.

2. Through the rotation of filter core, drive and filter the inner wall of scraping pole and filter core and carry out relative rotation, filter and scrape the pole and can strike off adnexed residue on the filter core inner wall to the adnexed residue of filter core inner wall too much influences solid-liquid separation's efficiency and solid-liquid separation's separation rate.

3. The solid-liquid mixture can be subjected to multi-level selective filtration treatment through the filter element in the separation unit, so that the purity of the liquid is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a perspective view of the present invention from a first perspective.

Fig. 2 is a perspective view of the present invention from a second perspective.

Fig. 3 is a schematic top plan view of the present invention.

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3 according to the present invention.

FIG. 5 is a schematic cross-sectional view taken along line B-B of FIG. 3 according to the present invention.

Fig. 6 is an enlarged view of the structure of fig. 4C according to the present invention.

Fig. 7 is a schematic perspective view of a filter cartridge according to the present invention.

In the figure: 1. a base; 10. an auxiliary strut; 11. an auxiliary vertical bar; 12. an electric push rod; 2. a separation unit; 20. separating the slide way; 21. separating the slide block; 23. separating the screw; 24. separating the tank body; 25. a filter assembly; 250. an upper support plate; 251. filtering and pressing the plate; 252. a lower support plate; 253. a filter base plate; 254. a liquid receiving channel; 255. a liquid discharge pipe; 256. a filter element; 257. a filter motor; 258. a filter cartridge; 260. a filter screen cylinder; 261. an annular neck; 262. an annular clamping plate; 263. a linkage gear; 264. a linkage rack; 265. a slag receiving groove; 266. a filtering scraping rod; 267. a filtering stay bar; 268. a filtering stop block; 269. and (4) a filtering shovel plate.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1, the multi-tube solid-liquid separation and filtration device comprises a base 1 and a separation unit 2, wherein the separation unit 2 is arranged on the base 1.

Referring to fig. 1 and 2, the edge of the upper surface of the base 1 is uniformly provided with a plurality of pairs of vertical auxiliary supporting rods 10 along the circumferential direction, the middle part between each pair of the auxiliary supporting rods 10 is provided with a separating unit 2, the central position of the upper surface of the base 1 is provided with an auxiliary vertical rod 11, and an electric push rod 12 is hinged between the upper end of the auxiliary vertical rod 11 and the separating unit 2.

Referring to fig. 1 to 5, the separation unit 2 includes a separation slide way 20, a separation slide block 21, a separation screw 23, a separation tank 24 and a filter assembly 25, the separation slide way 20 is symmetrically provided at the upper and lower ends of the auxiliary support rod 10, the separation slide block 21 is slidably provided in the separation slide way 20, the separation slide blocks 21 in the two separation slide ways 20 which are opposite to each other are symmetrically arranged, the separation screw 23 is rotatably provided on the auxiliary support rod 10, the separation slide block 21 and the separation screw 23 are connected by a thread, the threaded connection rotation directions between the two separation slide blocks 21 and the separation screw 23 on the same auxiliary support rod 10 are opposite, the separation tank 24 is rotatably provided in the middle between each pair of auxiliary support rods 10, and the filter assembly 25 is provided between the four separation slide blocks 21 and the separation tank 24 in each pair of auxiliary support rods 10.

During specific work, in an initial state, the distance between the separation sliding blocks 21 in the separation slide ways 20 at the upper end and the lower end of the auxiliary support rod 10 is farthest, at the moment, the filter assembly 25 in the separation tank body 24 is in an unassembled state, and the separation tank body 24 is inclined due to the fact that the electric push rod 12 is in an extended state, so that the part, located in the separation tank body 24, of the filter assembly 25 is convenient to assemble, then the electric push rod 12 is shortened to enable the separation tank body 24 to be in a vertical state, the middle part of the filter assembly 25 can be assembled in the separation tank body 24 in a grouping mode, then the solid-liquid mixture is poured into the filter assembly 25, then the separation screw 23 is rotated to drive the two separation sliding blocks 21 which are in threaded connection with the separation screw to mutually approach, the separation sliding blocks 21 drive the upper part and the lower part of the filter assembly 25 to be assembled with the part, located in the separation tank body 24, and the filter assembly 25 can perform rotary filtration treatment on the solid-liquid mixture during work, after the solid-liquid mixture is separated in a rotating mode, the separating screw 23 is reversed, so that the upper portion and the lower portion of the filtering assembly 25 are separated from the middle portion, the separating tank body 24 and the filtering assembly 25 are both made to return to the initial state, and therefore residues in the filtering assembly 25 can be cleaned conveniently.

Referring to fig. 4 and 5, the filter assembly 25 includes an upper support plate 250, a filter pressing plate 251, a lower support plate 252, a filter bottom plate 253, a liquid receiving channel 254, a liquid discharge pipe 255, a filter element 256, a filter motor 257 and a filter chuck 258, the upper support plate 250 is commonly disposed between two separation sliders 21 above each pair of auxiliary support rods 10, the filter pressing plate 251 is disposed on the lower surface of the upper support plate 250, the lower support plate 252 is commonly disposed between two separation sliders 21 below each pair of auxiliary support rods 10, the filter bottom plate 253 is disposed on the upper surface of the lower support plate 252, the annular liquid receiving channel 254 is disposed on the bottom of the inner wall of the separation tank 24, the liquid discharge pipe 255 is disposed below the liquid receiving channel 254, the filter element 256 is commonly disposed between the filter pressing plate 251 and the filter bottom plate 253, the lower portion of the outer wall of the filter element 256 is in contact with the liquid receiving channel 254, the filter motor 257 is disposed in the middle of the upper support plate 250, the filter chuck 258 is disposed at the output end of the filter motor 257, the filter cartridge 256 is inserted into the filter cartridge 258.

Referring to fig. 4 and 5, the filter element 256 is divided into a plurality of layers from inside to outside, the sizes of the filter mesh openings on the filter element 256 are sequentially reduced from inside to outside, each layer of the filter element 256 is a filter screen cylinder 260 with a cylindrical structure, an annular clamping groove 261 is arranged in each adjacent filter screen cylinder 260 and above the outer wall of the filter screen cylinder 260 close to the inside, annular clamping plates 262 are arranged above the filter screen cylinders 260 close to the outside and the inner wall of the separation tank 24, and the annular clamping grooves 261 are clamped with the annular clamping plates 262.

Referring to fig. 2 to 5, the lower surface of the filter pressing plate 251 is in rotational contact with the upper end of the filter screen cylinder 260, the upper supporting plate 250 is provided with a linkage gear 263 in a rotational manner, the linkage gear 263 is located between adjacent filter screen cylinders 260, linkage racks 264 are provided on opposite surfaces of adjacent filter screen cylinders 260, and the linkage gear 263 is engaged with the linkage racks 264.

Referring to fig. 4 and 5, the upper surface of the filter bottom plate 253 is attached to the lower end of the filter screen cylinder 260, and a slag receiving groove 265 is formed in the position between the adjacent filter screen cylinders 260 on the upper surface of the filter bottom plate 253.

Referring to fig. 4 to 6, the inner wall of the filter screen cylinder 260 is slidably provided with a filter scraping rod 266, the filter scraping rod 266 is of a spiral structure, a filter supporting rod 267 is arranged at the lower end of the filter scraping rod 266, the filter supporting rod 267 is of an elastic telescopic structure, the upper surface of the filter bottom plate 253 is uniformly provided with a plurality of filter stoppers 268 along the circumferential direction, and the filter supporting rod 267 is in contact with the filter stoppers 268.

Referring to fig. 7, a filter shovel plate 269 is obliquely arranged at the bottom of the inner wall of the filter screen cylinder 260, the filter shovel plate 269 is in sliding contact with the slag receiving groove 265, and the inclination directions of the filter shovel plates 269 on the inner wall of the adjacent filter screen cylinder 260 are opposite.

During the operation, in the initial state, because the filter element 256 is divided into a plurality of layers, when the filter screen cylinder 260 is placed into the separation tank 24, the filter element 256 is assembled by first placing the outermost filter screen cylinder 260, the lower part of the outer wall of the outermost filter screen cylinder 260 contacts with the liquid receiving channel 254, then the adjacent filter screen cylinders 260 are clamped by the annular clamping groove 261 and the annular clamping plate 262, the separation screw 23 is rotated to drive the two separation sliding blocks 21 connected with the separation screw through the screw thread to approach each other, the separation sliding blocks 21 drive the upper supporting plate 250 and the lower supporting plate 252 to approach each other, so that the filter pressing plate 251 is clamped with the upper end of the filter element 256, the filter bottom plate 253 is clamped with the lower end of the filter element 256, the filter chuck 258 is clamped with the upper end of the filter screen cylinder 260 located at the center, then the filter motor 257 drives the filter screen cylinder 260 connected with the filter chuck 258 to rotate when working, and the adjacent filter screen cylinders 260 rotate under the cooperation of the interlocking gear 263 and the rack 264, and the adjacent filter screen cylinders 260 rotate in opposite directions, so that the liquid separated by rotation is collided and scattered on the inner walls of the filter screen cylinders 260, and the solid-liquid separation function is better realized, when the filter bottom plate 253 is clamped with the lower ends of the filter elements 256, the filter support rods 267 are extruded by the filter bottom plate 253, so that the filter support rods 266 are tightly attached to the inner walls of the filter screen cylinders 260, the scraping effect of the filter support rods 266 on the inner walls of the filter screen cylinders 260 is improved, the structural characteristics of the filter support rods 266 can increase the contact area with the filter screen cylinders 260, the inner walls of the filter screen cylinders 260 are comprehensively cleaned, the filter support rods 267 are positioned between the adjacent filter stoppers 268, when the filter screen cylinders 260 rotate later, the filter support rods 266 cannot rotate along with the filter screen cylinders, so that the filter support rods 266 can scrape the inner walls of the filter screen cylinders 260, and the filter shovels can shovel the solid-liquid mixture in the slag receiving grooves 265, so that the solid-liquid mixture can be carried into the filter screen cylinder 260 again for rotary filtration treatment, thereby improving the solid-liquid separation effect.

The working principle of the invention is as follows: s1, in an initial state, the distance between the separation slide blocks 21 in the separation slide ways 20 at the upper end and the lower end of the auxiliary support rod 10 is farthest, the separation tank body 24 is inclined due to the fact that the electric push rod 12 is in an extension state, then the electric push rod 12 is shortened, the separation tank body 24 is in a vertical state, due to the fact that the filter element 256 is divided into multiple layers, when the filter screen cylinder 260 is placed in the separation tank body 24, the filter screen cylinder 260 at the outermost layer is placed at first, the lower portion of the outer wall of the filter screen cylinder 260 at the outermost layer is rotatably connected with the liquid receiving channel 254, then the filter element 256 is finally assembled between the adjacent filter screen cylinders 260 through the sliding connection of the annular clamping groove 261 and the annular clamping plate 262, solid-liquid mixture is poured into the central filter screen cylinder 260 of the filter element 256, the separation screw 23 is rotated to drive the two separation slide blocks 21 which are connected through threads to mutually approach, the separation slide blocks 21 drive the upper support plate 250 and the lower support plate 252 to mutually approach, such that the filter pressing plate 251 is coupled to the upper end of the filter cartridge 256, the filter bottom plate 253 is coupled to the lower end of the filter cartridge 256, and the filter cartridge 258 is coupled to the upper end of the filter screen cylinder 260 located at the center.

S2, when the filter motor 257 works, the filter chuck 258 drives the filter screen cylinder 260 connected with it to rotate, and the adjacent filter screen cylinders 260 rotate under the cooperation of the interlocking gear 263 and the interlocking rack 264, and the rotation directions of the adjacent filter screen cylinders 260 are opposite, so that the liquid separated by rotation is collided and scattered on the inner wall of the filter screen cylinder 260, thereby better realizing the solid-liquid separation function, when the filter bottom plate 253 is connected with the lower end of the filter element 256, the filter support rod 267 is positioned between the adjacent filter stoppers 268, and then when the filter screen cylinders 260 rotate, the filter scraping rod 266 cannot rotate along with the filter bottom plate 266, so that the filter scraping rod 266 can scrape the inner wall of the filter screen cylinder 260, and the filter shoveling plate 269 shovels the solid-liquid mixture in the slag receiving groove 265 to improve the solid-liquid separation effect, and the liquid after solid-liquid separation is finally discharged through the liquid discharge pipe 255, and falls into a collection bucket previously placed on the base.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a multitube solid-liquid separation filter equipment, includes base (1) and separating element (2), its characterized in that: the base (1) is provided with a separation unit (2); wherein:

a plurality of pairs of vertical auxiliary supporting rods (10) are uniformly arranged on the edge of the upper surface of the base (1) along the circumferential direction of the base, a separation unit (2) is arranged in the middle between each pair of auxiliary supporting rods (10), an auxiliary vertical rod (11) is arranged at the central position of the upper surface of the base (1), and an electric push rod (12) is hinged between the upper end of the auxiliary vertical rod (11) and the separation unit (2);

the separation unit (2) is including separating slide (20), separation slider (21), separation screw rod (23), the knockout drum body (24) and filtering component (25), separation slide (20) have been seted up to the upper and lower both ends symmetry of auxiliary strut (10), it is provided with separation slider (21) to slide in separation slide (20), separation slider (21) symmetrical arrangement in two relative separation slides (20) from top to bottom, it is provided with separation screw rod (23) to rotate on auxiliary strut (10), pass through threaded connection between separation slider (21) and separation screw rod (23), and the threaded connection direction of rotation between two separation sliders (21) that are located on same auxiliary strut (10) and separation screw rod (23) is opposite, it is provided with the knockout drum body (24) to rotate every middle part between auxiliary strut (10), and be located and be provided with filtering component (25) jointly between every four separation sliders (21) and the knockout drum body (24) in auxiliary strut (10).

2. The multitube solid-liquid separation filtration apparatus according to claim 1, characterized in that: the filtering component (25) comprises an upper support plate (250), a filtering pressing plate (251), a lower support plate (252), a filtering bottom plate (253), a liquid receiving channel (254), a liquid discharge pipe (255), a filter core (256), a filtering motor (257) and a filtering chuck (258), wherein the upper support plate (250) is arranged between two separating sliders (21) above each pair of auxiliary support rods (10), the filtering pressing plate (251) is arranged on the lower surface of the upper support plate (250), the lower support plate (252) is arranged between the two separating sliders (21) below each pair of auxiliary support rods (10), the filtering bottom plate (253) is arranged on the upper surface of the lower support plate (252), the annular liquid receiving channel (254) is arranged at the bottom of the inner wall of the separation tank body (24), the liquid discharge pipe (255) is arranged below the liquid receiving channel (254), and the filter core (256) is arranged between the filtering pressing plate (251) and the filtering bottom plate (253), the lower part of the outer wall of the filter element (256) is attached to the liquid receiving channel (254), the middle part of the upper support plate (250) is provided with a filtering motor (257), the output end of the filtering motor (257) is provided with a filtering chuck (258), and the filter element (256) is inserted into the filtering chuck (258).

3. The multitube solid-liquid separation filtration apparatus according to claim 2, characterized in that: filter core (256) divide into the multilayer from inside to outside, and the filtration mesh size on filter core (256) diminishes from inside to outside in proper order, and every layer of filter core (256) is filter screen cylinder (260) of cylindrical structure, and filter screen cylinder (260) that just is located in adjacent filter screen cylinder (260) is provided with ring groove (261) above leaning on interior filter screen cylinder (260) outer wall, and the position is provided with annular cardboard (262) by outer filter screen cylinder (260) and knockout drum body (24) inner wall top, ring groove (261) and annular cardboard (262) joint.

4. The multitube solid-liquid separation filtration apparatus according to claim 3, characterized in that: the lower surface of the filtering pressing plate (251) is attached to the upper end of the filtering net barrel (260), the upper support plate (250) is provided with a linkage gear (263) in a rotating mode, the linkage gear (263) is located between the adjacent filtering net barrels (260), linkage racks (264) are arranged on opposite surfaces of the adjacent filtering net barrels (260), and the linkage gear (263) is meshed with the linkage racks (264).

5. The multitube solid-liquid separation filtration apparatus according to claim 3, characterized in that: the upper surface of the filtering bottom plate (253) is attached to the lower end of the filtering net barrel (260), and a slag receiving groove (265) is formed in the position, between the adjacent filtering net barrels (260), of the upper surface of the filtering bottom plate (253).

6. The multitube solid-liquid separation filtration apparatus according to claim 3, characterized in that: filter screen section of thick bamboo (260) inner wall and slide and be provided with and filter and scrape pole (266), it is helical structure to filter to scrape pole (266), filters and is provided with and filters vaulting pole (267) lower extreme, filter vaulting pole (267) and be elastic telescopic structure, filter bottom plate (253) upper surface and evenly be provided with a plurality of along its circumferential direction and filter dog (268), filter vaulting pole (267) and filter dog (268) contact.

7. The multitube solid-liquid separation filtration apparatus according to claim 5, characterized in that: the bottom of the inner wall of the filter screen cylinder (260) is obliquely provided with a filter shovel plate (269), and the filter shovel plate (269) is in sliding contact with the slag receiving groove (265).

8. The multitube solid-liquid separation filtration apparatus according to claim 7, characterized in that: the filter shovel plates (269) on the inner wall of the adjacent filter screen cylinder (260) are inclined in opposite directions.

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