CN221014800U - Inorganic membrane slurry oil solid-liquid separation device - Google Patents

Abstract

The utility model belongs to the technical field of inorganic membranes, in particular to an inorganic membrane oil slurry solid-liquid separation device, which comprises a separation box, a first motor arranged at the top of the separation box, a stirring mechanism arranged in the separation box, a slurry inlet pipe arranged in a through hole formed in the surface of the separation box, and a discharge assembly arranged in the separation box, wherein the discharge assembly comprises a lifting stranding plate for conveying solids, a separation hopper for secondarily separating oil liquid and a collection cylinder for storing the separated solids; according to the utility model, through the cooperation of the components such as the lifting stranding plate, the solid-liquid separation cylinder, the separation hopper and the like, when the device performs slurry oil solid-liquid separation, separated solids can be continuously discharged out of the device without suspending input of slurry oil, so that the slurry oil solid-liquid separation efficiency of the device is improved, and meanwhile, oil liquid remained on solids is further separated through the cooperation of the components such as the driving wheel, the driving belt, the round rod I, the round rod II and the like.

Description

Inorganic membrane slurry oil solid-liquid separation device

Technical Field

The utility model belongs to the technical field of inorganic membranes, and particularly relates to an inorganic membrane oil slurry solid-liquid separation device.

Background

The inorganic membrane is a solid membrane processed by inorganic materials, and can be divided into a plurality of types such as a metal membrane, a glass membrane, a ceramic membrane and the like according to the membrane forming materials, and is widely applied to various fields such as food, medicine, chemical industry, petrochemical industry and the like, and is often used as a filter element of a filter;

Through checking the publication number: CN214861488U discloses a solid-liquid separator of inorganic membrane slurry, this technology discloses "including the body and be used for the stirring part of material separation", stirring part including locate the driving motor at body top, locate the pivot of driving motor one side, locate a plurality of stirring boards of evenly arranging of pivot one side, locate the stirring frame of pivot opposite side, locate the baffle of lower part in the pivot etc. technical scheme, and solved current equipment and stirring insufficiently to the material, lead to the material to take place stationary pile up easily, cause the jam to equipment easily, influence the filter effect of equipment, reduce the problem of the practicality of equipment ";

In the using process of the device, after each stirring and separation process is finished, the slurry oil can be continuously added only by the solid cleaning device separated in the device, and the slurry oil can not be continuously added into the device for solid-liquid separation, so that the separation efficiency of the device can not be further improved;

For this purpose, an inorganic membrane slurry oil solid-liquid separation device is designed to solve the above problems.

Disclosure of utility model

To solve the problems set forth in the background art. The utility model provides an inorganic membrane slurry oil solid-liquid separation device, which is characterized in that when the device performs slurry oil solid-liquid separation, the separated solids can be continuously discharged out of the device without suspending the input of slurry oil, so that the slurry oil solid-liquid separation efficiency of the device is improved, meanwhile, the device further stirs the solids collected in the collection cylinder through the coordination of the parts such as a driving wheel, a driving belt, a round rod I, a round rod II and the like, so that the oil liquid remained on the solids is further separated, and the device vibrates the solids collected in the collection cylinder through the coordination of the parts such as a round rod III, a sliding cylinder I, a sliding ball and the like, so that the oil liquid remained on the solids is further separated.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an inorganic membrane oil slurry solid-liquid separation device comprises a separation box, a first motor arranged at the top of the separation box, and a stirring mechanism arranged in the separation box, wherein a slurry inlet pipe is arranged in a through hole formed in the surface of the separation box;

The discharging assembly is arranged in the separating box and comprises a lifting stranding plate for conveying solids, a separating hopper for secondarily separating oil and a collecting barrel for storing the separated solids;

The upper surface of the material collecting barrel is provided with a vibration component, and the vibration component comprises a round rod III, a sliding barrel I, a sliding ball and a spring I which are used for generating vibration.

As the inorganic membrane slurry solid-liquid separation device, preferably, one end of an output shaft of the motor is fixedly connected with a lifting twisted plate, the surface of the lifting twisted plate is fixedly connected with a solid-liquid separation cylinder, the stirring mechanism is arranged on the surface of the solid-liquid separation cylinder, the inner wall surface of the separation box is fixedly connected with a separation hopper, the surface of the solid-liquid separation cylinder is fixedly connected with a scraper blade, the solid-liquid separation cylinder is rotationally connected with the separation hopper, the surface of the scraper blade is attached to the surface of the separation hopper, and a discharge hole is fixedly connected in a through groove I formed in the surface of the separation box.

As the inorganic membrane slurry solid-liquid separation device, the surface of the discharge hole is preferably provided with a material collecting cylinder, the discharge hole is fixedly connected in a through groove II formed in the surface of the material collecting cylinder, a round rod I is arranged in the material collecting cylinder, the round rod I is rotatably connected in a through hole I formed in the surface of the material collecting cylinder through a bearing, a plurality of groups of round rods II are arranged on the surface of the round rod I in an annular array, the round rods II are fixedly connected with the round rods I, the surfaces of the round rods I and the surface of an output shaft of a motor are fixedly connected with driving wheels, the surfaces of the two driving wheels are in transmission connection with driving belts, and the bottom end of the material collecting cylinder is provided with a sealing cylinder cover.

As the inorganic membrane slurry solid-liquid separation device, the filter plate I is fixedly connected in the through groove III formed in the surface of the sealing cylinder cover, the guide hopper is fixedly connected in the through groove III formed in the surface of the sealing cylinder cover, the bottom end of the guide hopper is fixedly connected with the guide hose, one end of the guide hose, which is far away from the guide hopper, is fixedly connected with the discharge hole of the separation box, and the guide hose is communicated with the inside of the separation box.

As the inorganic membrane slurry oil solid-liquid separation device, the lifting stranding plate, the solid-liquid separation cylinder and the separation hopper are all preferably made of inorganic membrane materials.

As the inorganic membrane slurry solid-liquid separation device, the upper surface of the material collecting cylinder is fixedly connected with the first sliding cylinder in an annular array, the sliding ball is connected in the first sliding cylinder in a sliding manner, the first spring is arranged in the first sliding cylinder, two ends of the first spring are respectively and fixedly connected with the first sliding cylinder and the sliding ball, and the surface of the first round rod is fixedly connected with the third round rod in an annular array.

Compared with the prior art, the utility model has the beneficial effects that: the utility model is added with the discharge assembly and the vibration assembly, so that the separated solids can be continuously discharged out of the device when the device performs slurry oil solid-liquid separation by lifting the components such as the stranding plate, the solid-liquid separation cylinder and the separation hopper, and the slurry oil is not required to be suspended, thereby improving the slurry oil solid-liquid separation efficiency of the device.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structures of the round bar I and the round bar II in the utility model;

FIG. 3 is a schematic diagram of a lifting stranding plate and a solid-liquid separation cylinder according to the present utility model;

FIG. 4 is a schematic view of the structures of the round bar I and the round bar II in the present utility model;

FIG. 5 is a schematic view of a first sliding ball and a first sliding barrel according to the present utility model;

In the figure:

1. a separation box; 11. a first motor; 12. a stirring mechanism; 13. a slurry inlet pipe;

2. A discharge assembly; 21. lifting the stranding plate; 22. a solid-liquid separation cylinder; 23. a scraper; 24. a separating hopper; 26. a discharge port; 27. a material collecting barrel; 28. sealing the cylinder cover; 29. a first filter plate; 210. a diversion bucket; 211. a drainage hose; 212. a driving wheel; 213. a transmission belt; 214. a round rod I; 215. a round rod II;

3. A vibration assembly; 31. a round rod III; 32. a sliding cylinder I; 33. a sliding ball; 34. and a first spring.

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.

Example 1

As shown in fig. 1 to 5;

an inorganic membrane oil slurry solid-liquid separation device comprises a separation box 1, a first motor 11 arranged at the top of the separation box 1, and a stirring mechanism 12 arranged inside the separation box 1, wherein a slurry inlet pipe 13 is arranged in a through hole formed in the surface of the separation box 1.

In this embodiment: through checking the publication number: CN214861488U discloses an inorganic membrane slurry oil solid-liquid separation device, and the device is in the use, and after stirring separation at every turn, only need to go out the device with the inside separated solid of device and can continue to add the slurry oil, can't be continuous to the inside operation of adding the slurry oil and carrying out solid-liquid separation of device to make the separation efficiency of device can not further improve, add on the basis of this and discharge subassembly 2 and vibration subassembly 3.

It should be noted that: the separation box 1 is formed by the publication number: body, second discharge gate, first filter, second filter, support and inorganic membrane filter core in CN214861488U constitute, and motor one 11 is the publication number: driving motor in CN214861488U, stirring mechanism 12 is disclosed by publication no: stirring plate, stirring frame, guide plate, scraping plate and stirring teeth in CN214861488U, wherein the stirring mechanism 12 is arranged on the surface of the solid-liquid separation cylinder 22 and is arranged on the publication number: the installation mode of the rotating shaft in CN214861488U is the same, and the working principle and working flow of the separation tank 1, the first motor 11 and the stirring mechanism 12 can refer to the publication number, and no description is given here.

Further, the method comprises the following steps:

In combination with the above: the device also comprises a discharge assembly 2 arranged inside the separation box 1, wherein the discharge assembly 2 comprises a lifting stranding plate 21 for conveying solids, a separation bucket 24 for secondarily separating oil liquid and a material collecting barrel 27 for storing the separated solids;

One end fixedly connected with lifting hank board 21 of motor one 11 output shaft, the fixed surface of lifting hank board 21 is connected with solid-liquid separation section of thick bamboo 22, rabbling mechanism 12 installs the surface at solid-liquid separation section of thick bamboo 22, the internal face fixedly connected with separation bucket 24 of separator tank 1, the fixed surface of solid-liquid separation section of thick bamboo 22 is connected with scraper blade 23, solid-liquid separation section of thick bamboo 22 rotates with separation bucket 24 to be connected, the surface of scraper blade 23 is laminated with the surface of separation bucket 24 mutually, link up in the inslot fixedly connected with bin outlet 26 of link up of separator tank 1 surface seting up.

The lifting stranding plate 21, the solid-liquid separation cylinder 22 and the separation hopper 24 are all made of inorganic membrane materials.

In this embodiment: the first motor 11 drives the lifting stranding plate 21 to rotate so as to continuously convey solids in slurry in the separation tank 1 upwards from the solid-liquid separation cylinder 22, in the conveying process, the solids in the slurry are filtered by the solid-liquid separation cylinder 22 and the lifting stranding plate 21, the filtered solids are conveyed to the upper side, and then are filtered by the separation hopper 24, so that part of oil liquid remained on the solids is filtered, and then the solids are discharged out of the separation tank 1 through the discharge port 26 under the action of the scraper 23.

It should be noted that: the separating hopper 24 is in a hopper shape, so that solids accumulated on the surface of the separating hopper enter the inside of the aggregate cylinder 27 along the separating hopper 24 in the process of scraping the solids by the scraping plate 23, and the solid-liquid separating cylinder 22 is at a certain distance from the first filter plate of the separating box 1, so that the solids in the oil liquid are conveniently conveyed to the surface of the separating hopper 24 by the lifting stranding plate 21.

Still further, the method comprises:

In an alternative embodiment, the surface of the discharge opening 26 is provided with a material collecting barrel 27, the discharge opening 26 is fixedly connected in a through groove II formed in the surface of the material collecting barrel 27, a round rod I214 is arranged in the material collecting barrel 27, the round rod I214 is rotatably connected in a through hole I formed in the surface of the material collecting barrel 27 through a bearing I, a plurality of groups of round rods II 215 are arranged on the surface of the round rod I214 in an annular array, the round rods II 215 are fixedly connected with the round rod I214, the surfaces of the round rod I214 and the output shaft of the motor I11 are fixedly connected with driving wheels 212, the surfaces of the two driving wheels 212 are in transmission connection with driving belts 213, and a sealing barrel cover 28 is arranged at the bottom end of the material collecting barrel 27.

The filter plate I29 is fixedly connected in the through groove III formed in the surface of the sealing cylinder cover 28, the guide hopper 210 is fixedly connected in the through groove III formed in the surface of the sealing cylinder cover 28, the guide hose 211 is fixedly connected to the bottom end of the guide hopper 210, one end, away from the guide hopper 210, of the guide hose 211 is fixedly connected with the discharge port of the separation box 1, and the guide hose 211 is communicated with the inside of the separation box 1.

In this embodiment: the solids discharged through the discharge opening 26 enter the interior of the material collecting barrel 27 and are continuously accumulated, and the first round rod 214 drives the second round rod 215 to continuously stir the solids accumulated in the material collecting barrel 27 through the transmission of the transmission wheel 212 and the transmission belt 213, so that the oil liquid remained in the solids in the material collecting barrel 27 is led into the second discharge opening of the separation box 1 through the guide hopper 210 and the guide hose 211 along the first filter plate 29 on the sealed barrel cover 28.

Still further, the method comprises:

In an alternative embodiment, the upper surface of the aggregate cylinder 27 is fixedly connected with a first sliding cylinder 32 in an annular array, a sliding ball 33 is slidably connected in the first sliding cylinder 32, a first spring 34 is arranged in the first sliding cylinder 32, two ends of the first spring 34 are respectively fixedly connected with the first sliding cylinder 32 and the sliding ball 33, and the surface of a first round rod 214 is fixedly connected with a third round rod 31 in an annular array.

In this embodiment: when the round rod one 214 rotates, the round rod three 31 on the surface of the round rod one continuously sweeps the surface of the sliding ball 33, so that the sliding ball 33 is extruded into the sliding cylinder one 32, after the round rod three 31 sweeps, the sliding ball 33 is reset under the action of the elastic potential energy of the spring one 34, and the impact generated in the process enables the round rod one 214 connected with the round rod three 31 and the aggregate cylinder 27 connected with the sliding cylinder one 32 to vibrate through the impact of the round rod three 31 and the sliding ball 33, so that the efficiency of solid separation in the aggregate cylinder 27 is further improved.

Working principle: the rotation of the first motor 11 drives the lifting stranding plate 21 to continuously convey the solids in the slurry in the separating tank 1 upwards from the solid-liquid separating cylinder 22, in the conveying process, the solids in the slurry are filtered by the solid-liquid separating cylinder 22 and the lifting stranding plate 21, after being conveyed upwards, the filtered solids are filtered by the separating hopper 24, so that part of the residual oil on the solids is filtered, then the solids are discharged from the separating tank 1 through the discharge hole 26 under the action of the scraping plate 23, the solids discharged through the discharge hole 26 enter the aggregate cylinder 27 and continuously accumulate, the round rod one 214 drives the round rod two 215 to continuously stir the solids accumulated in the aggregate cylinder 27 through the transmission of the transmission wheel 212 and the transmission belt 213, the oil liquid remained in the material collecting cylinder 27 is led into the second discharging hole of the separating box 1 through the first filtering plate 29 on the sealing cylinder cover 28 through the guide hopper 210 and the guide hose 211, when the first round rod 214 rotates, the third round rod 31 on the surface continuously sweeps the surface of the sliding ball 33 to enable the sliding ball 33 to be extruded into the sliding cylinder 32, after the third round rod 31 sweeps, under the action of elastic potential energy of the first spring 34, the sliding ball 33 resets, the impact generated in the process enables the round rod 31 to impact with the sliding ball 33, so that the round rod 214 connected with the third round rod 31 and the material collecting cylinder 27 connected with the first sliding cylinder 32 vibrate, the efficiency of separating solids in the material collecting cylinder 27 is further improved, and when the solids in the material collecting cylinder 27 are collected to a certain degree, the sealing cylinder cover 28 at the bottom end of the material collecting cylinder 27 is opened, and the solids are taken out for processing.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. An inorganic membrane oil slurry solid-liquid separation device comprises a separation box (1), a first motor (11) arranged at the top of the separation box (1) and a stirring mechanism (12) arranged in the separation box (1), wherein a slurry inlet pipe (13) is arranged in a through hole formed in the surface of the separation box (1);

The method is characterized in that: the device comprises a separation box (1), and is characterized by further comprising a discharge assembly (2) arranged in the separation box (1), wherein the discharge assembly (2) comprises a lifting stranding plate (21) for conveying solids, a separation bucket (24) for secondarily separating oil liquid and a material collecting barrel (27) for storing the separated solids;

The upper surface of the aggregate cylinder (27) is provided with a vibration assembly (3), and the vibration assembly (3) comprises a round rod III (31), a sliding cylinder I (32), a sliding ball (33) and a spring I (34) for generating vibration.

2. The inorganic membrane slurry solid-liquid separation apparatus according to claim 1, wherein: one end fixedly connected with lifting hank board (21) of motor one (11) output shaft, the fixed surface of lifting hank board (21) is connected with solid-liquid separation section of thick bamboo (22), rabbling mechanism (12) are installed the surface of solid-liquid separation section of thick bamboo (22), the internal face fixedly connected with separation bucket (24) of separator box (1), the fixed surface of solid-liquid separation section of thick bamboo (22) is connected with scraper blade (23), solid-liquid separation section of thick bamboo (22) with separation bucket (24) rotate and are connected, the surface of scraper blade (23) with the surface of separation bucket (24) is laminated mutually, link up inslot fixedly connected with bin outlet (26) of seting up on separator box (1) surface.

3. The inorganic membrane slurry solid-liquid separation apparatus according to claim 2, wherein: the surface of bin outlet (26) is provided with feed cylinder (27), bin outlet (26) fixed connection is in the through-groove second that feed cylinder (27) surface was seted up, the inside of feed cylinder (27) is provided with round bar one (214), round bar one (214) are in through bearing rotation connection in feed cylinder (27) surface grooved through-hole one, the surface of round bar one (214) is annular array and is provided with multiunit round bar two (215), round bar two (215) with round bar one (214) fixed connection, round bar one (214) with the surface of motor one (11) output shaft is all fixedly connected with drive wheel (212), two the surface transmission of drive wheel (212) is connected with drive belt (213), sealed cover (28) are installed to the bottom of feed cylinder (27).

4. The inorganic membrane slurry solid-liquid separation apparatus according to claim 3, wherein: the filter plate I (29) is fixedly connected in the through groove III formed in the surface of the sealing cylinder cover (28), the guide hopper (210) is fixedly connected in the through groove III formed in the surface of the sealing cylinder cover (28), the drainage hose (211) is fixedly connected with the bottom end of the guide hopper (210), one end, away from the guide hopper (210), of the drainage hose (211) is fixedly connected with the discharge port of the separation box (1), and the drainage hose (211) is communicated with the inside of the separation box (1).

5. The inorganic membrane slurry solid-liquid separation apparatus according to claim 2, wherein: the lifting stranding plate (21), the solid-liquid separation cylinder (22) and the separation hopper (24) are all made of inorganic membrane materials.

6. The inorganic membrane slurry solid-liquid separation apparatus according to claim 3, wherein: the upper surface of a material collecting barrel (27) is an annular array fixedly connected with a first sliding barrel (32), a sliding ball (33) is slidably connected in the first sliding barrel (32), a first spring (34) is arranged in the first sliding barrel (32), two ends of the first spring (34) are fixedly connected with the first sliding barrel (32) and the sliding ball (33) respectively, and the surface of a round rod I (214) is an annular array fixedly connected with a third round rod (31).