CN219423893U - A filter equipment for production of chemical reagent auxiliary agent usefulness - Google Patents

Abstract

The utility model discloses a filtering device for producing chemical reagent additives, which comprises a bottom plate, wherein the top surface of the bottom plate is fixedly connected with an oscillating mechanism, the top surface of the bottom plate is slidably connected with a filtering box, the top surface of the filtering box is fixedly connected with a current limiting mechanism, the front side of the filtering box is respectively provided with a first jack, a second jack, a third jack and a fourth jack, the inner wall of the first jack is slidably connected with a particulate matter sieve plate, the inner wall of the second jack is slidably connected with a quartz sand filter screen, the inner wall of the third jack is slidably connected with an active carbon filter screen, the inner wall of the fourth jack is slidably connected with a biological film filter screen, the inner wall of the filtering box is fixedly connected with a funnel, the inner bottom wall of the filtering box is fixedly connected with a collecting box, and the front side of the collecting box is fixedly connected with a discharge pipe. According to the utility model, the oscillating mechanism is arranged to drive the filter box to oscillate, so that impurities are prevented from forming a precipitation layer on the top surface of the filter screen, the precipitation layer is prevented from separating the chemical reagent auxiliary agent from the filter screen, and the filtering efficiency of the device is ensured.

Description

A filter equipment for production of chemical reagent auxiliary agent usefulness

Technical Field

The application relates to the technical field of filter devices, in particular to a filter device for producing chemical reagent auxiliary agents.

Background

The chemical additives are chemical additives used in the chemical industry, and are various, and generally comprise metal processing additives, plastic additives, papermaking additives, building additives and the like, and some liquid state chemical additives are also called chemical reagent additives, and in the preparation of the chemical reagent additives, various chemical raw materials are required to be mixed, dissolved, stirred and filtered, and in the preparation process, a user often utilizes a filtering device to remove the chemical raw materials which are not dissolved in the chemical reagent additives or reaction particles formed in the preparation process, so that the purity of the chemical reagent additives is ensured.

The existing filtering device for producing chemical reagent auxiliary agents, such as the filtering device for producing chemical reagent auxiliary agents disclosed in Chinese patent No. CN211215671U, comprises a box body, a positioning hole, a positioning pin, an outer frame plate, a filter plate sliding rail, a filter plate, a bevel connection clamping groove, a bevel connection filtering structure and the like, and a user can draw the bevel connection filter plate out of the bevel connection clamping groove through a handle, so that the filtering device is convenient for the user to clean and maintain in later period.

However, the filtering device for producing the chemical agent auxiliary agent has some defects, when the chemical agent auxiliary agent is filtered, some impurities in the chemical agent auxiliary agent remain on the top surface of the filter screen, along with the filtering, the impurities form a precipitation layer on the top surface of the filter screen to separate the chemical agent auxiliary agent from the filter screen, so that the filtering efficiency of the device on the chemical agent auxiliary agent is affected, inconvenience is brought to a user, and the defect can be solved by the filtering device for producing the chemical agent auxiliary agent.

Disclosure of Invention

The utility model aims to provide a filtering device for producing chemical reagent auxiliary agents, which is used for solving the problems in the background technology.

The embodiment of the application adopts the following technical scheme:

a filter equipment for chemical reagent auxiliary agent production usefulness, includes the bottom plate, the top surface fixedly connected with vibration mechanism of bottom plate, the top surface fixedly connected with rose box of bottom plate, the top surface fixedly connected with current limiting mechanism of rose box, first jack, second jack, third jack and fourth jack have been seted up respectively to the front side of rose box, the inner wall sliding connection of first jack has the particulate matter sieve, the inner wall sliding connection of second jack has quartz sand filter screen, the inner wall sliding connection of third jack has the active carbon filter screen, the inner wall sliding connection of fourth jack has the biomembrane filter screen, the inner wall fixedly connected with funnel of rose box, the interior bottom wall fixedly connected with collection box of rose box, the front side fixedly connected with discharge pipe of collection box, the front end of discharge pipe runs through the front side of rose box, the rear end of discharge pipe runs through the front side inner wall of collection box.

Preferably, the oscillating mechanism comprises a lifting block and a supporting block which are respectively fixedly connected with the top surface of the bottom plate, the left side of the supporting block is fixedly connected with a mounting plate, the top surface of the lifting block is fixedly connected with a first motor, the top surface of the mounting plate is rotationally connected with a rotating rod, and an output shaft of the first motor penetrates through the top surface of the mounting plate and is fixedly connected with the bottom surface of the rotating rod.

Preferably, the top surface of dwang rotates and is connected with limit sleeve, limit sleeve's inner wall sliding connection has the swinging arms, the right-hand member of swinging arms rotates with the top surface of supporting shoe to be connected, the left end of swinging arms rotates with the right side of rose box to be connected.

Preferably, the flow limiting mechanism comprises a feeding box fixedly connected with the top surface of the collecting box, a first limiting hole is formed in the front side of the feeding box, a second limiting hole is formed in the rear side of the feeding box, an inclined block is fixedly connected to the inner bottom wall of the feeding box, and a discharge port is formed in the bottom surface of the feeding box.

Preferably, the inner wall sliding connection of first spacing hole has first current-limiting plate, the front side fixedly connected with first connecting plate of first current-limiting plate, the bottom surface of first current-limiting plate is laminated with the top surface of sloping block, the front side fixedly connected with first dead lever of first connecting plate, the inner wall sliding connection of second spacing hole has the second current-limiting plate, the rear side fixedly connected with second connecting plate of second current-limiting plate, the bottom surface of second current-limiting plate is laminated with the top surface of sloping block, the rear side fixedly connected with second dead lever of second connecting plate.

Preferably, the top surface fixedly connected with slide of batch charging box, the front side fixedly connected with second motor of slide, the inner wall sliding connection of slide has the slider, the screw hole has been seted up to the front side of slider, the inner wall threaded connection of screw hole has the lead screw, the output of motor runs through the front side inner wall of slide and with the front end fixed connection of lead screw, the rear end of lead screw rotates with the rear side inner wall of slide to be connected.

Preferably, the front side fixedly connected with head rod of slider, the front end of head rod and the rear side fixed connection of first dead lever, the rear side fixedly connected with second connecting rod of slider, the rear end of second connecting rod and the front side fixed connection of second dead lever.

The above-mentioned at least one technical scheme that this application embodiment adopted can reach following beneficial effect:

according to the utility model, the filter box is driven to swing by the oscillating mechanism, when a user starts the first motor, the first motor rotates to drive the rotating rod to rotate, the rotating rod drives the limiting sleeve to move, the limiting sleeve drives the oscillating rod to move, the oscillating rod moves to drive the filter box to move, when the filter box moves, the multi-layer filter screen in the filter box can be rocked, impurities are prevented from forming a precipitation layer on the top surface of the filter screen, the precipitation layer is prevented from separating a chemical reagent auxiliary agent from the filter screen, and the filtering efficiency of the device is ensured.

Secondly, the first current limiting plate and the second current limiting plate are used for intercepting impurities in the chemical reagent auxiliary agent, so that the filtering load of the filter screen is reduced, when the second motor performs forward and reverse rotation through the timing control device, the quantity of the chemical reagent auxiliary agent entering the filter box can be controlled, and when the chemical reagent auxiliary agent enters the filter box too much, the filter screen can not filter the impurities in the chemical reagent auxiliary agent in time, so that the normal operation of the device is ensured.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

fig. 1 is: the structure of the utility model is schematically shown;

fig. 2 is: the cross-sectional structure schematic diagram of the filter box of the utility model;

fig. 3 is: the structure of the filter box is schematically shown;

fig. 4 is: the structure of the oscillating mechanism is schematically shown;

fig. 5 is: the structure of the current limiting mechanism is schematically shown;

fig. 6 is: the sectional structure of the feeding box is schematically shown;

fig. 7 is: the structure of the inside (the top surface is cut-away) of the feeding box is schematically shown.

In the figure: 1. a bottom plate; 2. an oscillating mechanism; 201. a lifting block; 202. a support block; 203. a mounting plate; 204. a first motor; 205. a rotating lever; 206. a swinging rod; 207. a limit sleeve; 3. a flow restricting mechanism; 301. a charging box; 302. a first flow restricting plate; 303. a first connection plate; 304. a first fixing rod; 305. a first connecting rod; 306. a second flow restricting plate; 307. a second connecting plate; 308. a second fixing rod; 309. a second connecting rod; 310. a slideway; 311. a screw rod; 312. a slide block; 313. a second motor; 314. a first limiting hole; 315. a second limiting hole; 316. a sloping block; 317. a discharge port; 4. a filter box; 5. a particulate screen plate; 6. quartz sand filter screen; 7. an active carbon filter screen; 8. a biofilm filter screen; 9. a funnel; 10. a collection box; 11. a discharge pipe; 12. a first jack; 13. a second jack; 14. a third jack; 15. and a fourth jack.

Detailed Description

For the purposes, technical solutions and advantages of the present application, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The following describes in detail the technical solutions provided by the embodiments of the present application with reference to the accompanying drawings.

Referring to fig. 1-7, the present utility model provides a technical solution of a filtering device for producing a chemical agent auxiliary agent:

a filter equipment for chemical reagent auxiliary agent production usefulness, including bottom plate 1, the top surface fixedly connected with oscillating mechanism 2 of bottom plate 1, the top surface sliding connection of bottom plate 1 has rose box 4, the top surface fixedly connected with current limiter 3 of rose box 4, first jack 12 has been seted up respectively to the front side of rose box 4, second jack 13, third jack 14 and fourth jack 15, the inner wall sliding connection of first jack 12 has particulate matter sieve 5, the inner wall sliding connection of second jack 13 has quartz sand filter screen 6, the inner wall sliding connection of third jack 14 has active carbon filter screen 7, the inner wall sliding connection of fourth jack 15 has biomembrane filter screen 8, the inner wall fixedly connected with funnel 9 of rose box 4, the interior bottom wall fixedly connected with collecting box 10 of rose box 4, the front side fixedly connected with discharge pipe 11 of collecting box 10, the front end of discharge pipe 11 runs through the front side of rose box 4, the rear end of discharge pipe 11 runs through the front side inner wall of collecting box 10.

Specifically, the bottom plate 1 provides the mounting platform, the vibration mechanism 2 can drive the rose box 4 motion, the quantity that the current limiting mechanism 3 can control chemical reagent auxiliary agent and get into rose box 4, particulate matter sieve 5 is placed in the rose box 4 slope, particulate matter sieve 5 periphery has the flange simultaneously, can be used for separating some particulate matter impurity in the chemical reagent auxiliary agent, quartz sand filter screen 6, activated carbon filter screen 7 and biomembrane filter screen 8 are all the filter screen commonly used, can filter the impurity in the chemical reagent auxiliary agent, the user can take these filter screens out through discharge pipe 11 and wash and change, funnel 9 will be through quartz sand filter screen 6, activated carbon filter screen 7 and biomembrane filter screen 8 filterable chemical reagent auxiliary agent collection into collecting box 10, finally can discharge through the discharge pipe 11 that has the water valve.

In this embodiment, as shown in fig. 4, the oscillating mechanism 2 includes a lifting block 201 and a supporting block 202 which are fixedly connected with the top surface of the base plate 1, the left side of the supporting block 202 is fixedly connected with a mounting plate 203, the top surface of the lifting block 201 is fixedly connected with a first motor 204, the top surface of the mounting plate 203 is rotatably connected with a rotating rod 205, and an output shaft of the first motor 204 penetrates through the top surface of the mounting plate 203 and is fixedly connected with the bottom surface of the rotating rod 205.

The top surface of dwang 205 rotates and is connected with limit sleeve 207, and limit sleeve 207's inner wall sliding connection has swinging arms 206, and swinging arms 206's right-hand member rotates with the top surface of supporting shoe 202 to be connected, and swinging arms 206's left end rotates with the right side of rose box 4 to be connected.

Specifically, when the user starts first motor 204, first motor 204 rotates and drives dwang 205 and rotate, and dwang 205 drives spacing sleeve 207 motion, and spacing sleeve 207 drives swinging arms 206 and removes, and swinging arms 206 remove and drive rose box 4 and remove, when rose box 4 removes, can rock the inside multilayer filter screen of rose box 4, prevent that the impurity from forming the sedimentary floor at the top surface of filter screen, avoid the sedimentary floor to separate chemical reagent auxiliary agent and filter screen, ensure device filtration efficiency.

In this embodiment, as shown in fig. 5 to 7, the flow limiting mechanism 3 includes a feeding box 301 fixedly connected with the top surface of the collecting box 10, a first limiting hole 314 is formed on the front side of the feeding box 301, a second limiting hole 315 is formed on the rear side of the feeding box 301, an inclined block 316 is fixedly connected to the inner bottom wall of the feeding box 301, and a discharge outlet 317 is formed on the bottom surface of the feeding box 301.

The inner wall sliding connection of first spacing hole 314 has first current-limiting plate 302, the front side fixedly connected with first connecting plate 303 of first current-limiting plate 302, the bottom surface of first current-limiting plate 302 is laminated with the top surface of sloping block 316, the front side fixedly connected with first dead lever 304 of first connecting plate 303, the inner wall sliding connection of second spacing hole 315 has second current-limiting plate 306, the rear side fixedly connected with second connecting plate 307 of second current-limiting plate 306, the bottom surface of second current-limiting plate 306 is laminated with the top surface of sloping block 316, the rear side fixedly connected with second dead lever 308 of second connecting plate 307.

The top surface fixedly connected with slide 310 of throwing box 301, the front side fixedly connected with second motor 313 of slide 310, the inner wall sliding connection of slide 310 has slider 312, and the screw hole is seted up to the front side of slider 312, and the inner wall threaded connection of screw hole has lead screw 311, and the output of motor runs through the front side inner wall of slide 310 and with the front end fixed connection of lead screw 311, the rear end of lead screw 311 rotates with the rear side inner wall of slide 310 to be connected.

The front side of the slider 312 is fixedly connected with a first connecting rod 305, the front end of the first connecting rod 305 is fixedly connected with the rear side of the first fixing rod 304, the rear side of the slider 312 is fixedly connected with a second connecting rod 309, and the rear end of the second connecting rod 309 is fixedly connected with the front side of the second fixing rod 308.

Specifically, the top surface of the feeding box 301 is provided with a feeding hole, a user can use the second motor 313, the second motor 313 rotates to drive the screw rod 311 to move, the screw rod 311 moves to drive the sliding block 312 to move, the sliding block 312 moves to drive the first connecting rod 305 and the second connecting rod 309 to move, the first connecting rod 305 can drive the first limiting plate 302 to move when moving, the second connecting rod 309 can drive the second limiting plate 306 to move when moving, when the screw rod 311 drives the sliding block 312 to move forwards, the first limiting plate 302 approaches the front side inner wall of the feeding box 301 to limit the flow of chemical reagent auxiliary agent into the filter box 4, when the screw rod 311 drives the sliding block 312 to move backwards, the second limiting plate 306 approaches the rear side inner wall of the feeding box 301 to limit the flow of the chemical reagent auxiliary agent into the discharge outlet 317, due to the limitation of the first limiting plate 302 and the second limiting plate 306, impurities in the chemical reagent auxiliary agent can be intercepted by the first limiting plate 302 and the second limiting plate 306 before the chemical reagent auxiliary agent enters the filter box 4, the filtering burden is reduced, when the second motor 313 drives the sliding block 312 to move forwards and backwards, the front side inner wall of the filter box is controlled by the control device, the chemical auxiliary agent can not enter the filter box 4, and the chemical auxiliary agent can not enter the filter box in time, and the filter reagent can be prevented from entering the filter box.

Working principle: when the filtering device for producing the chemical reagent auxiliary agent is used, a user firstly injects the chemical reagent auxiliary agent to be filtered into the feeding box 301 through the feeding opening, then controls the second motor 313 to perform timing positive and negative rotation by using the timing control device, the second motor 313 rotates to drive the screw rod 311 to move, the screw rod 311 moves to drive the sliding block 312 to move, the sliding block 312 moves to drive the first connecting rod 305 and the second connecting rod 309 to move, the first connecting rod 305 can drive the first current limiting plate 302 to move when moving, the second connecting rod 309 can drive the second current limiting plate 306 to move when moving, when the screw rod 311 drives the sliding block 312 to move forwards, the first current limiting plate 302 approaches to the inner wall of the front side of the feeding box 301 to limit the chemical reagent auxiliary agent to flow into the filtering box 4, when the screw rod 311 drives the sliding block 312 to move backwards, the second current limiting plate 306 approaches to the inner wall of the rear side of the feeding box 301, limiting the flow of the chemical agent auxiliary agent to the exhaust port 317, because of the limitation of the first current limiting plate 302 and the second current limiting plate 306, before the chemical agent auxiliary agent enters the filter box 4, the impurities in the chemical agent auxiliary agent can be trapped by the first current limiting plate 302 and the second current limiting plate 306, the filtering load of the filter screen is reduced, when the second motor 313 performs forward and reverse rotation through the timing control device, the volume of the chemical agent auxiliary agent entering the filter box 4 can be controlled, the chemical agent auxiliary agent is prevented from entering the filter box 4 too much, the filter screen can not timely filter the impurities in the chemical agent auxiliary agent, then the first motor 204 is started, the first motor 204 rotates to drive the rotating rod 205 to rotate, the rotating rod 205 drives the limiting sleeve 207 to move, the limiting sleeve 207 drives the swinging rod 206 to move, the swinging rod 206 moves to drive the filter box 4 to move, when the filter box 4 moves, can rock the inside multilayer filter screen of rose box 4, prevent that impurity from forming the sedimentary bed at the top surface of filter screen, avoid the sedimentary bed to separate chemical reagent auxiliary agent and filter screen, ensure device filtration efficiency, close first motor 204 and second motor 313 after the filtration is finished, take particulate matter sieve 5, quartz sand filter screen 6, active carbon filter screen 7 and biomembrane filter screen 8 out from rose box 4 and wash and change, finally can be through the discharge pipe 11 that has the water valve with chemical reagent auxiliary agent follow collection box 10 discharge.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (7)

1. A filter device for the production of chemical agents, comprising a bottom plate (1), characterized in that: the utility model discloses a filter device, including bottom plate (1), filter housing (4), first jack (12), second jack (13), third jack (14) and fourth jack (15) have been seted up respectively to the front side of filter housing (4), the inner wall sliding connection of first jack (12) has particulate matter sieve (5), the inner wall sliding connection of second jack (13) has quartz sand filter screen (6), the inner wall sliding connection of third jack (14) has active carbon filter screen (7), the inner wall sliding connection of fourth jack (15) has biomembrane filter screen (8), the inner wall fixedly connected with funnel (9) of filter housing (4), the interior bottom wall fixedly connected with collecting box (10) of filter housing (4), the front side fixedly connected with discharge pipe (11) of collecting box (10), the front end of discharge pipe (11) runs through the front side of filter housing (4), the rear end of discharge pipe (10) runs through the front side of collecting box (11).

2. A filter device for use in the production of chemical agents and adjuvants as claimed in claim 1, wherein: the oscillating mechanism (2) comprises a heightening block (201) and a supporting block (202) which are fixedly connected with the top surface of the bottom plate (1) respectively, a mounting plate (203) is fixedly connected to the left side of the supporting block (202), a first motor (204) is fixedly connected to the top surface of the heightening block (201), a rotating rod (205) is rotatably connected to the top surface of the mounting plate (203), and an output shaft of the first motor (204) penetrates through the top surface of the mounting plate (203) and is fixedly connected with the bottom surface of the rotating rod (205).

3. A filter device for use in the production of chemical agents and adjuvants as claimed in claim 2, wherein: the top surface of dwang (205) rotates and is connected with spacing sleeve (207), the inner wall sliding connection of spacing sleeve (207) has swinging arms (206), the right-hand member of swinging arms (206) is rotated with the top surface of supporting shoe (202) and is connected, the left end of swinging arms (206) is rotated with the right side of rose box (4) and is connected.

4. A filter device for use in the production of chemical agents and adjuvants as claimed in claim 1, wherein: the flow limiting mechanism (3) comprises a feeding box (301) fixedly connected with the top surface of the collecting box (10), a first limiting hole (314) is formed in the front side of the feeding box (301), a second limiting hole (315) is formed in the rear side of the feeding box (301), an inclined block (316) is fixedly connected with the inner bottom wall of the feeding box (301), and a discharge outlet (317) is formed in the bottom surface of the feeding box (301).

5. A filter device for use in the production of chemical agents and adjuvants as claimed in claim 4, wherein: the inner wall sliding connection of first spacing hole (314) has first current-limiting plate (302), the front side fixedly connected with first connecting plate (303) of first current-limiting plate (302), the bottom surface of first current-limiting plate (302) is laminated with the top surface of sloping block (316), the front side fixedly connected with first dead lever (304) of first connecting plate (303), the inner wall sliding connection of second spacing hole (315) has second current-limiting plate (306), the rear side fixedly connected with second connecting plate (307) of second current-limiting plate (306), the bottom surface of second current-limiting plate (306) is laminated with the top surface of sloping block (316), the rear side fixedly connected with second dead lever (308) of second connecting plate (307).

6. A filter device for use in the production of chemical agents and adjuvants as claimed in claim 4, wherein: the top surface fixedly connected with slide (310) of batch charging box (301), the front side fixedly connected with second motor (313) of slide (310), the inner wall sliding connection of slide (310) has slider (312), threaded hole is seted up to the front side of slider (312), the inner wall threaded connection of threaded hole has lead screw (311), the output of motor runs through the front side inner wall of slide (310) and with the front end fixed connection of lead screw (311), the rear end of lead screw (311) rotates with the rear side inner wall of slide (310) to be connected.

7. A filter device for use in the production of chemical agents and adjuvants as claimed in claim 6, wherein: the front side fixedly connected with head rod (305) of slider (312), the front end of head rod (305) and the rear side fixed connection of first dead lever (304), the rear side fixedly connected with second connecting rod (309) of slider (312), the rear end of second connecting rod (309) and the front side fixed connection of second dead lever (308).