CN209771418U - Moving part with functions of scraping and stirring for extracting plant components - Google Patents

Abstract

the utility model relates to a have moving part of scraping material and stirring function concurrently for plant component draws constitutes for a plate, is provided with the pivot on the plate, and the plate part of pivot both sides constitutes respectively scrapes sediment portion and stirring portion, and stirring portion outside limit is greater than the interval of scraping sediment portion outside limit apart from the pivot apart from the interval of pivot. The utility model discloses a make the moving part into the plate and set up the pivot on the plate, be convenient for realize through rotating the positioning to the plate, through the plate part at the pivot both sides constitutes respectively scrapes sediment portion and stirring portion, be convenient for implement at different moments and scrape sediment clearance function and stirring function, can accomplish the switching to the position of scraping sediment portion and stirring portion through rotating the pivot, so that select corresponding function as required; because the moving part has the material scraping function and the stirring function, a corresponding tool does not need to be searched independently, and the time is saved and the working efficiency is improved.

Description

Moving part with functions of scraping and stirring for extracting plant components

Technical Field

The utility model relates to a plant leaf processing equipment field, concretely relates to have moving part of scraping material and stirring function concurrently for plant component draws.

Background

At present, the extraction of active components in plant leaves is mainly carried out by adopting a traditional extraction mode, and the traditional extraction mode comprises a plurality of procedures of adding an extracting solution, crushing, filtering and the like. However, the broken plant leaf of back of adding the extract can be in filtering process, can be on filtering the piece the residue that the sediment was held back constantly, can lead to the sieve mesh to block up like this on the one hand, influences the normal clear of filtering process, and on the other hand, because filter inadequately, cause remaining active ingredient thing in the residue to take place to condense to can aggravate the jam situation of filtering the piece, lead to filtration efficiency to reduce, manufacturing cost increases. Therefore, in the filtration and extraction of active components from plant leaves, a tool with both functions of scraping and stirring is urgently needed in order to clean the trapped matter on the filter element and fully filter the slurry.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a have moving part of scraping material and stirring function concurrently for plant component draws, it possesses scrapes material clearance function and stirring function, can improve production efficiency.

The technical proposal adopted by the utility model is as follows.

The utility model provides a have moving part of scraping material and stirring function concurrently for plant components draws, constitutes for a plate, is provided with the pivot on the plate, and the plate part of pivot both sides constitutes respectively scrapes sediment portion and stirring portion, and the interval of stirring portion outside limit apart from the pivot is greater than the interval of scraping sediment portion outside limit apart from the pivot.

Preferably, the outer side of the slag scraping part is in a flush shape, and the outer side of the stirring part is in a comb-tooth shape.

preferably, the stirring part includes a fixed plate part and a movable plate part, the outer side edges of the fixed plate part and the movable plate part are both arranged in a comb shape, and the movable plate part is floatingly mounted on the fixed plate part along the length direction of the rotating shaft.

Preferably, one end of the movable plate body is mounted on the fixed plate body through a compression spring, and the other end of the movable plate body is provided with a push rod which floats against the movable plate body.

Preferably, the surfaces of the fixed plate body and the movable plate body which are attached to each other form a sliding guide fit through the arranged convex strips and the grooves.

Preferably, the face of the movable plate body part on the side away from the fixed plate body part is provided with stirring blocks, the stirring blocks are perpendicular to the movable plate body part and are arranged at intervals along the length direction of the rotating shaft.

Preferably, the end of the push rod away from the movable plate body is provided with a roller.

Preferably, the outer side portion of the slag scraping portion is provided in a blade shape.

Preferably, the rotation shafts are respectively provided at both sides of the plate member.

Preferably, the rotating shaft is provided with a limiting slide block and an adjusting gear.

the utility model discloses the technological effect who gains does:

The utility model provides a moving part that has concurrently scrapes material and stirring function for plant component draws, through making the moving part into the plate and set up the pivot on the plate, be convenient for realize adjusting the position through rotating the plate, respectively constitute through the plate part in pivot both sides and scrape sediment portion and stirring portion, be convenient for implement at different moments and scrape sediment clearance function and stirring function, can accomplish the switching to scraping the position of sediment portion and stirring portion through rotating the pivot, so that select corresponding function as required; because the moving part has the material scraping function and the stirring function, a corresponding tool does not need to be searched independently, and the time is saved and the working efficiency is improved.

Drawings

Fig. 1 is a front view of a filtering apparatus for improving slurry filtering efficiency according to an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side elevational view of the filter assembly illustrated in FIG. 1 with the filter element and filter tank in a filtering position;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a left side elevational view of the filter assembly illustrated in FIG. 1 with the filter element and filter basin in a de-sluiced condition;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5;

FIG. 7 is an isometric view of one perspective of the filter apparatus shown in FIG. 1;

FIG. 8 is an isometric view of the filter apparatus shown in FIG. 1 from another perspective;

Fig. 9 is a front view of a movable member with scraping and stirring functions for extracting plant components according to another embodiment of the present invention;

FIG. 10 is a bottom view of FIG. 1;

FIG. 11 is an isometric view of the moveable member shown in FIG. 10 from one perspective;

FIG. 12 is an isometric view of the moveable member shown in FIG. 10 from another perspective.

the corresponding relation of all the reference numbers is as follows:

100-a rack, 110-a limiting chute, 111-a transverse limiting chute, 112-a vertical limiting chute, 120-a vacant section, 200-a filter tank, 210-a filter area, 220-a slag receiving area, 230-a slag discharge hole, 300-a movable piece, 310-a slag scraping part, 320-a stirring part, 321-a fixed plate body part, 322-a movable plate body part, 323-a compression spring, 324-a push rod, 325-a corrugated surface, 326-a roller, 327-a stirring block, 400-a partition plate, 500-a filter piece, 600-a rotating shaft, 700-A driving mechanism, 800-a movable mounting seat, 900-B driving mechanism, 1000-adjusting gear, 1100-adjusting rack, 1200-a limiting slider and 1300-a liquid storage tank.

Detailed Description

in order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

As shown in fig. 1 to 12, an embodiment of the present invention provides a filtering apparatus for improving slurry filtering efficiency, including a filtering tank 200 mounted on a frame 100 and a movable member 300 disposed on the filtering tank 200, a partition 400 is disposed in the filtering tank 200, the partition 400 partitions a tank cavity of the filtering tank 200 into a filtering area 210 and a slag collecting area 220, a tank bottom of the filtering area 210 is formed by a filtering element 500 for solid-liquid separation, and the filtering element 500 and the filtering tank 200 can move relatively along a vertical direction;

The filter member 500 and the filter tank 200 are in two states, one of which is: the filter member 500 is located at a lower position on the filter tank 200, and the slurry is subjected to a filtration state of solid-liquid separation in the filtration zone 210, which is two states: the filter 500 is positioned at the high position of the filter tank 200, and solid matters intercepted on the filter 500 are scraped to the deslagging state of the slag collecting area 220;

The movable member 300 is provided with a slag scraping part 310 and a stirring part 320, and the movable member 300 is connected with the adjusting mechanism; when the filter member 500 and the filter tank 200 are in the filtering state, the adjusting mechanism adjusts the stirring portion 320 to stir the slurry; when the filter element 500 and the filter tank 200 are in the deslagging state, the adjusting mechanism adjusts the slag scraping part 310 to scrape off the solid matters on the filter element 500.

According to the filtering device provided by the embodiment, the filtering area 210 is used for filtering the slurry, and the slag collecting area 220 is used for collecting the residues intercepted on the filtering piece 500, so that the intercepted matters in the filtering area 210 can be cleaned in time, and the filtering efficiency can be improved; secondly, still set up moving part 300, adjustment mechanism can adjust moving part 300 and be in two kinds of operating condition, when the thick liquid filters in filtering area 210, stirs the thick liquid through the stirring portion 320 that adjustment mechanism adjusted moving part 300 for the entrapment thing of deposit on filtering piece 500 can be raised, then makes the thick liquid fully filter, and can effectively prevent the entrapment thing from blockking up filtering piece 500, thereby is favorable to reducing pectin content in the entrapment thing, improves filtration efficiency and filter effect; after filtering, the adjusting mechanism adjusts the sediment portion 310 of scraping of moving part 300 and scrapes the thing of intercepting on filtering piece 500 to receiving sediment area 220 to the completion is to filtering piece 500's clearance, further prevents that the thing of intercepting from blockking up filtering piece 500, so that reuse filters piece 500, improves the efficiency of filtering operation.

Further, as shown in fig. 9 to 12, the movable member 300 is formed of a plate rotatably installed on the filtering tank 200 by a rotating shaft 600, the plate portions at both sides of the rotating shaft 600 are respectively formed of the slag scraping portion 310 and the stirring portion 320, and the adjusting mechanism respectively adjusts the slag scraping portion 310 and the stirring portion 320 to operate. Because the movable member 300 is formed by a plate member and is rotatably installed on the filtering tank 200 through the rotating shaft 600, the position switching between the slag scraping portion 310 and the stirring portion 320 can be adjusted by rotating the plate member, so as to realize the corresponding working state: when the agitation operation of the slurry is required, the plate member is adjusted by the adjusting mechanism to rotate to a position where the agitation portion 320 can agitate the slurry in the filtering zone 210, so as to perform the agitation operation of the slurry; when needing to clear up the entrapment on filtering piece 500, then adjust the plate through adjustment mechanism and rotate to scrape sediment portion 310 and can contact with filtering piece 500 to can scrape the position of operation to the entrapment, be used for implementing to clear up the entrapment to the sediment operation of scraping of receiving sediment area 220.

Because the filter tank 200 is divided into the filter area 210 and the slag collecting area 220 by the partition board 400, that is, the arrangement range of the filter element 500 is smaller than that of the filter element 500, the filter element 500 is usually assembled on the upper portion of the liquid storage tank 1300, and when the slag scraping operation is performed, the upper surface of the filter element 500 cannot be lower than the top of the partition board 400, that is, the relative position of the filter element 500 and the filter tank 200 needs to be adjusted first, so as to facilitate the slag scraping operation, however, if the filter tank 200 is fixed, the filter element 500 is pushed to move up and down by arranging the lifting mechanism, the lifting mechanism is not easy to be arranged, and the liquid storage tank 1300 is easy to enter foreign matters. Therefore, in order to adjust the relative positions of the filter tank 200 and the filter member 500 more conveniently, as shown in fig. 1 to 8, the preferred embodiment is: the filter element 500 is fixedly installed, the filter tank 200 is movably installed, and the a driving mechanism 700 is used for adjusting the filter tank 200 to lift. The principle is as follows: when the slurry needs to be filtered, the A driving mechanism 700 adjusts the filter tank 200 to ascend, so that the filter element 500 is positioned at the lower position on the filter tank 200, the slurry is injected into the filter area 210, and the slurry is subjected to solid-liquid separation in the filter area 210 to achieve the purpose of filtering the slurry; when the trapped matter on the filter element 500 needs to be cleaned, the filter tank 200 is adjusted to move downwards by the a-drive mechanism 700, so that the filter element 500 is positioned at the high position on the filter tank 200, and the trapped matter on the filter element 500 is scraped into the slag collecting area 220 by the slag scraping part 310.

When the filter tank 200 is lifted, the axial direction of the output shaft of the motor and the axial direction of the lead screw are consistent with the lifting direction of the filter tank 200, and when the output shaft of the motor rotates, the filter tank 200 is driven to slide along the lead screw, so that the filter tank 200 is driven to move up and down; a actuating mechanism 700 can also choose for use the actuating mechanism who comprises parts such as cylinder, and the cylinder is fixed on the lateral wall of liquid storage tank 1300 or on frame 100, and the one end and the filter-tank 200 fixed connection that deviate from the cylinder body of the telescopic link of cylinder, orders about filter-tank 200 through the telescopic link during the cylinder action and reciprocates, realizes adjusting the function of filter-tank 200 and filtering piece 500 relative position. Of course, it will be understood by those skilled in the art that the specific form of the a-drive mechanism 700 is not limited to the form described in the present embodiment, and may be any other device capable of realizing the function of the a-drive mechanism 700, as long as the desired technical effect that can be achieved by the a-drive mechanism 700 is achieved.

Further, as shown in fig. 3, 5 and 7, a slag discharge hole 230 for discharging the filter residue is formed on the wall of the filter tank 200, the slag collection region 220 is a slag collection tank, two ends of the bottom of the slag collection tank are obliquely arranged in a high-low direction, and the slag discharge hole 230 is located at the lower end of the bottom of the tank.

In order to enable the movable member 300 to reciprocate on the filter tank 200 in a specific direction so as to achieve agitation of the slurry and scraping operation of the retentate. The preferred scheme of this embodiment is: as shown in fig. 1 to 8, a movable mounting base 800 is disposed on the filtering tank 200, the movable mounting base 800 is slidably mounted on the filtering tank 200 along a horizontal direction, a B driving mechanism 900 is used for adjusting the movable mounting base 800 to slide, a movable member 300 is rotatably mounted on the movable mounting base 800 through a rotating shaft 600, an arrangement direction of the movable member 300 intersects with a moving direction of the movable mounting base 800, and the adjusting mechanism is connected to the rotating shaft 600. The principle is as follows: the movable mounting base 800 is adjusted by the driving mechanism B900 to slide relative to the filter tank 200 along the horizontal direction, so that the movable piece 300 can be driven to stir the slurry or scrape the intercepted objects; in addition, the adjusting mechanism adjusts the rotating shaft 600 to rotate relative to the movable mounting base 800, so as to switch the positions of the stirring portion 320 and the slag scraping portion 310 on the movable member 300, and adjust the movable member 300 to be in a stirring working state or a slag scraping working state.

when the filter tank is implemented, the driving mechanism B900 can be a motor driving mechanism composed of a motor and a lead screw, the motor is fixed on the outer side wall of the filter tank 200, the lead screw is in transmission connection with an output shaft of the motor, the lead screw is in threaded fit connection with the movable mounting base 800, the axial direction of the output shaft of the motor and the axial direction of the lead screw are both consistent with the transverse sliding direction of the movable member 300, and when the output shaft of the motor rotates, the movable mounting base 800 is driven to slide along the lead screw, so that the movable member 300 is driven; the B driving mechanism 900 may also be a driving mechanism composed of a cylinder and the like, the cylinder is fixed on the wall of the filtering tank 200, one end of the telescopic rod of the cylinder departing from the cylinder body is fixedly connected with the movable mounting base 800, and the movable mounting base 800 is driven to slide by the telescopic rod when the cylinder acts, so as to drive the movable member 300 to move transversely. Of course, it will be understood by those skilled in the art that the specific form of the B-driving mechanism 900 is not limited to the form described in the present embodiment, and any other device capable of realizing the function of the B-driving mechanism 900 can be adopted as long as the desired technical effect achieved by the B-driving mechanism 900 can be achieved.

In order to realize the switching of the working state of the movable member 300 in the process that the A driving mechanism 700 adjusts the lifting of the filter tank 200, so as to improve the operation efficiency of the device. The more preferable scheme of the embodiment is as follows: as shown in fig. 3 to 12, the adjusting mechanism includes a limiting sliding block 1200 and an adjusting gear 1000, which are disposed on the rotating shaft 600 and used for limiting the rotation of the rotating shaft 600, a limiting sliding groove 110 is disposed on the frame 100 and corresponds to the moving track of the limiting sliding block 1200, the limiting sliding groove 110 and the limiting sliding block 1200 form a sliding guide fit, a vacant section 120 is disposed on the limiting sliding groove 110, the limiting sliding block 1200 has a degree of freedom to rotate around the rotating shaft 600 when in the vacant section 120, an adjusting rack 1100 is disposed at a position corresponding to the vacant section 120, and the adjusting rack 1100 is engaged with the adjusting gear 1000 passing through. The working principle is as follows: when the movable member 300 works in a stirring state or a slag scraping state, the rotating shaft 600 moves along the limiting sliding groove 110 through the limiting sliding block 1200, and the limiting sliding block 1200 can limit the rotating shaft 600 to rotate, so that the movable member 300 keeps a stable posture in a corresponding working state; when the movable member 300 needs to switch the working state, the rotating shaft 600 is moved to the position where the limiting slide block 1200 corresponds to the vacant section 120, and then in the process that the a driving mechanism 700 adjusts the filter tank 200 to ascend and descend, the adjusting gear 1000 arranged on the rotating shaft 600 is engaged with the adjusting rack 1100 arranged on the vacant section 120, and the limiting slide block 1200 has the degree of freedom to rotate around the rotating shaft 600 when in the vacant section 120, so that the rotating shaft 600 can drive the movable member 300 to rotate in the process that the filter tank 200 moves up and down, and then the movable member 300 is adjusted to rotate until the stirring part 320 or the slag scraping part 310 is in the working state.

Since the limiting slider 1200 is horizontally moved along with the rotation shaft 600 and vertically moved along with the rotation shaft 600 moving up and down relative to the rack 100 during the moving process along with the rotation shaft 600, the limiting slider 1200 can move along a preset track and can be prevented from being deviated during the coupling process. The preferred scheme of this embodiment is: as shown in fig. 3 to 8, the limiting sliding groove 110 includes a horizontal limiting sliding groove 111 for limiting and guiding the horizontal movement of the limiting slider 1200 and a vertical limiting sliding groove 112 for limiting and guiding the vertical movement of the limiting slider 1200, and the vacant section 120 is disposed on the vertical limiting sliding groove 112.

In order to enable the rotational shaft 600 to precisely adjust the positions of the slag scraping part 310 and the agitating part 320 during the up and down movement with respect to the frame 100, the adjustment rack 1100 and the adjustment gear 1000 need to satisfy certain conditions. Specifically, as shown in fig. 3 to 12, the adjusting rack 1100 drives the adjusting gear 1000 to rotate by an angle w, w = n × 360^oA, a is an included angle between the slag scraping part 310 and the stirring part 320, and n is an integer. When w is a positive number, representsthe gear 1000 is adjusted to rotate positively; when w is a negative number, it indicates that the adjusting gear 1000 is reversely rotated.

In order to prevent the slag scraping part 310 and the stirring part 320 from interfering with each other when they are in the working state, it is preferable that the present embodiment is that a =180^o。

Since the agitation portion 320 is in the operating state, the filter member 500 is in the low position of the filter tank 200; when the slag scraping part 310 is operated, the filter 500 is at the high position of the filter tank 200. The further preferable scheme of the embodiment is as follows: the outer side edge of the agitating part 320 is spaced apart from the rotating shaft 600 more than the outer side edge of the slag scraping part 310 is spaced apart from the rotating shaft 600. The principle is as follows: as shown in fig. 3 to 6, when the stirring portion 320 is in the working position, the outer edge portion of the stirring portion 320 extends outward for a longer length to be closer to the filter member 500, which is beneficial to better raise the trapped substance on the filter member 500, prevent the trapped substance from depositing on the filter member 500, and reduce the probability of the trapped substance blocking the filter member 500, thereby improving the filtering efficiency; the outer side edge of the slag scraping part 310 is spaced from the rotating shaft 600 by a small distance, so long as the outer side edge can contact with the filter element 500 in the working state, and the purpose of scraping the intercepted objects on the filter element 500 is achieved.

In order to facilitate the adjustment of the operating state of the movable member 300, the preferred solution of the present embodiment is: as shown in fig. 3 to 8, the limiting sliding groove 110 includes two horizontal limiting sliding grooves 111 and two vertical limiting sliding grooves 112, the two vertical limiting sliding grooves 112 are disposed between the two horizontal limiting sliding grooves 111, and the vertical limiting sliding grooves 112 are used for communicating the two horizontal limiting sliding grooves 111; the two horizontal limiting sliding grooves 111 are correspondingly arranged up and down, and the two vertical limiting sliding grooves 112 are correspondingly arranged at two ends of the horizontal limiting sliding groove 111 above the two vertical limiting sliding grooves respectively; two ends of the lower horizontal limiting sliding groove 111 extend to the outer sides of two ends of the upper horizontal limiting sliding groove 111 respectively, and two vertical limiting sliding grooves 112 are provided with vacant sections 120 respectively. The principle is as follows: when the limiting slide block 1200 moves in the upper transverse limiting chute 111, the stirring part 320 can move back and forth in the filtering area 210 to stir the slurry, when the limiting slide block 1200 moves to the vacant section 120, the stirring part 320 can move downwards along with the downward movement of the filtering tank 200, during the moving process, the rotating shaft 600 rotates under the action of the adjusting rack 1100 and the adjusting gear 1000, the stirring part 320 rotates upwards, the downward working position of the slag scraping part 310 rotates until the limiting slide block 1200 moves to the lower transverse limiting chute 111, and the slag scraping part 310 contacts or is close to the upper surface of the filtering piece 500 and is in the slag scraping working posture; when the limiting slide block 1200 moves in the lower transverse limiting chute 111, the stirring part 320 can move back and forth between the filtering area 210 and the slag scraping area to scrape the intercepted matters on the filter elements 500 to the slag collecting area 220, when the limiting slide block 1200 moves to the vacant section 120, the stirring part 320 can move upwards along with the ascending of the filter tank 200, in the moving process, the rotating shaft 600 rotates under the action of the adjusting rack 1100 and the adjusting gear 1000, the stirring part 320 rotates at the working position below, the slag scraping part 310 rotates at the avoiding position upwards until the limiting slide block 1200 moves to the upper transverse limiting chute 111, and at this time, the outer side part of the stirring part 320 contacts or is close to the upper surface of the filter elements 500 and is in the posture of stirring work.

As shown in fig. 1 to 12, the embodiment of the present invention further provides a movable member 300 with functions of scraping and stirring for extracting plant components, which is a plate, wherein the plate is provided with a rotating shaft 600, the plate portions on both sides of the rotating shaft 600 respectively form a residue scraping portion 310 and a stirring portion 320, and the distance between the outer side edge of the stirring portion 320 and the rotating shaft 600 is greater than the distance between the outer side edge of the residue scraping portion 310 and the rotating shaft 600.

The movable member 300 with functions of scraping and stirring for extracting plant components provided by the embodiment is convenient to realize the function of adjusting the plate through rotation by manufacturing the movable member 300 into the plate and arranging the rotating shaft 600 on the plate, is convenient to implement the function of scraping and cleaning the slag and the function of stirring at different moments by respectively forming the slag scraping part 310 and the stirring part 320 by the plate parts on the two sides of the rotating shaft 600, and can complete the switching of the positions of the slag scraping part 310 and the stirring part 320 by rotating the rotating shaft 600 so as to select the corresponding functions as required; because the moving part 300 has both the material scraping function and the stirring function, a corresponding tool does not need to be searched independently, thereby being beneficial to saving time and improving the working efficiency; by selecting a plate as the movable member 300, the manufacturing is facilitated, which is advantageous in cost saving.

In order to improve the slag scraping efficiency and the stirring efficiency, the preferable scheme of the embodiment is as follows: as shown in fig. 1 to 12, the outer side of the scraper 310 is flush, and the outer side of the stirring part 320 is comb-shaped. The principle is as follows: the outer side edge of the slag scraping part 310 is arranged to be parallel and level, so that the outer side edge of the slag scraping part 310 is favorably attached to the surface of the filter element 500, and the filtering residues on the moving track of the slag scraping part 310 are favorably cleaned; set to comb-tooth form through the outside limit portion that will stir portion 320, be favorable to reducing the resistance that stirs portion 320 and bear when stirring the thick liquid for stir the operation laborsavingly nimble more, moreover, comb-tooth form's structure is favorable to improving the probability that will filter the liftoff of the thing of holding back on 500, thereby can further improve filtration efficiency, makes the filtration of thick liquid more abundant.

in order to further enhance the stirring effect and efficiency of the stirring part 320, the present embodiment provides a further solution: as shown in fig. 9 and 12, the stirring part 320 includes a fixed plate part 321 and a movable plate part 322, the outer side edges of the fixed plate part 321 and the movable plate part 322 are both arranged in a comb-tooth shape, and the movable plate part 322 is floatingly mounted on the fixed plate part 321 along the length direction of the rotating shaft 600. The principle is as follows: in the process that the stirring part 320 stirs the slurry, the stirring direction of the fixed plate body 321 is crossed with the stirring direction of the movable plate body 322, so that the trapped objects are promoted to be rapidly dispersed and raised in the slurry in the stirring process, the stirring efficiency is improved, the filter element 500 is further prevented from being blocked by the trapped objects due to excessive deposition, and the filtering efficiency is improved; in addition, since the outer side edges of the fixed plate body 321 and the movable plate body 322 are both in the shape of comb teeth, the fixed plate body 321 and the movable plate body 322 can rub against each other during the stirring process, so that the gap between the comb teeth can be prevented from being blocked by the trapped objects, and the normal and stable operation of the stirring part 320 can be ensured.

specifically, as an embodiment in which the movable plate body 322 is floatingly mounted on the fixed plate body 321, there is: as shown in fig. 9 to 12, one end of the movable plate body 322 is mounted on the fixed plate by a compression spring 323, and the other end of the movable plate body 322 is provided with a push rod 324 that floats against the movable plate body 322. The principle is as follows: since the movable plate body 322 floats with respect to the fixed plate body 321 along the length direction of the rotating shaft 600, the movable plate body 322 can float reciprocally along the length direction of the rotating shaft 600 during the agitation process by mounting one end of the movable plate body 322 on the fixed plate using the compression spring 323 and providing a floating push rod 324 at the other end to float against the movable plate body 322.

more specifically, as shown in fig. 8, a convex strip or a concave groove having a corrugated surface 325 may be provided on the groove wall of the filter tank 200 along the direction of the lateral movement of the push rod 324, the arrangement range of the corrugated surface 325 is adapted to the sliding range of the stirring portion 320 in the filter area 210, the corrugated surface 325 abuts against one end of the push rod 324 away from the movable plate body 322, when the stirring portion 320 moves laterally with the rotating shaft 600 relative to the filter tank 200, the push rod 324 is made to move back and forth along the length direction of the rotating shaft 600 against the movable plate body 322, and the compression spring 323 is used for urging the push rod 324 to maintain the abutting state against the corrugated surface 325.

In order to prolong the service life of the push rod 324 and the compression spring 323, both the push rod 324 and the compression spring 323 are positioned above the liquid surface when the stirring unit 320 performs the operation of stirring the slurry.

In order to ensure that the moving track of the movable plate portion 322 does not shift when floating relative to the fixed plate portion 321 along the length direction of the rotating shaft 600, the preferred solution of the present embodiment is: the surfaces of the fixed plate part 321 and the movable plate part 322 are in sliding guiding fit through the arranged convex strips and the grooves. The movable plate portion 322 can be effectively prevented from shifting relative to the fixed plate portion 321 by the engagement of the protruding strips and the grooves.

In order to further improve the stirring efficiency, the present embodiment provides a more preferable solution: as shown in fig. 9 to 12, the plate surface of the movable plate body 322 facing away from the fixed plate body 321 is provided with stirring blocks 327, the stirring blocks 327 are arranged perpendicular to the movable plate body 322, and the stirring blocks 327 are arranged at intervals along the length direction of the rotating shaft 600. The principle is as follows: because the movable plate body 322 can float along the length direction of the rotating shaft 600 relative to the fixed plate body 321 in the stirring process, on the basis, the stirring blocks 327 are arranged along the length direction of the rotating shaft 600 on the plate surface of the movable plate body 322 departing from one side of the fixed plate body 321, the stirring action along the length direction of the rotating shaft 600 on the slurry is facilitated, the intercepted objects on the filtering piece 500 are more easily stirred, dispersed and raised in the slurry, and the stirring effect is facilitated to be improved.

In order to reduce the friction between the push rod 324 and the wall of the filter tank 200, the preferred solution of the embodiment is: as shown in fig. 9 to 12, a roller 326 is provided at an end of the push rod 324 remote from the movable plate body 322. The rolling wheels 326 cooperate with the corrugated surface 325 on the wall of the filter tank 200 to replace static friction with rolling friction, which is beneficial to reduce friction loss, prolong the service life of related components, and save driving force for driving the moving part 300 to move transversely due to the reduction of resistance.

in order to further improve the effect of slag scraping and cleaning, a more preferable scheme of the embodiment is as follows: as shown in fig. 3, 7, 8, 11 and 12, the outer side portion of the slag scraping portion 310 is provided in a blade shape. The outer side edge of the slag scraping part 310 is set to be blade-shaped, which is beneficial to more accurately cleaning the intercepted objects on the filter element 500, so that the intercepted objects can be more thoroughly cleaned.

Specifically, one embodiment of the rotating shaft 600 is as follows: as shown in fig. 9 to 12, the rotation shafts 600 are respectively provided at both sides of the plate member. The rotation shaft 600 is in the form of trunnions disposed at both sides of the plate member, and the axial direction of the trunnions coincides with the floating direction of the movable plate body 322 with respect to the fixed plate body 321, and this embodiment of the rotation shaft 600 facilitates the processing of the movable member 300 and is advantageous in cost saving.

Specifically, the preferred scheme for this embodiment is: as shown in fig. 9 to 12, the rotating shaft 600 is provided with a limit slider 1200 and an adjusting gear 1000. By arranging the limiting slide block 1200, the rotation of the rotating shaft 600 can be limited, and the rotating shaft 600 is prevented from rotating when the moving piece 300 is in slag scraping or stirring operation; through setting up adjusting gear 1000, be convenient for rotate regulation pivot 600 to the gesture of moving part 300 on the pivot 600 is adjusted.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a have moving part of scraping material and stirring function that is used for having concurrently of plant component to draw which characterized in that: the plate is formed by a plate, a rotating shaft (600) is arranged on the plate, plate parts on two sides of the rotating shaft (600) respectively form a slag scraping part (310) and a stirring part (320), and the distance between the outer side edge of the stirring part (320) and the rotating shaft (600) is larger than the distance between the outer side edge of the slag scraping part (310) and the rotating shaft (600).

2. The movable piece with scraping and stirring functions for plant component extraction according to claim 1, characterized in that: the outer side of the slag scraping part (310) is in a flush shape, and the outer side of the stirring part (320) is in a comb-tooth shape.

3. The movable piece with scraping and stirring functions for plant component extraction according to claim 1, characterized in that: the stirring part (320) comprises a fixed plate part (321) and a movable plate part (322), the outer side edges of the fixed plate part (321) and the movable plate part (322) are both arranged in a comb-tooth shape, and the movable plate part (322) is installed on the fixed plate part (321) in a floating manner along the length direction of the rotating shaft (600).

4. The movable piece with scraping and stirring functions for plant component extraction according to claim 3, wherein: one end of the movable plate body (322) is mounted on the fixed plate body through a compression spring (323), and the other end of the movable plate body (322) is provided with a push rod (324) which is abutted against the movable plate body (322) to float.

5. The movable piece with scraping and stirring functions for plant component extraction according to claim 3, wherein: the surfaces of the fixed plate body (321) and the movable plate body (322) which are jointed form sliding guide fit through the arranged convex strips and the grooves.

6. The movable piece with scraping and stirring functions for plant component extraction according to claim 3, wherein: the plate surface of one side of the movable plate body part (322) departing from the fixed plate body part (321) is provided with stirring blocks (327), the stirring blocks (327) are arranged perpendicular to the movable plate body part (322), and the stirring blocks (327) are arranged at intervals along the length direction of the rotating shaft (600).

7. The movable piece with scraping and stirring functions for plant component extraction according to claim 4, wherein: the end of the push rod (324) far away from the movable plate body (322) is provided with a roller (326).

8. The movable piece with scraping and stirring functions for plant component extraction according to claim 2, characterized in that: the outer side edge of the slag scraping part (310) is provided in a blade shape.

9. the movable piece with scraping and stirring functions for plant component extraction according to claim 1, characterized in that: the rotating shafts (600) are respectively arranged at both sides of the plate.

10. The movable piece with scraping and stirring functions for plant component extraction according to claim 1, characterized in that: the rotating shaft (600) is provided with a limiting slide block (1200) and an adjusting gear (1000).