CN217661714U - Cleaning mechanism and automatic cleaning device of filter press - Google Patents

Abstract

The utility model relates to a pressure filter washs technical field, provides a wiper mechanism and pressure filter self-cleaning device. The cleaning mechanism comprises a fixed frame, synchronous belt lifting components are arranged on two sides of the fixed frame, and two driving belt wheels are connected through an execution transmission shaft; one side of the fixed frame is provided with an execution driving motor and an execution driving reducer, and the execution driving reducer is connected with an execution transmission shaft; vertical guide rails are arranged on the inner walls of two sides of the fixed frame, a middle fixing frame is arranged in the fixed frame, sliding blocks are fixed on two sides of the middle fixing frame, and the sliding blocks are fixedly connected with the synchronous belt and are in sliding connection with the vertical guide rails; a flushing component is arranged below the middle fixing frame. The cleaning device comprises a controller, a supporting frame, a transverse moving mechanism and a longitudinal moving mechanism, wherein the cleaning mechanism is arranged on the longitudinal moving mechanism. The utility model discloses can realize the automatic washing of many pressure filters, greatly reduced cleaning cost improves cleaning efficiency and cleaning performance.

Description

Cleaning mechanism and automatic cleaning device of filter press

Technical Field

The utility model belongs to the technical field of the pressure filter washs technique and specifically relates to a wiper mechanism and pressure filter self-cleaning device is related to.

Background

The filter press utilizes the filter cloth arranged on the filter plate as a filter medium to intercept particles in materials, utilizes the permeability of the filter cloth to discharge filtrate, and is suitable for filtering various materials. In the process of filtering materials by using the filter press, the viscosity of some materials is higher after filtering, filter cakes can be stuck on the filter cloth after filtering, capillary holes of the filter cloth are blocked, so that the filter cloth does not have enough air permeability, the discharge of filtrate during material filtering is directly influenced, and the filtering effect and the filtering efficiency are low. Therefore, foreign matters stuck on the filter cloth need to be scraped off, and the filter cloth can be refiltered only by matching with subsequent flushing operation and ensuring enough air permeability.

The cleaning of the existing filter press adopts two modes: one is that a high-pressure water gun is manually held to wash filter cloth, the cleaning technology has poor effect, slow operation speed, time and labor consumption and low efficiency; the other method is to adopt a cleaning device arranged above the filter presses for cleaning, but the method needs each filter press to be matched with a set of automatic cleaning system, and the cost is higher.

SUMMERY OF THE UTILITY MODEL

Problem to prior art existence, the utility model provides a wiper mechanism and pressure filter self-cleaning device can realize the automatic washing of many pressure filters, and greatly reduced cleaning cost improves cleaning efficiency and cleaning performance.

The technical scheme of the utility model is that:

the cleaning mechanism is characterized by comprising a fixed frame (801), wherein synchronous belt lifting assemblies are arranged on two sides of the fixed frame (801), each synchronous belt lifting assembly comprises a belt wheel fixing seat (806), a driven belt wheel (805) arranged in each belt wheel fixing seat (806), a driving belt wheel (804) arranged above the driven belt wheel (805), and a synchronous belt (802) sleeved on the driving belt wheel (804) and the driven belt wheel (805), and the two driving belt wheels (804) are connected through an execution transmission shaft (803); an execution driving motor (810) is arranged on the outer wall of one side of the fixed frame (801), the execution driving motor (810) is connected with an execution driving speed reducer (811), and the output shaft of the execution driving speed reducer (811) is connected with one end of the execution transmission shaft (803);

vertical guide rails (809) are arranged on the inner walls of two sides of the fixed frame (801), a middle fixing frame (807) is arranged inside the fixed frame (801), sliding blocks (808) are fixed on two sides of the middle fixing frame (807), the sliding blocks (808) are fixedly connected with synchronous belts (802) on the corresponding side, and the sliding blocks (808) are slidably connected with the vertical guide rails (809) on the corresponding side; a flushing component is arranged below the middle fixing frame (807).

Further, it includes water knockout drum (601), nozzle (602) to wash the subassembly, water knockout drum (601) are fixed in middle part mount (807) below, and are a plurality of nozzle (602) are evenly seted up the lateral wall of water knockout drum (601), the water inlet intercommunication of water knockout drum (601) has water inlet hose, be provided with the solenoid valve on the water inlet hose.

Furthermore, the middle fixing frame (807) comprises at least one horizontal fixing rod, and two sliding blocks (808) are respectively fixed at two ends of the horizontal fixing rod; the left side wall and the right side wall of each horizontal fixing rod are both connected with two vertical fixing rods, and the lower ends of the two vertical fixing rods on each side are fixedly connected with the flushing assembly.

Further, the nozzle (602) is fan-shaped.

Further, the fixed frame (801) comprises a front fixed frame and a rear fixed frame which are symmetrically arranged, the upper parts of the front fixed frame and the rear fixed frame are connected through at least two middle fixed rods, and the middle fixed frame (807) is arranged below the middle fixed rods; the front side fixing frame comprises a bottom horizontal mounting rod, two side vertical mounting rods respectively fixed at two sides of the top end of the bottom horizontal mounting rod, and a top horizontal mounting rod connected with the top ends of the two side vertical mounting rods; the belt wheel fixing seat (806) is fixed at the top end of the bottom horizontal mounting rod, and the driving belt wheel (804) is arranged below the top horizontal mounting rod; the vertical guide rails (809) are arranged on the side walls, close to the middle fixing frame (807), of the two side vertical mounting rods, and sliding grooves are formed in the left side and the right side of each vertical guide rail (809); two groups of pulleys are arranged on the outer side wall of the sliding block (808), each group of pulleys comprises two rows of pulleys, each row of pulleys comprises at least one pulley, and the two rows of pulleys in each group of pulleys are respectively connected in two sliding grooves of the corresponding vertical guide rail (809) in a sliding manner; slider (808) are in be provided with fixed block (812) between two sets of pulleys, keeping away from of fixed block (812) the lateral wall of slider (808) is provided with clamp splice (813), be provided with the logical groove of upper and lower direction on clamp splice (813), clamp splice (813) are passed through lead the groove centre gripping on hold-in range (802) of corresponding side.

The automatic cleaning device for the filter press provided with the cleaning mechanism is characterized by comprising a controller, a supporting frame (1), a transverse moving mechanism (4) and a longitudinal moving mechanism (5), wherein the transverse moving mechanism (4) is arranged on the supporting frame (1) and moves transversely along the supporting frame (1), the longitudinal moving mechanism (5) is arranged on the transverse moving mechanism (4) and moves longitudinally along the transverse moving mechanism (4), and the cleaning mechanism (6) is arranged on the longitudinal moving mechanism (5); the execution driving motor (810) and the electromagnetic valve are electrically connected with the controller, and the controller is used for controlling the transverse moving mechanism (4) and the longitudinal moving mechanism (5) to act.

Furthermore, transverse guide rails (2) are arranged at the top ends of the left side and the right side of the supporting frame (1); the transverse moving mechanism (4) comprises a transverse moving frame (401), a transverse driving motor (402), a transverse driving speed reducer (403), a transverse driving roller (404) and a transverse driven roller (405) are arranged on the left side and the right side of the top end of the transverse moving frame (401), the transverse driving motor (402) is connected with the transverse driving speed reducer (403), the transverse driving speed reducer (403) is connected with the transverse driving roller (404), and the transverse driven roller (405) is arranged behind the transverse driving roller (404); the transverse driving roller (404) and the transverse driven roller (405) are arranged in the transverse guide rail (2) on the corresponding side in a sliding manner; the lateral drive motor (402) is electrically connected to the controller.

Furthermore, the top ends of the horizontal connecting rod at the front side of the bottom and the horizontal connecting rod at the rear side of the bottom of the transverse moving frame (401) are respectively provided with a longitudinal guide rail (9) and a longitudinal driving rack (10) which are parallel to each other; the longitudinal moving mechanism (5) comprises a longitudinal moving frame (501), a longitudinal driving motor (502) and a longitudinal driving reducer (503) are arranged on the right side of the longitudinal moving frame (501), a longitudinal driving gear (505) and a longitudinal driven roller (506) are arranged on the front side and the rear side of the longitudinal moving frame (501), the longitudinal driving motor (502) is connected with the longitudinal driving reducer (503), the longitudinal driving reducer (503) is a double-output-shaft reducer, two output shafts on the front side and the rear side of the longitudinal driving reducer (503) are connected with the longitudinal driving gear (505) on the corresponding side through a longitudinal transmission shaft (504), the longitudinal driving gear (505) is meshed with the longitudinal driving rack (10) on the corresponding side, and the longitudinal driven roller (506) is arranged in a longitudinal guide rail (9) on the corresponding side in a sliding manner; the longitudinal driving motor (502) is electrically connected with the controller; the fixed frame (801) is fixed inside the longitudinally moving frame (501).

Further, be provided with rotary encoder in the pivot of horizontal driven gyro wheel (405), the bottom of lateral shifting frame (401) is provided with horizontal proximity switch, the left lateral wall, the right lateral wall of longitudinal shifting frame (501) all are provided with vertical limit switch, the left inside wall, the right inside wall of lateral shifting frame (401) are provided with the limit baffle who corresponds the vertical limit switch position of the side that corresponds respectively, rotary encoder, horizontal proximity switch, vertical limit switch all with the controller electricity is connected.

The utility model has the advantages that:

(1) The utility model discloses a wiper mechanism is through setting up hold-in range lifting unit, inside in fixed frame both sides and setting up the middle part mount and at the installation flush assembly of middle part mount below, with the vertical guide rail sliding connection that middle part mount both sides link firmly and slider and hold-in range both sides through slider and hold-in range, can realize the lift of automatic, high-efficient, stable control flush assembly, promotes cleaning efficiency and effect.

(2) The utility model discloses a wiper mechanism is through setting up the water knockout drum in middle part mount below, evenly set up a plurality of nozzles at the water knockout drum lateral wall, set up the solenoid valve on the water inlet hose of water knockout drum intercommunication, can the blowout of automatic control water under high pressure, promotes cleaning efficiency and effect.

(3) The utility model discloses a wiper mechanism can promote abluent effect through setting the nozzle to fan-shaped.

(4) The utility model discloses a pressure filter self-cleaning device is through setting up transverse guide in braced frame both sides, set up horizontal drive gyro wheel and horizontal driven gyro wheel and slide in transverse guide in lateral shifting mechanism, set up longitudinal guide and longitudinal drive rack in lateral shifting mechanism, set up longitudinal drive gear and longitudinal drive rack toothing in longitudinal shifting mechanism, set up vertical driven gyro wheel and slide in longitudinal guide, set up wiper mechanism on longitudinal shifting mechanism, and set up controller and lateral shifting mechanism's transverse drive motor, longitudinal drive motor of longitudinal shifting mechanism, wiper mechanism's actuating drive motor is connected with the solenoid valve, make and to set up a plurality of stations in the braced frame inboard, realize the use of one set of belt cleaning device on many pressure filters, realize the self-cleaning of many pressure filters, greatly reduced the cleaning cost, cleaning efficiency and cleaning performance are improved, manpower and materials have been practiced thrift, and reasonable design, high stability, high durability and convenient use, and simple operation.

Drawings

Fig. 1 is a schematic structural diagram of the cleaning mechanism of the present invention.

Fig. 2 is a schematic structural view of the fixing block and the clamping block in the cleaning mechanism of the present invention.

Fig. 3 is a schematic view of the automatic cleaning device for filter presses of the present invention, which is used for arranging a plurality of filter presses.

Fig. 4 is a schematic structural view of the lateral moving mechanism in the automatic cleaning device for filter press according to the present invention.

Fig. 5 is a schematic view of the installation position of the cleaning mechanism on the longitudinal moving mechanism in the automatic cleaning device for filter press of the present invention.

In the figure, 1-supporting frame, 2-transverse guide rail, 3-filter press, 4-transverse moving mechanism, 401-transverse moving frame, 402-transverse driving motor, 403-transverse driving reducer, 404-transverse driving roller, 405-transverse driven roller, 5-longitudinal moving mechanism, 501-longitudinal moving frame, 502-longitudinal driving motor, 503-longitudinal driving reducer, 504-longitudinal driving shaft, 505-longitudinal driving gear, 506-longitudinal driven roller, 6-cleaning mechanism, 601-water separator, 602-nozzle, 801-fixed frame, 802-synchronous belt, 803-actuating driving shaft, 804-driving pulley, 805-driven pulley, 806-pulley fixed seat, 807-middle fixed seat, 808-sliding block, 809-vertical guide rail, 810-actuating driving motor, 811-actuating reducer, 812-fixed block, 813-clamping block, 9-longitudinal guide rail, 10-longitudinal driving rack.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

The following are specifically mentioned: in the present invention, the "front" and "rear" directions are the directions of the transverse guide 2, and the "left" and "right" directions are the directions of the longitudinal guide 9, which are only for convenience of description of the present invention and for simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1, the cleaning mechanism of the present invention includes a fixing frame 801, two sides of the fixing frame 801 are provided with a synchronous belt lifting assembly, the synchronous belt lifting assembly includes a pulley fixing seat 806, a driven pulley 805 arranged inside the pulley fixing seat 806, a driving pulley 804 arranged above the driven pulley 805, and a synchronous belt 802 sleeved on the driving pulley 804 and the driven pulley 805, and the two driving pulleys 804 are connected through an execution transmission shaft 803; an execution driving motor 810 is arranged on the outer wall of one side of the fixed frame 801, an execution driving reducer 811 is connected to the execution driving motor 810, and the output shaft of the execution driving reducer 811 is connected with one end of the execution transmission shaft 803;

vertical guide rails 809 are arranged on the inner walls of two sides of the fixed frame 801, a middle fixing frame 807 is arranged inside the fixed frame 801, sliding blocks 808 are fixed on two sides of the middle fixing frame 807, the sliding blocks 808 are fixedly connected with synchronous belts 802 on the corresponding sides, and the sliding blocks 808 are slidably connected with the vertical guide rails 809 on the corresponding sides; a flushing component is arranged below the middle fixing frame 807.

In this embodiment, the flushing assembly includes a water separator 601 and nozzles 602, the water separator 601 is fixed below the middle fixing frame 807, the nozzles 602 are uniformly arranged on the side wall of the water separator 601, a water inlet of the water separator 601 is communicated with a water inlet hose (not shown in the figure), and the water inlet hose is provided with an electromagnetic valve (not shown in the figure).

The utility model discloses a wiper mechanism is through setting up hold-in range lift subassembly, inside setting middle part mount 807 and at middle part mount 807 below installation flushing assembly, with middle part mount 807 both sides through slider 808 and hold-in range 802 link firmly and the vertical guide rail 809 sliding connection of slider 808 and hold-in range 802 both sides, can realize automatic, high-efficient, the lift of stable control flushing assembly, promotes cleaning efficiency and effect.

The middle fixing frame 807 comprises at least one horizontal fixing rod, and two sliding blocks 808 are respectively fixed at two ends of the horizontal fixing rod; the left side wall and the right side wall of each horizontal fixing rod are both connected with two vertical fixing rods, the lower ends of the two vertical fixing rods on each side are fixedly connected with the flushing assembly, and specifically, the lower ends of the two vertical fixing rods on each side are fixedly connected with the outer side wall of the water separator 601 of the corresponding side flushing assembly. The utility model discloses a wiper mechanism 6 is through setting up water knockout drum 601 in middle part mount 807 below, evenly set up a plurality of nozzles 602 at water knockout drum 601 lateral wall, set up the solenoid valve on the water inlet hose of water knockout drum 601 intercommunication, can the blowout of automatic control water under high pressure, promotes cleaning efficiency and effect.

In this embodiment, the nozzles 602 are fan-shaped, so as to improve the cleaning effect.

The fixing frame 801 comprises a front fixing frame and a rear fixing frame which are symmetrically arranged, the upper parts of the front fixing frame and the rear fixing frame are connected through at least two middle fixing rods, and the middle fixing frame 807 is arranged below the middle fixing rods; the front side fixing frame comprises a bottom horizontal mounting rod, two side vertical mounting rods respectively fixed at two sides of the top end of the bottom horizontal mounting rod, and a top horizontal mounting rod connected with the top ends of the two side vertical mounting rods; the pulley fixing base 806 is fixed on the top end of the bottom horizontal mounting rod, and the driving pulley 804 is arranged below the top horizontal mounting rod. The vertical guide rails 809 are arranged on the side walls, close to the middle fixing frame 807, of the two side vertical mounting rods, and sliding grooves are formed in the left side and the right side of each vertical guide rail 809; the outer side wall of the sliding block 808 is provided with two groups of pulleys, each group of pulleys comprises two rows of pulleys, each row of pulleys comprises at least one pulley, and the two rows of pulleys in each group of pulleys are respectively connected in the two sliding grooves of the corresponding vertical guide rail 809 in a sliding manner. In this embodiment, as shown in fig. 1, each row of pulleys includes two pulleys. As shown in fig. 2, a fixing block 812 is arranged between the two sets of pulleys of the slider 808, a clamping block 813 is arranged on the side wall, far away from the slider 808, of the fixing block 812, a through groove in the up-down direction is arranged on the clamping block 813, and the clamping block 813 is clamped on the synchronous belt 802 on the corresponding side through the through groove.

In this embodiment, the execution driving motor 810 is a motor with a band-type brake; the upper parts of the side walls of the two vertical side mounting rods far away from the middle fixing frame 807 are connected through a speed reducer fixing plate, and the execution driving speed reducer 811 is fixed on the outer side wall of the speed reducer fixing plate. More than two groups of flushing assemblies can be arranged according to the requirement.

The operation of the cleaning mechanism 6 is described below with reference to the accompanying drawings:

after the execution driving motor 810 is connected with the execution driving reducer 811, torque is transmitted to the execution transmission shaft 803, the execution transmission shaft 803 drives the driving pulleys 804 at two sides to rotate, the driving pulleys 804 are matched with the corresponding driven pulleys 805 to drive the corresponding synchronous belts 802 to move, the synchronous belts 802 at two sides simultaneously move to drive the sliding blocks 808 at two sides to move up and down through the clamping blocks 813 and the fixed blocks 812, the pulleys on the sliding blocks 808 slide along the sliding grooves of the corresponding vertical guide rails 809, and the sliding blocks 808 at two sides drive the middle fixing frame 807 to lift. When the filter press 3 needs to be cleaned, the controller controls the electromagnetic valve on the water inlet hose to open, and the high-pressure water enters the water separator 601 through the water inlet hose and is sprayed out through the nozzle 602 for cleaning.

As shown in fig. 3, the automatic cleaning device for filter press with the cleaning mechanism of the present invention comprises a controller, a supporting frame 1, a lateral moving mechanism 4, and a longitudinal moving mechanism 5, wherein the lateral moving mechanism 4 is disposed on the supporting frame 1 and moves laterally along the supporting frame 1, the longitudinal moving mechanism 5 is disposed on the lateral moving mechanism 4 and moves longitudinally along the lateral moving mechanism 4, and the cleaning mechanism 6 is disposed on the longitudinal moving mechanism 5; the execution driving motor 810 and the electromagnetic valve are electrically connected with the controller, and the controller is used for controlling the transverse moving mechanism 4 and the longitudinal moving mechanism 5 to act.

In this embodiment, the top ends of the left side and the right side of the supporting frame 1 are provided with the transverse guide rails 2. As shown in fig. 4, the transverse moving mechanism 4 includes a transverse moving frame 401, the top end of the transverse moving frame 401 is provided with a transverse driving motor 402, a transverse driving reducer 403, a transverse driving roller 404 and a transverse driven roller 405 on the left side and the right side, the transverse driving motor 402 is connected with the transverse driving reducer 403, the transverse driving reducer 403 is connected with the transverse driving roller 404, and the transverse driven roller 405 is arranged behind the transverse driving roller 404; the transverse driving roller 404 and the transverse driven roller 405 are arranged in the transverse guide rail 2 on the corresponding side in a sliding manner; the lateral drive motor 402 is electrically connected to the controller.

The top ends of the horizontal connecting rod at the front side of the bottom and the horizontal connecting rod at the rear side of the bottom of the transverse moving frame 401 are respectively provided with a longitudinal guide rail 9 and a longitudinal driving rack 10 which are parallel to each other. As shown in fig. 5, the longitudinal moving mechanism 5 includes a longitudinal moving frame 501, a longitudinal driving motor 502 and a longitudinal driving reducer 503 are disposed on the right side of the longitudinal moving frame 501, a longitudinal driving gear 505 and a longitudinal driven roller 506 are disposed on both the front side and the rear side of the longitudinal moving frame 501, the longitudinal driving motor 502 is connected to the longitudinal driving reducer 503, the longitudinal driving reducer 503 is a dual-output-shaft reducer, both output shafts on the front side and the rear side of the longitudinal driving reducer 503 are connected to the longitudinal driving gear 505 on the corresponding side through a longitudinal transmission shaft 504, the longitudinal driving gear 505 is engaged with the longitudinal driving rack 10 on the corresponding side, and the longitudinal driven roller 506 is slidably disposed in the longitudinal guide 9 on the corresponding side; the longitudinal driving motor 502 is electrically connected with the controller; the fixed frame 801 is fixed inside the longitudinally moving frame 501.

In this embodiment, be provided with rotary encoder in the pivot of horizontal driven gyro wheel 405, the bottom of lateral shifting frame 401 is provided with horizontal proximity switch, the left and right lateral wall of longitudinal shifting frame 501 all is provided with vertical limit switch, the left and right inside walls of lateral shifting frame 401 are provided with the limit baffle that corresponds with the vertical limit switch position of the corresponding side respectively, rotary encoder, horizontal proximity switch, vertical limit switch all with the controller electricity is connected.

In this embodiment, the supporting frame 1 includes a left supporting frame and a right supporting frame which are symmetrically arranged, the two transverse guide rails 2 are respectively arranged at the top ends of the left supporting frame and the right supporting frame, a plurality of stations are transversely arranged between the left supporting frame and the right supporting frame, and each station is used for placing one filter press 3 without any change to the filter press. The transverse moving frame 401 comprises transverse bottom front side horizontal connecting rods and transverse bottom rear side horizontal connecting rods which are symmetrically arranged, the transverse bottom front side horizontal connecting rods are connected with the transverse bottom rear side horizontal connecting rods through the transverse bottom left side horizontal connecting rods and the transverse bottom right side horizontal connecting rods which are parallel to each other, the top ends of the transverse bottom left side horizontal connecting rods are provided with two transverse left side vertical connecting rods, the top ends of the transverse bottom right side horizontal connecting rods are provided with two transverse right side vertical connecting rods, the top ends of the transverse left side vertical connecting rods and the transverse right side vertical connecting rods of the front side are connected through one transverse top front side horizontal connecting rod, the top ends of the transverse left side vertical connecting rods and the transverse right side vertical connecting rods of the rear side are connected through one transverse top rear side horizontal connecting rod, the transverse top front side horizontal connecting rods and the transverse top rear side horizontal connecting rods are equal in length and larger than the transverse bottom front side horizontal connecting rods and the transverse bottom rear side horizontal connecting rods, the transverse top front side horizontal connecting rods 405 and the transverse top rear side horizontal connecting rods are connected with the transverse top rear side horizontal connecting rods, the transverse top horizontal connecting rods 404 and the transverse top horizontal rollers are arranged at the left side horizontal connecting rods and the left side horizontal rollers 404 and the transverse rollers.

The operation of the lateral shifting mechanism 4 will be described with reference to the accompanying drawings:

after the transverse driving motor 402 is connected to the transverse driving reducer 403, the torque is transmitted to the transverse driving roller 404, and the transverse driving roller 404 is driven to rotate to match with the corresponding transverse driven roller 405, so that the transverse moving frame 401 moves along the transverse guide rail 2. The rotary encoder arranged on the transverse driven roller 405 is used for accurately calculating and determining the position where the transverse moving frame 401 stops, specifically, the rotary encoder calculates the displacement of the transverse driven roller 405 and sends a transverse stop moving signal to the controller when the displacement reaches a set threshold value, and the controller controls the transverse driving motor 402 to stop when receiving the transverse stop moving signal, so that the transverse moving frame 401 is controlled to stop moving. The transverse proximity switch arranged on the transverse moving frame 401 is used for detecting whether the transverse moving frame 401 is at a station, specifically, the transverse proximity switch sends a longitudinal moving signal to the controller when the transverse moving frame 401 moves to a position above the filter press 3 at a specified station, and the controller controls the longitudinal driving motor 502 to start to prepare for cleaning operation when receiving the longitudinal moving signal. And after the cleaning is finished, moving the filter cloth to the position above the filter press 3 at the next station, and circulating the steps to finish the cleaning work of the filter cloth.

In this embodiment, the longitudinal driving reducer 503 is disposed in the middle of the right side of the longitudinal moving frame 501; two longitudinally driven rollers 506 are provided to support the longitudinally moving frame 501.

The operation of the longitudinal movement mechanism 5 will be described with reference to the accompanying drawings:

after the longitudinal driving motor 502 is connected with the longitudinal driving reducer 503, the torque is transmitted to the longitudinal transmission shaft 504, the longitudinal transmission shaft 504 drives the longitudinal driving gear 505 to rotate, the longitudinal driving gear 505 is meshed with the longitudinal driving rack 10 on the corresponding side and is matched with the longitudinal driven roller 506 on the corresponding side, so that the longitudinal moving frame 501 moves along the longitudinal guide rail 9. Specifically, the longitudinal limit switch sends a longitudinal stop moving signal to the controller when contacting the limit baffle on the corresponding side, and the controller controls the longitudinal driving motor 502 to stop when receiving the longitudinal stop moving signal.

The method for automatically cleaning the filter press by using the automatic cleaning device for the filter press of the utility model is described below with reference to the accompanying drawings, which comprises the following steps:

step 1: the controller controls the transverse driving motor 402 to start, so that the transverse moving mechanism 4 moves along the transverse guide rail 2 on the support frame 1, and controls the transverse driving motor 402 to stop rotating after the transverse moving mechanism 4 moves right above the filter press 3;

step 2: the controller controls the longitudinal driving motor 502 to start, so that the longitudinal moving mechanism 5 moves along the longitudinal guide rail 9 on the transverse moving frame 401, and simultaneously controls the pulling plate trolley of the filter press 3 to move, and controls the longitudinal driving motor 502 to stop rotating when the position of the pulling plate trolley coincides with the position of the cleaning mechanism 6;

and step 3: the controller controls the execution driving motor 810 to start to drive the corresponding synchronous belt lifting component to move, the corresponding middle fixing frame 807 is driven to lift through the corresponding sliding block 808, the water separator 601 moves up and down, the electromagnetic valve on the water inlet hose is controlled to be opened while the water separator 601 moves up and down to control high-pressure water to enter the water separator 601, the high-pressure water is sprayed out through the nozzle 602 to perform cleaning work, and when the cleaning work time reaches a preset cleaning work time threshold value, the controller controls the corresponding execution driving motor 810 and the electromagnetic valve to be closed.

It is obvious that the above embodiments are only a part of the embodiments of the present invention, and not all of them. The above embodiments are only used for explaining the present invention, and do not constitute a limitation to the scope of the present invention. All other embodiments, which can be derived by those skilled in the art from the above-described embodiments without any creative effort, namely all modifications, equivalents, improvements and the like made within the spirit and principle of the present application, are within the protection scope of the present invention.

Claims (9)

1. The cleaning mechanism is characterized by comprising a fixed frame (801), wherein synchronous belt lifting assemblies are arranged on two sides of the fixed frame (801), each synchronous belt lifting assembly comprises a belt wheel fixing seat (806), a driven belt wheel (805) arranged in each belt wheel fixing seat (806), a driving belt wheel (804) arranged above the driven belt wheel (805), and a synchronous belt (802) sleeved on the driving belt wheel (804) and the driven belt wheel (805), and the two driving belt wheels (804) are connected through an execution transmission shaft (803); an execution driving motor (810) is arranged on the outer wall of one side of the fixed frame (801), the execution driving motor (810) is connected with an execution driving speed reducer (811), and the output shaft of the execution driving speed reducer (811) is connected with one end of the execution transmission shaft (803);

vertical guide rails (809) are arranged on the inner walls of two sides of the fixed frame (801), a middle fixing frame (807) is arranged inside the fixed frame (801), sliding blocks (808) are fixed on two sides of the middle fixing frame (807), the sliding blocks (808) are fixedly connected with synchronous belts (802) on the corresponding side, and the sliding blocks (808) are slidably connected with the vertical guide rails (809) on the corresponding side; and a flushing component is arranged below the middle fixing frame (807).

2. The cleaning mechanism according to claim 1, characterized in that the flushing assembly comprises a water separator (601) and nozzles (602), the water separator (601) is fixed below a middle fixing frame (807), a plurality of nozzles (602) are uniformly arranged on the side wall of the water separator (601), the water inlet of the water separator (601) is communicated with a water inlet hose, and a solenoid valve is arranged on the water inlet hose.

3. The cleaning mechanism according to claim 2, wherein the middle fixing frame (807) comprises at least one horizontal fixing rod, and two sliding blocks (808) are respectively fixed at two ends of the horizontal fixing rod; the left side wall and the right side wall of each horizontal fixing rod are both connected with two vertical fixing rods, and the lower ends of the two vertical fixing rods on each side are fixedly connected with the flushing assembly.

4. The washing mechanism according to claim 2, characterized in that the nozzles (602) are fan-shaped.

5. The cleaning mechanism according to claim 1, wherein the fixing frame (801) comprises a front fixing frame and a rear fixing frame which are symmetrically arranged, the upper parts of the front fixing frame and the rear fixing frame are connected through at least two middle fixing rods, and the middle fixing frame (807) is arranged below the middle fixing rods; the front side fixing frame comprises a bottom horizontal mounting rod, two side vertical mounting rods respectively fixed at two sides of the top end of the bottom horizontal mounting rod, and a top horizontal mounting rod connected with the top ends of the two side vertical mounting rods; the belt wheel fixing seat (806) is fixed at the top end of the bottom horizontal mounting rod, and the driving belt wheel (804) is arranged below the top horizontal mounting rod; the vertical guide rails (809) are arranged on the side walls, close to the middle fixing frame (807), of the two side vertical mounting rods, and sliding grooves are formed in the left side and the right side of each vertical guide rail (809); two groups of pulleys are arranged on the outer side wall of the sliding block (808), each group of pulleys comprises two rows of pulleys, each row of pulleys comprises at least one pulley, and the two rows of pulleys in each group of pulleys are respectively connected in two sliding grooves of the corresponding vertical guide rail (809) in a sliding manner; slider (808) are in be provided with fixed block (812) between two sets of pulleys, keeping away from of fixed block (812) the lateral wall of slider (808) is provided with clamp splice (813), be provided with the logical groove of direction from top to bottom on clamp splice (813), clamp splice (813) are passed through it clamps on hold-in range (802) of corresponding side to lead to the groove.

6. An automatic cleaning device for a filter press, provided with the cleaning mechanism of claim 2, characterized by comprising a controller, a support frame (1), a transverse moving mechanism (4) and a longitudinal moving mechanism (5), wherein the transverse moving mechanism (4) is arranged on the support frame (1) and moves transversely along the support frame (1), the longitudinal moving mechanism (5) is arranged on the transverse moving mechanism (4) and moves longitudinally along the transverse moving mechanism (4), and the cleaning mechanism (6) is arranged on the longitudinal moving mechanism (5); the execution driving motor (810) and the electromagnetic valve are electrically connected with the controller, and the controller is used for controlling the transverse moving mechanism (4) and the longitudinal moving mechanism (5) to act.

7. The automatic cleaning device of filter presses according to claim 6, characterized in that the left and right sides of the support frame (1) are provided with a transverse guide rail (2) at the top end; the transverse moving mechanism (4) comprises a transverse moving frame (401), a transverse driving motor (402), a transverse driving speed reducer (403), a transverse driving roller (404) and a transverse driven roller (405) are arranged on the left side and the right side of the top end of the transverse moving frame (401), the transverse driving motor (402) is connected with the transverse driving speed reducer (403), the transverse driving speed reducer (403) is connected with the transverse driving roller (404), and the transverse driven roller (405) is arranged behind the transverse driving roller (404); the transverse driving roller (404) and the transverse driven roller (405) are arranged in the transverse guide rail (2) on the corresponding side in a sliding manner; the lateral drive motor (402) is electrically connected to the controller.

8. The automatic cleaning device of the filter press according to claim 7, characterized in that the horizontal connecting rod at the front side of the bottom and the horizontal connecting rod at the rear side of the bottom of the transverse moving frame (401) are respectively provided with a longitudinal guide rail (9) and a longitudinal driving rack (10) which are parallel to each other at the top end; the longitudinal moving mechanism (5) comprises a longitudinal moving frame (501), a longitudinal driving motor (502) and a longitudinal driving speed reducer (503) are arranged on the right side of the longitudinal moving frame (501), a longitudinal driving gear (505) and a longitudinal driven roller (506) are arranged on the front side and the rear side of the longitudinal moving frame (501), the longitudinal driving motor (502) is connected with the longitudinal driving speed reducer (503), the longitudinal driving speed reducer (503) is a double-output-shaft speed reducer, two output shafts on the front side and the rear side of the longitudinal driving speed reducer (503) are connected with the longitudinal driving gear (505) on the corresponding side through a longitudinal transmission shaft (504), the longitudinal driving gear (505) is meshed with the longitudinal driving rack (10) on the corresponding side, and the longitudinal driven roller (506) is arranged in a longitudinal guide rail (9) on the corresponding side in a sliding manner; the longitudinal driving motor (502) is electrically connected with the controller; the fixed frame (801) is fixed inside the longitudinally moving frame (501).

9. The automatic cleaning device for the filter press according to claim 8, wherein a rotary encoder is arranged on a rotating shaft of the transverse driven roller (405), a transverse proximity switch is arranged at the bottom of the transverse moving frame (401), longitudinal limit switches are arranged on the left outer side wall and the right outer side wall of the longitudinal moving frame (501), limit baffles corresponding to the positions of the longitudinal limit switches on the corresponding sides are respectively arranged on the left inner side wall and the right inner side wall of the transverse moving frame (401), and the rotary encoder, the transverse proximity switch and the longitudinal limit switches are electrically connected with the controller.

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