CN218282850U - Grid surface decontamination structure of pulp squeezing system - Google Patents

Abstract

The utility model relates to a grid clearance technical field, concretely relates to crowded thick liquid system grid surface scrubbing structure. The grid surface decontamination structure of the pulp squeezing system is characterized in that one side of the pulp squeezing system is provided with a conveying mechanism for conveying a squeezed grid, a cleaning system for cleaning the grid on the conveying mechanism is arranged along the conveying mechanism, and the cleaning system comprises a flushing mechanism and a blowing mechanism; one end of the cleaning system close to the pulp squeezing system is provided with an induction mechanism; the induction mechanism, the flushing mechanism and the blowing mechanism are all connected with a controller, and the grid surface decontamination structure of the pulp squeezing system for cleaning the surface of the grid is provided.

Description

Grid surface decontamination structure of pulp squeezing system

Technical Field

The utility model relates to a grid clearance technical field, concretely relates to crowded thick liquid system grid surface scrubbing structure.

Background

Lead-acid batteries have a very large share in various battery fields at home and abroad due to very high cost performance and the absolute possibility of recycling, and along with the increasing use amount of tubular lead-acid batteries, the active material filling process in the positive plate tube of the tubular lead-acid battery is more important. The active substance filling of the existing positive plate calandria mainly has two modes: powder filling mode and paste squeezing mode. Among them, the dust pollution of the powder filling method is large, the influence on the body of the operator is large, and the dust filling method is gradually banned by the industry. And adopt crowded cream mode, although reduced the dust, guaranteed operational environment, in crowded cream in-process, some cream body can overflow at the grid surface, influences the clean and tidy nature on grid surface.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the defects of the prior art are overcome, and the grid surface decontamination structure of the pulp squeezing system for cleaning the grid surface is provided.

The utility model discloses a solve the technical scheme that its technical problem adopted and do: the system comprises a squeezing system, a conveying mechanism, a cleaning system and a control system, wherein the surface of a grid of the squeezing system is provided with a dirt removing structure, one side of the squeezing system is provided with the conveying mechanism used for conveying a squeezed grid, the cleaning system used for cleaning the grid on the conveying mechanism is arranged along the conveying mechanism, and the cleaning system comprises a flushing mechanism and a blowing mechanism; an induction mechanism is arranged at one end of the cleaning system close to the pulp squeezing system;

the induction mechanism, the flushing mechanism and the blowing mechanism are all connected with a controller.

This application sets up, conveying mechanism's output is connected with next process, the grid after crowded thick liquid is accomplished passes through conveying mechanism and carries to next process, the grid is in transportation process, when induction mechanism senses the grid, send induction signal to the controller, controller control washes the mechanism and washes the grid of process, after the definite time, the grid process that washes blows off the mechanism, through the mechanism of blowing off to the operation of drying on the grid surface, further realize the clearance to grid surface spot.

The flushing mechanism comprises spray heads which are oppositely arranged at two sides of the conveying mechanism, and the spray heads are communicated with a water source through a spray pipe;

and a valve switch is arranged on the water spray pipe and is connected with the controller. After the induction mechanism induces the grid, the controller controls the valve switch to be opened, and the water is sprayed to the grid through the spray head to wash the lead paste on the upper surface of the plate.

A water receiving tank is arranged below the conveying mechanism, the water receiving tank is communicated with a water suction pump through a water return pipe, and the water suction pump is communicated with the valve switch;

and a filter screen is arranged at the communication position of the water return pipe and the water receiving tank. And the water after being washed falls into the water receiving tank, and after the water is precipitated, the water in the water receiving tank is pumped into the spray head again through the water suction pump and sprayed out, so that the cyclic utilization is realized.

The conveying mechanism is covered with a protective cover, and the water spray pipe penetrates through the protective cover to be communicated with the spray head.

The blowing mechanism comprises a blowing pipe, and the blowing pipe is connected with an air blower; the blowing-off mechanism is positioned at one end of the flushing mechanism, which is far away from the pulp squeezing system;

the air blower is electrically connected with the controller through a delay relay. An observation door is arranged on the side plate of the shield. The observation door is hinged with the protective cover and is used for observing the flushing condition. The openings at the two ends of the protective cover are used for passing in and out the grid.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model provides a crowded thick liquid system grid surface scrubbing structure has realized the clearance operation to crowded thick liquid back grid surface, simple structure, and easily operation, convenient to use has increased crowded thick liquid back grid's clean and tidy nature, reduces artifical clean cost, reduces the manual work volume, improves clean efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the structure inside the protective cover of the present invention.

In the figure: 1. a conveying mechanism; 2. a spray head; 3. a water spray pipe; 4. an induction mechanism; 5. opening and closing a valve; 6. a water pump; 7. blowing a pipe; 8. a water return pipe; 9. a water receiving tank; 10. a shield; 11. an observation door; 12. a blower.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings:

examples

As shown in fig. 1 to 2, a conveying mechanism 1 for conveying a grid after squeezing is arranged on one side of a squeezing system of a grid surface decontamination structure of the squeezing system, and a cleaning system for cleaning the grid on the conveying mechanism 1 is arranged along the conveying mechanism 1, and comprises a flushing mechanism and a blowing mechanism; an induction mechanism 4 is arranged at one end of the cleaning system close to the pulp squeezing system;

the induction mechanism 4, the flushing mechanism and the blowing mechanism are all connected with a controller.

The flushing mechanism comprises spray heads 2 which are oppositely arranged at two sides of the conveying mechanism 1, and the spray heads 2 are communicated with a water source (such as tap water) through a spray pipe 3;

the spray pipe 3 is connected with a valve switch 5, and the valve switch 5 is connected with the controller. After the sensing mechanism 4 senses the grid, the valve switch 5 is opened, the water spraying pipe 3 is communicated with a water source, and water is sprayed to the grid through the spray head 2 to wash lead paste on the upper surface of the plate. The sensing mechanism 4 can be an existing infrared sensor, a laser sensor and the like, and when the grid position is detected, a sensing signal is sent to a controller, and the controller controls the relevant system mechanism and the valve to be opened and closed. Based on the program control of controller to relevant system mechanism and valve, the adoption is prior art, does not have the improvement to this, also does not belong to the main point of this application, so no longer give unnecessary details. For convenience of operation, the valve switch 5 may be a three-way valve.

A water receiving tank 9 is arranged below the conveying mechanism 1, the water receiving tank 9 is communicated with a water suction pump 6 through a water return pipe 8, and the water suction pump 6 is communicated with a valve switch 5;

and a filter screen is arranged at the communication position of the water return pipe 8 and the water receiving tank 9. The valve switch 5 is also connected with a tap water pipe and the like, and a worker can control the switch of the water suction pump 6 or the switch of a water source according to actual conditions. And the water after being washed falls into the water receiving tank 9, and after the water is precipitated, the water in the water receiving tank 9 is pumped into the spray head 2 again through the water suction pump 6 and sprayed out, so that the cyclic utilization is realized. Lead thick liquid deposits in water receiving tank 9 simultaneously, and to a certain extent after, can artificially clear up retrieve also can with a pump of drawing of water receiving tank 9 intercommunication, storage devices such as lottery draw pump intercommunication lead thick liquid collection box, lead thick liquid in the water receiving tank 9 is collected to a certain extent after and is drawn into storage device with lead thick liquid through the lottery draw pump, realizes recycle.

The delivery mechanism 1 is covered with a shield 10, and the spray pipe 3 passes through the shield 10 to be communicated with the spray head 2. Referring to fig. 1, in this embodiment, conveying mechanism 1 adopts the existing conveying chain that hangs, conveying mechanism 1's carriage passes through the existing connecting piece fixed connection that can dismantle such as buckle with guard shield 10, wash the mechanism and blow down the mechanism and be located guard shield 10, the grid after the crowded thick liquid is hung on the conveying chain, carry to the next process via the conveying chain, guard shield 10's setting mainly avoids 2 water spray in-process to spatter outward for all flow to water receiving tank 9 behind the spun water scouring board bars surface, water receiving tank 9 fixed connection is on conveying mechanism 1's carriage.

The blowing mechanism comprises a blowing pipe 7, and the blowing pipe 7 is connected with an air blower 12; the blowing-off mechanism is positioned at one end of the flushing mechanism, which is far away from the pulp squeezing system;

the blower 12 is electrically connected to the controller through a delay relay. The controller is connected with the air blower 12 through the delay relay, when the controller receives an induction signal of the induction mechanism 4, the controller sends a signal to the delay relay, the delay relay receives the signal, the delay is closed, the air blower 12 is powered on and opened, at the moment, the conveying mechanism conveys the washed grid to the blowing-off mechanism, the grid is blown through the blow pipe 7, and the non-residual dirt on the grid is further blown off. The controller is connected and controls the start and the close of the blower 12 through a time delay relay, and for the prior art, redundant description is not repeated again.

The side plate of the shield 10 is provided with an observation door 11. A viewing door 11 is hinged to the shield 10 for viewing the flushing. The shield 10 is open at both ends for grid access.

The working principle is as follows: the grid after the pulp squeezing moves to the next process through the conveying mechanism 1, enters the protective cover 10 along with the conveying of the conveying mechanism, the sensing mechanism 4 sends a sensing signal to the controller after sensing the grid, the controller controls the valve switch 5 to be opened for washing, and the washed water flows into the water receiving tank 9. When the water in the water receiving tank 9 is accumulated to a certain amount, the valve switch 5 can be disconnected from the water source, and the water suction pump 6 is turned on, so that the water is recycled. The shower nozzle 2 is to the grid water spray in the removal, erodees the grid surface, and the while control ware sends the signal to the time delay relay, and after the time delay a set time, air-blower 12 circular telegram is bloied to the grid through washing the mechanism through blowpipe 7, cleans the grid surface, guarantees the clean and tidy nature on the surface of grid.

Claims (6)

1. A grid surface decontamination structure of a pulp squeezing system is characterized in that a conveying mechanism (1) for conveying a squeezed grid is arranged on one side of the pulp squeezing system, a cleaning system for cleaning the grid on the conveying mechanism (1) is arranged along the conveying mechanism (1), and the cleaning system comprises a flushing mechanism and a blowing mechanism; an induction mechanism (4) is arranged at one end of the cleaning system close to the pulp squeezing system;

the induction mechanism (4), the flushing mechanism and the blowing mechanism are all connected with a controller.

2. The grid surface decontamination structure of the pulp squeezing system according to claim 1, wherein the flushing mechanism comprises spray heads (2) which are arranged oppositely at two sides of the conveying mechanism (1), and the spray heads (2) are connected with a water source through water spraying pipes (3);

the water spraying pipe (3) is provided with a valve switch (5), and the valve switch (5) is connected with the controller.

3. The grid surface decontamination structure of a squeezing system according to claim 2, wherein a water receiving tank (9) is arranged below the conveying mechanism (1), the water receiving tank (9) is communicated with a water suction pump (6) through a water return pipe (8), and the water suction pump (6) is communicated with the valve switch (5);

and a filter screen is arranged at the communication position of the water return pipe (8) and the water receiving tank (9).

4. Grid surface decontamination structure of a squeezing system according to claim 3, characterized in that the conveying mechanism (1) is covered by a shield (10), and the water spray pipe (3) passes through the shield (10) and is communicated with the spray head (2).

5. The grid surface decontamination structure of a pulp squeezing system according to claim 1, wherein the blow-off mechanism comprises a blow pipe (7), and a blower (12) is connected to the blow pipe (7); the blowing-off mechanism is positioned at one end of the flushing mechanism, which is far away from the pulp squeezing system;

the air blower (12) is electrically connected with the controller through a time delay relay.

6. Grid surface decontamination structure of a battering system according to claim 4, characterized in that the side plates of the shield (10) are provided with observation doors (11).

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