CN215782130U - Infiltration device for ceramic filter plate production - Google Patents

Abstract

The utility model relates to the field of ceramic filter plate production, and discloses an infiltration device for ceramic filter plate production, which comprises an infiltration tank, an installation frame and a driving device connected with the bottom of the horizontal part of the installation frame, wherein the driving device comprises a driving rod, the bottom of the driving rod is provided with a first pressing plate capable of moving up and down, the first pressing plate is driven by the driving rod, and two vertical parts of the installation frame are respectively connected with two opposite sides of the infiltration tank. The sponge pressing device is provided with the mounting frame, the driving device and the first pressing plate, the first pressing plate can be repeatedly pressed into the sponge by opening the driving device, workers do not need to manually press and knead the sponge, the labor intensity is low, and the labor is saved.

Description

Infiltration device for ceramic filter plate production

Technical Field

The utility model relates to the technical field of ceramic filter plate production, in particular to an infiltration device for ceramic filter plate production.

Background

The ceramic filter plate is a filter element widely used for concentrate dehydration, tailing dehydration and sewage and waste acid treatment of various minerals such as gold, silver, copper, iron, tin, cobalt, sulfur, phosphorus, aluminum, lead, nickel and the like, is usually arranged on a filter device to be used as a core filter element, is suitable for materials with material particles of 50 percent of minus 200 meshes to 90 percent of minus 400 meshes and several microns, and has the advantages of high separation rate, high separation precision, high operation efficiency, excellent technical and economic indexes and wide adaptability. The principle is that the porous material contains numerous extremely tiny capillaries, which can generate capillary action. In the production process, the sponge needs to be soaked into the soaking material taking the alumina as the base material, and in order to promote the alumina to enter the sponge, the sponge needs to be pressed and kneaded by workers, and the processes consume manpower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a soaking device for producing a ceramic filter plate, and aims to solve the problem of labor consumption.

The technical purpose of the utility model is realized by the following technical scheme:

the utility model provides a production of ceramic filter is with infiltration device, includes infiltration pond, the longitudinal section is the mounting bracket of the shape of falling U and with the drive arrangement that the bottom of mounting bracket horizontal part links to each other, drive arrangement includes the actuating lever, the bottom of actuating lever is provided with the first clamp plate that can up-and-down motion, first clamp plate is by the actuating lever drive, two vertical parts of mounting bracket respectively with the double-phase opposite side portion of infiltration pond links to each other.

Through foretell technical scheme, place the sponge in the below of first clamp plate, later open drive arrangement, the first clamp plate of actuating lever drive makes it carry out the up-and-down motion to make a round trip to press to the sponge on, promote to soak in the pond alumina base material gets into the sponge, so repeated several times, close drive arrangement, later take out the sponge after will soaking and carry out next process. Wherein, having set up mounting bracket, drive arrangement and first clamp plate, the accessible is opened drive arrangement and is made first clamp plate repeatedly press to the sponge in, and need not the staff and carry out the manual work to the sponge and press and rub, intensity of labour is little, uses manpower sparingly.

The utility model is further provided with: a plurality of first pressure holes are uniformly formed in the first pressure plate.

The utility model is further provided with: the soaking pool is characterized by further comprising a second pressing plate located under the first pressing plate, a plurality of second pressing holes are uniformly formed in the second pressing plate, and a set distance is reserved between the second pressing plate and the bottom of the soaking pool.

The utility model is further provided with: the four supporting rods are arranged in a rectangular mode in the horizontal direction and are connected to the four inner corners of the second pressing plate respectively.

The utility model is further provided with: the middle parts of the four supporting rods are connected to four inner corners of the second pressing plate, and the tops of the four supporting rods are higher than the second pressing plate by a set distance.

The utility model is further provided with: four inner corners of the first pressing plate are provided with guide holes, four support rods are movably inserted into the four guide holes respectively, and the outer walls of the support rods are movably attached to the inner walls of the guide holes.

The utility model is further provided with: the side part of the second pressing plate is provided with a limiting frame with a rectangular cross section, the top of the limiting frame is higher than the top of the first pressing plate, and the projection of the first pressing plate in the horizontal direction is located in the projection of the limiting frame in the horizontal direction.

The utility model is further provided with: the plate taking device is characterized in that a first plate taking notch is formed in the second pressing plate, a second plate taking notch communicated with the first plate taking notch is formed in the limiting frame, a plurality of compression resisting rods are arranged in the first plate taking notch at parallel intervals, the projection of each compression resisting rod in the vertical direction is located in the projection of the second pressing plate in the vertical direction, the end portion of each compression resisting rod is connected with one side, located in the second pressing plate, of the first plate taking notch, and the axis of each compression resisting rod is parallel to the side portion, connected with the second plate taking notch, of the first plate taking notch.

The utility model is further provided with: the driving device is a cylinder, an oil cylinder or a hydraulic cylinder.

Compared with the prior art, the utility model has the beneficial effects that:

the installation frame, the driving device and the first pressing plate are arranged, the driving device can be opened to enable the first pressing plate to be repeatedly pressed into the sponge, workers do not need to manually press and rub the sponge, labor intensity is low, and manpower is saved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural diagram of the present invention.

In the figure, 1, a soaking pool; 2. a mounting frame; 3. a drive device; 3a, a driving rod; 4. a first platen; 5. a first hole pressing; 6. A second platen; 7. a second hole pressing; 8. a support bar; 9. a guide hole; 10. a limiting frame; 11. a first plate taking notch; 12. a second plate taking notch; 13. a compression resistant rod.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings and specific embodiments. It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

The infiltration device for producing the ceramic filter plate comprises an infiltration tank 1, an installation frame 2 with an inverted U-shaped longitudinal section and a driving device 3 connected with the bottom of the horizontal part of the installation frame 2, wherein the driving device 3 comprises a driving rod 3a, a first pressing plate 4 capable of moving up and down is arranged at the bottom of the driving rod 3a, the first pressing plate 4 is driven by the driving rod 3a, and two vertical parts of the installation frame 2 are respectively connected with two opposite sides of the infiltration tank 1, as shown in figures 1 and 2.

The use process comprises the following steps: the sponge is placed below the first pressing plate 4, then the driving device 3 is opened, the driving rod 3a drives the first pressing plate 4 to move up and down, so that the sponge is pressed back and forth, the alumina base material in the infiltration tank 1 is promoted to enter the sponge, the operation is repeated for a plurality of times, the driving device 3 is closed, and then the infiltrated sponge is taken out to perform the next step. Wherein, having set up mounting bracket 2, drive arrangement 3 and first clamp plate 4, the accessible is opened drive arrangement 3 and is made first clamp plate 4 repeatedly press to the sponge in, and need not the staff and carry out the manual work to the sponge and press and rub, and intensity of labour is little, uses manpower sparingly.

First pressure hole 5 of a plurality of has evenly been seted up on first clamp plate 4, and first pressure hole 5 is convenient for press to the sponge after upward movement at first clamp plate 4, and the aluminium oxide base-material is got into and is inhaled to the sponge in by first pressure hole 5 to the efficiency that the sponge inhales aluminium oxide has been improved.

Still including being located second clamp plate 6 under first clamp plate 4, a plurality of second pressure hole 7 has evenly been seted up on second clamp plate 6, second clamp plate 6 with the bottom of soaking pond 1 has the settlement distance, and second clamp plate 6 places the sponge below the liquid level of aluminium oxide base material on second clamp plate 6, and later first clamp plate 4 presses upward movement behind the sponge, and the aluminium oxide base material is pressed the hole by first pressure hole 5 and second and is got into and is inhaled to the sponge in, has further improved the efficiency that the sponge inhales aluminium oxide.

The second pressing plate comprises four supporting rods 8, the four supporting rods 8 are arranged in a rectangular mode in the horizontal direction, the four supporting rods 8 are connected to four inner corners of the second pressing plate 6 respectively, the four supporting rods 8 can support the second pressing plate 6, and therefore the second pressing plate 6 is far away from the bottom of the infiltration tank 1.

The middle parts of the four supporting rods 8 are connected to four inner corners of the second pressing plate 6, the tops of the four supporting rods 8 are higher than the set distance of the second pressing plate 6 and are simultaneously higher than the liquid level of the alumina base material, the position of the second pressing plate 6 below the liquid level of the alumina base material cannot be seen by naked eyes due to the fact that the alumina base material is opaque and milky white, and the four supporting rods 8 higher than the liquid level of the alumina base material can be arranged to indicate the position of the second pressing plate 6, so that the sponge can be placed on the second pressing plate 6 quickly.

Guide holes 9 are formed in four inner corners of the first pressing plate 4, four supporting rods 8 are movably inserted into the four guide holes 9 respectively, the outer walls of the supporting rods 8 are movably attached to the inner walls of the guide holes 9, so that the up-and-down movement path of the first pressing plate 4 can be limited, the first pressing plate 4 is accurately pressed to a corresponding position, the supporting rods 8 penetrating through the four guide holes 9 can enable the first pressing plate 4 to be always in a horizontal position, and the situation that the first pressing plate 4 is twisted to generate torsion due to the fact that reaction force is generated on the first pressing plate 4 after the first pressing plate is pressed to a sponge is prevented from affecting long-term use of the device.

The side part of the second pressing plate 6 is provided with a limiting frame 10 with a rectangular cross section, the top of the limiting frame 10 is higher than the top of the first pressing plate 4, the projection of the first pressing plate 4 in the horizontal direction is located in the projection of the limiting frame 10 in the horizontal direction, the limiting frame 10 can further limit the position of the sponge placed on the second pressing plate 6, the sponge is prevented from moving downwards on the first pressing plate 4 to drive an alumina base material, the flowing alumina base material enables the position of the sponge to slide, and the sponge is not compressed by the first pressing plate 4 everywhere, so that the efficiency of the sponge absorbing the alumina base material is influenced.

A first plate taking notch 11 is arranged on the second pressing plate 6, a second plate taking notch 12 communicated with the first plate taking notch 11 is arranged on the limiting frame 10, a plurality of compression resistant rods 13 are arranged in the first plate taking gap 11 in parallel at intervals, the projection of the compression resistant rods 13 in the vertical direction is positioned in the projection of the second pressing plate 6 in the vertical direction, the end part of the compression resistant rod 13 is connected with one side of the first plate taking notch 11 inside the second pressing plate 6, the axis of the compression resistant rod 13 is parallel to the side part of the first plate taking notch 11 connected with the second plate taking notch 12, and due to the limiting function of the limiting frame 10, when the sponge absorbing the alumina base material is taken out from the soaking pool 1, the sponge is not easy to take out, at the moment, hands can be extended to the first plate taking notch 11 and the second plate taking notch 12, and the sponge can be directly pinched on the front side and the back side of the sponge, so that the sponge is easy to take out from the alumina base material.

The driving device 3 is an air cylinder, an oil cylinder or a hydraulic cylinder, and the air cylinder, the oil cylinder or the hydraulic cylinder can realize the function of driving the first pressing plate 4 to move up and down.

The above description is only for the purpose of describing the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention, and any variations and modifications made by those skilled in the art based on the above disclosure are within the scope of the appended claims.

Claims (9)

1. The utility model provides a production of ceramic filter is with infiltration device which characterized in that: including soaking pond (1), mounting bracket (2) that the longitudinal section is the shape of falling U and with drive arrangement (3) that mounting bracket (2) horizontal part's bottom links to each other, drive arrangement (3) include actuating lever (3a), the bottom of actuating lever (3a) is provided with first clamp plate (4) that can the up-and-down motion, first clamp plate (4) by actuating lever (3a) drive, the two vertical portions of mounting bracket (2) respectively with soak the double-phase opposite side portion in pond (1) and link to each other.

2. The infiltration apparatus of claim 1, wherein the infiltration apparatus comprises: a plurality of first pressing holes (5) are uniformly formed in the first pressing plate (4).

3. The infiltration apparatus of claim 1, wherein the infiltration apparatus comprises: the device is characterized by further comprising a second pressing plate (6) located under the first pressing plate (4), wherein a plurality of second pressing holes (7) are uniformly formed in the second pressing plate (6), and a set distance is reserved between the second pressing plate (6) and the bottom of the infiltration tank (1).

4. The infiltration apparatus of claim 3, wherein the infiltration apparatus comprises: the pressing device is characterized by further comprising four supporting rods (8), wherein the four supporting rods (8) are arranged in a rectangular mode in the horizontal direction, and the four supporting rods (8) are connected to four inner corners of the second pressing plate (6) respectively.

5. The infiltration apparatus of claim 4, wherein the infiltration apparatus comprises: the middle parts of the four supporting rods (8) are connected to four inner corners of the second pressing plate (6), and the tops of the four supporting rods (8) are higher than the second pressing plate (6) by a set distance.

6. The infiltration apparatus of claim 5, wherein the infiltration apparatus comprises: guiding holes (9) are formed in four inner corners of the first pressing plate (4), four supporting rods (8) are movably inserted into the four guiding holes (9) respectively, and the outer walls of the supporting rods (8) are movably attached to the inner walls of the guiding holes (9).

7. The infiltration apparatus of claim 3, wherein the infiltration apparatus comprises: the side part of the second pressing plate (6) is provided with a limiting frame (10) with a rectangular cross section, the top of the limiting frame (10) is higher than the top of the first pressing plate (4), and the projection of the first pressing plate (4) in the horizontal direction is located in the projection of the limiting frame (10) in the horizontal direction.

8. The infiltration apparatus of claim 7, wherein the infiltration apparatus comprises: the plate taking device is characterized in that a first plate taking notch (11) is formed in the second pressing plate (6), a second plate taking notch (12) communicated with the first plate taking notch (11) is formed in the limiting frame (10), a plurality of compression resistant rods (13) are arranged in the first plate taking notch (11) at intervals in parallel, the projection of each compression resistant rod (13) in the vertical direction is located in the projection of the second pressing plate (6) in the vertical direction, the end part of each compression resistant rod (13) is located in the first plate taking notch (11) and one side of the inner part of the second pressing plate (6) is connected, and the axis of each compression resistant rod (13) is parallel to the side part of the first plate taking notch (11) and the second plate taking notch (12).

9. The infiltration apparatus of claim 1, wherein the infiltration apparatus comprises: the driving device (3) is a cylinder, an oil cylinder or a hydraulic cylinder.

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