CN213257002U - Grid continuous casting drawing of patterns conduction band system - Google Patents

Abstract

The utility model discloses a grid continuous casting drawing of patterns conduction band system, including continuous casting mould and conduction band roller assembly, conduction band roller assembly install in continuous casting mould ejection of compact direction position under one's own right be used for along the fashioned grid area drawing of patterns of casting is derived to continuous casting mould ejection of compact direction. The utility model discloses well conduction band roller assembly makes the grid area derive along the ejection of compact direction of continuous mould, grid area ejection of compact direction is approximate tangent with conduction band roller assembly, make the grid take out comparatively smooth transition of material, the bending degree in grid area has been reduced, the cladding arc length with the commentaries on classics mould before the grid area drawing of patterns has been increased, improve the intensity in grid area, can effectively improve the grid deformation in continuous casting grid drawing of patterns and the transportation process, reduce the disability rate of grid area in follow-up technology, it is applicable in that the unit weight is lighter, the transport of the thinner grid area of thickness.

Description

Grid continuous casting drawing of patterns conduction band system

Technical Field

The utility model relates to a casting technical field, in particular to grid continuous casting drawing of patterns conduction band system.

Background

The continuous casting technology of the grid of the lead-acid storage battery has the huge advantages of high efficiency, energy conservation, lead conservation, environmental protection and the like, and is greatly concerned and generally accepted in the industry of the lead-acid storage battery along with the gradual maturity of the equipment technology, but the deformation is very easy to occur in the demolding and conveying processes after the continuous casting grid is molded due to the limitation of factors such as the rapid molding mechanism of the continuous casting grid of the lead-acid storage battery, the structure of the grid and the like, and the rejection rate of the deformed grid belt is greatly increased in the subsequent technological processes such as coating, slitting. Particularly, the development trend of lead storage battery grid light weight is that the weight and thickness of the grid are continuously reduced, and the deformation of the grid is more obvious.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a grid continuous casting drawing of patterns conduction band system reduces the deformation of carrying after the shaping of grid area, reduces the disability rate.

The utility model discloses a grid continuous casting drawing of patterns conduction band system, including continuous casting mould and conduction band roller assembly, conduction band roller assembly installs and is used for along in continuous casting mould ejection of compact direction position under one's shoulders the fashioned grid area drawing of patterns of casting is derived to continuous casting mould ejection of compact direction.

Further, the guide belt roller assembly comprises a guide belt front roller and a plurality of guide belt rear rollers arranged on one side of the guide belt front roller in the transmission direction, the guide belt front roller is used for being supported below the grid belt, and the guide belt front roller is used for being pressed above the grid belt.

Furthermore, the guide belt rear rollers are horizontally arranged in parallel, and are positioned at the lower position in the conveying direction of the guide belt front rollers.

And the cooling water tank is arranged below the belt guide roller assembly in a lifting manner so that the grid belt can be immersed in the cooling water tank.

The device further comprises a conveying support plate and a traction assembly, wherein the conveying support plate is arranged on one side of the conveying direction of the belt guide roller assembly, and the traction assembly is arranged on one side of the conveying direction of the conveying support plate and is used for drawing the grid belt of the plate to convey along the conveying support plate.

Further, the conveyance support plate is disposed obliquely upward along the conveying direction.

Furthermore, a supporting roller is installed in the cooling water tank, and the supporting roller is located on one side of the conveying direction of the belt guide roller assembly and is used for guiding the grid belt to move to the conveying supporting plate.

Further, the front guide belt roller and the rear guide belt roller are mounted on the guide belt frame in a manner of being adjustable back and forth and up and down.

Further, shallow water portion and deep water portion have in the cooling trough, shallow water portion is located deep water portion front side, the deep water portion is under the conduction band roller assembly, the backing roll is installed and is close to direction of delivery one end in the cooling trough, deep water portion is provided with water inlet and drain, shallow water portion is provided with the return water mouth.

Further, the conveying support plate comprises a base plate and a plurality of support bars arranged on the base plate in parallel, and the support bars are arranged in parallel to the conveying direction.

The utility model has the advantages that:

the utility model discloses well conduction band roller assembly makes the grid area derive along the ejection of compact direction of continuous mould, and grid area ejection of compact direction is nearly tangent with conduction band roller assembly, makes the grid area material discharge comparatively smooth transition, has reduced the bending degree in grid area, has increased the cladding arc length of grid area before the drawing of patterns and rotary die, improves the intensity in grid area, can effectively improve the grid deformation in continuous casting grid drawing of patterns and the transportation process, reduces the disability rate of grid area in the follow-up technology, applicable in the transportation of the grid area that the unit weight is lighter, thickness is thinner; in addition, the cooling water tank is favorable for rapid cooling of the plate grid belt through water quenching after the plate grid belt is separated, the strength and rigidity of the plate grid belt are improved, the bending deformation of the plate grid belt is reduced through the horizontal supporting plate, and the bending rejection rate of the plate grid belt is further reduced.

Drawings

The invention is further described with reference to the following figures and examples.

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

FIG. 2 is a schematic view of a tape guide roller assembly;

FIG. 3 is a schematic view of a cooling water tank;

FIG. 4 is a schematic diagram of a structure of a transfer support plate;

Detailed Description

FIG. 1 is a schematic structural view of the present invention; FIG. 2 is a schematic view of a tape guide roller assembly; FIG. 3 is a schematic view of a cooling water tank; FIG. 4 is a schematic diagram of a structure of a transfer support plate;

the grid continuous casting demoulding guide belt system comprises a continuous casting mould 10 and a guide belt roller assembly 20, wherein the guide belt roller assembly 20 is installed at a position lower than the discharging direction of the continuous casting mould and is used for demoulding and guiding out a cast grid belt along the discharging direction of the continuous casting mould. The conveying direction is the conveying movement direction of the plate grid belt, the front side is the side opposite to the conveying direction, and the rear side is the same as the conveying direction, as shown in fig. 1, the continuous casting mold is mounted on a frame 60 of the casting system, a main machine upper cover 70 is further mounted on the frame, the main machine upper cover 70 is covered on the continuous casting mold in half, a driving part is mounted on the frame, the driving part is a motor 80, the motor drives the continuous casting mold to rotate, the motor can directly drive the continuous casting mold to rotate or drive the mold to rotate through a speed reducer or a transmission system, the continuous casting mold adopts the existing structure, and details are not repeated; the strip guide roller assembly 20 is installed on the frame, and as shown in a combined drawing 1, the strip guide roller assembly 20 leads out the grid strip along the discharging direction of the continuous die, the discharging direction of the grid strip is approximately tangent to the strip guide roller assembly, so that the discharging of the grid strip is smoothly transited, the bending degree of the grid strip is reduced, the coating arc length of the grid strip before the demoulding and the coating arc length of a rotary die are increased, the strength of the grid strip is improved, the grid deformation in the demoulding and conveying processes of continuous casting grids can be effectively improved, the rejection rate of the grid strip in the subsequent process is reduced, and the strip guide roller assembly is suitable for conveying the grid strip with light unit weight and thin thickness.

In this embodiment, the tape guide roller assembly 20 includes a front tape guide roller 21 and a plurality of rear tape guide rollers 22 installed at one side of the front tape guide roller 21 in the conveying direction, the front tape guide roller 21 is used for being supported below the grid belt, and the front tape guide roller 21 is used for being pressed above the grid belt. The cooperation of the front guide belt roller 21 and the rear guide belt roller 22 is beneficial to changing the conveying direction of the plate grid belt on the premise of smaller bending deformation, and the smooth transition and the guide belt output of the plate grid belt are realized.

In this embodiment, the plurality of belt guiding back rollers 22 are horizontally arranged in parallel, and the belt guiding back rollers 22 are located at a position lower than the conveying direction of the belt guiding front rollers 21. Two guide belt back rollers 22 are arranged in the embodiment, the grid belts are horizontally transported by the two guide belt back rollers 22, smooth transition of the grid belts is achieved, downward protruding parts are formed in the grid belts in the transporting process by the two guide belt back rollers 22, and rapid cooling of the grid belts through water quenching is facilitated.

In this embodiment, the device further includes a cooling water tank 31, which is installed below the belt guide roller assembly 20 in a liftable manner so that the grid belt can be immersed in the cooling water tank. The lifting assembly is installed to the cooling trough bottom, and lifting assembly installs in frame 60, and lifting assembly can be electric lift pole or pneumatic cylinder, and this structure does benefit to and makes the board bars area through the quick cooling of shrend, improves the intensity and the rigidity of board bars area.

In this embodiment, the device further comprises a conveying support plate 40 and a pulling assembly 50, wherein the conveying support plate is arranged on one side of the conveying direction of the tape guide roller assembly 20, and the pulling assembly 50 is arranged on one side of the conveying direction of the conveying support plate 40 and is used for pulling the grid belt to be conveyed along the conveying support plate 40. The traction assembly 50 is a pair of rollers which are arranged up and down, the pair of rollers are driven to rotate by a motor, demolding and conveying power is provided for the continuous grid belt cast and formed by the continuous casting mold through the pair of rollers, the front end of the conveying support plate 40 is located at the supporting roller 32, the rear end of the conveying support plate extends to the traction assembly 50, the conveying support plate 40 is used for enabling the grid belt to smoothly pass through, the grid belt is prevented from being suspended, the bending deformation of the grid belt is reduced through the horizontal support plate, and the rejection rate of the grid belt is reduced.

In this embodiment, the conveyance support plate 40 is disposed obliquely upward along the conveyance direction. As shown in fig. 1, the inclined arrangement is advantageous to make the plate grid belt fit on the conveying support plate 40 by automatic leveling so as to reduce the deformation of the plate grid belt.

In this embodiment, a support roller 32 is installed in the cooling water tank 31, and the support roller is located on one side of the belt guide roller assembly 20 in the conveying direction and is used for guiding the movement of the gate belt toward the conveying support plate 40. The support rollers facilitate the oblique upward guidance of the grid belt so that the grid belt is smoothly guided out onto the transfer support plate 40.

In this embodiment, the front guide belt roller 21 and the rear guide belt roller 22 are mounted on the guide belt frame so as to be adjustable back and forth and up and down. As shown in fig. 2, the front guide belt roller 21 and the rear guide belt roller 22 are both mounted on a mounting seat 23, the mounting seat is mounted on a guide belt frame, the mounting seat is horizontally slidably mounted on the guide belt frame, a horizontal driving hydraulic cylinder is horizontally mounted on the guide belt frame, the horizontal driving hydraulic cylinder drives the mounting seat to horizontally slide, the mounting seat can also be driven to lift by a lifting hydraulic cylinder, or the mounting seat can be vertically mounted on a vertical mounting seat, and the vertical mounting seat can be arranged on the guide belt frame in a lifting manner; the structure is beneficial to adjusting the positions of the front guide belt roller 21 and the rear guide belt roller 22, and can be adapted to the continuous casting molds 10 with different specifications.

In this embodiment, the cooling water tank has a shallow water portion 31a and a deep water portion 31b, the shallow water portion is located at the front side of the deep water portion, the deep water portion is located right below the conduction band roller assembly 20, the support roller is installed at one end of the cooling water tank close to the conveying direction, the deep water portion 31b is provided with a water inlet 33 and a sewage discharge outlet 34, and the shallow water portion is provided with a water return port 35. Combine as shown in fig. 3, shallow water portion 31a bottom level, the return water mouth is seted up in the bottom of latent water portion, there is the triangle structure of two hang plate concatenation formations deep water portion bottom, the triangle department is the bottommost of deep water portion, the drain is seted up in the lowest of deep water portion, the water inlet is seted up in the lateral part of deep water portion, deep water portion is as cooling area, when cooling trough risees, it is close to deep water portion to lead belting roller subassembly 20 for in the grid area dips the coolant liquid in the deep water portion, realize the cooling of grid area, and impurity on the grid area can fall into the lowest of deep water portion and be convenient for impurity and concentrate from the drain and discharge, dive portion bottom is higher than deep water portion, can block in preventing to get into latent water portion, can avoid impurity along with the coolant liquid gets into in the backward flow.

In this embodiment, the conveying support plate 40 includes a substrate 41 and a plurality of support bars 42 disposed in parallel on the substrate, and the support bars are disposed in parallel with the conveying direction. As shown in fig. 4, a plurality of support bars 42 facilitate guiding the plate grid belt and smooth transportation of the plate grid belt.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (10)

1. The utility model provides a grid continuous casting drawing of patterns conduction band system which characterized in that: the continuous casting strip guiding device comprises a continuous casting mold and a strip guiding roller assembly, wherein the strip guiding roller assembly is arranged at a position below the discharging direction of the continuous casting mold and is used for demoulding and guiding out a cast grid strip along the discharging direction of the continuous casting mold.

2. The grid continuous casting demolding conduction band system of claim 1, wherein: the guide belt roller assembly comprises a guide belt front roller and a plurality of guide belt rear rollers arranged on one side of the transmission direction of the guide belt front roller, the guide belt front roller is used for being supported below a grid belt, and the guide belt front roller is used for being pressed above the grid belt.

3. The grid continuous casting demolding conduction band system of claim 2, wherein: the guide belt back rollers are horizontally arranged in parallel, and are positioned at the lower position of the transmission direction of the guide belt front roller.

4. The grid continuous casting demolding conduction band system of claim 1, wherein: the plate grid belt cooling device is characterized by further comprising a cooling water tank, wherein the cooling water tank is arranged below the belt guide roller assembly in a lifting mode so that the plate grid belt can be immersed into the cooling water tank.

5. The grid continuous casting demolding conduction band system of claim 4, wherein: the device also comprises a conveying support plate and a traction assembly, wherein the conveying support plate is arranged on one side of the conveying direction of the belt guide roller assembly, and the traction assembly is arranged on one side of the conveying direction of the conveying support plate and is used for traction of the grid belt of the plate to convey along the conveying support plate.

6. The grid continuous casting demolding conduction band system of claim 5, wherein: the conveying support plate is arranged obliquely upward along the conveying direction.

7. The grid continuous casting demolding conduction band system of claim 5, wherein: and a supporting roller is arranged in the cooling water tank, and is positioned on one side of the conveying direction of the strip guide roller assembly and used for guiding the strip grid to move to the conveying supporting plate.

8. The grid continuous casting demolding conduction band system of claim 2, wherein: the front roller and the back roller of the guide belt are arranged on the guide belt frame in a way of being capable of being adjusted back and forth and up and down.

9. The grid continuous casting demolding conduction band system of claim 7, wherein: the deep water guide belt roller assembly is characterized in that a shallow water part and a deep water part are arranged in the cooling water tank, the shallow water part is located on the front side of the deep water part, the deep water part is located under the conduction belt roller assembly, the supporting roller is installed at one end, close to the conveying direction, of the cooling water tank, the deep water part is provided with a water inlet and a sewage discharge outlet, and the shallow water part is provided with a water return opening.

10. The grid continuous casting demolding conduction band system of claim 5, wherein: the conveying supporting plate comprises a base plate and a plurality of supporting strips arranged on the base plate in parallel, and the supporting strips are arranged in parallel to the conveying direction.

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