CN215363819U - Gypsum pile up neatly device in bags - Google Patents

Abstract

The utility model discloses a bagged gypsum stacking device which comprises a base plate rotationally assembled on a ground foundation, wherein a first rotary driving device for driving the base plate to rotate is arranged between the base plate and the ground foundation, a supporting plate is rotationally arranged on the upper surface of the base plate, a second rotary driving device with a rotation stopping and positioning function for driving the supporting plate to rotate is arranged between the supporting plate and the base plate, a baffle plate perpendicular to the supporting plate is arranged above the base plate, the baffle plate is vertically arranged on the base plate, and a driving machine for driving the baffle plate to vertically move is arranged between the baffle plate and the base plate. The base plate can rotate relative to the ground foundation, the supporting plate can rotate relative to the base plate, the baffle plates can be positioned at the symmetrical lines of the base plate when the forklift works, the forklift can be placed against the baffle plates when placing the gypsum bags, the joint of the two gypsum bags in each layer is positioned at the symmetrical lines of the base plate, the gypsum bags cannot deflect, the film covering process is convenient, and the stability of the gypsum pile is high.

Description

Gypsum pile up neatly device in bags

Technical Field

The utility model relates to a bagged gypsum stacking device, and belongs to the field of gypsum processing.

Background

Bagged gypsum is piled on a bottom plate in the last ring section of the gypsum production process, and before the process, the bagged gypsum needs to be pressed into a cuboid shape and then is lifted by a forklift to be neatly piled on the bottom plate. The stacking mode is as follows: the two bags of gypsum on the lowest layer are placed on the bottom plate side by side, the two bags of gypsum on the second layer are also placed on the bottom plate side by side, the placing directions of the two bags of gypsum and the two bags of gypsum on the lowest layer are mutually vertical, the two bags of gypsum on the third layer are perpendicular to the two bags of gypsum on the second layer, and so on. In the stacking process, the relative position of two bags of gypsum in each layer is difficult to grasp, and the connecting position of the two bags of gypsum is difficult to correspond to the symmetry axis of the bottom plate, so that the gypsum bags are deflected, the deflection is more obvious when the number of layers is more, the stability of the gypsum stack is influenced, and the subsequent film covering process is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bagged gypsum stacking device, which solves the problems that in the prior art, the gypsum bags are deflected due to the fact that the connecting positions of two bags of gypsum are difficult to correspond to the symmetry axis of a bottom plate, so that the stability of a gypsum stack is influenced, and the subsequent film covering process is inconvenient.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a gypsum pile up neatly device in bags, is provided with the first rotation drive device that drives base plate pivoted including rotating the base plate of assembly on ground basis between base plate and the ground basis, rotates on the upper surface of base plate and is provided with the layer board, is provided with the second rotation drive device that drives layer board pivoted and have stall positioning function between layer board and the base plate, is provided with the baffle of perpendicular to layer board in the top of layer board on the base plate, the baffle reciprocates and sets up on the base plate, is provided with the removal actuating mechanism that drives the baffle and reciprocate between baffle and the base plate.

The first rotating driving device is a driving device with a stalling positioning function.

The first rotation driving device comprises a first worm wheel and a first worm, wherein the first worm wheel is arranged on the lower surface of the substrate in a rotation stopping mode, and the first worm is driven by a first motor to rotate.

The worm and gear mechanism composed of the first worm wheel and the first worm is a worm and gear mechanism with a self-locking function, and the stalling positioning function of the first rotating driving device is realized by the self-locking function of the first worm wheel and the first worm.

The second rotary driving device comprises a second worm wheel and a second worm, wherein the second worm wheel is arranged on the lower surface of the supporting plate in a rotation stopping mode, and the second worm is driven by a second motor to rotate.

The worm and gear mechanism composed of the second worm wheel and the second worm is a worm and gear mechanism with a self-locking function, and the stall positioning function of the second rotation driving device is realized by the self-locking function of the second worm wheel and the second worm.

The plane of the baffle plate passes through the center of the supporting plate when the supporting plate rotates relative to the base plate and the intersecting line of the baffle plate and the supporting plate.

The upper surface of the supporting plate is convexly provided with two crossed convex strips. The movable driving mechanism comprises two screw rods driven by power to rotate, the two screw rods are assembled on the base plate in a rotating mode, and the two screw rods are respectively assembled with the two end portions of the baffle in a threaded fit mode.

First rotation drive device including stop to rotate and set up the first driven pulley on the base plate lower surface and by third motor drive pivoted first drive pulley, second rotation drive device including stop to rotate set up the second driven pulley on the layer board lower surface and by the fourth motor drive pivoted second drive pulley that has the locking function of shutting down.

The base plate can rotate relative to the ground foundation, the supporting plate can rotate relative to the base plate, when the base plate works, the base plate is placed on the supporting plate, the supporting plate rotates relative to the base plate, the intersection line of the plane where the baffle is located and the base plate is coincident with the symmetry axis on the base plate, at the moment, the forklift presses the baffle against the baffle to place the gypsum bags on the base plate, the base plate rotates 180 degrees relative to the ground foundation, the forklift arranges the other gypsum bag and the previous gypsum bag on the base plate side by side, then, the supporting plate rotates 90 degrees relative to the base plate correspondingly, the forklift continues to place the previous gypsum bag, the stacking of the gypsum bags is repeatedly realized, the height of the baffle is adjusted in the process, and the functions of the gypsum bags are realized. Because the existence of baffle, two bags gypsum bag in each layer meet the department all at the line of symmetry department of bottom plate, and the gypsum bag can not incline, makes things convenient for subsequent tectorial membrane process to the stability of gypsum heap is high.

The first rotary driving device and the second rotary driving device are both in worm gear structures and have self-locking functions, and the relative position of the base plate and the ground foundation and the relative position of the base plate and the supporting plate can be ensured to be determined when the base plate or the supporting plate stops rotating, so that the baffle can reliably ensure that the gypsum bag is placed at the correct position when the forklift works.

The plane where the baffle plate is located passes through the intersection point of the diagonal lines of the supporting plate when the supporting plate rotates relative to the base plate, the convex strips are arranged on the upper surface of the supporting plate along the directions of the two diagonal lines of the supporting plate, and the two convex strips and the grooves formed in the bottom plate are matched to position the bottom plate, so that the bottom plate is reliably positioned on the supporting plate, and the gypsum bags are correctly and orderly placed.

The first rotary driving device and the second rotary driving device are both belt devices, the belt devices are low in arrangement cost and use cost, and the cost of gypsum production can be effectively reduced.

Drawings

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

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

fig. 4 is a schematic structural diagram of embodiment 2 of the present invention.

Detailed Description

The utility model provides an embodiment 1 of steel ball screening device of ball mill for building gypsum modification, in figure 1, figure 2, figure 3, its base plate 1 rotates through the pivot and assembles on ground basis, pivot and ground basis normal running fit, the base plate stops the assembly with the pivot, thereby realize base plate 1 and rotate the assembly on ground basis, base plate 1 here is rectangular plate body, be equipped with a baffle 2 in the top of base plate 1, the baffle here is circular, base plate 1 is the level setting, baffle 2 is vertical setting, be equipped with a screw rod 3 respectively in the both ends punishment of base plate 1, two screw rods 3 rotate the assembly on base plate 1, be provided with the screw hole at the both ends department of baffle 2. The two ends of the baffle 2 are respectively assembled on a screw rod 3 through threaded holes in a transmission manner, the baffle 2 can move up and down relative to the substrate 1 by rotating the screw rod 3, and the screw rod is driven by a motor to rotate back and forth in the embodiment, which belongs to the technology well known by the technical personnel in the field and will not be described in detail herein. A first worm wheel 4 is arranged on the lower surface of the base plate 1 in a rotation stopping way, and a first worm 5 meshed with the first worm wheel 4 is driven to rotate by a first motor 6. And the worm gear mechanism composed of the first worm wheel 4 and the first worm 5 is a worm gear mechanism with a self-locking function, and the stalling positioning function of the first worm wheel 4 is realized by the self-locking function of the first worm wheel and the first worm. The upper surface of the base plate 1 is rotatably provided with a supporting plate 7, the supporting plate 7 is also rotatably assembled on the base plate 1 through a rotating shaft, the assembling mode of the supporting plate 7 and the base plate is the same as that of the base plate and the ground foundation, a second worm wheel 8 is arranged on the lower surface of the supporting plate 7 in a rotation stopping mode, and a second worm 9 in meshing transmission with the second worm wheel 8 is driven to rotate by a second motor 10. And the worm gear mechanism composed of the second worm wheel 8 and the second worm 9 is a worm gear mechanism with a self-locking function, and the stall positioning function of the second worm wheel 8 is realized by the self-locking function of the second worm wheel and the second worm.

The plane of the baffle 2 passes through the center of the supporting plate 7 at the intersection line of the supporting plate 7 and the supporting plate 7 in the rotating process of the supporting plate 7 relative to the base plate, two crossed raised lines 17 are arranged on the upper surface of the supporting plate 7, and a groove matched with the raised lines is arranged on the lower surface of the bottom plate for stacking the gypsum bags, so that the positioning between the bottom plate and the supporting plate can be realized.

An embodiment 2 of a steel ball screening device of a ball mill for building gypsum modification is different from the embodiment 1 in fig. 4 in that: the first rotation driving device is composed of a first driven pulley 11 which is arranged on the lower surface of the base plate 1 in a rotation stopping mode and a first driving pulley 12 driven by a third motor 13 to rotate, and the first driving pulley 12 drives the first driven pulley 11 to rotate so as to drive the base plate 1 to rotate relative to the ground foundation. The second rotation driving device is composed of a second driven pulley 14 which is arranged on the lower surface of the supporting plate 7 in a rotation stopping way and a second driving pulley 16 which is driven to rotate by a fourth motor 15 with a stopping and locking function, and the second driving pulley 16 drives the second driven pulley 14 to rotate so as to drive the supporting plate 7 to rotate relative to the base plate 1.

The supporting plate in the embodiment is provided with a positioning structure for positioning the bottom plate, and can also be positioned by other positioning structures.

When the product of the embodiment is used, the bottom plate is firstly placed on the supporting plate, the supporting plate is driven to rotate, the plane where the baffle is located passes through a symmetry line of the bottom plate and is adjusted to be the height of the baffle, then the base plate is driven to rotate, when the surface of the baffle faces to the forklift, a forklift driver places a gypsum bag on the forklift on the bottom plate in a manner of attaching the baffle to the forklift, the forklift carries out gypsum bag loading, the base plate continues to rotate, the rotating speed of the base plate is adjusted, the time for rotating the base plate for 180 degrees is consistent with the time for loading the gypsum bag by the forklift, thus, another bag of gypsum can be loaded immediately, the base plate does not need to stop rotating and can be in a state of always rotating, when two bags of gypsum in one layer are loaded, the supporting plate rotates 90 degrees relative to the base plate and is adjusted to be higher, the time for rotating the base plate for 90 degrees is less than the time for rotating the base plate for 180 degrees, and the gypsum stacking work is continued, the rotation condition of the base plate and the supporting plate belongs to the using method of the product, does not belong to the technical content needing to be disclosed, and is not detailed here. Of course, the base plate can also have a stopping function, after a bag of gypsum is filled, the base plate stops after rotating 180 degrees, then the supporting plate rotates 90 degrees relative to the base plate, the baffle is heightened, the gypsum bag on the upper layer can be stacked as far as possible, after the bag of gypsum is placed, the base plate is continuously driven to rotate 180 degrees and then the stacking of the gypsum in another bag is carried out, and the stacking work of the gypsum is repeatedly realized.

Claims (10)

1. The utility model provides a gypsum pile up neatly device in bags which characterized in that: the automatic substrate conveying device is characterized by comprising a substrate which is rotatably assembled on a ground foundation, wherein a first rotation driving device for driving the substrate to rotate is arranged between the substrate and the ground foundation, a supporting plate is rotatably arranged on the upper surface of the substrate, a second rotation driving device for driving the supporting plate to rotate and having a stalling positioning function is arranged between the supporting plate and the substrate, a baffle perpendicular to the supporting plate is arranged above the supporting plate on the substrate, the baffle is vertically moved and arranged on the substrate, and a movement driving mechanism for driving the baffle to vertically move is arranged between the baffle and the substrate.

2. The bagged gypsum stacking apparatus according to claim 1, wherein: the first rotating driving device is a driving device with a stalling positioning function.

3. The bagged gypsum stacking apparatus according to claim 2, wherein: the first rotation driving device comprises a first worm wheel and a first worm, wherein the first worm wheel is arranged on the lower surface of the base plate in a rotation stopping mode, and the first worm is driven by a first motor to rotate.

4. The bagged gypsum stacking apparatus according to claim 3, wherein: the worm and gear mechanism composed of the first worm wheel and the first worm is a worm and gear mechanism with a self-locking function, and the stalling positioning function of the first rotating driving device is realized by the self-locking function of the first worm wheel and the first worm.

5. A bagged gypsum palletizing device as claimed in any one of claims 1 to 4, wherein: the second rotation driving device comprises a second worm wheel and a second worm, wherein the second worm wheel is arranged on the lower surface of the supporting plate in a rotation stopping mode, and the second worm is driven by a second motor to rotate.

6. The bagged gypsum stacking apparatus according to claim 5, wherein: the worm and gear mechanism composed of the second worm wheel and the second worm is a worm and gear mechanism with a self-locking function, and the stall positioning function of the second rotation driving device is realized by the self-locking function of the second worm wheel and the second worm.

7. The bagged gypsum stacking apparatus according to claim 1, wherein: the plane of the baffle plate passes through the center of the supporting plate when the supporting plate rotates relative to the base plate and the intersecting line of the baffle plate and the supporting plate.

8. The bagged gypsum stacking apparatus according to claim 7, wherein: the upper surface of the supporting plate is convexly provided with two crossed convex strips.

9. The bagged gypsum stacking apparatus according to claim 1, wherein: the movable driving mechanism comprises two screw rods driven by power to rotate, the two screw rods are assembled on the base plate in a rotating mode, and the two screw rods are respectively assembled with the two end portions of the baffle in a threaded fit mode.

10. The bagged gypsum stacking apparatus according to claim 1, wherein: first rotation driving device including stop to rotate and set up the first driven pulley on the base plate lower surface and by the first drive pulley of third motor drive pivoted, second rotation driving device including stop to rotate set up the second driven pulley on the layer board lower surface and by the fourth motor drive pivoted second drive pulley that has the locking function of shutting down.

Images