CN220484685U - Bagged lime powder stacking device - Google Patents

Abstract

A bagged lime powder stacking device, comprising: a lifting part; placement part locates on the elevating part, including the U type frame that the level set up, the both ends of the outside horizontal portion of U type frame are equipped with the release cylinder respectively, release cylinder is used for promoting U type frame horizontal migration, the interval is equipped with the polylith baffle in the U type frame, be equipped with the bottom plate between the two adjacent baffles, the both sides of bottom plate one end respectively with the outer end normal running fit of two adjacent baffles, the bottom plate other end below is equipped with lifting assembly, lifting assembly is used for promoting the bottom plate and rotates in order to hold stone dust in bags downwards, perhaps upwards rotate so that stone dust in bags roll-off bottom plate. The device provided by the utility model replaces manual transfer and stacking, reduces the labor intensity of workers, improves the stability in the transfer process, and ensures that the stacked bagged lime powder is troublesome and tidy.

Description

Bagged lime powder stacking device

Technical Field

The utility model belongs to the technical field of lime powder production equipment, and particularly relates to a bagged lime powder stacking device.

Background

After the production of lime powder is completed, the lime powder is generally required to be packaged in bags, and then the packaged lime powder in bags is stacked to a preset place for storage.

The traditional stacking mode generally adopts the manual work to stack, the workman carries the lime powder of bagging on the shoulder, after reaching the preset position, put down it, because the lime powder weight of bagging is heavier when placing, generally directly follow workman's shoulder and slide down, then carry out the position adjustment, thereby realize the stack of lime powder in bags, there is certain difference in height when this in-process lime powder in bags slides down from workman's shoulder, consequently, can outwards fly out through the gap of braided bag at the lime powder, not only influence operational environment, workman can bring the influence for workman's health in this kind of operational environment for a long time simultaneously, and along with stacking height is higher and higher, need several people cooperation, not only inefficiency when extravagant manpower, and the lime powder that outwards flies out during stacking can influence the sight, accident causes personnel injury easily to appear.

The method also has the advantages that a forklift is utilized for transferring, a plurality of bags of lime powder are stacked on two forks at the front end of the forklift, and then small-batch transfer is carried out, so that the transfer speed is improved, the labor intensity of workers is reduced, but when the forklift is placed, the forklift is easy to shake in the transfer process, the stacking is uneven, the lime powder is easy to collapse, and auxiliary or secondary operation is needed manually.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides a bagged lime powder stacking device which replaces manual transfer and stacking, reduces labor intensity of workers, improves stability in the transfer process and enables stacked bagged lime powder to be stacked neatly.

In order to achieve the object of the utility model, the following scheme is adopted:

a bagged lime powder stacking device, comprising:

a lifting part;

placement part locates on the elevating part, including the U type frame that the level set up, the both ends of the outside horizontal portion of U type frame are equipped with the release cylinder respectively, release cylinder is used for promoting U type frame horizontal migration, the interval is equipped with the polylith baffle in the U type frame, be equipped with the bottom plate between the two adjacent baffles, the both sides of bottom plate one end respectively with the outer end normal running fit of two adjacent baffles, the bottom plate other end below is equipped with lifting assembly, lifting assembly is used for promoting the bottom plate and rotates in order to hold bagging lime powder downwards, perhaps upwards rotate so that bagging lime powder roll-off bottom plate.

Further, the lifting part comprises a supporting table, a group of screw rods are symmetrically arranged on the supporting table, one ends of the screw rods are connected with a motor, the other ends of the screw rods are provided with limiting tables, lifting tables are arranged on the two screw rods, a group of supports are arranged on the lifting tables, the two supports are respectively in threaded fit with one screw rod, and a pushing cylinder is arranged on the lifting tables.

Further, two opposite sides of the two partition boards are provided with arc grooves, two sides of the other end of the bottom board are respectively provided with rollers, and the rollers are in rolling fit with the arc grooves.

Further, a plurality of guide grooves are arranged in the U-shaped frame at intervals, two adjacent partition plates correspond to one guide groove, the lower ends of the guide grooves are lower than the lower ends of the arc-shaped grooves, and the lifting assembly is in sliding fit with the guide grooves.

Further, the lifting assembly comprises a lifting cylinder, the lifting cylinder is arranged on the outer side of the transverse portion of the U-shaped frame, a push plate is arranged at the output end of the lifting cylinder, a plurality of push rods are arranged on the push plate in an array mode, push blocks are arranged on the push plate and slide in the guide grooves, the push blocks are located below the other end of the bottom plate, a plurality of avoiding grooves are formed in the lifting table, and the avoiding grooves correspond to the push rods and the output shafts of the lifting cylinder.

Further, a group of rectangular holes are formed in the bottom plate.

The utility model has the beneficial effects that:

the U-shaped frame, the partition plate arranged in the U-shaped frame and the bottom plate respectively form a plurality of accommodating grooves, the front end of the bottom plate is in running fit with the partition plate, the rear end of the bottom plate can swing up and down by a preset radian, when the rear end of the bottom plate swings down to the bottom of the arc-shaped groove, the front end of the bottom plate is tilted upwards, so that bagged lime powder placed on the bottom plate has a trend of moving towards the transverse part of the U-shaped frame, a chute bottom plate in the conveying process of the bagged lime powder is avoided, when the bottom plate moves to a preset position of a stack, a lifting cylinder is started, the lifting cylinder pushes the bottom plate upwards to rotate, so that the rear end of the bottom plate moves towards the top of the arc-shaped groove gradually, and the bagged lime powder slowly slides out of the bottom plate, and when the front end of the bagged lime powder contacts with the ground or the front end of the stacked bagged lime powder, the bottom plate slowly moves backwards, so that the bagged lime powder is orderly stacked on the ground or the stacked bagged lime powder, the stacked lime powder is orderly stacked, the bagged lime powder is reduced, the labor intensity of workers is relieved, and the workshop is better.

Drawings

The drawings described herein are for illustration of selected embodiments only and not all possible implementations, and are not intended to limit the scope of the utility model.

Fig. 1 shows a schematic overall structure of one side of the present application.

Fig. 2 shows a schematic view of the overall structure of the other side of the present application.

Fig. 3 shows a schematic diagram of a connection structure between a lifting assembly and a U-shaped frame of the present application.

Fig. 4 shows a schematic diagram of a connection structure of a U-shaped frame and a partition plate of the present application.

Fig. 5 shows a schematic view of the structure of the base plate of the present application.

Fig. 6 shows a schematic diagram of the connection structure of the push plate and the push rod in the present application.

The marks in the figure: the lifting device comprises a lifting part-1, a supporting table-11, a screw rod-12, a motor-13, a limiting table-14, a lifting table-15, an avoidance groove-151, a support-16, a placement part-2, a U-shaped frame-21, a guide groove-211, a push-out cylinder-22, a bottom plate-23, a roller-231, a rectangular hole-232, a lifting assembly-24, a lifting cylinder-241, a push plate-242, a push rod-243, a push block-244, a partition plate-25 and an arc-shaped groove-251.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, but the described embodiments of the present utility model are some, but not all embodiments of the present utility model.

As shown in fig. 1 to 6, the present embodiment provides a bagged lime powder stacking apparatus, including: the device comprises a lifting part 1 and a placing part 2 arranged on the lifting part 1, wherein the lifting part 1 is used for driving the placing part 2 to ascend or descend to a preset position, and the placing part 2 is used for placing bagged lime powder to be stacked.

Specifically, as shown in fig. 1 to 2, the placement part 2 includes a horizontally arranged U-shaped frame 21, and the lateral part of the U-shaped frame 21 is located near the side where the lifting part 1 is located, with the opening facing outward. The both ends of the outside horizontal portion of U type frame 21 are equipped with the release cylinder 22 respectively, and release cylinder 22 is used for promoting the horizontal migration of U type frame 21, is equipped with polylith baffle 25 in the U type frame 21, equidistant setting between each baffle 25, and is equipped with bottom plate 23 between two adjacent baffles 25, makes the holding groove that the baffle 25 of bottom plate 23 and bottom plate 23 both sides encloses, and bottom plate 23 is used for bearing the lime powder in bags. Both sides of the front end of the bottom plate 23 are respectively in running fit with the outer ends of the opposite faces of the adjacent two partition plates 25, and the connection part of the front end of the bottom plate 23 and the partition plates 25 has a predetermined distance from the bottom surface of the partition plates 25. A lifting assembly 24 is arranged below the rear end of the bottom plate 23, and the lifting assembly 24 is used for pulling the rear end of the bottom plate 23 to rotate downwards when moving downwards so as to enable the rear end of the bottom plate 23 to rotate towards the bottom surface of the partition plate 25, so that the rear end of the bottom plate 23 is coplanar with the bottom surface of the partition plate 25, and the bottom plate 23 is in an upturned state. So that the bagged lime powder on the bottom plate 23 has a tendency of sliding towards the transverse part of the U-shaped frame 21, thereby avoiding the bagged lime powder from sliding out of the bottom plate 23 in the transferring process, and simultaneously, the whole structure of the device is simplified without additionally arranging a limiting structure, and the stacking device in the embodiment is moved to a preset position.

When the stacking device moves to a preset position, the lifting part 1 is started to lift or lower the placing part 2 to a preset height, the U-shaped frame 21 is pushed outwards by the pushing cylinder 22, so that the front end of the U-shaped frame 21 is contacted with the wall body of the stacking area, and then the bottom plate 23 is kept at the preset height with the ground or the bagged lime powder stacked last time. The lifting assembly 24 is started, the lifting assembly 24 pushes the rear end of the bottom plate 23 to rotate upwards, so that the bottom plate 23 rotates upwards to the upper side of the partition plate 25, the front end of the bottom plate 23 is in a downward state, so that bagged lime powder on the bottom plate 23 slides out along the bottom plate 23, and in the process of sliding out the bagged lime powder, the push-support cylinder 22 slowly enters a return stroke, so that the U-shaped frame 21 and the partition plate 25 are pulled to gradually move backwards until the bagged lime powder completely moves out of the bottom plate 23 and is stacked to a preset position, the stacking process is stable, shaking is avoided, stacking of the bagged lime powder after stacking is tidy, scattering of the lime powder is reduced, health of workers is protected, and efficiency is high.

Specifically, as shown in fig. 2, the lifting part 1 comprises a supporting table 11, a group of screw rods 12 are symmetrically arranged on the supporting table 11, the screw rods 12 are perpendicular to the supporting table 11, the lower ends of the screw rods 12 penetrate through the supporting table 11 to be connected with a motor 13, a limiting table 14 is arranged at the top of the screw rods 12, lifting tables 15 are arranged on the two screw rods 12, and the connecting positions of the lifting tables 15 and the screw rods 12 are in threaded fit. The lifting table 15 is provided with a group of supports 16, so that one support 16 is matched with one screw rod 12, the stability of the screw rod 12 is improved, and the U-shaped frame 21 is limited. The two pushing cylinders 22 are arranged on the lifting table 15 and are respectively positioned outside the two screw rods 12.

Specifically, as shown in fig. 1 and fig. 4-5, two opposite sides of the two partition boards 25 are provided with arc grooves 251, the arc grooves 251 are located at the rear ends of the partition boards 25, rollers 231 are respectively arranged at two sides of the other end of the bottom board 23, the rollers 231 are in rolling fit with the arc grooves 251, so that the arc grooves 251 limit the swinging angle of the bottom board 23, when the lifting assembly 24 fails, the rear end of the bottom board 23 is prevented from losing limit, and in the process of transferring bagged lime powder, the bagged lime powder slides out from between the rear end of the bottom board 23 and the bottom surface of the transverse part of the U-shaped frame 21. The rollers 231 can move the bottom plate 23 in the arc-shaped groove 251 smoothly, and friction between the bottom plate 23 and the arc-shaped groove 251 is reduced.

Specifically, as shown in fig. 1 and 4, a plurality of guide grooves 211 are arranged in the U-shaped frame 21 at intervals, and two adjacent partition plates 25 correspond to one guide groove 211, that is, each accommodating groove is correspondingly provided with one guide groove 211. One end of the lifting assembly 24 is in sliding engagement with the guide slot 211. The lower end of the guide slot 211 is lower than the lower end of the arc length slot 251 to avoid that one end of the lifting assembly 24 arranged in the guide slot 211 affects the downward rotating arc of the bottom plate 23. In addition, one end of the lifting assembly 24 may also support the bottom plate 23 to increase the stability of the bottom plate 23.

Specifically, as shown in fig. 1-3 and 6, the lifting assembly 24 includes a lifting cylinder 241, a push plate 242, a plurality of push rods 243, and push blocks 244 correspondingly disposed on the push rods 243. The lifting cylinder 241 is mounted on the outer side of the transverse part of the U-shaped frame 21, the output end of the lifting cylinder 243 faces downwards, the push plate 242 is arranged at the output end of the lifting cylinder 243, the push rods 243 are arranged along the top surface array of the push plate 242, the push blocks 244 are arranged above the push rods 243, the push blocks 244 are in sliding fit with the guide grooves 211, and the push blocks 244 are positioned below the rear end of the bottom plate 23. The lifting platform 15 is provided with a first avoidance groove 151 at the two ends, a second avoidance groove 152 is arranged in the middle of the first avoidance groove 151, the first avoidance groove 151 is used for avoiding push rods 243 at the two ends of the push plate 242, the second avoidance groove 152 is used for avoiding output shafts of the lifting cylinder 241 and push rods 243 at the two ends of the lifting cylinder 241, and when the push-support cylinder 22 pushes the U-shaped frame 21 to move outwards, the first avoidance groove 151 and the second avoidance groove 152 respectively provide channels for movement of the corresponding push rods 243 and output shafts of the lifting cylinder 241.

Specifically, as shown in fig. 1 and 5, in order to reduce the weight of the device, a set of rectangular holes 232 are provided in the bottom plate 23.

The specific operation process comprises the following steps:

the bagged lime powder is respectively filled into the corresponding accommodating grooves, the lifting cylinder 241 is started, the output end of the lifting cylinder 241 moves downwards, so that the rear end of the bottom plate 23 moves to the lowest end of the arc length groove 251 along the arc groove 251, at the moment, the front end of the bottom plate 23 faces upwards, the lime powder placed on the bottom plate 23 has a trend of moving towards the transverse part of the U-shaped frame 21, the chute bottom plate 23 of the bagged lime powder in the moving process is avoided, and the bagged lime powder transferring device in the embodiment is transferred.

When the lifting platform 15 is rotated to move to a preset position, the pushing cylinder 22 is started, and the pushing cylinder 22 pushes the transverse part of the U-shaped frame 21, so that the U-shaped frame 21, the bottom plate 23 and the lifting assembly 24 move towards the front end of the lifting platform 15 until the front end of the bottom plate 23 contacts with the wall body of the stacking area or the rear end of the bagged lime powder stacked in the front row, and the pushing cylinder 22 is stopped. The lifting cylinder 241 is started so as to push the rear end of the bottom plate 23 to rotate upwards, so that the bagged lime powder on the bottom plate 23 slowly slides outwards, and when the front end chute bottom plate 23 of the bagged lime powder contacts the ground or the front end of the piled bagged lime powder, the pushing cylinder 22 is started again, so that the pushing cylinder 22 pulls the U-shaped frame 21 to move backwards, and the bottom plate 23 is driven to slowly move out backwards, so that the bagged lime powder is slowly and stably piled, the flying of lime powder is reduced, and the efficiency is high.

The foregoing description of the preferred embodiments of the utility model is merely exemplary and is not intended to be exhaustive or limiting of the utility model. It will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model.

Claims (6)

1. A bagged lime powder stacking device, comprising:

a lifting part (1);

placement part (2), locate on elevating part (1), U shaped frame (21) including the level setting, the both ends of U shaped frame (21) outside horizontal part are equipped with release cylinder (22) respectively, release cylinder (22) are used for promoting U shaped frame (21) horizontal migration, the interval is equipped with polylith baffle (25) in U shaped frame (21), be equipped with bottom plate (23) between two adjacent baffles (25), the both sides of bottom plate (23) one end respectively with the outer end normal running fit of two adjacent baffles (25), bottom plate (23) other end below is equipped with lifting unit (24), lifting unit (24) are used for promoting bottom plate (23) to rotate downwards in order to hold stone dust in bags, or upwards rotate in order to make stone dust in bags roll-off bottom plate (23).

2. The bagged lime powder stacking device according to claim 1, wherein the lifting part (1) comprises a supporting table (11), a group of screw rods (12) are symmetrically arranged on the supporting table (11), one end of each screw rod (12) is connected with a motor (13), the other end of each screw rod is provided with a limiting table (14), lifting tables (15) are arranged on the two screw rods (12), a group of supports (16) are arranged on the lifting tables (15), the two supports (16) are respectively in threaded fit with one screw rod (12), and a push-out cylinder (22) is arranged on the lifting tables (15).

3. The bagged lime powder stacking device according to claim 2, wherein the two opposite sides of the two partition boards (25) are provided with arc grooves (251), the two sides of the other end of the bottom board (23) are respectively provided with rollers (231), and the rollers (231) are in rolling fit with the arc grooves (251).

4. A bagged lime powder stacking device according to claim 3, characterized in that a plurality of guide grooves (211) are arranged in the U-shaped frame (21) at intervals, two adjacent partition plates (25) correspond to one guide groove (211), the lower end of the guide groove (211) is lower than the lower end of the arc-shaped groove (251), and the lifting assembly (24) is in sliding fit with the guide groove (211).

5. A bagged lime powder stacking device according to claim 3, wherein the lifting assembly (24) comprises a lifting cylinder (241), the lifting cylinder (241) is arranged on the outer side of the transverse portion of the U-shaped frame (21), the output end of the lifting cylinder (241) is provided with a push plate (242), a plurality of push rods (243) are arranged on the push plate (242) in an array mode, a push block (244) is arranged on the push plate (242), the push block (244) is slidably arranged in the guide groove (211), the push block (244) is located below the other end of the bottom plate (23), the two ends of the lifting platform (15) are respectively provided with a first avoiding groove (151), the middle of the lifting platform is provided with a second avoiding groove (152), the first avoiding groove (151) is used for avoiding push rods (243) at the two ends, and the second avoiding groove (152) is used for avoiding the output shaft of the lifting cylinder (241) and push rods (243) at the two sides of the lifting cylinder (241).

6. A bagged lime powder stacking device as claimed in claim 1, wherein the base plate (23) is provided with a set of rectangular holes (232).