CN219407112U - Efficient broken stone packaging production line system - Google Patents

Abstract

The utility model discloses a high-efficiency broken stone packaging production line system, which belongs to the technical field of broken stone packaging and comprises the following components: the device comprises a feeding mechanism, a material guiding mechanism, a bagging mechanism and a conveying mechanism; the feeding mechanism is provided with a feeding end and a discharging end which are used for being placed at the position of the broken stone discharging hole, and the feeding mechanism is used for conveying materials from the feeding end to the discharging end; the material guiding mechanism comprises a hopper and a valve, the hopper opening of the hopper corresponds to the discharge end, and the valve is arranged at the discharge opening of the hopper; the bagging mechanism comprises a mounting frame, two elastic connecting pieces and two hanging pieces, wherein the mounting frame is arranged below a discharge hole of the hopper, the two elastic connecting pieces are arranged on two sides of the interior of the mounting frame, and the two elastic connecting pieces are respectively provided with elastic ends connected with the two hanging pieces; the conveying mechanism is arranged below the bagging mechanism; the device realizes uninterrupted feeding, is favorable for improving the working efficiency of broken stone, can also avoid the condition that broken stone falls off in the process of replacing broken stone bags, and is favorable for improving the working efficiency.

Description

Efficient broken stone packaging production line system

Technical Field

The utility model relates to the technical field of crushed stone packaging, in particular to a high-efficiency crushed stone packaging production line system.

Background

The broken stone is a common engineering material, is used for broken stone of engineering structures, has direct influence on engineering quality by physical and mechanical properties, and has specific regulation on the physical and mechanical properties of the broken stone according to the use function requirements of the engineering structures. The broken stone is used for railway roadbed engineering and highway engineering aggregate, and the content of soft (soft and easy to break) particles is an important performance index of the broken stone.

After the finished products are crushed, the finished products are packed and conveyed, the publication number CN104815721B provides a stone crusher for civil engineering, stones are conveyed into a feed chute through a belt, then fall into a first stone crushing roller and a second stone crushing roller through a material sliding chute to carry out stone crushing treatment, the stones processed by the first stone crushing roller and the second stone crushing roller fall into an arc-shaped bottom plate, then carry out secondary stone crushing treatment through a third stone crushing roller, after the secondary stone crushing, the stones meeting the requirements fall into a conveying belt from stone holes and are sent out, and a collecting device is placed at an outlet to carry out packing treatment while the stones are sent out; it directly sets up collection device under the stone crusher and carries out the loading, because the material can constantly fall to collection device in carrying the rubble, when filling up the rubble in collection device, the staff need take collection device in the below of stone crusher, need shut down when getting the material, has reduced the efficiency of rubble to the risk that the rubble still can exist the rubble and drop in-process of taking.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a high-efficiency broken stone packaging production line system which solves the technical problems in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a high-efficiency broken stone packaging production line system, which comprises:

the feeding mechanism is provided with a feeding end and a discharging end, the feeding end is used for being placed at the position of the broken stone discharging hole, and the feeding mechanism is used for conveying materials from the feeding end to the discharging end;

the material guide mechanism comprises a hopper and a valve, the hopper opening of the hopper corresponds to the discharge end, and the valve is arranged at the discharge opening of the hopper;

the bagging mechanism comprises a mounting frame, two elastic connecting pieces and two hanging pieces, wherein the mounting frame is arranged below a discharge hole of the hopper, the two elastic connecting pieces are arranged on two sides of the inside of the mounting frame, the two hanging pieces are used for hanging ropes on two sides of the crushed stone bag, and the two elastic connecting pieces are respectively provided with elastic ends connected with the two hanging pieces and gradually shrink in the process of containing crushed stone in the crushed stone bag so as to gradually lower the crushed stone bag;

and the conveying mechanism is arranged below the bagging mechanism and is used for receiving and conveying the crushed stone bags.

In some embodiments, the feeding mechanism includes a first supporting frame, two connecting wheels, a conveyor belt sleeved outside the two connecting wheels, and a first motor, wherein one connecting wheel is arranged on one side of the first supporting frame, the other connecting wheel extends obliquely upwards along the first supporting frame to correspond to the hopper, and a driving shaft of the first motor is connected with one of the connecting wheels for driving the connecting wheels to rotate so as to drive the conveyor belt to move so as to convey materials.

In some embodiments, the feeding mechanism further comprises a plurality of supporting members respectively arranged at two sides of the conveyor belt, wherein the supporting members comprise a plurality of supporting rollers which are sequentially arranged along the length direction of the side surface of the conveyor belt, and the supporting rollers are rotationally connected with the first supporting frame.

In some embodiments, the support rollers extend progressively upward from one end near the middle of the belt to the other.

In some embodiments, the guide mechanism further comprises a guide roller, a plurality of guide plates and a second motor, the guide roller is rotationally arranged in the hopper, the guide plates are uniformly arranged around the guide roller, and a driving shaft of the second motor is connected with the guide roller to drive the guide roller and the guide plates to rotate.

In some embodiments, the elastic connecting piece comprises a fixed plate, two springs and two sliding blocks, wherein the fixed plate is arranged on one side of the inside of the installation frame, two sliding grooves which are arranged in parallel are formed in one side of the fixed plate, the two springs are respectively arranged in the two sliding grooves, one end of each spring is connected with the fixed plate, the other end of each spring is connected with the sliding blocks, and the two sliding blocks are respectively connected with the two sliding grooves in a sliding manner.

In some embodiments, the hanger comprises two hooks, which are respectively connected with the two sliding blocks in a one-to-one correspondence.

In some embodiments, the suspension member further comprises two damping hinges, wherein the two damping hinges are vertically arranged on one side of the two sliding blocks in one-to-one correspondence respectively, the rotating shafts of the two damping hinges are connected with the two hooks in one-to-one correspondence, the hooks are of an L-shaped structural design, the upper ends of the hooks are vertically arranged, and an acute angle is formed between the lower ends of the hooks and the upper ends of the hooks.

In some embodiments, grooves are formed on two sides, perpendicular to the two fixing plates, of the mounting frame, and the conveying direction of the conveying mechanism corresponds to the two grooves.

In some embodiments, the conveying mechanism comprises a second supporting frame, a plurality of conveying rollers and a third motor, wherein each conveying roller is sequentially arranged along the length direction of the second supporting frame, two adjacent conveying rollers are connected through a belt in a sleeved mode, and a driving shaft of the third motor is connected with one conveying roller through a belt.

Compared with the prior art, the utility model has the beneficial effects that: through the feeding mechanism and the material guide mechanism, the material is conveyed into the hopper through the feeding mechanism, when the broken stone bag is replaced, the valve can be closed, and the material can be blocked in the hopper, so that uninterrupted feeding is realized, the broken stone working efficiency is improved, and the broken stone falling condition in the process of replacing the broken stone bag can be avoided;

through bagging-off mechanism and conveying mechanism that set up, utilize the suspension member can be fixed with the rubble bag, the elastic component can prop up the suspension member to reduce the effort to the rubble bag when the material whereabouts, do benefit to the life that improves the rubble bag, in the material reaches the setting quantity, the rubble bag can fall conveying mechanism, utilize conveying mechanism can realize carrying the rubble, make the continuity of this device work strong, do benefit to improvement work efficiency.

Drawings

FIG. 1 is a perspective view of one embodiment of a high efficiency crushed stone packaging line system provided by the present utility model;

FIG. 2 is a schematic cross-sectional front view of the high efficiency crushed stone packaging line system of FIG. 1;

FIG. 3 is a schematic side view of a feed mechanism of the high efficiency crushed stone packaging line system of FIG. 1;

FIG. 4 is a schematic side elevational view of the bagging mechanism of the high efficiency gravel packing production line system of FIG. 1;

FIG. 5 is a schematic top plan view of a bagging mechanism of the high efficiency stone packing line system of FIG. 1;

fig. 6 is a schematic side view of a conveyor mechanism of the high efficiency crushed stone packaging line system of fig. 1.

In the figure: 1. a feeding mechanism; 11. a first support frame; 12. a fifth wheel; 13. a conveyor belt; 14. a first motor; 15. a support roller; 16. a bottom bracket;

2. a material guiding mechanism; 21. a hopper; 22. a valve; 23. a guide roller; 24. a material guide plate;

3. a bagging mechanism; 31. a mounting frame; 311. slotting; 32. an elastic connection member; 321. a fixing plate; 322. a spring; 323. a slide block; 324. a chute; 33. a hanging piece; 331. a hook; 332. damping hinges;

4. a conveying mechanism; 41. a second support frame; 42. a conveying roller; 43. and a third motor.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1, 2 and 4, the present utility model provides a high-efficiency crushed stone packaging production line system, comprising: a feeding mechanism 1, a material guiding mechanism 2, a bagging mechanism 3 and a conveying mechanism 4.

The feeding mechanism 1 is provided with a feeding end and a discharging end which are used for being placed at the position of the broken stone discharging hole, and the feeding mechanism 1 is used for conveying materials from the feeding end to the discharging end.

The material guiding mechanism 2 comprises a hopper 21 and a valve 22, the hopper opening of the hopper 21 corresponds to the discharge end, and the valve 22 is arranged at the discharge opening of the hopper 21.

The bagging mechanism 3 comprises a mounting frame 31, two elastic connecting pieces 32 and two hanging pieces 33, wherein the mounting frame 31 is arranged below a discharge hole of the hopper 21, the two elastic connecting pieces 32 are arranged on two sides of the inside of the mounting frame 31, the two hanging pieces 33 are used for hanging ropes on two sides of a crushed stone bag, and the two elastic connecting pieces 32 are respectively provided with elastic ends connected with the two hanging pieces 33 and are used for gradually contracting in the process of containing crushed stone in the crushed stone bag so that the crushed stone bag gradually descends.

The conveying mechanism 4 is arranged below the bagging mechanism 3 and is used for receiving and conveying the broken stone bags.

In the device, the discharging end of the feeding mechanism 1 is placed at the position of a broken stone discharging hole, broken stone can fall to the feeding end of the feeding mechanism 1 and is conveyed to the discharging end from the feeding end, the broken stone enters the hopper 21 from the discharging end, the valve 22 is arranged on the hopper opening of the hopper 21, when the broken stone bag needs to be replaced, the valve 22 can be closed, materials can be temporarily blocked in the hopper 21, the condition that broken stone falls in the process of replacing the broken stone bag can be avoided, the hanging pieces 33 are used for hanging ropes on two sides of the broken stone bag and are used for fixing the broken stone bag in the mounting frame 31, the materials can fall into the broken stone bag through the hopper 21, the weight in the broken stone bag gradually increases along with the gradual entering of the material, so that the elastic connecting piece 32 gradually contracts to gradually lower the broken stone bag in the process of containing broken stone in the broken stone bag, and after the material reaches a set amount, the broken stone bag falls into the conveying mechanism 4 and is directly conveyed out through the conveying mechanism 4; and, after the broken stone bag containing the material breaks away from couple 331, the elastic connection piece 32 can drive suspension member 33 automatic re-setting, can reduce the broken stone bag before loading with the distance of hopper 21 to reduce the effort to the broken stone bag when the material falls, do benefit to the life that improves the broken stone bag.

As shown in fig. 1 and 2, in some embodiments, the feeding mechanism 1 includes a first supporting frame 11, two connecting wheels 12, a conveyor belt 13 sleeved outside the two connecting wheels 12, and a first motor 14, the upper side of the first supporting frame 11 is inclined, one connecting wheel 12 is arranged above the lower side of the first supporting frame 11, the other connecting wheel 12 extends obliquely upwards along the first supporting frame 11 to the upper side of the first supporting frame 11 and corresponds to the hopper 21, the connecting wheels 12 are rotatably connected with the first supporting frame 11, the first motor 14 is mounted on the first supporting frame 11, a driving shaft of the first motor 14 is connected with one of the connecting wheels 12, when in use, the lower end of the conveyor belt 13 is placed corresponding to an outlet of the stone crusher, so that materials can fall onto the conveyor belt 13, and the first motor 14 can drive the connecting wheels 12 to rotate so as to drive the conveyor belt 13 to move so as to convey the materials.

In order to improve the efficiency of conveying materials by the conveyor belt 13, as shown in fig. 3, in some embodiments, the feeding mechanism 1 further includes a plurality of supporting members disposed on two sides of the conveyor belt 13, the supporting members include a plurality of supporting rollers 15 sequentially disposed along a length direction of a side surface of the conveyor belt 13, the supporting rollers 15 are rotatably connected with the first supporting frame 11, so that the conveyor belt 13 can be supported on two sides below the conveyor belt 13 by using the plurality of supporting rollers 15, and stable supporting of the materials is realized, and since the supporting rollers 15 gradually extend upwards from one end near the middle of the conveyor belt 13 to the other end, the middle position of the upper side of the conveyor belt 13 is lower by the supporting of the supporting rollers 15, and two sides of the middle of the supporting rollers sequentially incline upwards, so that the materials conveyed in a concentrated manner in the concave position of the middle of the conveyor belt 13 can be conveniently realized.

Further, the lower side of the first supporting frame 11 is also provided with a bottom bracket 16 corresponding to the bottom end of the conveyor belt 13 for receiving larger crushed stone falling from the conveyor belt 13.

As shown in fig. 2, in some embodiments, the guiding mechanism 2 further includes a guiding roller 23, a plurality of guiding plates 24 and a second motor, the guiding roller 23 is rotationally disposed inside the hopper 21, the guiding plates 24 are uniformly disposed around the guiding roller 23, the second motor is mounted on the back of the hopper 21, the hopper 21 is fixed on the mounting frame 31, and a driving shaft of the second motor is connected with the guiding roller 23 and can drive the guiding roller 23 and the guiding plates 24 to rotate, so as to disperse materials, avoid accumulation and discharge of broken stone, and realize uniform guiding of the materials.

As shown in fig. 4, in some embodiments, the elastic connection member 32 includes a fixed plate 321, two springs 322 and two sliding blocks 323, the fixed plate 321 is disposed at one side of the inside of the installation frame 31 and is fixedly connected with the installation frame 31, two parallel sliding grooves 324 are disposed at one side of the fixed plate 321, two springs 322 are respectively disposed in the two sliding grooves 324, one end of each spring 322 is fixedly connected with the fixed plate 321, the other end of each spring 322 is fixedly connected with the sliding block 323, the two sliding blocks 323 are respectively slidably connected with the two sliding grooves 324, the suspension member 33 includes two hooks 331 and two damping hinges 332, the two damping hinges 332 are respectively vertically disposed at one side of the two sliding blocks 323, the rotating shafts of the two damping hinges 332 are respectively vertically connected with the two hooks 331 in a one-to-one correspondence, and the hooks 331 are in an L-shaped structure, and the upper ends of the hooks 331 are vertically disposed, an acute angle is formed between the lower ends of the hooks 331 and the upper ends of the hooks, the lower ends of the hooks 331 are slightly inclined upward, the lower ends of the hooks can hang ropes of the lithotrips bag, and the arranged damping hinges 332 enable the bag to automatically slide out of the lithotrips 31 after contacting the conveying mechanism 4, the lithotrips bag can automatically slide out of the bag 31 along with the upper ends of the lithotripsy bag, and the bag can be automatically moved along with the bag by the bag after the conveying mechanism is installed.

As shown in fig. 5, in some embodiments, slots 311 are formed on two sides of the mounting frame 31 perpendicular to the two fixing plates 321, and the conveying direction of the conveying mechanism 4 corresponds to the two slots 311, so that the crushed stone bags can be conveyed out through the slots 311, and further, workers can conveniently hang the next crushed stone bag on the hooks 331 from two sides of the mounting frame 31.

As shown in fig. 6, in some embodiments, the conveying mechanism 4 includes a second supporting frame 41, a plurality of conveying rollers 42 and a third motor 43, the mounting frame 31 is fixedly connected with the second supporting frame 41, the conveying rollers 42 are sequentially arranged along the length direction of the second supporting frame 41, a driving shaft of the third motor 43 is connected with one of the conveying rollers 42 through a belt, so that the third motor 43 can drive the one of the conveying rollers 42 to rotate through the belt, and as the two adjacent conveying rollers 42 are connected through the sleeve joint of the belt, the conveying rollers 42 can be driven to synchronously and co-rotate through the transmission of the belt, and conveying of the crushed stone bag can be realized.

Further, the conveying mechanism 4 may be a pulley group conveying system, but the conveying roller 42 is used to support the heavy crushed stone bag, so the conveying mechanism 4 in this embodiment is preferably a conveying system with the conveying roller 42.

Working principle: firstly, placing a broken stone bag in a mounting frame 31, respectively hanging ropes at two sides of the broken stone bag on two hooks 331 at two sides of the mounting frame 31, enabling crushed materials to fall to the lower end of a conveyor belt 13, and driving a connecting wheel 12 to rotate by a first motor 14 so as to drive the conveyor belt 13 to move

And the material is conveyed to the higher end of the conveyor belt 13 and is conveyed into the hopper 21, the second motor 5 drives the material guiding roller 23 and the material guiding plate 24 to rotate, the material is evenly guided into the broken stone bag, and the broken stone is carried along

The materials in the bag are increased, the broken stone bag is weighted and the falling spring 322 is compressed, the driving sliding block 323, the hook 331 and the broken stone bag move downwards until the broken stone bag falls onto the conveying rollers 42 after a certain weight is reached, the third motor 43 drives the conveying rollers 42 to synchronously rotate, so that the conveying of the broken stone bag on the conveying rollers 42 is realized, and when the next broken stone bag needs to be placed, the valve 22 can be closed by a worker, so that the falling of the materials is avoided.

According to the utility model, through the feeding mechanism 1 and the material guiding mechanism 2, materials are conveyed into the hopper 21 through the feeding mechanism 1, the valve 22 can be closed when the broken stone bag is replaced, and the materials can be blocked in the hopper 21, so that uninterrupted feeding is realized, the broken stone working efficiency is improved, and the broken stone can be avoided

The situation that broken stone falls off in the process of replacing the broken stone bag is avoided;

the present utility model is provided with a bagging mechanism 3 and a conveying mechanism 4, and a hanging piece 33 can be used for placing

The broken stone bag is fixed, and the elastic component can prop up the suspension member 33 to reduce the effort to the broken stone bag when the material falls, do benefit to the life that improves the broken stone bag, in the material reaches the setting quantity, the broken stone bag can fall to conveying mechanism 4, utilizes conveying mechanism 4 to realize the transportation to the broken stone, makes the continuity of this device work strong, does benefit to improvement work efficiency.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. An efficient crushed stone packaging production line system, comprising:

the feeding mechanism is provided with a feeding end and a discharging end, wherein the feeding end is used for being placed at a broken stone discharging hole, and the feeding mechanism is used for conveying materials from the feeding end to the discharging end;

the material guide mechanism comprises a hopper and a valve, the mouth of the hopper corresponds to the discharge end, and the valve is arranged at the discharge port of the hopper;

the bagging mechanism comprises a mounting frame, two elastic connecting pieces and two hanging pieces, wherein the mounting frame is arranged below a discharge hole of the hopper, the two elastic connecting pieces are arranged on two sides of the inside of the mounting frame, the two hanging pieces are used for hanging ropes on two sides of a crushed stone bag, and the two elastic connecting pieces are respectively provided with elastic ends connected with the two hanging pieces and gradually shrink in the process of containing crushed stone in the crushed stone bag so as to gradually lower the crushed stone bag;

the conveying mechanism is arranged below the bagging mechanism and is used for receiving and conveying the broken stone bags.

2. The efficient crushed stone packaging production line system according to claim 1, wherein the feeding mechanism comprises a first support frame, two connecting wheels, a conveyor belt sleeved on the outer sides of the two connecting wheels and a first motor, wherein one connecting wheel is arranged on one side of the first support frame, the other connecting wheel extends obliquely upwards along the first support frame to correspond to the hopper, and a driving shaft of the first motor is connected with one connecting wheel and is used for driving the connecting wheels to rotate so as to drive the conveyor belt to move so as to convey materials.

3. The efficient crushed stone packaging production line system according to claim 2, wherein the feeding mechanism further comprises a plurality of supporting pieces respectively arranged on two sides of the conveyor belt, the supporting pieces comprise a plurality of supporting rollers sequentially arranged along the length direction of the side face of the conveyor belt, and the supporting rollers are rotatably connected with the first supporting frame.

4. A high efficiency crushed stone packing line system according to claim 3, wherein the support rollers extend progressively upwards from one end near the middle of the conveyor belt to the other.

5. The efficient crushed stone packaging production line system according to claim 1, wherein the material guiding mechanism further comprises a material guiding roller, a plurality of material guiding plates and a second motor, the material guiding rollers are rotationally arranged in the hopper, the material guiding plates are uniformly arranged around the material guiding rollers, and a driving shaft of the second motor is connected with the material guiding rollers to drive the material guiding rollers and the material guiding plates to rotate.

6. The efficient broken stone packaging production line system according to claim 1, wherein the elastic connecting piece comprises a fixed plate, two springs and two sliding blocks, the fixed plate is arranged on one side of the inside of the installation frame, two sliding grooves which are arranged in parallel are formed in one side of the fixed plate, the two springs are respectively arranged in the two sliding grooves, one end of each spring is connected with the fixed plate, the other end of each spring is connected with the corresponding sliding block, and the two sliding blocks are respectively connected with the two sliding grooves in a sliding mode.

7. The efficient crushed stone packaging production line system according to claim 6, wherein the hanging piece comprises two hooks, and the two hooks are respectively connected with the two sliding blocks in a one-to-one correspondence.

8. The efficient crushed stone packaging production line system according to claim 7, wherein the hanging piece further comprises two damping hinges, the two damping hinges are vertically arranged on one side of the two sliding blocks in one-to-one correspondence respectively, rotating shafts of the two damping hinges are connected with two hooks in one-to-one correspondence, the hooks are of L-shaped structural design, the upper ends of the hooks are vertically arranged, and an acute angle is formed between the lower ends of the hooks and the upper ends of the hooks.

9. The efficient crushed stone packaging production line system according to claim 6, wherein grooves are formed in two sides, perpendicular to the two fixing plates, of the mounting frame, and the conveying direction of the conveying mechanism corresponds to the two grooves.

10. The efficient crushed stone packaging production line system according to claim 1, wherein the conveying mechanism comprises a second supporting frame, a plurality of conveying rollers and a third motor, the conveying rollers are sequentially arranged along the length direction of the second supporting frame, two adjacent conveying rollers are connected through a belt in a sleeved mode, and a driving shaft of the third motor is connected with one conveying roller through a belt.