CN110815913A - Solid waste recycling and crushing fragment compression device and using method thereof - Google Patents

Abstract

The invention discloses a solid waste recycling and crushing fragment compression device and a using method thereof, and relates to the technical field of waste treatment. The vibration mechanism comprises a compression mechanism, wherein a first vibration mechanism and a second vibration mechanism are fixed on the compression mechanism, the first vibration mechanism comprises a first U-shaped plate and an upper pressure plate, a connecting plate is fixed on one opposite side surface of the first U-shaped plate, and a group of first sliding grooves are formed in one surface of the connecting plate. According to the invention, the first vibration mechanism and the second vibration mechanism are matched with each other, so that effective vibration treatment can be carried out on the solid waste fragments to be compressed, the solid waste fragments to be compressed are distributed in the second vibration mechanism more uniformly, the compression effect of the solid waste fragments is better and the compression efficiency is better when the compression mechanism is matched with the second vibration mechanism to compress the solid waste fragments, and the structure of the compressed solid waste fragments is more stable due to the matching of the first vibration mechanism and the second vibration mechanism.

Description

Solid waste recycling and crushing fragment compression device and using method thereof

Technical Field

The invention belongs to the technical field of waste treatment, and particularly relates to a solid waste recycling and crushing fragment compression device and a using method thereof.

Background

Solid waste refers to solid, semi-solid, and gaseous items, substances that are discarded or discarded without losing their original value of use, as well as items, substances that are regulated by law and administrative laws and regulations for inclusion in the management of solid waste that are generated during manufacturing, life, and other activities. The solid waste can be recycled generally, but in the recycling process, the solid waste is required to be crushed frequently so as to facilitate subsequent reprocessing and production, and in the process, in order to better store and transport the crushed solid waste, the crushed solid waste fragments are compressed to a certain extent often to be shaped, so that the crushed solid waste fragments are more convenient and faster in the transportation process, the transportation and storage space is saved, and the recycling cost of the solid waste is further reduced.

The existing solid waste fragment compression devices have a plurality of devices, but certain problems still exist in the practical application process, and the normal treatment of the solid waste is influenced. Among them, the more outstanding problems are: the existing solid waste fragment compression device does not have the function of uniformly flattening the solid waste to be compressed before compression, so that the power consumption of the solid waste fragment compression process is increased, the stability of the compressed solid waste is poor, and meanwhile, the compression device is easy to break down due to uneven distribution of the solid waste fragments, the service life of the compression device is prolonged, the compression efficiency of the solid waste is low, and the requirement of actual production cannot be met.

Disclosure of Invention

The invention aims to provide a solid waste recycling and crushing fragment compression device and a use method thereof.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a solid waste recycling and crushing fragment compressing device which comprises a compressing mechanism, wherein a first vibrating mechanism and a second vibrating mechanism are fixed on the compressing mechanism, the first vibrating mechanism comprises a first U-shaped plate and an upper pressing plate, a connecting plate is fixed on one opposite side surface of the first U-shaped plate, a group of first sliding grooves are formed in one surface of the connecting plate, a plurality of fixing rods are fixed on one surface of the upper pressing plate, the fixing rods are in clearance fit with the inner wall of the first sliding grooves, the other ends of the fixing rods penetrate through the first sliding grooves and are fixed with a stop block, the outer diameter of the stop block is twice of that of the fixing rods, a first vibrating motor is fixed on one surface of the upper pressing plate, a group of first springs are fixed between the connecting plate and the upper pressing plate, and the first springs are sleeved on the fixing;

the second vibration mechanism includes supporting seat and holding down plate, a supporting seat relative inner wall all is fixed with the fixed plate, open on a fixed plate surface has a set of second spout, a supporting seat surface mounting has the limiting plate, another surface mounting of limiting plate has the compression storehouse, holding down plate and compression storehouse inner wall clearance fit, a holding down plate surface mounting has a plurality of branches, branch and second spout inner wall clearance fit, the branch other end passes the second spout and is fixed with the baffle, the baffle external diameter size is the twice of branch external diameter size, a fixed plate surface mounting has a set of second spring, the second spring cup joints on branch, a holding down plate surface mounting has second vibrating motor.

Furthermore, a communicating groove is formed in one surface of the limiting plate, and the second vibration motor and the plurality of support rods are located inside the communicating groove.

Furthermore, a first hydraulic cylinder is fixed on one surface of the supporting seat, a second U-shaped plate is fixed at one end of the first hydraulic cylinder, and the second U-shaped plate is located under the second vibration motor.

Further, compression mechanism includes the base, a supporting seat surface and a base fixed surface are connected, a base fixed surface has a plurality of pillars, and is a plurality of the pillar other end is fixed with the layer board, a layer board fixed surface has the second pneumatic cylinder, second pneumatic cylinder one end is fixed with the push pedal, a push pedal fixed surface has a set of connecting block, two another surface of connecting block all is connected with a first U-shaped board fixed surface, the second pneumatic cylinder is located directly over first U-shaped board, a plurality of third spouts have been opened on a push pedal surface, pillar and third spout inner wall clearance fit.

The use method of the solid waste recycling and crushing fragment compression device comprises the following steps:

filling SS001 fragments, namely firstly, conveying the fragments of the crushed solid waste to the vicinity of the device by a worker, then conveying the fragments to a lower pressing plate in a compression bin by using a conveying device, and observing the amount of the solid waste fragments added into the compression bin so as to control the amount of the solid waste fragments to be compressed;

SS002 fragments are subjected to vibration treatment, a worker operates a second hydraulic cylinder to enable the second hydraulic cylinder to drive a first vibration mechanism to move downwards until an upper pressing plate in the first vibration mechanism is fully contacted with the fragments in a compression bin, then the first vibration motor and a second vibration motor are electrified, the first vibration motor drives the upper pressing plate to vibrate, the second vibration motor drives a lower pressing plate to vibrate, under the cooperation of the two, the solid waste fragments in the compression bin can be gradually compacted and uniformly distributed, after a period of time, the distribution condition of the fragments in the compression bin is observed, and the first vibration motor and the second vibration motor are powered off;

compressing SS003 fragments, wherein an operator continuously controls a second hydraulic cylinder to operate so that the second hydraulic cylinder continuously pushes a first U-shaped plate to move downwards, a plurality of first springs are compressed under the extrusion of the first U-shaped plate until the first U-shaped plate is contacted with an upper pressure plate, the upper pressure plate continuously cooperates with a lower pressure plate to extrude solid waste fragments in a compression bin under the action of the second hydraulic cylinder so as to compact the fragments to a certain degree, so that the solid waste fragments form blocks with stable structures, and then the operator controls the second hydraulic cylinder to drive a first vibration mechanism to return to an initial position;

the removal of SS004 compression piece, the operation of first pneumatic cylinder of operating personnel control for first pneumatic cylinder constantly rises and contacts with the holding down plate, and finally first pneumatic cylinder drives the holding down plate and shifts up along compressing the storehouse inner wall, will compress into massive solid waste piece jack-up and break away from the compression storehouse, and finally the workman utilizes haulage equipment to take off it from the holding down plate, accomplishes the compression processing of solid waste piece promptly.

The invention has the following beneficial effects:

according to the invention, the first vibration mechanism and the second vibration mechanism are matched with each other, so that effective vibration treatment can be carried out on the solid waste fragments to be compressed, the solid waste fragments to be compressed are distributed in the second vibration mechanism more uniformly, and therefore, when the compression mechanism is matched with the second vibration mechanism to compress the solid waste fragments, the compression effect of the solid waste fragments is better, the compression efficiency is better, and meanwhile, the safety of the compression device is also protected.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings 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 that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view showing a configuration of a solid waste recycling and pulverizing chips compressing apparatus according to the present invention;

FIG. 2 is a schematic view of the compression mechanism;

FIG. 3 is a schematic structural diagram of a first vibration mechanism;

FIG. 4 is a schematic structural diagram of a second vibration mechanism;

in the drawings, the components represented by the respective reference numerals are listed below:

1-compression mechanism, 2-first vibration mechanism, 3-second vibration mechanism, 4-first U-shaped plate, 5-connecting plate, 6-upper pressing plate, 7-first vibration motor, 8-fixing rod, 9-stop block, 10-first spring, 11-supporting seat, 12-fixing plate, 13-limiting plate, 14-compression bin, 15-lower pressing plate, 16-second vibration motor, 17-supporting rod, 18-baffle plate, 19-second spring, 20-first hydraulic cylinder, 21-second U-shaped plate, 22-base, 23-support column, 24-supporting plate, 25-second hydraulic cylinder, 26-push plate and 27-connecting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention is a compressing device for recycling and crushing solid waste, comprising a compressing mechanism 1, a first vibrating mechanism 2 and a second vibrating mechanism 3 are fixed on the compressing mechanism 1, the first vibrating mechanism 2 comprises a first U-shaped plate 4 and an upper press plate 6, a connecting plate 5 is fixed on one opposite side of the first U-shaped plate 4, a set of first chutes are opened on one surface of the connecting plate 5, four fixing rods 8 are fixed on one surface of the upper press plate 6, the fixing rods 8 are in clearance fit with the inner wall of the first chutes, the other end of the fixing rod 8 passes through the first chute and is fixed with a stop 9, the outer diameter of the stop 9 is twice of the outer diameter of the fixing rod 8, the arrangement is to limit the upper press plate 6 and prevent the upper press plate 6 from separating from the first U-shaped plate 4, a first vibrating motor 7 is fixed on one surface of the upper press plate 6, the first vibrating motor 7 is used for driving the upper press, a group of first springs 10 are fixed between the connecting plate 5 and the upper pressing plate 6, the first springs 10 are sleeved on the fixed rod 8, the first springs 10 play a role in assisting vibration when the first vibration motor 7 moves, and the safety of the upper pressing plate 6 can be protected;

the second vibration mechanism 3 comprises a supporting seat 11 and a lower pressing plate 15, a fixed plate 12 is fixed on one opposite inner wall of the supporting seat 11, a group of second sliding grooves is formed in one surface of the fixed plate 12, a limiting plate 13 is fixed on one surface of the supporting seat 11, a compression bin 14 is fixed on the other surface of the limiting plate 13, the lower pressing plate 15 is in clearance fit with the inner wall of the compression bin 14, four supporting rods 17 are fixed on one surface of the lower pressing plate 15, the supporting rods 17 are in clearance fit with the inner wall of the second sliding grooves, a baffle 18 penetrates through the second sliding grooves at the other end of each supporting rod 17 and is fixed with a baffle 18, the outer diameter of the baffle 18 is twice as large as the outer diameter of each supporting rod 17, the arrangement is that the lower pressing plate 15 is limited to prevent the lower pressing plate 15 from being separated from the fixed plate 12, the length of each supporting rod 17 is twice as deep as large as the depth of the compression bin 14, the compressed, the second spring 19 is sleeved on the supporting rod 17, a second vibration motor 16 is fixed on one surface of the lower pressing plate 15, the second vibration motor 16 is used for driving the lower pressing plate 15 to vibrate, the second spring 19 plays a role in assisting vibration when the lower pressing plate 15 moves, and the safety of the lower pressing plate 15 can be protected.

As shown in fig. 4, a communicating groove is formed in one surface of the limiting plate 13, the second vibration motor 16 and the four support rods 17 are located inside the communicating groove, and the limiting plate 13 plays a limiting role in limiting the lower pressing plate 15, so that the lower pressing plate 15 is prevented from being separated from the lower side of the compression bin 14.

As shown in fig. 4, a first hydraulic cylinder 20 is fixed on one surface of the supporting seat 11, a second U-shaped plate 21 is fixed at one end of the first hydraulic cylinder 20, the second U-shaped plate 21 is located under the second vibration motor 16, and the first hydraulic cylinder 20 drives the lower pressing plate 15 to move the compressed block out of the compression bin 14.

As shown in fig. 1-4, the compression mechanism 1 includes a base 22, a surface of the support base 11 is fixed to a surface of the base 22 by welding, a surface of the base 22 is fixed with four support columns 23, the other ends of the four support columns 23 are fixed with a support plate 24, a surface of the support plate 24 is fixed with a second hydraulic cylinder 25, one end of the second hydraulic cylinder 25 is fixed with a push plate 26, a surface of the push plate 26 is fixed with a set of connection blocks 27, the other surfaces of the two connection blocks 27 are fixed to a surface of the first U-shaped plate 4 by welding, the second hydraulic cylinder 25 is located right above the first U-shaped plate 4, a surface of the push plate 26 is provided with four third sliding grooves, the support columns 23 are in clearance fit with inner walls of the third sliding grooves, the support columns 23 play roles of supporting and limiting, so that the second hydraulic cylinder.

The use method of the solid waste recycling and crushing fragment compression device comprises the following steps:

filling with SS001 pieces, wherein a worker first carries the pieces after crushing the solid waste to the vicinity of the device, then the pieces are sent to a lower pressing plate 15 in a compression bin 14 by using a carrying device, and the amount of the solid waste pieces added in the compression bin 14 is observed, thereby controlling the amount of the solid waste pieces to be compressed;

SS002 fragment vibration treatment, wherein a worker operates a second hydraulic cylinder 25 to enable the second hydraulic cylinder 25 to drive a first vibration mechanism 2 to move downwards until an upper pressing plate 6 in the first vibration mechanism 2 is fully contacted with fragments in a compression bin 14, and then the first vibration motor 7 and a second vibration motor 16 are electrified to enable the first vibration motor 7 to drive the upper pressing plate 6 to vibrate and the second vibration motor 16 to drive a lower pressing plate 15 to vibrate, under the cooperation of the two, the solid waste fragments in the compression bin 14 can be gradually compacted and uniformly distributed, after one end of time, the distribution condition of the fragments in the compression bin 14 is observed, and the first vibration motor 7 and the second vibration motor 16 are powered off;

compressing SS003 fragments, wherein an operator continuously controls the second hydraulic cylinder 25 to operate, so that the second hydraulic cylinder 25 continuously pushes the first U-shaped plate 4 to move downwards, the four first springs 10 are compressed under the extrusion of the first U-shaped plate 4 until the first U-shaped plate 4 is contacted with the upper pressing plate 6, the upper pressing plate 6 continuously cooperates with the lower pressing plate 15 to extrude and compress solid waste fragments in the bin 14 under the action of the second hydraulic cylinder 25, so that the fragments are compacted to a certain degree, the solid waste fragments form blocks with stable structures, and then the operator controls the second hydraulic cylinder 25 to drive the first vibrating mechanism 2 to return to the initial position;

and (3) moving out the SS004 compressed blocks, controlling the first hydraulic cylinder 20 to operate by an operator, enabling the first hydraulic cylinder 20 to continuously ascend and contact with the lower pressing plate 15, finally driving the lower pressing plate 15 to move upwards along the inner wall of the compression bin 14 by the first hydraulic cylinder 20, jacking the solid waste fragments compressed into blocks and separating from the compression bin 14, and finally taking down the solid waste fragments from the lower pressing plate 15 by using a carrying device by the operator, namely completing the compression treatment of the solid waste fragments.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. A solid waste retrieves and smashes piece compressor arrangement, includes compressing mechanism (1), its characterized in that: a first vibration mechanism (2) and a second vibration mechanism (3) are fixed on the compression mechanism (1);

the first vibration mechanism (2) comprises a first U-shaped plate (4) and an upper pressure plate (6), a connecting plate (5) is fixed on one opposite side surface of the first U-shaped plate (4), a group of first chutes are formed in one surface of the connecting plate (5), a plurality of fixing rods (8) are fixed on one surface of the upper pressure plate (6), the fixing rods (8) are in clearance fit with the inner wall of the first chutes, the other ends of the fixing rods (8) penetrate through the first chutes and are fixed with stop blocks (9), a first vibration motor (7) is fixed on one surface of the upper pressure plate (6), a group of first springs (10) are fixed between the connecting plate (5) and the upper pressure plate (6), and the first springs (10) are sleeved on the fixing rods (8);

the second vibration mechanism (3) comprises a supporting seat (11) and a lower pressing plate (15), a fixed plate (12) is fixed on one opposite inner wall of the supporting seat (11), a group of second sliding chutes are formed on one surface of the fixed plate (12), a limiting plate (13) is fixed on one surface of the supporting seat (11), a compression bin (14) is fixed on the other surface of the limiting plate (13), the lower pressure plate (15) is in clearance fit with the inner wall of the compression bin (14), a plurality of support rods (17) are fixed on one surface of the lower pressure plate (15), the supporting rod (17) is in clearance fit with the inner wall of the second sliding groove, the other end of the supporting rod (17) passes through the second sliding groove and is fixed with a baffle plate (18), a group of second springs (19) are fixed on one surface of the fixing plate (12), the second springs (19) are sleeved on the supporting rods (17), and a second vibration motor (16) is fixed on one surface of the lower pressure plate (15).

2. A solid waste recycling shredder debris compactor according to claim 1, wherein the stop (9) has an outer diameter twice the outer diameter of the retaining rod (8).

3. A solid waste recycling shredder debris compactor according to claim 1, wherein the baffle (18) has an outer diameter twice the outer diameter of the rod (17).

4. The solid waste recycling and pulverizing chips compressing apparatus as claimed in claim 1, wherein the limiting plate (13) has a communicating groove on one surface, and the second vibration motor (16) and the plurality of supporting rods (17) are located inside the communicating groove.

5. A solid waste recycling shredder debris compactor apparatus according to claim 1, wherein a first hydraulic cylinder (20) is fixed to a surface of the support base (11), a second U-shaped plate (21) is fixed to one end of the first hydraulic cylinder (20), and the second U-shaped plate (21) is located directly below the second vibration motor (16).

6. The solid waste recycling and crushing compression device as claimed in claim 1, wherein the compression mechanism (1) comprises a base (22), one surface of the support base (11) is fixedly connected with one surface of the base (22), a plurality of support columns (23) are fixedly arranged on one surface of the base (22), a support plate (24) is fixedly arranged on the other end of each support column (23), a second hydraulic cylinder (25) is fixedly arranged on one surface of the support plate (24), a push plate (26) is fixedly arranged on one end of the second hydraulic cylinder (25), a group of connecting blocks (27) are fixedly arranged on one surface of the push plate (26), the other surfaces of the two connecting blocks (27) are fixedly connected with one surface of the first U-shaped plate (4), and the second hydraulic cylinder (25) is positioned right above the first U-shaped plate (4).

7. A solid waste recycling shredder debris compactor according to claim 6, wherein the pusher plate (26) has a plurality of third runners formed in a surface thereof, and the posts (23) are in clearance fit with the inner walls of the third runners.

8. The use of the solid waste recycling shredder debris compactor according to any of claims 1-7, comprising the steps of:

filling SS001 fragments, wherein workers firstly convey the crushed fragments of the solid waste to the vicinity of the device, then convey the fragments to a lower pressing plate (15) in a compression bin (14) by utilizing a conveying device, and observe the amount of the solid waste fragments added in the compression bin (14), thereby controlling the amount of the solid waste fragments to be compressed;

SS002 fragment vibration treatment, wherein a worker operates a second hydraulic cylinder (25) to enable the second hydraulic cylinder (25) to drive a first vibration mechanism (2) to move downwards until an upper pressing plate (6) in the first vibration mechanism (2) is fully contacted with fragments in a compression bin (14), then a first vibration motor (7) and a second vibration motor (16) are electrified to enable the first vibration motor (7) to drive the upper pressing plate (6) to vibrate, the second vibration motor (16) drives a lower pressing plate (15) to vibrate, under the cooperation of the first vibration motor and the second vibration motor, solid waste fragments in the compression bin (14) can be gradually compacted and uniformly distributed, after one end of time, the distribution condition of the fragments in the compression bin (14) is observed, and the first vibration motor (7) and the second vibration motor (16) are powered off;

compressing SS003 fragments, wherein an operator continuously controls a second hydraulic cylinder (25) to operate to enable the second hydraulic cylinder (25) to continuously push a first U-shaped plate (4) to move downwards, a plurality of first springs (10) are compressed under the extrusion of the first U-shaped plate (4) until the first U-shaped plate (4) is contacted with an upper pressing plate (6), the upper pressing plate (6) is continuously matched with a lower pressing plate (15) to extrude solid waste fragments in a compression bin (14) under the action of the second hydraulic cylinder (25) to compact the fragments to a certain degree, so that the solid waste fragments form blocks with stable structures, and then the operator controls the second hydraulic cylinder (25) to drive a first vibrating mechanism (2) to return to an initial position;

and (3) moving out the SS004 compressed block, controlling the first hydraulic cylinder (20) to operate by an operator, enabling the first hydraulic cylinder (20) to continuously ascend and to be in contact with the lower pressing plate (15), finally driving the lower pressing plate (15) to move upwards along the inner wall of the compression bin (14) by the first hydraulic cylinder (20), jacking the solid waste fragments compressed into blocks and separating from the compression bin (14), and finally taking the solid waste fragments off the lower pressing plate (15) by a worker by using carrying equipment, namely completing the compression treatment of the solid waste fragments.

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