CN218049604U - Foam processing waste recovery device - Google Patents

Abstract

The utility model relates to a foam compaction technical field, concretely relates to foam processing waste recovery device, including the compression case, hydraulic pressure mechanism and unloading subassembly, still include fastening components, fastening components includes the compacting plate, the separation cylinder, the separation plate, binding nail and drive component, through installing the binding nail on the compacting plate, the binding nail can remove in screw hole and through-hole through drive component, so far, after the compacting plate compacts foam waste, the binding nail passes screw hole and through-hole through drive component, the binding nail can rotate, can be connected by the compacted waste through rotating the external screw thread, the compacting plate can be more firm grasps the waste material, realized the compacting plate when mentioning the waste material, the waste material can not follow the landing on the compacting plate, make the unloading of this equipment more stable and high-efficient.

Description

Foam processing waste recovery device

Technical Field

The utility model relates to a foam compaction technical field especially relates to a foam processing waste recovery device.

Background

Along with the rise of commodity circulation trade, the use of foam is more and more, and the foam is difficult to rot and the burning is got up and can be produced a large amount of toxic gases, along with the improvement of scientific and technological, people's environmental awareness is stronger and stronger, people collect the old and useless foam in the middle of the life and compress and retrieve, the compression is retrieved and can be reduced the pollution to the environment, present foam compressor adopts no screw design, utilize hydraulic pressure power acting, apply enough big pressure to the object in certain space, make the object densify, but after the foam is compressed, need the manual work to open the door, take out the compression finished product, close the door again, waste time and energy, the efficiency of work is not high.

The existing foam waste recycling and compacting device comprises an inverted U-shaped plate and a separating plate through the arrangement of the compacting device, the compressing device can compact waste and clamp the waste, the separating plate can separate the waste from the inverted U-shaped plate, a material receiving door is arranged at a discharge port of a box body, the waste does not need to be manually taken, the working progress can be accelerated, and the working efficiency is improved.

But foretell foam waste recycling compaction device is just through the clamping-force of handstand U template itself to the waste material by the compaction centre gripping, and long-time application handstand U template can produce metal fatigue, leads to clamping-force to diminish, and the waste material is very easy to be followed the landing on the handstand U template, grabs the material unstability, delays the job schedule.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a foam processing waste recovery device has solved current foam waste recovery compaction device and has just carried out the centre gripping to the waste material by the compaction through the clamping-force of handstand U template itself, and long-time application handstand U template can produce metal fatigue, leads to the clamping-force to diminish, and the waste material landing from handstand U template very easily grabs the material unstability, hinders the problem of job schedule.

In order to realize the aim, the utility model provides a foam processing waste recovery device, which comprises a compression box, a hydraulic mechanism and a blanking assembly, wherein the hydraulic mechanism is positioned at the upper end of the compression box, the blanking assembly is connected with the compression box,

the device also comprises a fastening component;

the fastening component comprises a compaction plate, a separation cylinder, a separation plate, fastening nails and a driving component, wherein the compaction plate is connected with the hydraulic mechanism and is positioned in the compression box, the separation cylinder is connected with the compaction plate and is positioned at one side of the hydraulic mechanism, the separation plate is connected with the separation cylinder and is positioned at one side of the compaction plate, the separation cylinder is close to the compaction plate, the compaction plate is provided with two screw holes which are symmetrically distributed on the compaction plate respectively, the separation plate is provided with two through holes which are aligned with the screw holes respectively, the fastening nails are two in number and two in position, the fastening nails are respectively provided with two external threads, and the driving component is connected with the compaction plate.

The driving component comprises a mounting base and a pushing cylinder, wherein the mounting base is fixedly connected with the compaction plate and is positioned on one side of the compaction plate, which is far away from the separation plate; the pushing cylinder is connected with the mounting base and is positioned on one side, far away from the compacting plate, of the mounting base.

The driving component further comprises a driving motor, the driving motor is connected with the pushing cylinder and is positioned on one side, close to the compacting plate, of the pushing cylinder, and a driving shaft of the driving motor is connected with the fastening nails.

The compacting plate is provided with a plurality of anti-slip strips, and the anti-slip strips are uniformly distributed on the inner wall of the compacting plate respectively.

The blanking assembly comprises a movable shaft, a movable door and an electric hydraulic rod, wherein the movable shaft is rotatably connected with the compression box and is positioned on one side of the compression box, which is far away from the hydraulic mechanism; the movable door is fixedly connected with the movable shaft and is positioned on one side of the movable shaft close to the compression box; the electric hydraulic rod is rotatably connected with the compression box and is positioned on one side, far away from the movable shaft, of the compression box.

The blanking assembly further comprises a sliding rail and a sliding block, the sliding rail is fixedly connected with the movable door and is positioned on one side, far away from the movable shaft, of the movable door; the sliding block is connected with the sliding rail in a sliding mode, is connected with the electric hydraulic rod in a rotating mode, and is located on one side, close to the electric hydraulic rod, of the sliding rail.

Wherein, foam processing waste recovery device still includes the feeding subassembly, the feeding subassembly with the compression case is connected.

The feeding assembly comprises a feeding barrel, a crushing roller and a driving motor, wherein the feeding barrel is fixedly connected with the compression box and is positioned on one side of the compression box, which is far away from the movable door; the number of the crushing rollers is two, the two crushing rollers are symmetrically installed in the feeding cylinder respectively, the number of the driving motors is two, and the two driving motors are connected with the two crushing rollers respectively.

The utility model discloses a foam processing waste recovery device, through install on the compaction board the binding nail, the binding nail passes through drive component can remove in screw hole and the through-hole, works as so far after the compaction board compacts the foam waste material, the binding nail passes through drive component passes the screw hole with the through-hole, the binding nail can rotate, through rotating the external screw thread can with be connected by the compacted waste material, the compaction board can be more firm grasps the waste material, has realized the compaction board is when mentioning the waste material, and the waste material can not be followed landing on the compaction board for the unloading of this equipment is more stable and high-efficient.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of a fastening assembly according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a drive member according to a first embodiment of the present invention.

Fig. 3 is a schematic structural view of the blanking assembly according to the first embodiment of the present invention.

Fig. 4 is a schematic structural view of a feeding assembly according to a second embodiment of the present invention.

In the figure; 101-compression box, 102-hydraulic mechanism, 103-compaction plate, 104-separation plate, 105-fastening nail, 106-mounting base, 107-pushing cylinder, 108-driving motor, 109-antislip strip, 110-movable shaft, 111-movable door, 113-electric hydraulic rod, 114-slide rail, 115-slide block, 116-screw hole, 117-through hole, 118-external thread, 119-separation cylinder, 201-feeding cylinder, 202-crushing roller and 203-driving motor

Detailed Description

The embodiments of the invention will be described in detail hereinafter, examples of which are illustrated in the accompanying drawings, and the embodiments described hereinafter with reference to the drawings are exemplary and intended to be illustrative of the invention and should not be construed as limiting the invention.

The first embodiment of the present application is:

referring to fig. 1 to 3, wherein fig. 1 is a schematic structural view of a fastening assembly, fig. 2 is a schematic structural view of a driving member, and fig. 3 is a schematic structural view of a blanking assembly, the present invention provides a waste recycling device for foam processing; the device comprises a compression box 101, a hydraulic mechanism 102, a fastening assembly and a blanking assembly, wherein the fastening assembly comprises a compacting plate 103, a separating plate 104, fastening nails 105 and a driving member, the driving member comprises a mounting base 106, a pushing cylinder 107 and a driving motor 108, and the compacting plate 103 is also provided with an anti-skid strip 109; the compacting plate has two screw holes 116, the separating plate 104 has two through holes 117, both fastening pins 105 have external threads 118, and the blanking assembly includes a movable shaft 110, a movable door 111, an electro-hydraulic rod 113, a slide rail 114, and a slider 115.

For the specific embodiment, the hydraulic mechanism 102 is located at the upper end of the compression box 101, the compression box 101 is used for containing foam waste, the blanking assembly is connected with the compression box 101, the left side and the right side of the compression box 101 are provided with a feeding hole and a discharging hole, the hydraulic mechanism 102 is used as a power mechanism for extruding the foam waste, and the blanking assembly enables the waste to slide out of the compression box 101.

Wherein the compression plate 103 is connected to the hydraulic mechanism 102 and located in the compression box 101, the separation cylinder 119 is connected to the compression plate 103 and located on a side of the compression plate 103 away from the hydraulic mechanism 102, the separation plate 104 is connected to the separation cylinder 119 and located on a side of the separation cylinder 119 close to the compression plate 103, the compression plate 103 has two screw holes 116, the two screw holes 116 are respectively symmetrically distributed on the compression plate 103, the separation plate 104 has two through holes 117, the two through holes 117 are respectively aligned with the two screw holes 116, the number of the fastening pins 105 is two, the two fastening pins 105 are respectively located in the two screw holes 116, both the two fastening pins 105 have external threads 118, the driving member is connected to the compression plate 103, the compression plate 103 is installed in the compression box 101, the output end of the hydraulic mechanism 102 is connected with the upper end of the compacting plate 103, the hydraulic mechanism 102 can drive the compacting plate 103 to move up and down to extrude the waste, the screw holes 116 are symmetrically arranged on the left side and the right side of the compacting plate 103 respectively, the two separating cylinders 119 are symmetrically and respectively mounted on the compacting plate 103, the type of the separating cylinders 119 is SCX25, the separating plate 104 is mounted below the compacting plate 103, when unloading is required, the two separating cylinders 119 can push the separating plate 104, the separating plate 104 can push the waste clamped on the compacting plate 103 out to allow the waste to fall off, the upper end of the separating plate 104 is connected with the two separating cylinders 119, the two through holes 117 are symmetrically arranged on the left side and the right side of the separating plate 104 respectively, and the two through holes 117 are aligned with the two screw holes 116, the quantity of binding nail 105 is two, two the outside of binding nail 105 all has external screw thread 118, two binding nail 105 is located two respectively in the screw hole 116, two binding nail 105 all passes through respectively drive member connects on the compacting plate 103, works as compacting plate 103 is with the foam waste compaction back, binding nail 105 passes through drive member promotes to pass screw hole 116 with through-hole 117, binding nail 105 can rotate, through rotating external screw thread 118 can with by the compacting waste connection, let compacting plate 103 can be more firm grasp the waste material, realized compacting plate 103 when mentioning the waste material, the waste material can not follow compacting plate 103 goes up the landing for the unloading of this equipment is more stable and high-efficient.

Secondly, the mounting base 106 is fixedly connected with the compacting plate 103 and is positioned on one side of the compacting plate 103 far away from the separating plate 104; the pushing cylinder 107 is connected with the mounting base 106 and located on one side, far away from the compacting plate 103, of the mounting base 106, the driving motors 108 are connected with the pushing cylinder 107 and located on one side, close to the compacting plate 103, of the pushing cylinder 107, the driving shafts of the driving motors 108 are connected with the fastening nails 105, the number of the mounting bases 106 is two, the two mounting bases 106 are respectively installed above the two screw holes 116, the pushing cylinder 107 is installed at the upper ends of the two mounting bases 106, the type of the pushing cylinder 107 is SCX25, the output ends of the two pushing cylinders 107 are connected with the driving motors 108, the type of the driving motors 108 is OMR-125, the output ends of the two driving motors 108 are respectively connected with the two fastening nails 105, so that after the compacting plate 103 compacts waste materials, the two fastening nails 105 are pushed by the pushing cylinder 107 to be inserted into the waste materials, the two driving motors 108 drive the two fastening nails 105 to rotate, the two fastening nails 105 are completely pushed into the waste materials, and the driving efficiency of the two fastening nails is improved by the driving cylinders 107 and the motors 105.

Meanwhile, the number of the anti-slip strips 109 is multiple, the anti-slip strips 109 are respectively and uniformly distributed on the inner wall of the compacting plate 103, the anti-slip strips 109 are uniformly distributed on the inner wall of the compacting plate 103, and the anti-slip strips 109 increase the friction force between the compacting plate 103 and the waste materials, so that the connection between the compacting plate 103 and the waste materials is firmer.

In addition, the movable shaft 110 is rotatably connected with the compression box 101 and is positioned on one side of the compression box 101 away from the hydraulic mechanism 102; the movable door 111 is fixedly connected with the movable shaft 110 and is positioned on one side of the movable shaft 110 close to the compression box 101; the electric hydraulic rod 113 is rotatably connected with the compression box 101 and is positioned on one side of the compression box 101 away from the movable shaft 110, and the slide rail 114 is fixedly connected with the movable door 111 and is positioned on one side of the movable door 111 away from the movable shaft 110; the sliding block 115 is slidably connected with the sliding rail 114, and is rotatably connected with the electric hydraulic rod 113, and is located on one side of the sliding rail 114 close to the electric hydraulic rod 113, the movable shaft 110 is rotatably installed at the lower end of the discharge port of the compression box 101, the movable door 111 is fixedly installed on the movable shaft 110, the electric hydraulic rod 113 is installed at the upper end of the discharge port of the compression box 101, the electric hydraulic rod 113 is ANT-52 in type, the sliding rail 114 is installed on the movable door 111, the sliding block 115 is installed on the sliding rail 114, the sliding block 115 is connected with the output end of the electric hydraulic rod 113, and thus, through the extension of the electric hydraulic rod 113, the sliding block 115 slides towards the lower end of the sliding rail 114, the movable door 111 is pushed by the electric hydraulic rod 113 to incline into the compression box 101, a slope is formed in the compression box 101, at this time, the compaction plate 103 has grabbed the waste material at the top end of the compression box 101, the separation cylinder 119 pushes the separation plate 104 to push the waste material from the compaction plate 103, at this time, the movable door falls down to the movable door 111, and the movable door 111 slides out through the discharge port, and the movable door 111, so that the work intensity of the compression box 101 is reduced, and the waste material discharge port is not needed to be taken out, and the work intensity is reduced, and the waste material is increased.

By using the foam processing waste recycling device of the embodiment, the hydraulic mechanism 102 pushes the compacting plate 103 to compact waste, then the two pushing cylinders 107 and the driving motor 108 drive the two fastening nails 105 into the waste to fasten the waste on the compacting plate 103, the compacting plate 103 pulls the waste to the upper end of the compression box 101, at this time, the electric hydraulic rod 113 pushes the movable door 111 to form a slope in the compression box 101, then the two separating cylinders 119 push the separating plate 104 and reversely drive the two fastening nails 105 to separate the waste from the compacting plate 103, the waste drops on the movable door 111, and the movable door 111 slides out of the discharge port, so that people do not need to take out the compressed waste from the compression box 101, labor intensity is reduced, and working efficiency is improved.

The second embodiment of the present application is:

on the basis of the first embodiment, please refer to fig. 4, which is a schematic structural diagram of a feeding assembly, and the recycling apparatus for foam processing waste of this embodiment further includes a feeding assembly, which includes a feeding cylinder 201, a crushing roller 202 and a driving motor 203.

For this embodiment, the feeding assembly is connected to the compression box 101, and the feeding assembly is used to crush the waste material.

The feeding cylinder 201 is fixedly connected with the compression box 101 and is positioned on one side of the compression box 101, which is far away from the movable door 111; the number of the crushing rollers 202 is two, the two crushing rollers 202 are symmetrically installed in the feeding cylinder 201 respectively, the number of the driving motors 203 is two, the two driving motors 203 are connected with the two crushing rollers 202 respectively, the feeding cylinder 201 is installed at the feeding port, the two crushing rollers 202 are installed in the feeding cylinder 201, the two crushing rollers 202 are vertically installed oppositely, the two crushing rollers 202 are driven by the driving motors 203, so that foam waste is placed in the feeding cylinder 201 and can be crushed into foam particles with similar sizes by the two crushing rollers 202, more waste is filled in the compression box 101, and the compaction effect of the compaction plate 103 on the foam particles with similar sizes is higher.

With the foam processing waste recycling device of the embodiment, when foam waste is put into the feeding cylinder 201, the foam waste can be crushed into foam particles with similar sizes by the two crushing rollers 202, so that more waste is loaded into the compression box 101, and the compacting plate 103 has a higher compacting effect on the foam particles with similar sizes.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (8)

1. A foam processing waste recovery device comprises a compression box, a hydraulic mechanism and a blanking assembly, wherein the hydraulic mechanism is positioned at the upper end of the compression box, the blanking assembly is connected with the compression box, and the device is characterized in that,

the device also comprises a fastening component;

the fastening component comprises a compaction plate, a separation cylinder, a separation plate, fastening nails and a driving component, wherein the compaction plate is connected with the hydraulic mechanism and is positioned in the compression box, the separation cylinder is connected with the compaction plate and is positioned at one side of the hydraulic mechanism, the separation plate is connected with the separation cylinder and is positioned at one side of the compaction plate, the separation cylinder is close to the compaction plate, the compaction plate is provided with two screw holes which are symmetrically distributed on the compaction plate respectively, the separation plate is provided with two through holes which are aligned with the screw holes respectively, the fastening nails are two in number and two in position, the fastening nails are respectively provided with two external threads, and the driving component is connected with the compaction plate.

2. The foam processing waste recovery device of claim 1,

the driving component comprises a mounting base and a pushing cylinder, and the mounting base is fixedly connected with the compaction plate and is positioned on one side of the compaction plate, which is far away from the separation plate; the pushing cylinder is connected with the mounting base and is positioned on one side, far away from the compacting plate, of the mounting base.

3. The foam processing waste recovery device of claim 2,

the driving component further comprises a driving motor, the driving motor is connected with the pushing cylinder and is positioned on one side, close to the compacting plate, of the pushing cylinder, and a driving shaft of the driving motor is connected with the fastening nail.

4. The foam processing waste recovery device of claim 1,

the compacting plate is provided with a plurality of anti-slip strips which are uniformly distributed on the inner wall of the compacting plate.

5. The foam processing waste recovery device of claim 1,

the blanking assembly comprises a movable shaft, a movable door and an electric hydraulic rod, wherein the movable shaft is rotatably connected with the compression box and is positioned on one side of the compression box, which is far away from the hydraulic mechanism; the movable door is fixedly connected with the movable shaft and is positioned on one side of the movable shaft close to the compression box; the electric hydraulic rod is rotatably connected with the compression box and is positioned on one side, far away from the movable shaft, of the compression box.

6. The foam processing waste recovery device of claim 5,

the blanking assembly further comprises a slide rail and a slide block, the slide rail is fixedly connected with the movable door and is positioned on one side, far away from the movable shaft, of the movable door; the sliding block is connected with the sliding rail in a sliding mode, is connected with the electric hydraulic rod in a rotating mode, and is located on one side, close to the electric hydraulic rod, of the sliding rail.

7. The foam processing waste recovery device of claim 5,

the foam processing waste recovery device further comprises a feeding assembly, and the feeding assembly is connected with the compression box.

8. The foam processing waste recovery device of claim 7,

the feeding assembly comprises a feeding barrel, a crushing roller and a driving motor, and the feeding barrel is fixedly connected with the compression box and is positioned on one side of the compression box, which is far away from the movable door; the number of the crushing rollers is two, the two crushing rollers are symmetrically installed in the feeding cylinder respectively, the number of the driving motors is two, and the two driving motors are connected with the two crushing rollers respectively.

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