CN218902152U - Waste glass slag treatment protection device - Google Patents

Abstract

The utility model provides a waste glass slag treatment protection device, which comprises a treatment box, wherein the upper end of the treatment box is communicated with a feed pipe, mounting plates are arranged at the front end and the rear end of the feed pipe, electromagnets are arranged in the mounting plates and penetrate through the left end and the right end of the mounting plates, a first transparent plate is arranged at the left side above the mounting plates and is in sliding connection with the upper end of the feed pipe, a second transparent plate is arranged at the right side above the mounting plates and is in sliding connection with the upper end of the feed pipe, two connecting plates in symmetrical structures are arranged at the lower ends of the first transparent plate and the second transparent plate and are respectively positioned at the front side and the rear side of the feed pipe, first magnetic blocks are arranged at the inward ends of the connecting plates and are positioned at the outward sides of the electromagnets and are mutually exclusive to each other, and springs are arranged at four corner positions between the connecting plates and the mounting plates.

Description

Waste glass slag treatment protection device

Technical Field

The utility model relates to a waste glass slag treatment protection device, and belongs to the technical field of waste glass slag treatment.

Background

The waste glass slag is generally formed after glass products are broken, and because the waste glass slag is a renewable and reusable resource and has great recovery value, the waste glass slag is often subjected to independent recovery treatment, when the waste glass slag is recovered and utilized, the waste glass slag is often required to be subjected to crushing treatment, when the waste glass slag is subjected to crushing treatment, the waste glass slag can be put into a crushing box for crushing operation, the crushing box is common equipment for crushing articles in life, the crushing box mainly comprises a shell and an internal crushing roller or crushing cutter, and a feed inlet and a discharge outlet are formed in the shell.

In the prior art, the crushing box is divided into two main types of open type and closed type according to the opening and closing of the feed inlet, the open type crushing box is convenient for continuous feeding, but when the crushing box is applied to the crushing of waste glass slag, the hardness of the waste glass slag is higher, the splashing phenomenon is easy to occur during the crushing, the edge of the waste glass slag is sharp, the waste glass slag splashed from the feed inlet is easy to scratch operators, and the potential safety hazard is higher; the opening and closing of the feed inlet of the closed crushing box are generally finished manually, when the feed inlet is closed, the cover plate of the feed inlet is firstly covered on the feed inlet, then the locking fixing structure is operated to seal the feed inlet, after one-time feeding is finished, the feed is stopped, the feed inlet is sealed again, then crushing treatment is carried out, and after the crushing is finished, the process is repeated for the next batch of materials, so that the crushing efficiency is greatly reduced.

Therefore, there is a need to design a waste glass residue treatment protection device that combines safety and working efficiency to solve the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a waste glass slag treatment protection device so as to solve the problems in the background art, achieve the purpose of quickly plugging a feed inlet, prevent the waste glass slag from splashing to scratch operators and improve the working efficiency.

In order to achieve the above object, the present utility model is realized by the following technical scheme: including handling the case, it is provided with the inlet pipe to handle case upper end intercommunication, it is provided with the discharging pipe of taking the ooff valve to handle case lower extreme intercommunication, both ends all are provided with the mounting panel around the inlet pipe, be provided with electro-magnet and electro-magnet in the mounting panel and run through the left and right sides both ends of mounting panel, mounting panel top left side is provided with first transparent plate and inlet pipe upper end sliding connection, mounting panel top right side is provided with second transparent plate and inlet pipe upper end sliding connection, the laminating each other towards the inner end of first transparent plate and second transparent plate, two connecting plates that are symmetrical structure are all installed to first transparent plate and second transparent plate lower extreme and are located the front and back side of inlet pipe respectively, the inner end towards the inner end of connecting plate is provided with first magnetic path, first magnetic path is located electro-magnet towards outside and first magnetic path and electro-magnet mutual exclusion arrangement, four edges position between connecting plate and the mounting panel all is provided with the spring, first magnetic path and electro-magnet all are located the spring inboard.

Further, a first crushing roller and a second crushing roller are respectively arranged in the treatment box, the first crushing roller and the second crushing roller are mutually meshed, and the meshed position of the first crushing roller and the second crushing roller is located at the right lower side of the outlet of the feeding pipe.

Further, both sides all are provided with the guide bar around the inlet pipe, the guide bar runs through the mounting panel respectively and two connecting plates of corresponding one side and the guide bar is located the spring downside, the guide bar is all sliding connection with two connecting plates of corresponding one side.

Further, the inward end of the first magnetic block is provided with a protecting piece, the protecting piece is located on the outward side of the electromagnet, and the protecting piece is provided with a through hole penetrating through the left surface and the right surface of the protecting piece.

Further, the right end face of the first transparent plate is recessed leftwards to form a groove, and the left end of the second transparent plate is provided with a lug which is positioned in the groove.

Further, a second magnetic block is arranged on the left wall of the groove, an iron sheet is arranged at the right end of the protruding block, and the iron sheet is attached to the second magnetic block.

The utility model has the beneficial effects that: according to the waste glass slag treatment protection device, after the electromagnet is electrified, a magnetic field is generated to enable the first magnetic block and the electromagnet to generate repulsive force, the repulsive force can push the first magnetic block to move outwards to drive the connecting plate to move outwards, the connecting plate can simultaneously drive the first transparent plate and the second transparent plate to slide outwards to enable the feeding hole of the feeding pipe to be opened, at the moment, the spring is stretched to generate elastic force, after the waste glass slag is added, the electromagnet is powered off, under the action of the elastic force generated by the spring, the connecting plate can simultaneously drive the first transparent plate and the second transparent plate to slide inwards, when the inward ends of the first transparent plate and the second transparent plate are mutually attached, the opening of the feeding pipe is blocked by the blocking column, the purpose of quickly opening and closing the feeding hole is achieved, the waste glass slag is prevented from splashing to scratch an operator, the quickly opening and closing the feeding hole plays a role of improving working efficiency, and the situation of waste glass slag in a treatment box can be directly observed through the first transparent plate and the second transparent plate.

When the inward ends of the first transparent plate and the second transparent plate are mutually attached, the convex blocks are positioned in the grooves, and the second magnetic blocks can adsorb the iron sheets to enable the inward ends of the first transparent plate and the second transparent plate to be mutually attached more tightly, so that the purpose of improving the plugging effect is achieved.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of a waste glass residue treatment protection device according to the present utility model;

FIG. 2 is an enlarged view at A;

FIG. 3 is a top view of the waste glass residue treatment guard of the present utility model shown in an open position;

FIG. 4 is a cross-sectional view of a waste glass slag treatment guard of the present utility model;

in the figure: 1-processing box, 2-mounting plate, 201-guide bar, 202-connecting plate, 203-electromagnet, 204-spring, 205-first magnet, 206-rubber pad, 3-inlet pipe, 301-first transparent plate, 302-second transparent plate, 4-groove, 401-second magnet, 402-iron sheet, 403-bump, 5-discharging pipe, 6-first crushing roller, 7-second crushing roller.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Referring to fig. 1 and fig. 4, the present utility model provides a technical solution: the utility model provides a protection device is handled to useless glass sediment, including handling case 1, handling case 1 is used for carrying out broken operation to useless glass sediment, handling case 1 upper end intercommunication is provided with inlet pipe 3, inlet pipe 3 is used for adding useless glass sediment to handling case 1, handling case 1 lower extreme intercommunication is provided with the discharging pipe 5 of taking the ooff valve, discharging pipe 5 is used for deriving the useless glass sediment that is handling through broken, handling case 1 is provided with first broken roller 6 and second broken roller 7 and first broken roller 6 and the broken roller 7 intermeshing arrangement of second respectively, first broken roller 6 and the broken roller 7 of second are all used for the broken operation to useless glass sediment, the meshing department of first broken roller 6 and the broken roller 7 of second is located the direct downside of inlet pipe 3 export.

When the glass slag crushing device is used, firstly, waste glass slag is added into the treatment box 1 through the feed pipe 3, then, a working circuit of driving equipment of the treatment box 1 is connected, the first crushing roller 6 and the second crushing roller 7 are relatively rotated through the driving equipment, and as the first crushing roller 6 and the second crushing roller 7 are mutually meshed and arranged, the waste glass slag entering the treatment box 1 can be crushed by the first crushing roller 6 and the second crushing roller 7, and after the waste glass slag entering the treatment box 1 completes crushing operation, a switch valve is opened to enable the waste glass slag to be discharged from the discharge pipe 5, so that the purpose of crushing the waste glass slag is realized.

Referring to fig. 1, 2 and 3, the front and rear ends of the feed pipe 3 are provided with mounting plates 2, the mounting plates 2 are used for mounting electromagnets 203, the electromagnets 203 are arranged in the mounting plates 2 and penetrate through the left and right ends of the mounting plates 2, a first transparent plate 301 is arranged on the left side above the mounting plates 2 and is slidably connected with the upper end of the feed pipe 3, the first transparent plate 301 is used for blocking the opening of the feed pipe 3 under the coaction of a second transparent plate 302, a second transparent plate 302 is arranged on the right side above the mounting plates 2 and is slidably connected with the upper end of the feed pipe 3, the inward ends of the first transparent plate 301 and the second transparent plate 302 are mutually attached to prevent waste glass residues from splashing out of the feed inlet, two symmetrically structured connecting plates 202 are arranged at the lower ends of the first transparent plate 301 and the second transparent plate 302 and are respectively positioned on the front and rear sides of the feed pipe 3, the connecting plate 202 is used for installing a first magnetic block 205, the inward end of the connecting plate 202 is provided with the first magnetic block 205, the first magnetic block 205 is used for mutually rejecting a magnetic field generated by electrifying the electromagnet 203, the first magnetic block 205 is positioned at the outward side of the electromagnet 203, the first magnetic block 205 and the electromagnet 203 are mutually rejecting and arranged for generating repulsive force for driving the connecting plate 202 to move, four angular positions between the connecting plate 202 and the mounting plate 2 are respectively provided with a spring 204, the springs 204 are used for generating elastic force, the first magnetic block 205 and the electromagnet 203 are respectively positioned at the inner sides of the springs 204, the front side and the rear side of the feeding pipe 3 are respectively provided with a guide rod 201, the guide rods 201 are used for guiding the movement of the connecting plate 202, the guide rods 201 respectively penetrate through the mounting plate 2 and the two connecting plates 202 at the corresponding sides, and the guide rods 201 are positioned at the lower sides of the springs 204, the guide rod 201 is slidably connected with two connecting plates 202 on the corresponding side.

When in use, when the electromagnet 203 is electrified, a mutual repulsive magnetic field is generated between the electromagnet 203 and the first magnetic block 205, a repulsive force is generated between the first magnetic block 205 and the electromagnet 203, the repulsive force pushes the first magnetic block 205 to move outwards, the first magnetic block 205 moves outwards to drive the connecting plate 202 to move outwards along the guide rod 201, the connecting plate 202 moves outwards to simultaneously drive the first transparent plate 301 and the second transparent plate 302 to slide outwards, the first transparent plate 301 and the second transparent plate 302 slide outwards to open the feed inlet of the feed pipe 3, then a working circuit of a driving device of the processing box 1 is connected, the first crushing roller 6 and the second crushing roller 7 are relatively rotated through the driving device, and at the moment, the spring 204 is stretched to generate elastic force, then, after the waste glass slag is added into the treatment box 1 through the feeding pipe 3, the electromagnet 203 is powered off, under the action of elastic force generated by the spring 204, the connecting plate 202 moves inwards along the guide rod 201 and drives the first transparent plate 301 and the second transparent plate 302 to simultaneously slide inwards, when the inward ends of the first transparent plate 301 and the second transparent plate 302 are mutually attached, the opening of the feeding pipe 3 is blocked by a column, the purpose of quickly blocking a feeding hole is achieved, the working efficiency is improved, the operator is prevented from being scratched by the waste glass slag splashing, and the broken condition of the waste glass slag can be directly observed through the first transparent plate 301 and the second transparent plate 302 due to the fact that the first transparent plate 301 and the second transparent plate 302 are made of transparent materials.

Referring to fig. 1 and 2, a protection piece is disposed at an inward end of the first magnetic block 205 and located at an outward side of the electromagnet 203, the protection piece may adopt a rubber pad 206, the rubber pad 206 is used for buffering collision between the first magnetic block 205 and the electromagnet 203, a through hole penetrating through a left surface and a right surface of the protection piece is disposed on the protection piece, magnetic transmission between the first magnetic block 205 and the electromagnet 203 is not affected by the arrangement of the through hole, a groove 4 is formed by recessing a right end surface of the first transparent plate 301 leftwards, the groove 4 is used for mounting a second magnetic block 401, a bump 403 is mounted at a left end of the second transparent plate 302 and located in the groove 4, the bump 403 is used for mounting an iron sheet 402, the second magnetic block 401 is mounted on a left wall of the groove 4, the second magnetic block 401 is used for adsorbing the iron sheet 402, the iron sheet 402 is mounted at a right end of the bump 403, and the iron sheet 402 is attached to the second magnetic block 401.

When the electromagnet 203 is powered off, under the action of the elastic force generated by the spring 204, the connecting plate 202 moves inwards along the guide rod 201, so that the electromagnet 203 and the first magnetic block 205 can be violently impacted, the rubber pad 206 can buffer the impact between the first magnetic block 205 and the electromagnet 203, when the inward ends of the first transparent plate 301 and the second transparent plate 302 are mutually attached, the protruding block 403 is positioned in the groove 4, and the second magnetic block 401 can absorb the iron sheet 402 to enable the inward ends of the first transparent plate 301 and the second transparent plate 302 to be mutually attached more tightly, so that the purpose of improving the plugging effect is achieved.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. A waste glass slag treatment protection device is characterized in that: including handling case (1), handling case (1) upper end intercommunication is provided with inlet pipe (3), handling case (1) lower extreme intercommunication is provided with discharging pipe (5) of taking the ooff valve, both ends all are provided with mounting panel (2) around inlet pipe (3), be provided with electro-magnet (203) in mounting panel (2) and electro-magnet (203) run through both ends about mounting panel (2), mounting panel (2) top left side is provided with first transparent plate (301) and inlet pipe (3) upper end sliding connection, mounting panel (2) top right side is provided with second transparent plate (302) and inlet pipe (3) upper end sliding connection, first transparent plate (301) and second transparent plate (302) lower extreme all install two and are connecting plate (202) that symmetrical structure and two connecting plate (202) are located respectively in front side of (3) and magnet (203) are located in the magnet (203) of the first transparent plate (301) and second transparent plate (302) towards one side, magnet (203) are arranged outside each other, four edges and corners between the connecting plate (202) and the mounting plate (2) are provided with springs (204), and the first magnetic blocks (205) and the electromagnets (203) are located inside the springs (204).

2. The apparatus of claim 1, wherein: the treatment box (1) is respectively provided with a first crushing roller (6) and a second crushing roller (7), the first crushing roller (6) and the second crushing roller (7) are meshed with each other, and the meshing position of the first crushing roller (6) and the second crushing roller (7) is located at the right lower side of the outlet of the feeding pipe (3).

3. The apparatus of claim 1, wherein: guide rods (201) are arranged on the front side and the rear side of the feeding pipe (3), the guide rods (201) penetrate through the mounting plate (2) and two connecting plates (202) on the corresponding side respectively, the guide rods (201) are located on the lower sides of springs (204), and the guide rods (201) are in sliding connection with the two connecting plates (202) on the corresponding side respectively.

4. The apparatus of claim 1, wherein: the first magnetic block (205) is provided with a protecting piece towards the inner end and the protecting piece is positioned on the outward side of the electromagnet (203), and the protecting piece is provided with a through hole penetrating through the left surface and the right surface of the protecting piece.

5. The apparatus of claim 1, wherein: the right end face of the first transparent plate (301) is recessed leftwards to form a groove (4), a protruding block (403) is arranged at the left end of the second transparent plate (302), and the protruding block (403) is located in the groove (4).

6. The apparatus of claim 5, wherein: the second magnetic block (401) is arranged on the left wall of the groove (4), the iron sheet (402) is arranged at the right end of the protruding block (403), and the iron sheet (402) is attached to the second magnetic block (401).

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