CN214717088U - A breaker for glass retrieves - Google Patents

Abstract

The utility model relates to the technical field of broken glass products, in particular to a breaking device for glass recovery, which comprises a machine body, wherein a breaking cavity is arranged in the machine body, and an anti-sputtering plate, a material storage plate, a primary breaking mechanism and a secondary breaking mechanism are sequentially arranged in the breaking cavity along the direction of a feeding hole of the machine body; offer the fluting of storing that is used for depositing anti-splash board and storage plate on the organism of broken chamber both sides, power unit passes through drive mechanism synchronous drive anti-splash board and storage plate and each other is reverse movement between broken chamber and storage fluting, can carry out glass waste material to broken intracavity under the state that one-level crushing mechanism and second grade crushing mechanism do not shut down, and the glass sediment that one-level crushing mechanism and second grade crushing mechanism produced is kept off by the storage plate, also can not follow the pan feeding mouth and fly away.

Description

A breaker for glass retrieves

Technical Field

The utility model relates to a broken glassware technical field, concretely relates to breaker for glass retrieves.

Background

At present, when glass products are produced, glass waste materials produced in production are often required to be recycled, so that the glass waste materials are firstly crushed; however, when the glass is crushed, the glass is rolled by the crusher, so that glass slag splashes out of the feeding port, and the glass is greatly damaged by workers.

The application numbers are: patent cn20420316733.x discloses a glass breaking mechanism, which prevents the glass slag from splashing out by arranging an electrically controlled door at a feeding port, but has the following disadvantages;

when the air cylinder for crushing glass stops, the electric control door is opened, glass waste is thrown, if the electric control door is opened without stopping, glass slag is easy to splash from the feeding port under the action of the crushing pressing plate, and workers are injured; but if the glass waste is thrown each time, the cylinder is required to be stopped,

this has greatly reduced production efficiency again, so the urgent need can be under the state that breaker does not shut down, carry out glass waste material and put in, and the glass sediment can not have the equipment that the pan feeding mouth splashes out.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a breaker for glass retrieves solves above-mentioned problem.

A crushing device for glass recovery comprises a machine body, wherein a crushing cavity is formed in the machine body, and an anti-sputtering plate, a material storage plate, a primary crushing mechanism and a secondary crushing mechanism are sequentially arranged in the crushing cavity along the direction of a material inlet of the machine body;

the machine body on the two sides of the crushing cavity is provided with a storage slot for storing the anti-sputtering plate and the material storage plate, and the power mechanism synchronously drives the anti-sputtering plate and the material storage plate to move in the reverse direction between the crushing cavity and the storage slot through the transmission mechanism.

The power mechanism comprises a driving gear, the transmission mechanism is a driven gear, racks are embedded in the lower end face of the anti-sputtering plate and the upper end face of the material storage plate, the driving gear is meshed with the driven gear, a connecting through groove is formed in the storage groove, and the driven gear penetrates through the connecting through groove and is meshed with the racks.

And slope-shaped material guide plates are further mounted on the machine bodies on two sides of the crushing cavity and are positioned above the material storage plates.

The storage slot is provided with a scraper towards the notch of the crushing cavity, and the scraper is used for stopping the glass waste on the storage plate from entering the storage slot.

The primary crushing mechanism comprises a driving motor II, a crushing main shaft and a crushing blade;

the output end of the driving motor II is coaxially and fixedly connected with the crushing main shaft, and the crushing blades are uniformly distributed on the circumferential surface of the crushing main shaft.

The secondary crushing mechanism comprises a driving motor III and at least two crushing rollers;

the two ends of the crushing roller are rotatably installed on the crushing roller supporting frame through bearings, the crushing rollers are connected through a crushing roller transmission mechanism, and the output end of the driving motor III is fixedly connected with one of the crushing rollers in a coaxial mode.

The conveying through groove is formed in the machine body on one side below the crushing roller, and the feeding end of the flood dragon conveyor extends into the conveying through groove.

Compared with the prior art, the utility model discloses the beneficial effect of equipment is:

the utility model discloses a, the equipment of the utility model, power unit can drive anti-sputtering board and storage plate each other and be reverse movement in step, when the storage plate stretches out to the broken intracavity, anti-sputtering board is taken in and is stored the fluting, the pan feeding mouth is opened, the workman can throw in glass waste material to the broken intracavity, glass waste material is deposited temporarily in the temporary storage space that the upper surface of storage plate and broken chamber are constituteed, glass dregs that splashes that first grade crushing mechanism and second grade crushing mechanism produced are supported by the lower surface of storage plate and are blocked, can not fly out from the pan feeding mouth; the first-stage crushing mechanism and the second-stage crushing mechanism do not need to be stopped, when the storage plate is taken in the storage slot, and the anti-sputtering plate extends out of the crushing cavity, the glass waste on the storage plate falls into the first-stage crushing mechanism and the second-stage crushing mechanism, and the splashed glass slag generated by the first-stage crushing mechanism and the second-stage crushing mechanism is resisted by the anti-sputtering plate.

Two, the utility model discloses equipment, the broken mechanism of one-level use broken blade striking glass waste earlier, make the glass waste material of great piece broken into the fritter waste material, pulverize by the broken main shaft of the broken mechanism of second grade again, multistage breakage, the crushing effect preferred.

Drawings

Fig. 1 is a schematic view of a crushing apparatus for glass recovery according to the present embodiment.

FIG. 2 is a schematic view of a squeegee.

In the drawings: organism 1, anti-splash board 2, storage plate 3, broken chamber 4, storage fluting 5, slope shape stock guide 6, driving gear 7, driven gear 8, rack 9, connect logical groove 10, pan feeding mouth 11, scraper blade 12, broken main shaft 13, broken blade 14, crushing roller 15, the logical groove 16 of conveying, flood dragon conveyer 17, connecting gear 19.

Detailed Description

In the following, the technical solutions in the embodiments of the present invention will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

A crushing device for glass recovery comprises a machine body 1, wherein a crushing cavity 4 is formed in the machine body 1, and an anti-sputtering plate 2, a storage plate 3, a primary crushing mechanism and a secondary crushing mechanism are sequentially arranged in the crushing cavity 4 along the direction of a feeding port 11 of the machine body 1; the machine body 1 on two sides of the crushing cavity 4 is provided with a storage slot 5 for storing the anti-sputtering plate 2 and the storage plate 3, and the power mechanism synchronously drives the anti-sputtering plate 2 and the storage plate 3 to move in opposite directions between the crushing cavity 4 and the storage slot 5 through the transmission mechanism; after the storage plate 3 enters the crushing cavity 4, the glass waste is temporarily stored and prevented from being sputtered, and after the anti-sputtering plate 2 enters the crushing cavity 4, the glass waste is prevented from being sputtered and the feeding port 11 is sealed.

When the material storage plate 3 extends out of the crushing cavity 4, the anti-sputtering plate 2 is taken into the storage slot 5, the material inlet 11 is opened, a worker can put glass waste into the crushing cavity 4, the glass waste is temporarily stored in a temporary storage space formed by the upper surface of the material storage plate 3 and the crushing cavity 4, and splashed glass slag generated by the primary crushing mechanism and the secondary crushing mechanism is resisted by the lower surface of the material storage plate 3 and cannot splash from the material inlet 11; when the storage plate 3 is put into the storage slot 5 and the anti-sputtering plate 2 extends out of the crushing cavity 4, the glass waste on the storage plate 3 falls into the first-stage crushing mechanism and the second-stage crushing mechanism, and the splashed glass slag generated by the first-stage crushing mechanism and the second-stage crushing mechanism is resisted by the anti-sputtering plate 2.

Specifically, power unit includes driving gear 7, drive mechanism is driven gear 8, and driving gear 7 and the main shaft fixed connection of an output motor, in this embodiment, the depth of considering broken chamber 4 is longer, so still between driven gear 8 and driving gear 7, connecting gear 19 has been added, just so can reduce the radius of driving gear 7, shorten the width of organism 1, driven gear 8 all is connected with the pivot rotation through the bearing with connecting gear 19, and the pivot is fixed on organism 1.

Specifically, rack 9 is embedded in both the lower end face of the anti-sputtering plate 2 and the upper end face of the storage plate 3, and the storage plate 3 is used for storing glass waste, so in this embodiment, the rack 9 is only embedded in the part of the anti-sputtering plate 2 and the storage plate 3 which are not moved out of the storage slot 5, so as to prevent the glass waste from entering the tooth grooves on the rack 9.

Specifically, the driving gear 7 is meshed with the driven gear 8, the storage slot 5 is provided with a connecting through groove 10, the driven gear 8 is connected with the through groove 10 in a penetrating mode and meshed with the rack 9, and the driving gear 7 rotates to sequentially drive the connecting gear 19, the driven gear 8 and the rack 9.

Specifically, the machine body 1 on two sides of the crushing cavity 4 is also provided with a slope-shaped guide plate 6, and the slope-shaped guide plate 6 is positioned above the material storage plate 3, so that the design aims to consider that a certain time is required when the first-stage crushing mechanism and the second-stage crushing mechanism crush the glass waste materials, and if the glass waste materials stored in the crushing cavity 4 and the material storage plate 3 are quickly poured into the first-stage crushing mechanism and the second-stage crushing mechanism, an excessive throwing phenomenon can occur, so that the crushing effect is reduced, the speed of the glass waste materials entering the first-stage crushing mechanism is limited through the slope-shaped guide plate 6, and the excessive throwing phenomenon in a short time is avoided;

in addition, when the storage plate 3 retracts into the storage slot 5 and the anti-sputtering plate 2 extends into the crushing cavity 4, the slope-shaped guide plate 6 limits the speed of the glass waste entering the first-stage crushing mechanism, so that the glass waste cannot fall into the first-stage crushing mechanism quickly and completely, and even if the glass slag splashes out of the gap between the storage plates 3, the glass waste can be blocked by the glass waste entering the first-stage crushing mechanism in the crushing cavity 4.

Specifically, store fluting 5 and install scraper blade 12 towards the notch department of broken chamber 4, scraper blade 12 is the wedge towards the terminal surface in broken chamber 4, and when fluting 5 was stored in storage plate 3 income, scraper blade 12 offsets with the glass waste material on the storage plate 3, stops that the glass waste material on the storage plate 3 gets into and stores in the fluting 5.

Specifically, the primary crushing mechanism comprises a driving motor II, a crushing main shaft 13 and a crushing blade 14;

driving motor II fixed mounting is in organism 1, and driving motor II's output and the coaxial fixed connection of broken main shaft 13, the equipartition has on the periphery of broken main shaft 13 broken blade 14, broken blade 14 are used for striking glass waste material, make glass waste material tentatively smash, reduce the volume of glass waste material.

Specifically, the secondary crushing mechanism comprises a driving motor III and at least two crushing rollers 15;

the two ends of each crushing roller 15 are rotatably mounted on the crushing roller supporting frame through bearings, the crushing rollers 15 are connected through a crushing roller transmission mechanism, the crushing roller transmission mechanism is a gear, the gear is coaxially and fixedly connected with the crushing rollers, the gears on the two crushing rollers 15 are meshed, and the output end of a driving motor III is coaxially and fixedly connected with one of the crushing rollers 15 and is used for driving the crushing rollers 15 to rotate;

the glass waste after the crushing of broken blade 14 under the effect of gravity, enters into two crushing rollers 15 on, and two crushing rollers 15 are reverse rotation each other under the effect of gear, and glass waste is crushed by two crushing rollers 15, the further volume that reduces glass waste.

Specifically, seted up the logical groove 16 of conveying on the organism 1 of crushing roller 15 below one side, flood dragon conveyer 17's pan feeding end extends to in the logical groove 16 of conveying, the broken glass waste material of being broken by crushing roller 15 is transmitted outside organism 1 by flood dragon conveyer 17.

The working principle is as follows:

when the material is fed, the output motor drives the driving gear 7 to rotate, the driving gear 7 is meshed with the connecting gear 19, the connecting gear 19 is meshed with the driven gear 8, the driven gear 8 is meshed with the rack 9, the rack 9 drives the anti-sputtering plate 2 and the material storage plate 3 to move in a reverse direction between the crushing cavity 4 and the storage slot 5, when the material storage plate 3 extends out of the crushing cavity 4, the anti-sputtering plate 2 is taken into the storage slot 5, the material inlet 11 is opened, a worker can feed glass waste into the crushing cavity 4, the glass waste is temporarily stored in a temporary storage space formed by the upper surface of the material storage plate 3 and the crushing cavity 4, and splashed glass slag generated by the primary crushing mechanism and the secondary crushing mechanism is resisted by the lower surface of the material storage plate 3 and cannot fly out of the material inlet 11; when the storage plate 3 is put into the storage slot 5 and the anti-sputtering plate 2 extends out of the crushing cavity 4, the glass waste on the storage plate 3 falls into the first-stage crushing mechanism and the second-stage crushing mechanism, and the splashed glass slag generated by the first-stage crushing mechanism and the second-stage crushing mechanism is resisted by the anti-sputtering plate 2.

The above description is for the detailed description of the preferred possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the present invention, and all equivalent changes or modifications accomplished under the technical spirit suggested by the present invention should fall within the scope of the present invention.

Claims (7)

1. The utility model provides a breaker for glass retrieves which characterized in that: the machine comprises a machine body (1), wherein a crushing cavity (4) is formed in the machine body (1), and an anti-sputtering plate (2), a material storage plate (3), a primary crushing mechanism and a secondary crushing mechanism are sequentially arranged in the crushing cavity (4) along the direction of a feeding port (11) of the machine body (1);

offer on organism (1) of broken chamber (4) both sides and be used for depositing storage fluting (5) of preventing splash board (2) and storage board (3), power unit passes through drive mechanism synchronous drive and prevents splash board (2) and storage board (3) and each other is reverse movement between broken chamber (4) and storage fluting (5).

2. A breaking device for glass recycling according to claim 1, characterized in that: power unit includes driving gear (7), drive mechanism is driven gear (8), rack (9) have all been inlayed to the lower terminal surface of anti-sputtering board (2) and the up end of storage plate (3), and driven gear (8) are moved in driving gear (7) meshing, have seted up on storage fluting (5) and have connected logical groove (10), and driven gear (8) through connection leads to groove (10) and meshes rack (9).

3. A breaking device for glass recycling according to claim 1, characterized in that: the crusher body (1) at two sides of the crushing cavity (4) is also provided with a slope-shaped material guide plate (6), and the slope-shaped material guide plate (6) is positioned above the material storage plate (3).

4. A breaking device for glass recycling according to claim 1, characterized in that: a scraping plate (12) is arranged at the notch of the storage slot (5) facing the crushing cavity (4), and the scraping plate (12) is used for preventing the glass waste on the storage plate (3) from entering the storage slot (5).

5. A breaking device for glass recycling according to claim 1, characterized in that: the primary crushing mechanism comprises a driving motor II, a crushing main shaft (13) and a crushing blade (14);

the output end of the driving motor II is coaxially and fixedly connected with the crushing main shaft (13), and the crushing blades (14) are uniformly distributed on the circumferential surface of the crushing main shaft (13).

6. A breaking device for glass recycling according to claim 1, characterized in that: the secondary crushing mechanism comprises a driving motor III and at least two crushing rollers (15);

the two ends of the crushing roller (15) are rotatably installed on the crushing roller supporting frame through bearings, the crushing rollers (15) are connected through a crushing roller transmission mechanism, and the output end of the driving motor III is coaxially and fixedly connected with one of the crushing rollers (15).

7. A breaking device for glass recovery according to claim 6, characterized in that: a conveying through groove (16) is formed in the machine body (1) on one side below the crushing roller (15), and a feeding end of a flood dragon conveyor (17) extends into the conveying through groove (16).

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