CN113231449B - Waste collecting device for coating mechanical equipment - Google Patents

Abstract

The invention relates to a waste collecting device of coating machinery equipment, which comprises a rack A1, wherein a crushing unit B1, a compression unit C1 and a recovery unit D1 are sequentially arranged in the rack A1 along a waste recovery processing path; when the waste is treated, the crushing unit B1 crushes large waste into small waste, then the compressing unit C1 extrudes a large amount of small waste, so that the small waste is concentrated into a waste block, and finally the waste block is sent out of the rack A1 in the recovery unit D1, thereby achieving the purpose of efficiently recovering the waste.

Description

Waste collecting device for coating mechanical equipment

Technical Field

The invention relates to the technical field of waste recovery, in particular to a waste collecting device for coating mechanical equipment.

Background

The waste recovery mainly means that waste gas articles generated in the processing process are recovered in a centralized manner, so that the environmental pollution is avoided and the resource reutilization is realized.

The current application mechanical equipment waste material is most directly to collect the waste material leading-in collection incasement, and the mode of direct collection, waste material occupation space is great, and has more space between the waste material, reduces collection device's memory space, needs personnel to frequently get the material clear away collecting box, and the current mode of getting the material is most personnel manual takes out the waste material in the collecting box, gets the material inefficiency.

Disclosure of Invention

In view of the defects in the prior art, one of the purposes of the present invention is to provide a waste collecting device for coating machinery, which can crush waste, compress the crushed waste into regular blocks and output the regular blocks, thereby achieving the purpose of efficiently collecting the waste.

The above object of the present invention is achieved by the following technical solutions:

a waste collecting device of coating mechanical equipment comprises a rack, and a crushing unit, a compression unit and a recovery unit which are sequentially arranged in the rack;

a frame: a crushing chamber, a compression chamber and a recovery chamber which are sequentially communicated are arranged in the frame, an inlet communicated with the crushing chamber is formed in the frame, and an outlet communicated with the recovery chamber is formed in the frame;

a crushing unit: comprises a crushing roller which is arranged in a crushing chamber and rotates to crush the waste;

a compression unit: the compression unit comprises a material pressing plate arranged above the compression chamber and a material receiving plate positioned below the compression chamber, wherein the compression chamber comprises a lifting area and a rotating area which are sequentially arranged from top to bottom, the material pressing plate is arranged in the lifting area in a lifting sliding manner along the vertical direction, the material receiving plate is arranged in the rotating area in a rotating manner on the vertical plane, and the compression unit further comprises a control device for controlling the material receiving plate to rotate and fix;

a recovery unit: including the collection box of slidable through the export, recovery room and gyration district lower extreme intercommunication setting, the upper end of collecting the box is provided with and connects the material mouth.

The present invention in a preferred example may be further configured to: connect flitch horizontal direction all around including a pair of circular arc limit that carries on the back mutually and a pair of straight limit that carries on the back mutually, gyration district frame all around include with the cambered surface of the slip butt of circular arc limit and with the plane of the slip butt of straight limit, straight edge extends to have the rotation to run through the pivot in the plane, controlling means slides the rack that sets up in the frame including coaxial gear that is fixed in the epaxial gear of commentaries on classics and along vertical direction, rack and gear engagement set up.

The present invention in a preferred example may be further configured to: the installation groove is arranged on the plane and towards the direction deviating from the rotation area, the installation groove is penetrated by the rotating shaft, the gear and the rack are arranged in the installation groove, and a material blocking wool top is arranged in the installation groove and close to one end of the material receiving plate.

The present invention in a preferred example may be further configured to:

the upper end of the mounting groove extends to the lifting area;

one side of the rack facing the compression chamber is hinged with a first rotating rod, a hinge of the first rotating rod is positioned at the lower end of the first rotating rod, and an elastic tension piece I is connected between the upper end of the first rotating rod and the rack;

the material pressing plate is provided with a groove aligned with the first rotating rod towards one side of the plane, the groove is internally hinged with a second rotating rod, the hinge of the second rotating rod is located at the lower end of the second rotating rod, and an elastic tension part II is connected between the upper end of the second rotating rod and the material pressing plate.

The present invention in a preferred example may be further configured to: and the lower end of the material receiving plate is provided with a reinforcing rib.

The present invention in a preferred example may be further configured to: the lifting area is internally provided with a baffle for separating the crushing chamber and the compression chamber, the upper end of the baffle is hinged and rotates in a vertical plane, the lower end of the baffle extends to the lower end of the lifting area, and the pressure plate and the baffle are matched with each other in a sliding and abutting mode and deviate from one side of the crushing chamber.

The present invention in a preferred example may be further configured to: the lifting area is seted up with the one side that smashes the room and is used for inlaying the groove of accomodating of establishing the baffle completely, the upper end of baffle articulates in accomodating the groove, just the articulated department coaxial torsional spring that is provided with of baffle, the torsional spring has the drive baffle to keep away from the trend of smashing the room.

The present invention in a preferred example may be further configured to: an electromagnet is arranged in the rack and below the rack, a magnetizer is arranged at the lower end of the rack, and a pressure switch used for controlling on-off of current in the electromagnet is arranged in the accommodating groove.

In summary, the invention includes at least one of the following beneficial technical effects:

1. the crushing unit, the compression unit and the recovery unit are matched to compress the waste into a waste block and then intensively recover the waste block, so that the waste is efficiently treated;

2. when the material pressing plate is static or moves downwards, the material receiving plate is horizontal, so that stable material receiving and waste material compression matching are realized; when the material pressing plate moves upwards, the material receiving plate can be synchronously and automatically driven to rotate, so that the waste material block is sent into the recovery unit;

3. the locking and unlocking of the material receiving plate are automatic, manual participation is not needed, and the waste treatment efficiency is further improved.

Drawings

FIG. 1 is a schematic half-sectional view of a coating machine between the front and rear of a garbage collection device;

FIG. 2 is a schematic view of a coating machine in a half-section between the left and right of a waste collection device;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

fig. 4 is an enlarged schematic view at B in fig. 2.

In the figure, a1, rack; a2, a crushing chamber; a3, a compression chamber; a31, a lifting area; a311, a storage groove; a312, a baffle plate; a313, a pressure switch; a32, a turning area; a321, cambered surface; a322, vertical plane; a323, mounting groove; a324, stopping the material wool tops; a4, a recovery chamber; a5, an inlet; a6, an outlet;

b1, a crushing unit; b2, crushing roller;

c1, compression unit; c2, a pressure plate; c21, a groove; c22, rotating the rod II; c23, a second elastic tension piece; c3, a material receiving plate; c31, arc edge; c32, straight edge; c33, a rotating shaft; c34, reinforcing ribs; c4, gear; c5, rack; c51, rotating the rod I; c52, magnetizer; c53, a first elastic tension piece; c6, electromagnet;

d1, a recovery unit; d2, a collection box; d21, material receiving port.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, a waste collecting device of a painting machinery comprises a frame a1, wherein a crushing unit B1, a compression unit C1 and a recovery unit D1 are arranged in the frame a1 along a recovery processing path of waste; when the waste is treated, the crushing unit B1 crushes large waste into small waste, then the compressing unit C1 extrudes a large amount of small waste, so that the small waste is concentrated into a waste block, and finally the waste block is sent out of the rack A1 in the recovery unit D1, thereby achieving the purpose of efficiently recovering the waste.

A crushing chamber A2, a compression chamber A3 and a recovery chamber A4 which are communicated in sequence are preset in a machine frame A1, wherein the crushing chamber A2 is positioned at the uppermost part, an inlet A5 communicated with the crushing chamber A2 is formed in a machine frame A1, a crushing unit B1 comprises a crushing roller B2 rotatably installed in a crushing chamber A2, and when waste enters the crushing chamber A2, the crushing roller B2 extrudes the crushed waste to finish the first step of waste recovery.

As shown in fig. 1 and 2, the compression chamber A3 includes a lifting area a31 and a rotation area a32 from top to bottom, the lifting area a31 is communicated with the crushing chamber a2, the crushed waste in the crushing chamber a2 finally falls into the rotation area a32, the compression unit C1 includes a pressure plate C2 disposed in the lifting area a31 and a receiving plate C3 disposed in the rotation area a32, the waste falls onto the receiving plate C3 and is stacked, at the same time, a hydraulic cylinder is mounted at the upper end of the frame a1, a piston end of the hydraulic cylinder extends into the frame a1 and is fixed with the pressure plate C2, a piston end of the hydraulic cylinder is actuated to move, so as to drive the pressure plate C2 to move in the vertical direction, the pressure plate C2 cooperates with the receiving plate C3 to press the waste when moving downward, and under the limit of the frame a1, the waste forms a waste into a waste block, thereby completing a second step of waste recovery.

An outlet A6 is further formed in the rack A1, the outlet A6 is communicated with a recovery chamber A4, the recovery unit D1 comprises a collection box D2 which can slide to enter the recovery chamber A4 through an outlet A6, the material receiving plate C3 can rotate on a vertical plane, when the material receiving plate C3 rotates to be vertical, waste blocks on the material receiving plate C3 drop into the collection box D2, and then the collection box D2 is pulled so that the waste blocks in the rack A1 can be conveniently taken out for centralized treatment.

The inner wall of the compression chamber A3 communicated with the crushing chamber A2 is provided with an accommodating groove A311, the accommodating groove A311 is communicated between the crushing chamber A2 and the compression chamber A3, a baffle A312 is arranged in the accommodating groove A311, the upper end of the baffle A312 is hinged in the accommodating groove A311 through a shaft, and meanwhile, a torsion spring is arranged on a rotating shaft of the baffle A312 and can drive the baffle A312 to rotate towards the direction far away from the crushing chamber A2; when the waste is crushed, the torsion spring enables the baffle A312 to be separated from the containing groove A311, and the waste can smoothly enter the compression chamber A3 from the crushing chamber A2; when the waste material needs to be compressed, in the downward sliding path of the pressure plate C2, the pressure plate C2 is in sliding butt joint with the baffle A312, and the baffle A312 is pushed to enter the containing chamber, so that the communication between the crushing chamber A2 and the compression chamber A3 is broken, the waste material is prevented from falling to the upper side of the pressure plate C2 in the compression process, and the moving path during waste material treatment is ensured.

The periphery of the receiving plate C3 in the rotation area A32 in the horizontal direction comprises a pair of arc edges C31 and a pair of flat edges C32, the periphery of the rotary area in the corresponding rack A1 comprises a pair of arc surfaces A321 and a pair of planes, the arc edges C31 are in sliding fit with the arc surfaces A321, the flat edges C32 are in sliding fit with the planes, a rotating shaft C33 extends in the middle of the straight edges C32 of the receiving plate C3, the rotating shaft C33 penetrates through the planes, the rotating direction of receiving materials is limited, meanwhile, a mounting groove A323 is reserved in the penetrating position, located on the plane, of the rotating shaft C33, the mounting groove A323 extends in the vertical direction, and a control device used for driving the rotating shaft C33 to rotate and lock is arranged in the mounting groove A323.

Wherein the mounting groove A323 is installed towards the opening part that connects flitch C3 one side and is kept off material wool top A324, keeps off material wool top A324 and extends the setting along the length direction of mounting groove A323, keeps off material wool top A324 can effectually block the waste material and get into mounting groove A323, avoids the waste material to pile up in mounting groove A323, guarantees the normal operating of mounting groove A323 inner structure.

With further reference to fig. 3 and 4, the control device includes a gear C4 coaxially fixed on the rotating shaft C33 and a rack C5 slidably inserted into the mounting groove a323, the rack C5 is engaged with the gear C4, and when the rack C5 moves in the vertical direction, the gear C4 and the rotating shaft C33 are driven to rotate with the receiving plate C3, wherein a rotating rod C51 is hinged to the upper end of the rack C5 and to one side facing the receiving plate C3, a hinge of the rotating rod C51 is provided at the lower side thereof, and an elastic tension member C53 is connected between the upper side of the rotating rod C51 and the rack C5, when the rotating rod C51 is not stressed, the elastic tension member C53 drives the rotating rod C51 to vertically abut against the rack C51, and grooves C51 are provided at both sides of the rotating rod C51 facing the plane in the rotation area a 51, the grooves C51 are aligned with the rotating rod C51 in the vertical direction, and a hinge of the pressing material C51 is also provided at the lower side thereof, an elastic tension piece II C23 is connected between the upper side of the rotating rod II C22 and the pressure plate C2, wherein the elastic tension piece I C53 and the elastic tension piece II C23 can adopt elastic rubber ropes, tension springs and other structures or materials with elastic tension;

when the waste is compressed, the material pressing plate C2 moves downwards, when the rotating rod I C51 and the rotating rod II C22 are extruded, the rotating rod II C22 pushes the rotating rod I C51 to rotate downwards, so that the material pressing plate C2 can normally move downwards and is matched with the material receiving plate C3 to extrude the waste into blocks;

after the compression is finished, the pressure plate C2 moves upwards, the rotating rod II C22 drives the rack C5 to move upwards through supporting the rotating rod I C51, then the gear C4, the rotating shaft C33 and the material receiving plate C3 are driven to rotate, the purpose of pouring waste materials into the recovery chamber A4 is achieved, the rotating rod II C22 overcomes the acting force of the elastic tension piece II C23 to bend downwards after the upper end of the rack C5 is abutted to the inner wall of the installation groove A323, and the pressure plate C2 can normally move upwards to reset.

Meanwhile, a magnetizer C52 is further mounted at the lower end of the rack C5, the magnetizer C52 can be made of materials such as iron and the like which can be attracted by magnetic force, an electromagnet C6 is mounted at the lower end of the mounting groove A323, a pressure switch A313 is mounted in the accommodating groove A311 and at a position opposite to the lower end of the baffle A312, and the pressure switch A313 is used for controlling the on-off of current in the electromagnet C6;

when the baffle A312 extrudes the pressure switch A313, the current in the electromagnet C6 is cut off, the electromagnet C6 does not attract the magnetizer C52, and the rotating rod II C22 can drive the rack C5 to move by supporting the rotating rod I C51;

when baffle A312 and pressure switch A313 separate, then electric current intercommunication in the electro-magnet C6, electro-magnet C6 twines the appeal to magnetizer C52 this moment to locking rack C5's removal or making the quick downstream of rack C5, making connect flitch C3 to keep or resume to the level, can realize stable bearing waste material, avoid receiving the uneven emergence rotation of atress on the flitch C3.

In the actual working process of the material receiving plate C3, one surface of the material receiving plate C3 is always used for bearing waste materials, so that a plurality of reinforcing ribs C34 are arranged on the other surface of the material receiving plate C3, and the bearing strength of the material receiving plate C3 is improved.

The implementation principle of the embodiment is as follows:

the waste is thrown into a crushing chamber A2 from an inlet A5, then the waste enters a material pressing chamber after being crushed by a crushing roller B2, after a certain amount of waste is accumulated in the material pressing chamber, a compression plate is started to move downwards, the compression plate pushes a baffle plate A312 to cut off the communication between the crushing chamber A2 and the material pressing chamber, meanwhile, the movement of a rack C5 is unlocked, and in the downward movement process of the material pressing plate C2, when a rotating rod I C51 is extruded with a rotating rod II C22, the rotating rod II C22 pushes a rotating rod II C22 to rotate downwards, so that the material pressing plate C2 can normally move downwards and is matched with a material receiving plate C3 to extrude the waste into blocks; after compression is completed, the material pressing plate C2 moves upwards, the rotating rod II C22 drives the rack C5 to move upwards through supporting the rotating rod I C51, and then drives the gear C4, the rotating shaft C33 and the material receiving plate C3 to rotate, the purpose of pouring waste materials into the recovery chamber A4 is achieved, and after the upper end of the rack C5 is abutted to the inner wall of the installation groove A323 and cannot move, the rotating rod II C22 overcomes the acting force of the elastic tension piece II C23 to bend downwards, so that the material pressing plate C2 can normally move upwards to reset; meanwhile, the torsion spring drives the baffle A312 to be opened again, the electromagnet C6 is electrified to attract the magnetizer C52, so that the rack C5 moves down rapidly, and the material receiving plate C3 is restored to be horizontal to carry out normal material receiving;

finally, the waste material block is taken out for centralized treatment by drawing the collecting box D2.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (2)

1. The utility model provides a coating machinery equipment garbage collection device which characterized in that: comprises a frame (A1), and a crushing unit (B1), a compression unit (C1) and a recovery unit (D1) which are arranged in the frame (A1) in sequence;

frame (a 1): a crushing chamber (A2), a compression chamber (A3) and a recovery chamber (A4) which are sequentially communicated are arranged in the rack (A1), an inlet (A5) communicated with the crushing chamber (A2) is formed in the rack (A1), and an outlet (A6) communicated with the recovery chamber (A4) is formed in the rack (A1);

pulverization unit (B1): comprises a crushing roller (B2) which is arranged in a crushing chamber (A2) and rotates to crush waste materials;

compression unit (C1): the compression unit comprises a material pressing plate (C2) arranged above the compression chamber (A3) and a material receiving plate (C3) positioned below the compression chamber (A3), wherein the compression chamber (A3) comprises a lifting area (A31) and a rotating area (A32) which are sequentially arranged from top to bottom, the material pressing plate (C2) is arranged in the lifting area (A31) in a lifting and sliding mode along the vertical direction, the material receiving plate (C3) is rotationally arranged in the rotating area (A32) on the vertical plane, and the compression unit (C1) further comprises a control device used for controlling the material receiving plate (C3) to rotate and be fixed;

recovery unit (D1): the recovery device comprises a collection box (D2) which can slide through an outlet (A6), wherein the recovery chamber (A4) is communicated with the lower end of a rotary area (A32), and the upper end of the collection box (D2) is provided with a material receiving port (D21);

the material receiving plate (C3) comprises a pair of arc edges (C31) which are opposite to each other and a pair of straight edges (C32) which are opposite to each other in the horizontal direction, a rack (A1) on the periphery of the rotation area (A32) comprises an arc surface (A321) which is in sliding butt joint with the arc edges (C31) and a plane which is in sliding butt joint with the straight edges (C32), a rotating shaft (C33) which penetrates through the plane in a rotating mode extends from the straight edges (C32), the control device comprises a gear (C4) which is coaxially fixed on the rotating shaft (C33) and a rack (C5) which is arranged in the rack (A1) in a sliding mode in the vertical direction, and the rack (C5) is meshed with the gear (C4);

an installation groove (A323) is formed in the plane and faces away from the rotation area (A32), the rotating shaft (C33) penetrates through the installation groove (A323), the gear (C4) and the rack (C5) are arranged in the installation groove (A323), and a material blocking wool top (A324) is arranged at one end, close to the material receiving plate (C3), in the installation groove (A323);

the upper end of the mounting groove (A323) extends to a lifting area (A31);

a first rotating rod (C51) is hinged to one side, facing the compression chamber (A3), of the rack (C5), the hinge of the first rotating rod (C51) is located at the lower end of the first rotating rod, and a first elastic tension piece (C53) is connected between the upper end of the first rotating rod (C51) and the rack (C5);

one side, facing the plane, of the pressure plate (C2) is provided with a groove (C21) aligned with the rotating rod I (C51), a rotating rod II (C22) is hinged in the groove (C21), a hinge of the rotating rod II (C22) is located at the lower end of the rotating rod II, and an elastic tension piece II (C23) is connected between the upper end of the rotating rod II (C22) and the pressure plate (C2);

a baffle plate (A312) used for separating the crushing chamber (A2) and the compression chamber (A3) is arranged in the lifting area (A31), the upper end of the baffle plate (A312) is hinged and rotates in a vertical plane, the lower end of the baffle plate (A312) extends to the lower end of the lifting area (A31), and the pressure plate (C2) is in sliding abutting fit with one side of the baffle plate (A312) departing from the crushing chamber (A2);

one side of the lifting area (A31) connected with the crushing chamber (A2) is provided with an accommodating groove (A311) for completely embedding a baffle (A312), the upper end of the baffle (A312) is hinged in the accommodating groove (A311), a torsion spring is coaxially arranged at the hinged position of the baffle (A312), and the torsion spring has the tendency of driving the baffle (A312) to be far away from the crushing chamber (A2);

the improved electric iron is characterized in that an electromagnet (C6) is arranged in the rack (A1) and below the rack (C5), a magnetizer (C52) is arranged at the lower end of the rack (C5), and a pressure switch (A313) used for controlling the on-off of current in the electromagnet (C6) is arranged in the accommodating groove (A311).

2. The waste collection device of coating machinery equipment according to claim 1, characterized in that: and the lower end of the material receiving plate (C3) is provided with a reinforcing rib (C34).

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