CN218872353U - Construction waste treatment device - Google Patents

Abstract

The application discloses construction waste processing apparatus includes: bearing structure, the bearing structure top is equipped with and is used for carrying out broken mechanism to construction waste, and broken mechanism includes pan feeding mouth and discharge gate. The supporting structure is also provided with a feeding mechanism which can transfer the construction waste on the ground to the feeding port of the crushing mechanism. The dust removal mechanism is arranged on the supporting structure, and the output end of the dust removal mechanism is arranged towards the discharge hole. Correspond the inside screen cloth that still is provided with of discharge gate, the screen cloth is used for sieving by broken back construction waste. This application combines feed mechanism to realize automatic feeding through bearing structure to construct and promote construction waste treatment quality jointly through dust removal mechanism and screen cloth. The manual feeding time, the waste screening time and the environment-friendly treatment time are saved, and the operation efficiency of building waste treatment is comprehensively improved.

Description

Construction waste treatment device

Technical Field

The application relates to construction waste treatment technical field, concretely relates to construction waste treatment device.

Background

Can produce a large amount of construction waste in the civil engineering construction, if not in time clear up, not only influence city image, also do not benefit to the environmental protection requirement, consequently need a device to carry out recovery processing to construction waste.

The current construction waste treatment device clearance effect is relatively poor, and it is great to need the manpower when mainly embodying in the operation, and manual work is difficult to sieve the waste material and easily produces the raise dust, and the comprehensive reason leads to work efficiency low.

Therefore, how to provide a construction waste treatment device with high working efficiency is a problem to be solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a construction waste treatment device which is high in working efficiency and small in waste treatment pollution.

In order to achieve the above object, the present application provides a construction waste treatment apparatus comprising: the supporting structure is arranged on the ground;

the crushing mechanism is arranged at the top of the supporting structure, is provided with a feeding port and a discharging port and is used for crushing the building waste;

the feeding mechanism is movably connected with the supporting structure and used for feeding the construction waste into the feeding port;

the dust removal mechanism is arranged on the supporting structure, and the output end of the dust removal mechanism faces the discharge hole;

the screen cloth sets up in the discharge gate for sieve construction waste.

In some embodiments, the feed mechanism comprises: the device comprises two rotating rods, a bucket, two first driving structures and two second driving structures;

dwang symmetry sets up in bearing structure both sides, includes: a first pole segment and a second pole segment; the first end of the first rod section is rotatably connected to the side face of the supporting structure, the second end of the first rod section is connected with the first end of the second rod section, the first driving structure is arranged in the second rod section, and the end part of the first driving structure penetrates out of the second end of the second rod section to be connected with the bucket;

the first driving structure can stretch along the length direction of the second rod section so as to drive the bucket to move;

the first end of the second drive structure is rotatably connected to the support structure, the second end of the second drive structure is rotatably connected to the first pole segment, and the second drive structure is retractable to rotate the rotating rod relative to the first segment of the first pole segment.

In some embodiments, the second pole segment defines a mounting cavity, and the first drive structure includes: the first telescopic equipment and the sliding rod are arranged in the mounting cavity;

the first end of the slide bar is connected with the first telescopic equipment, and the second end of the slide bar is rotatably connected with the bucket.

In some embodiments, the second end of the slide bar is provided with a rotating motor, and the rotating motor is used for driving the bucket to turn.

In some embodiments, the second drive structure comprises: the second telescopic device and the hinged parts are arranged at two ends of the second telescopic device;

the first end of the second telescopic equipment is hinged with the supporting structure, and the second end of the second telescopic equipment is hinged with the first rod section.

In some embodiments, the crushing mechanism comprises: the box, the pan feeding mouth is seted up at the box top surface, and the discharge gate is seted up at the box bottom surface, and the box is inside to be rotated and is connected with two at least crushing rollers, and the tip of crushing roller is worn out to the box side.

In some embodiments, the box side is provided with a driving structure, and the driving structure comprises: a drive motor and at least two transmission gears;

the transmission gear is in coaxial transmission with the end part of the crushing roller;

the driving motor and the corresponding transmission gear are driven by a chain, so that the crushing roller rotates relatively.

In some embodiments, the dust removal mechanism comprises: the atomizing spray head is arranged at the output end of the water pipe;

the water pipe sets up on bearing structure, and atomizer sets up towards the discharge gate.

In some embodiments, further comprising: the diversion piece is used for guiding construction waste and arranged below the discharge port.

In some embodiments, further comprising: a rotating rod and a knocking structure;

the rotating rod is arranged between the discharge hole and the flow guide piece, and the knocking structure is arranged on the surface of the rotating rod;

the end of the rotating rod is connected with the crushing roller for transmission, and the rotating rod can drive the knocking structure to knock the screen.

For above-mentioned background art, this application is provided with bearing structure, and the bearing structure top is equipped with and is used for carrying out broken mechanism to construction waste, and broken mechanism includes pan feeding mouth and discharge gate. The supporting structure is also provided with a feeding mechanism which can transfer the construction waste on the ground to the feeding port of the crushing mechanism. The dust removal mechanism is arranged on the supporting structure, and the output end of the dust removal mechanism is arranged towards the discharge hole. Correspond the inside screen cloth that still is provided with of discharge gate, the screen cloth is used for the screening by broken back construction waste. This application combines feed mechanism to realize automatic feeding through bearing structure to construct and promote construction waste treatment quality jointly through dust removal mechanism and screen cloth. The manual feeding time, the waste screening time and the environment-friendly treatment time are saved, and the operation efficiency of the construction waste treatment is comprehensively improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural view of a construction waste treatment apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a construction waste treatment apparatus provided in an embodiment of the present application from another perspective;

FIG. 3 is a schematic view of a construction waste disposal apparatus according to an embodiment of the present application;

FIG. 4 is a plan view of a construction waste treatment apparatus according to an embodiment of the present application;

fig. 5 is a sectional view of a construction waste treatment apparatus according to an embodiment of the present application.

Wherein:

1-supporting structure, 2-crushing mechanism, 21-box body, 22-crushing roller, 23-driving structure, 231-driving motor, 232-transmission gear, 3-feeding mechanism, 31-rotating rod, 32-bucket, 33-first driving structure, 331-first telescopic device, 332-sliding rod, 34-second driving structure, 341-second telescopic device, 34-dedusting mechanism, 4-dedusting mechanism, 41-water pipe, 42-atomizing nozzle, 5-screen, 6-flow guide piece, 7-rotating rod and 71-knocking structure.

Detailed Description

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

In order to enable those skilled in the art to better understand the scheme of the present application, the present application will be described in further detail with reference to the accompanying drawings and the detailed description.

Referring to the accompanying drawings 1-5, in which fig. 1 is a schematic structural view of a construction waste treatment apparatus provided in an embodiment of the present application, fig. 2 is a schematic structural view of the construction waste treatment apparatus provided in an embodiment of the present application from another perspective, fig. 3 is a schematic structural view of the construction waste treatment apparatus provided in an embodiment of the present application when dumping waste, fig. 4 is a plan view of the construction waste treatment apparatus provided in an embodiment of the present application, and fig. 5 is a sectional view of the construction waste treatment apparatus provided in an embodiment of the present application, the construction waste treatment apparatus includes: bearing structure 1, bearing structure 1 top is equipped with and is used for carrying out broken crushing mechanism 2 to construction waste, and crushing mechanism 2 includes pan feeding mouth and discharge gate. The supporting structure 1 is also provided with a feeding mechanism 3 which can transfer the construction waste on the ground into the feeding port of the crushing mechanism 2. Dust removal mechanism 4 sets up on bearing structure 1, and dust removal mechanism 4's output sets up towards the discharge gate. Correspond the inside screen cloth 5 that still is provided with of discharge gate, screen cloth 5 is used for the screening by broken back construction waste.

This application combines feed mechanism 3 to realize automatic feeding through bearing structure 1 to construct 4 and screen cloth 5 through dust removal and promoted construction waste treatment quality jointly. The manual feeding time, the waste screening time and the environment-friendly treatment time are saved, and the operation efficiency of building waste treatment is comprehensively improved.

Further, the feed mechanism 3 includes two rotating levers 31, a bucket 32, two first drive structures 33, and two second drive structures 34; dwang 31 symmetry sets up in bearing structure 1's both sides, and two dwang 31 all include: a first pole segment and a second pole segment; the first end of the first pole segment is rotated to one side of the support structure 1, and the second end of the first pole segment is connected to the first end of the second pole segment. The second rod segment is a straight segment, the first driving structure 33 is disposed inside the second rod segment, and the end of the first driving structure 33 penetrates out of the second end of the second rod segment to be connected with the bucket 32.

The first driving structure 33 can extend and contract along the length direction of the second rod section to drive the bucket 32 to scoop construction waste on the ground.

The feeding mechanism 3 further comprises a second driving structure 34 for driving the rotating rod 31 to rotate so that the construction waste in the bucket 32 enters into the crushing mechanism 2. A first end of the second drive structure 34 is pivotally connected to the support structure 1 and a second end of the second drive structure 34 is pivotally connected to the first pole segment, the second drive structure 34 being telescopically arranged to pivot the swivelling pole relative to the first segment of the first pole segment.

Because feed mechanism 3's setting, can transfer the scraper bowl 32 through first drive structure 33 and remove, make scraper bowl 32 shovel get subaerial construction waste, then under second drive structure 34's effect, dwang 31 rotates, dwang 31 drives scraper bowl 32 and rises, make construction waste in the scraper bowl 32 enter into to crushing mechanism 2 in, the function of automatic feeding has been realized, when having solved among the prior art when feeding mechanism uses, need the manual work to shift subaerial construction waste to feeding mechanism and just can accomplish the processing work to construction waste, the great technical problem of intensity of labour.

According to needs, dwang 31 is equipped with two, and is located 1 both sides of bearing structure respectively, and every dwang 31 all corresponds and connects a first drive structure 33 and a second drive structure 34, and two first drive structures 33 are the synchronous drive structure, and two second drive structures 34 are the synchronous drive structure to the stability of scraper bowl 32 has been guaranteed.

Further, an installation cavity is formed in the second rod segment along the length direction of the second rod segment, and the first driving structure 33 includes a first telescopic device 331 and a sliding rod 332. The first telescopic device 331 is arranged on the inner side of the mounting cavity along the length direction of the first telescopic device 331, the output shaft of the first telescopic device 331 is coaxially connected with the first end of the sliding rod 332, the second end of the sliding rod 332 far away from the first telescopic device 331 movably extends out of the mounting cavity, and the second end of the sliding rod 332 is correspondingly mounted on the outer wall of the bucket 32;

the first telescopic device 331 may be, but is not limited to, a pneumatic cylinder or a hydraulic cylinder.

The sliding rod 332 can be driven by the first telescopic device 331 to move, and the sliding rod 332 can move one side of the bucket 32 far away from the supporting structure 1, so that the function of shoveling the construction waste on the ground is realized.

Further, the bucket 32 may be rotatably connected to a slide rod 332, and the slide rod 332 is provided with a rotating motor for driving the bucket 32 to rotate.

Further, the second driving structure 34 includes a second telescopic device 341 and a hinge portion disposed at two ends of the second telescopic device 341; the fixed end of the second telescopic device 341 is correspondingly hinged with the lower end of one side of the supporting structure 1 through a first hinge part, and the telescopic end of the second telescopic device 341 is correspondingly hinged with the first rod section through a second hinge part; the flexible end of the flexible equipment 341 of second can follow self length direction and stretch out and draw back, because of first pole section length is certain, and one end rotates and connects in bearing structure 1 side, so the flexible dwang 1 that can drive of the flexible equipment 341 of second rotates around rotating the hookup location to place the scraper bowl 32 in pan feeding mouth top.

In an embodiment of the present application, the second expansion device 341 may be configured as a hydraulic cylinder; can make dwang 31 rotate through the extension of second telescopic equipment 341, and then make dwang 31 keep away from ware axis of gyration's one end drive scraper bowl 32 and rise, up to scraper bowl 32 move the top of pan feeding mouth in the broken mechanism 2 always, the construction waste in the scraper bowl 32 and then in the pan feeding mouth under gravity and inertial effect this moment, and the in-process that ware axis of gyration's one end was kept away from at dwang 31 drove scraper bowl 32 and rises, under the effect of centrifugal force, the problem of leaking outward hardly can appear in the construction waste in the scraper bowl 32.

Further, the crushing mechanism 2 comprises a box body 21, a feeding port is arranged in the middle of the upper end face of the box body 21, at least two crushing rollers 22 for crushing the construction waste are arranged in the inner cavity of the box body 21, the end parts of the crushing rollers 22 penetrate out of the side face of the box body 21, and a discharging port is arranged in the middle of the lower end face of the box body 21;

furthermore, the outer side of the box body 1 is also provided with a driving structure 23 for driving the two crushing rollers 22 to synchronously and relatively rotate; the driving structure 23 comprises a driving motor 231 and two transmission gears 232 which are meshed with each other, the driving motor 231 is installed on the outer wall of the box body 21, and the output end of the driving motor 231 is in transmission fit with any crushing roller 22; the two transmission gears 232 are respectively fixedly sleeved at the end parts of the two crushing rollers 22;

above-mentioned structure can drive the crushing roller 22 rotation that corresponds through driving motor 231 for two crushing rollers 22 are synchronous and relative rotation this moment under drive gear 232's effect, and then can realize the function of broken construction waste.

Furthermore, the upper end of the supporting structure 1 is provided with a dust removing mechanism 4 for preventing dust from diffusing at positions corresponding to two sides of the discharge port, the dust removing mechanism 4 comprises a water pipe 41, the water pipe 41 is correspondingly arranged at the periphery of the discharge port, a plurality of atomizing nozzles 42 are uniformly arranged at positions corresponding to two sides of the discharge port of the water pipe 41 along the length direction of the water pipe, one end of the water pipe 41 is closed, and the other end of the water pipe 41 is provided with a water pipe joint capable of being correspondingly communicated with a water source;

before the dust removing mechanism 4 is used, the water pipe connector can be connected to a water source with a water supply function, at the moment, water of the water source enters the water pipe 41 through the water pipe connector and then is sprayed to the surrounding environment through the atomizing nozzle 42, and the dust removing function of dust is realized; similarly, the dust removing mechanism 4 can also be a dust collector; as required, the atomizing nozzle 42 includes two parts, one part is inclined downward to spray water mist and corresponds to the position below the discharge port, and the other part is sprayed to the side away from the discharge port; of course, the outer side of the feeding port may not be provided with a water pipe having an atomizing nozzle, and the water source may be communicated with the water pipe 41, or may be directly connected to the water source.

Further, the device also comprises a flow guide part 6 correspondingly arranged below the screen 5. The flow guide piece 6 is arranged in an up-down inclined mode, and one end, far away from the bucket 32, of the flow guide piece 6 is the lower end; due to the arrangement of the screen 5 and the flow guide piece 6, the crushed construction waste can be screened through the screen 5, so that the materials meeting the requirement fall on the flow guide piece 6 through the screen 5 and are then guided to one side of the support structure 1 away from the bucket 32, and the function of automatically screening the crushed construction waste is realized;

in an embodiment of the present application, the screen 5 may also be disposed in an inclined manner, and one end of the screen 5 close to the bucket 32 is a lower end; the construction waste which does not meet the requirements is guided through the screen 5 and falls on the side of the support structure 1 which is far away from the materials meeting the requirements.

Further, the support structure 1 is rotatably connected with a rotating rod 7 corresponding to a position between the screen 5 and the flow guide member 6, the rotating rod 7 is provided with a knocking structure 72 for knocking the screen 5, and the rotating rod 7 is in transmission fit with any one of the crushing rollers 22; can mobilize its rotation through crushing roller 22 for whole structure is compacter, and need not independent power equipment and drive its rotation, and realizes knocking screen cloth 5's function, makes screen cloth 5 screening by broken back construction waste material efficient higher. The above-mentioned transmission matching structure of the rotating rod 7 and the crushing roller 22 can refer to the prior art, and the outer end of the rotating rod 7 can be movably connected with an additionally arranged support structure or directly integrated on the support structure 1, and only needs to be in accordance with the connection transmission, and the text is not expanded.

In an embodiment of the application, the bucket 32 can be moved by the first driving structure 33, so that the bucket 32 shovels construction waste on the ground, then the rotating rod 31 rotates under the action of the second driving structure 34, the rotating rod 31 drives the bucket 32 to ascend, so that the construction waste in the bucket 32 enters the crushing mechanism 2, the automatic feeding function is realized, and the technical problems of manual feeding and high labor intensity in the prior art are solved; due to the arrangement of the dust removal mechanism 4, water can enter the water pipe 41 through the water pipe joint and then is sprayed to the surrounding environment through the atomizing spray head 42, so that the dust removal function of dust is realized, and the technical problems that a large amount of dust is generated after the device treats construction waste, the surrounding environment is polluted and the environmental protection requirement is not facilitated in the prior art are solved; due to the arrangement of the screen 5 and the flow guide piece 6, the crushed construction waste can be screened through the screen 5, so that the materials meeting the requirement fall on the flow guide piece 6 through the screen and are then guided to one side of the supporting structure, which is far away from the bucket 32, and the function of automatically screening the crushed construction waste is realized; owing to the setting of dwang 31, can mobilize its rotation through crushing roller 22 for whole structure is compacter, and need not independent power equipment and drive its rotation, and realizes strikeing the function of screen cloth 5, makes screen cloth 5 screening by broken back construction waste material efficiency higher.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The construction waste treatment apparatus provided in the present application is described in detail above. The principles and embodiments of the present application are described herein using specific examples, which are only used to help understand the method and its core idea of the present application. It should be noted that, for those skilled in the art, without departing from the principle of the present application, the present application can also make several improvements and modifications, and those improvements and modifications also fall into the protection scope of the claims of the present application.

Claims (9)

1. A construction waste treatment apparatus, comprising:

a support structure (1) mounted on the ground;

the crushing mechanism (2) is arranged at the top of the supporting structure (1), is provided with a feeding port and a discharging port and is used for crushing building waste;

the feeding mechanism (3) is movably connected with the supporting structure (1) and is used for feeding construction waste into the feeding port; the feed mechanism (3) comprises: two rotating rods (31), a bucket (32), two first driving structures (33) and two second driving structures (34);

dwang (31) symmetry sets up bearing structure (1) both sides include: a first pole segment and a second pole segment; the first end of the first rod section is rotatably connected to the side face of the supporting structure (1), the second end of the first rod section is connected with the first end of the second rod section, the first driving structure (33) is arranged in the second rod section, and the end part of the first driving structure (33) penetrates out to the second end of the second rod section to be connected with the bucket (32);

the first driving structure (33) can extend and retract along the length direction of the second rod section so as to drive the bucket (32) to move;

a first end of the second driving structure (34) is rotatably connected with the supporting structure (1), a second end of the second driving structure (34) is rotatably connected with the first rod segment, and the second driving structure (34) can telescopically drive the rotating rod to rotate relative to the first segment of the first rod segment;

the dust removal mechanism (4) is arranged on the supporting structure (1), and the output end of the dust removal mechanism faces the discharge hole;

and the screen (5) is arranged in the discharge port and used for screening the construction waste.

2. The construction waste disposal device of claim 1, wherein the second pole segment defines a mounting cavity, and the first driving structure (33) comprises: a first telescopic device (331) and a slide bar (332) arranged within the mounting cavity;

the first end of the slide rod (332) is connected with the first telescopic device (331), and the second end of the slide rod (332) is rotatably connected with the bucket (32).

3. The construction waste disposal device of claim 2 wherein the second end of the slide rod (332) is provided with a rotary motor for driving the bucket (32) to turn.

4. The construction waste disposal device of claim 1, wherein the second driving structure (34) comprises: a second telescopic device (341) and a hinge part arranged at two ends of the second telescopic device (341);

a first end of the second telescopic device (341) is articulated with the support structure (1) and a second end of the second telescopic device (341) is articulated with the first pole segment.

5. The construction waste disposal device according to claim 1, wherein said crushing means (2) comprises: the automatic feeding device comprises a box body (21), wherein a feeding port is formed in the top surface of the box body (21), a discharging port is formed in the bottom surface of the box body (21), at least two crushing rollers (22) are rotatably connected to the inside of the box body (21), and the end parts of the crushing rollers (22) penetrate out of the side surface of the box body (21).

6. The construction waste disposal device according to claim 5, wherein the tank (21) is provided at a side thereof with a driving structure (23), the driving structure (23) comprising: a drive motor (231) and at least two transmission gears (232);

the transmission gear (232) is in coaxial transmission with the end part of the crushing roller (22);

the driving motor (231) and the corresponding transmission gear (232) are in chain transmission so as to enable the crushing roller (22) to rotate relatively.

7. The construction waste disposal device according to claim 1, wherein the dust removing mechanism (4) comprises: a water pipe (41) and an atomizing nozzle (42) arranged at the output end of the water pipe (41);

water pipe (41) set up on bearing structure (1), atomizer (42) orientation the discharge gate sets up.

8. The construction waste treatment apparatus according to claim 5, further comprising: the flow guide piece (6) is used for guiding the construction waste, and the flow guide piece (6) is arranged below the discharge hole.

9. The construction waste treatment apparatus according to claim 8, further comprising: a rotating rod (7) and a knocking structure (71);

the rotating rod (7) is arranged between the discharge hole and the flow guide element (6), and the knocking structure (71) is arranged on the surface of the rotating rod (7);

the end part of the rotating rod (7) is connected with the crushing roller (22) for transmission, and the rotating rod (7) can drive the knocking structure (71) to knock the screen (5).

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