CN213611589U - Concrete recycling and smashing device - Google Patents

Abstract

The utility model discloses a concrete recycling and smashing device, including reducing mechanism, dust collector, conveyer, material feeding unit, device shell and operating button, reducing mechanism locates in the device shell, dust collector locates on the outer wall of device shell, the below of reducing mechanism is located to the conveyer, material feeding unit locates on the lateral wall of device shell, operating button locates on the outer wall of device shell. The utility model belongs to the technical field of construction machinery, specifically indicate a concrete recycling reducing mechanism, establish the artifical that material feeding unit reduces the required consumeing of artifical pay-off, reducing mechanism smashes bold concrete piece and is convenient for recycle, and dust collector guarantees the clean health of the environment that the staff is located, and conveyer reduces the manual work that artifical collection concrete waste material consumeed, the utility model discloses effectively solved current concrete recycling reducing mechanism work efficiency on the existing market low, and self structure is complicated, maintains comparatively inconvenient problem.

Description

Concrete recycling and smashing device

Technical Field

The utility model belongs to the technical field of construction machinery, specifically indicate a concrete recovery reducing mechanism.

Background

The construction waste refers to residue, waste soil, waste material, sludge and other wastes generated in the process of constructing, laying or dismantling and repairing various buildings, structures, pipe networks and the like by construction and construction units or individuals. Reinforcing bar in the concrete piece of traditional building still has bold waste material after taking out, is unfavorable for transport and decomposition, so need smash the concrete piece, and can produce a large amount of dusts at kibbling in-process, seriously influences operating personnel's around health.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a concrete recycling reducing mechanism is equipped with the artifical that material feeding unit reduces the required consumeing of artifical pay-off, and reducing mechanism can smash the bold concrete piece and recycle of being convenient for, and dust collector guarantees the clean health of the environment that the staff is located, and conveyer reduces the manual work that artifical collection concrete waste consumed, the utility model discloses effectively solved current concrete recycling reducing mechanism work efficiency on the existing market low, and self structure is complicated, maintains comparatively inconvenient problem.

The utility model adopts the following technical scheme: the utility model relates to a concrete recycling and smashing device, which comprises a smashing device, a dust removal device, a transportation device, a feeding device, a device shell and an operation button, wherein the smashing device is arranged in the device shell; the dust collector places the board including small-size suction fan, suction line, large aperture dust screen, dust removal solution box, clear water, exhaust duct and solution box, on the device shell was located to the one end of suction line, dust removal solution box linked to each other with the other end of suction line, the small-size suction fan of suction line located in the suction line, large aperture dust screen was located in the suction line, in the dust removal solution box was located to the clear water, under the liquid level of clear water was located to the output of suction line, on the dust removal solution box was located to the exhaust duct, the liquid level top of clear water was located to the end of breathing in of exhaust duct, the below of dust removal solution box was located to the board is placed to the solution box, the solution box is placed the board and is located on the outer wall of device shell.

Further, the feeding device comprises a feeding base, a lifting electric cylinder, peripheral support columns, a clamping limit plate, a small clamping block, a sliding clamping groove, a lower support column, a small rotating shaft, a small rotating motor and a waste placing plate, the feeding base is arranged on the side wall of the device shell, the lifting electric cylinder is arranged on the feeding base, the peripheral supporting columns are arranged on the feeding base, the clamping limiting plate is arranged on the lifting electric cylinder, the small clamping block is arranged on the clamping limiting plate, the sliding clamping groove is arranged on the support columns at the periphery, the small clamping block is clamped and arranged in the sliding clamping groove in a sliding way, the lower support column is arranged on the clamping limit plate, the small-sized rotating shaft is clamped and rotatably arranged on the lower support column, the output of small-size rotation motor links to each other with small-size axis of rotation, the waste material is placed the board and is linked to each other with small-size axis of rotation.

Further, reducing mechanism includes that the waste material places the mouth, the waste material is placed baffle, top and connects pivot, crushing motor, crushing pivot, inside limiting plate and crushing roller bearing, the waste material is placed the mouth and is located on the upper wall of device shell, the waste material is placed the baffle and is located on the waste material is placed the mouth, the top is connected the pivot and is located on the waste material is placed the baffle, the top baffle is placed the baffle with the waste material and is connected the pivot through the top and articulate, crushing pivot block rotates and locates on the inner wall of device shell, the output of crushing motor links to each other with crushing pivot, crushing motor locates on the outer wall of device shell, crushing roller bearing locates in the crushing pivot, the below of crushing roller bearing is located to inside limiting plate.

Further, the transportation device comprises a transmission motor, a waste transmission belt, a synchronous rotating shaft, a crushed material transmission port, a crushed material recovery box, a recovery trolley, a switch door and a power box, wherein the power box is arranged on the inner wall of the device shell, the crushed material recovery box is arranged on the side wall of the power box, the switch door is arranged on the side wall of the crushed material recovery box, the recovery trolley is arranged in the crushed material recovery box, the crushed material transmission port is arranged on the upper wall of the crushed material recovery box, the waste transmission belt is arranged above the crushed material recovery box, the synchronous rotating shaft is arranged on one end of the waste transmission belt, the output end of the transmission motor is arranged on the other end of the waste transmission belt, the synchronous rotating shaft is clamped and rotatably arranged on the inner wall of the device shell, and the transmission motor is arranged on the outer wall of the device shell, the output end of the conveying motor is clamped and rotatably arranged on the inner wall of the device shell.

Further, the operating button includes that the power opens and stops button, fan open and stop button, electric jar lifting button, electric jar decline button, pay-off button, resume button, smashes and open and stop button and pay-off and stop button, the power opens and stops the button and locates on the outer wall of device shell, the fan opens and stops the button and locates on the outer wall of device shell, electric jar lifting button locates on the outer wall of device shell, electric jar decline button locates on the outer wall of device shell, the pay-off button locates on the outer wall of device shell, resume the button and locate on the outer wall of device shell, smash and open and stop the button and locate on the outer wall of device shell, the pay-off opens and stops the button and locates on the outer wall of device shell.

Further, the power opens and stops the button and is connected with the power supply box electricity, the fan opens and stops the button and is connected with small-size extraction fan electricity, electricity jar lifting button and electricity jar decline button are connected with the lift electricity jar electricity respectively, the pay-off button is connected with small-size rotating electrical machines electricity respectively with the recovery button, smash and stop the button and be connected with crushing motor electricity, the pay-off opens and stops the button and is connected with the conveying motor electricity.

Furthermore, four groups of support columns are arranged on the periphery, four groups of small clamping blocks are arranged, four groups of sliding clamping grooves are arranged, two groups of upper baffles are arranged, and two groups of upper connecting rotating shafts are arranged.

Furthermore, the crushing rollers are mutually clamped, and the crushing rollers form an inverted splayed shape.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme concrete recycling reducing mechanism is equipped with the artifical that material feeding unit reduced the artifical required consumeing of artifical pay-off, and reducing mechanism can smash the bold concrete piece and recycle of being convenient for, and dust collector guarantees the clean health of staff's environment, and conveyer reduces the manual work that artifical collection concrete waste material consumeed, the utility model discloses effectively solved current concrete recycling reducing mechanism work efficiency on the existing market low, and self structure is complicated, maintains comparatively inconvenient problem.

Drawings

FIG. 1 is a front view of a concrete recycling and crushing apparatus of the present invention;

FIG. 2 is a front sectional view of the concrete recycling and crushing device of the present invention;

FIG. 3 is a right side sectional view of the concrete recycling and grinding apparatus of the present invention;

fig. 4 is the utility model relates to a concrete recycling reducing mechanism top view.

Wherein, 1, a crushing device, 2, a dust removing device, 3, a transporting device, 4, a feeding device, 5, a device shell, 6, an operation button, 7, a small-sized suction fan, 8, a suction pipeline, 9, a large-aperture dustproof net, 10, a dust removing solution box, 11, clean water, 12, an exhaust pipeline, 13, a solution box placing plate, 14, a feeding base, 15, a lifting electric cylinder, 16, a surrounding support column, 17, a clamping limit plate, 18, a small-sized clamping block, 19, a sliding clamping groove, 20, a lower support column, 21, a small-sized rotating shaft, 22, a small-sized rotating motor, 23, a waste placing plate, 24, a waste placing opening, 25, a waste placing baffle, 26, an upper baffle, 27, an upper connecting rotating shaft, 28, a crushing motor, 29, a crushing rotating shaft, 30, an inner limit plate, 31, a crushing roller, 32, a conveying motor, 33, a waste conveying belt, 34, synchronous pivot, 35, crushing material transfer opening, 36, crushing material collection box, 37, recovery dolly, 38, switch door, 39, power supply box, 40, power start-stop button, 41, fan start-stop button, 42, electric jar lifting button, 43, electric jar decline button, 44, pay-off button, 45, resume button, 46, crushing start-stop button, 47, pay-off start-stop button.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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.

As shown in fig. 1-4, the utility model relates to a concrete recycling and crushing device, which comprises a crushing device 1, a dust removing device 2, a transporting device 3, a feeding device 4, a device shell 5 and an operating button 6, wherein the crushing device 1 is arranged in the device shell 5, the dust removing device 2 is arranged on the outer wall of the device shell 5, the transporting device 3 is arranged below the crushing device 1, the feeding device 4 is arranged on the side wall of the device shell 5, and the operating button 6 is arranged on the outer wall of the device shell 5; dust collector 2 places board 13 including small-size suction fan 7, suction line 8, large aperture dust screen 9, dust removal solution box 10, clear water 11, exhaust duct 12 and solution box, on device shell 5 is located to suction line 8's one end, dust removal solution box 10 links to each other with suction line 8's the other end, suction line 8 is located in suction line 8 to suction line 8's small-size suction fan 7, large aperture dust screen 9 is located in suction line 8, clear water 11 is located in dust removal solution box 10, under clear water 11's the liquid level is located to suction line 8's the output, exhaust duct 12 is located on dust removal solution box 10, the liquid level top of clear water 11 is located to exhaust line 12's the end of breathing in, solution box places board 13 and locates the below of dust removal solution box 10, solution box places board 13 and locates on device shell 5's outer wall.

The feeding device 4 comprises a feeding base 14, a lifting electric cylinder 15, peripheral supporting columns 16, a clamping limiting plate 17, a small clamping block 18, a sliding clamping groove 19, a lower supporting column 20, a small rotating shaft 21, a small rotating motor 22 and a waste material placing plate 23, wherein the feeding base 14 is arranged on the side wall of the device shell 5, the lifting electric cylinder 15 is arranged on the feeding base 14, the peripheral supporting columns 16 are arranged on the feeding base 14, the clamping limiting plate 17 is arranged on the lifting electric cylinder 15, the small clamping block 18 is arranged on the clamping limiting plate 17, the sliding clamping groove 19 is arranged on the peripheral supporting columns 16, the small clamping block 18 is clamped and slidably arranged in the sliding clamping groove 19, the lower supporting column 20 is arranged on the clamping limiting plate 17, the small rotating shaft 21 is clamped and rotatably arranged on the lower supporting column 20, and the output end of the small rotating motor 22 is connected with the small rotating shaft 21, the scrap placing plate 23 is connected to the small rotating shaft 21.

Reducing mechanism 1 includes that the waste material places mouth 24, waste material and places baffle 25, top baffle 26, top connection pivot 27, crushing motor 28, crushing pivot 29, inside limiting plate 30 and crushing roller 31, the waste material is placed mouth 24 and is located on the upper wall of device shell 5, the waste material is placed baffle 25 and is located on the waste material is placed mouth 24, top connection pivot 27 is located on the waste material is placed baffle 25, top baffle 26 is placed baffle 25 with the waste material and is connected pivot 27 through the top articulated, crushing pivot 29 block rotates and locates on the inner wall of device shell 5, crushing motor 28's output links to each other with crushing pivot 29, crushing motor 28 locates on the outer wall of device shell 5, crushing roller 31 locates on crushing pivot 29, the below of crushing roller 31 is located to inside limiting plate 30.

The transportation device 3 comprises a transmission motor 32, a waste transmission belt 33, a synchronous rotating shaft 34, a crushed material transmission port 35, a crushed material recovery box 36, a recovery trolley 37, a switch door 38 and a power box 39, wherein the power box 39 is arranged on the inner wall of the device shell 5, the crushed material recovery box 36 is arranged on the side wall of the power box 39, the switch door 38 is arranged on the side wall of the crushed material recovery box 36, the recovery trolley 37 is arranged in the crushed material recovery box 36, the crushed material transmission port 35 is arranged on the upper wall of the crushed material recovery box 36, the waste transmission belt 33 is arranged above the crushed material recovery box 36, the synchronous rotating shaft 34 is arranged on one end of the waste transmission belt 33, the output end of the transmission motor 32 is arranged on the other end of the waste transmission belt 33, the synchronous rotating shaft 34 is clamped on the inner wall of the device shell 5, the transmission motor 32 is arranged on the outer wall of the device shell 5, and the output end of the transmission motor 32 is clamped and rotatably arranged on the inner wall of the device shell 5.

The operating button 6 comprises a power supply start-stop button 40, a fan start-stop button 41, an electric cylinder lifting button 42, an electric cylinder descending button 43, a feeding button 44, a recovery button 45, a crushing start-stop button 46 and a feeding start-stop button 47, wherein the power supply start-stop button 40 is arranged on the outer wall of the device shell 5, the fan start-stop button 41 is arranged on the outer wall of the device shell 5, the electric cylinder lifting button 42 is arranged on the outer wall of the device shell 5, the electric cylinder descending button 43 is arranged on the outer wall of the device shell 5, the feeding button 44 is arranged on the outer wall of the device shell 5, the recovery button 45 is arranged on the outer wall of the device shell 5, the crushing start-stop button 46 is arranged on the outer wall of the device shell 5, and the feeding start-stop button 47 is arranged on.

The power opens and stops button 40 and is connected with power supply box 39 electricity, fan opens and stops button 41 and is connected with small-size extraction fan 7 electricity, electricity jar lifting button 42 and electricity jar decline button 43 are connected with lift electricity jar 15 electricity respectively, pay-off button 44 and recovery button 45 are connected with small-size rotation motor 22 electricity respectively, smash open and stop button 46 and smash the motor 28 electricity and be connected, pay-off open and stop button 47 is connected with conveyer motor 32 electricity.

Four sets of the four support columns 16 are provided, four sets of the small-sized engaging blocks 18 are provided, four sets of the sliding engaging grooves 19 are provided, two sets of the upper baffle plates 26 are provided, and two sets of the upper connecting rotating shafts 27 are provided.

The crushing rollers 31 are engaged with each other, and the crushing rollers 31 form an inverted-splayed shape.

When the concrete crusher is used, a user puts waste on the waste placing plate 23, presses the electric cylinder lifting button 42, lifts the waste placing plate 23 by the electric cylinder 15, opens the upper baffle plate 26 and presses the feeding button 44, the small-sized rotating motor 22 rotates to feed the waste on the waste placing plate 23 into the waste placing opening 24, sequentially presses the recovery button 45 and the electric cylinder descending button 43, the feeding device 4 recovers to the initial position, the upper baffle plate 26 is closed after the waste enters the crushing device 1, the user presses the crushing start-stop button 46, the crushing motor 28 drives the crushing roller 31 to rotate to crush the large concrete, the crushed concrete slides down to one end of the waste conveyor belt 33 along the inner limiting plate 30, the user presses the feeding start-stop button 47, the conveying motor 32 drives the waste conveyor belt 33 to convey the waste until the waste is above the crushed material conveying opening 35, and presses the fan start-stop button 41, small-size suction fan 7 rotates and absorbs the dust of waste material whereabouts to smashing in the material collection box 36 and gets into in the exhaust duct 8, and large aperture dust screen 9 keeps apart the large granule concrete, and in the dust got into clear water 11 in the dust removal solution box 10, the dust subsided, exhaust duct 12 exhaust fresh air, the user opened switch door 38 will retrieve dolly 37 and take out the concrete crushing thing that the clearance was wherein, it is above that the utility model discloses holistic work flow, repeat this step when using next time can.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (8)

1. The utility model provides a concrete recycling reducing mechanism which characterized in that: the crushing device is arranged in the device shell, the dust removal device is arranged on the outer wall of the device shell, the transportation device is arranged below the crushing device, the feeding device is arranged on the side wall of the device shell, and the operation button is arranged on the outer wall of the device shell; the dust collector places the board including small-size suction fan, suction line, large aperture dust screen, dust removal solution box, clear water, exhaust duct and solution box, on the device shell was located to the one end of suction line, dust removal solution box linked to each other with the other end of suction line, the small-size suction fan of suction line located in the suction line, large aperture dust screen was located in the suction line, in the dust removal solution box was located to the clear water, under the liquid level of clear water was located to the output of suction line, on the dust removal solution box was located to the exhaust duct, the liquid level top of clear water was located to the end of breathing in of exhaust duct, the below of dust removal solution box was located to the board is placed to the solution box, the solution box is placed the board and is located on the outer wall of device shell.

2. A concrete recycling and crushing apparatus according to claim 1, wherein: feeding device includes that pay-off base, lift electric cylinder, support column all around, block limiting plate, small-size block, slip block groove, below support column, small-size axis of rotation, small-size rotation motor and waste material place the board, the pay-off base is located on the lateral wall of device shell, the lift electric cylinder is located on the pay-off base, the support column is located on the pay-off base all around, the block limiting plate is located on the lift electric cylinder, small-size block is located on the block limiting plate, slip block groove is located on the support column all around, small-size block slides and locates in the slip block groove, the block limiting plate is located on the block limiting plate to the below support column, small-size axis of rotation block rotates and locates on the below support column, the output of small-size rotation motor links to each other with small-size axis.

3. A concrete recycling and crushing apparatus according to claim 2, wherein: the smashing device comprises a waste placing port, a waste placing baffle, a top connecting rotating shaft, a smashing motor, a smashing rotating shaft, an internal limiting plate and a smashing roller, wherein the waste placing port is formed in the upper wall of a device shell, the waste placing baffle is formed in the waste placing port, the top connecting rotating shaft is formed in the waste placing baffle, the top baffle is hinged to the waste placing baffle through the top connecting rotating shaft, the smashing rotating shaft is clamped and rotated on the inner wall of the device shell, the output end of the smashing motor is connected with the smashing rotating shaft, the smashing motor is arranged on the outer wall of the device shell, the smashing roller is arranged on the smashing rotating shaft, and the internal limiting plate is arranged below the smashing roller.

4. A concrete recycling and crushing apparatus according to claim 3, wherein: the transportation device comprises a transmission motor, a waste material transmission belt, a synchronous rotating shaft, a crushed material transmission port, a crushed material recovery box, a recovery trolley, a switch door and a power supply box, the power supply box is arranged on the inner wall of the device shell, the crushed material recovery box is arranged on the inner wall of the device shell, the crushed material recovery box is arranged on the side wall of the power supply box, the switch door is arranged on the side wall of the crushed material recovery box, the recovery trolley is arranged in the crushed material recovery box, the crushed material conveying opening is arranged on the upper wall of the crushed material recovery box, the waste material conveyor belt is arranged above the crushed material recovery box, the synchronous rotating shaft is arranged on one end of the waste material conveyor belt, the output end of the conveying motor is arranged at the other end of the waste conveying belt, the synchronous rotating shaft is clamped and rotatably arranged on the inner wall of the device shell, the conveying motor is arranged on the outer wall of the device shell, and the output end of the conveying motor is clamped and rotated on the inner wall of the device shell.

5. A concrete recovery comminution device as in claim 4, wherein: the operating button includes that the power opens and stops button, fan open and stop button, electric jar lifting button, electric jar decline button, pay-off button, resume button, smashes and open and stop button and pay-off and open and stop the button, the power opens and stops the button and locates on the outer wall of device shell, the fan opens and stops the button and locates on the outer wall of device shell, electric jar lifting button is located on the outer wall of device shell, electric jar decline button is located on the outer wall of device shell, the pay-off button is located on the outer wall of device shell, resume the button and locate on the outer wall of device shell, smash to open and stop the button and locate on the outer wall of device shell, the pay-off opens and stops the button and locates on the.

6. A concrete recovery comminution device as in claim 5, wherein: the power opens and stops the button and is connected with the power supply box electricity, the fan opens and stops the button and is connected with small-size extraction fan electricity, electric jar lifting button and electric jar decline button are connected with the lift electric jar electricity respectively, the pay-off button is connected with small-size rotation motor electricity respectively with the recovery button is connected, smash to open and stop the button and be connected with crushing motor electricity, the pay-off opens and stops the button and is connected with the conveying motor electricity.

7. A concrete recovery comminution device as in claim 6, wherein: the support columns on the periphery are provided with four groups, the small clamping blocks are provided with four groups, the sliding clamping grooves are provided with four groups, the upper baffle is provided with two groups, and the upper connecting rotating shaft is provided with two groups.

8. A concrete recovery comminution device as in claim 7, wherein: the crushing rollers are mutually clamped, and the crushing rollers form an inverted splayed shape.

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