CN212758820U - Building rubbish breaker for building engineering - Google Patents

Abstract

The utility model discloses a building rubbish breaker for building engineering, relate to building apparatus technical field, the first baffle that is used for the guide is installed to the casing upper end, broken running roller is installed to first baffle lower extreme, broken running roller passes through the second pivot to be installed in the casing, first sieve is installed to broken running roller below, first sieve slope sets up, the position that the casing is close to the higher one side of first sieve begins to have first cooperation mouth, install first fan in the first cooperation mouth, the position that the casing is close to the lower one side of first sieve begins to have first discharge gate, install shock dynamo under the first sieve, a third pivot that is on a parallel with the second pivot is installed to first sieve below, install the second fan in the third pivot, first conveyer belt is installed to second fan below, the one end of first conveyer belt is in the casing, the other end passes the second discharge gate on the casing and installs at the casing. The utility model discloses can guarantee screen cloth efficiency through the attachment on first fan and the second fan clearance screen cloth.

Description

Building rubbish breaker for building engineering

Technical Field

The utility model relates to a building appliances technical field especially relates to a building rubbish breaker for building engineering.

Background

In the prior art, double crushing rollers are often adopted for crushing, a screen is generally arranged below the crushing rollers, and a vibration motor is arranged below the screen; however, plastic products are often mixed in the construction waste to be crushed, and the plastic products have strong elasticity, so that the construction waste cannot be effectively crushed and is attached to the screen, and the working efficiency of the screen is affected.

SUMMERY OF THE UTILITY MODEL

The utility model provides a building rubbish breaker for building engineering can clear up the attachment on the screen cloth in the screen cloth working process, guarantees the separation efficiency of screen cloth.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a construction waste crushing device for constructional engineering comprises a shell and a crushing roller, and is characterized in that, the utility model discloses a novel energy-saving device, including casing, first baffle, broken running roller, first fan, vibrating motor, a second fan, first conveyer belt, the one end of first conveyer belt is in the casing, the first baffle that is used for the guide is installed to the casing upper end, broken running roller is installed to first baffle lower extreme, broken running roller passes through the second pivot and installs in the casing, first sieve is installed to broken running roller below, first sieve slope sets up, the position that the casing is close to the higher one side of first sieve begins to have first cooperation mouth, install first fan in the first cooperation mouth, the position that the casing is close to the lower one side of first sieve begins to have first discharge gate, install vibrating motor under the first sieve, a third pivot that is on a parallel with the second pivot is installed to first sieve below, install the second fan in the third pivot, first conveyer belt.

Further, a second motor is installed on the side face of the shell, the second motor drives a third rotating shaft to rotate, a second fan is installed above the third rotating shaft and comprises a fan shell, a disc cover is arranged at the upper end of the fan shell, fan blades are installed below the disc cover and driven by a third motor below the fan blades, the third motor is installed on a cross support in the fan shell, a third rotating shaft hole is formed in the lower portion of the fan shell, and the third rotating shaft is connected with the third rotating shaft hole.

Further, the disc cover comprises a solid disc and a grid disc, the grid disc surrounds the outer side of the solid disc and is concentric with the solid disc, and the diameter of the solid disc is larger than that of the third motor.

Furthermore, a grid cover is arranged in front of the first fan.

Furthermore, there is first recess casing upper end, has first arch and the cooperation of first recess on the first baffle, and first pivot passes first arch and first recess and links together first baffle and casing, and the spring is still installed to one side that first baffle is close to the casing, and spring one end is connected the other end with first baffle and is connected with the casing.

Furthermore, a first material guide plate is arranged below a first discharge port of the shell, a second sieve plate is arranged below the first material guide plate and connected with the shell, each second sieve plate comprises a herringbone inclined plate, a transverse plate, a second baffle plate and a third baffle plate, sieve holes are formed in the herringbone inclined plates and the transverse plates, the transverse plates are respectively installed on two sides of the herringbone inclined plates, one end of each transverse plate is connected with the herringbone inclined plates, the other end of each transverse plate is connected with the third baffle plate, the third baffle plates are installed on one sides, far away from the shell, of the herringbone inclined plates and the transverse plates, and the third baffle plates are fixedly connected with the herringbone inclined plates, the transverse plates and the third baffle plates.

Furthermore, a second conveying belt is installed below the second sieve plate.

Furthermore, a second material guide plate is installed on the side face in the shell, one end of the second material guide plate is connected with the shell, the other end of the second material guide plate is located on the upper side of the second conveying belt, and the second material guide plate and the shell keep a gap.

Furthermore, broken running roller has two, and broken running roller is installed in the second pivot, and first runner is installed to the part of second pivot outside the casing, has the belt on the first runner, and belt pot head is on the runner other end cover is on the epaxial second runner of the pivot of first motor.

Has the advantages that: the utility model can ensure the efficiency of the screen by cleaning attachments on the screen by the first fan and the second fan; the first baffle is movably connected with the shell, and a spring is arranged between the first baffle and the shell, so that the size of an inlet can be adjusted according to the quantity of construction waste, and the construction waste is concentrated between the two crushing rollers as much as possible; the attachment on the screen cloth can be discharged from the first discharge port, the second screen cloth is arranged below the first discharge port, and the second screen cloth is herringbone, so that the plastic products can be effectively hung on the second screen cloth and can be cleaned by workers conveniently.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a left side schematic view of fig. 1 in accordance with the present invention;

fig. 3 is a schematic view of a first baffle of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

fig. 5 is a schematic view of a second fan according to the present invention;

fig. 6 is a schematic view of the disc cover of the present invention;

fig. 7 is a schematic view of the cross bracket of the present invention;

in the figure:

1 shell, 101 first rotating shaft, 102 first groove, 103 spring, 104 first matching port, 105 first discharging port, 106 first material guiding plate, 107 second material guiding plate, 108 second discharging port, 2 first baffle, 201 first protrusion, 3 crushing roller, 4 second rotating shaft, 5 first fan, 501 grid cover, 6 first sieve plate, 7 vibrating motor, 8 second fan, 801 disk cover, 8011 solid disc, 8012 grid disc, 802 fan blade, 803 fan shell, 804 third motor, 805 cross bracket, 806 third rotating shaft hole, 9 third rotating shaft, 10 first conveying belt, 11 second sieve plate, 1101 second baffle, 1102 third baffle, 1103 herringbone inclined plate, transverse plate 1104, 12 second conveying belt, 13 first rotating wheel, 14 belt, 15 first motor, 16 second motor

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

With reference to fig. 1-7, the following examples can be obtained:

referring to fig. 1, a construction waste crushing device for construction engineering comprises a housing 1 and a crushing roller 3, wherein a first baffle 2 for guiding materials is installed at the upper end of the housing 1, the crushing roller 3 is installed at the lower end of the first baffle 2, the crushing roller 3 is installed in the housing 1 through a second rotating shaft 4, a first sieve plate 6 is installed below the crushing roller 3, the first sieve plate 6 is arranged in an inclined manner, a first matching opening 104 is formed at the position of the housing 1 close to the higher side of the first sieve plate 6, a first fan 5 is installed in the first matching opening 104, a first discharge opening 105 is formed at the position of the housing 1 close to the lower side of the first sieve plate 6, a vibrating motor 7 is installed below the first sieve plate 6, a third rotating shaft 9 parallel to the second rotating shaft 4 is installed below the first sieve plate 6, a second fan 8 is installed on the third rotating shaft 9, a first conveyer belt 10 is installed below the second fan 8, one end of the first conveying belt 10 is arranged in the housing 1, and the other end of the first conveying belt passes through the second discharge hole 108 on the housing 1 and is arranged outside the housing 1. Construction waste falls onto the crushing roller 3 in the shell 1 from between the two first baffles 2, falls onto the first screen after being crushed by the crushing roller 3, falls onto the first conveying belt 10 through the first screen and leaves from the shell 1 through the first conveying belt 10, and flows out of the first discharge port 105; because the plastic products are easily attached to the first screen in a flocculent or strip shape after being crushed, the first screen can be cleaned by the first fan 5 in the first leather deterioration port on the side surface of the shell 1 and the second fan 8 at the upper end of the third rotating shaft 9 in the shell 1 through wind power.

Referring to fig. 5 to 7, a second motor 16 is installed on a side surface of the housing 1, the second motor 16 drives a third rotating shaft 9 to rotate, a second fan 8 is installed above the third rotating shaft 9, the second fan 8 includes a fan housing 803, a disc cover 801 is installed at an upper end of the fan housing 803, a fan blade 802 is installed below the disc cover 801, the fan blade 802 is driven by a third motor 804 below the fan blade 802, the third motor 804 is installed on a cross bracket 805 in the fan housing 803, a third rotating shaft hole 806 is formed below the fan housing 803, and the third rotating shaft 9 is connected with the third rotating shaft hole 806. The second motor 16 is preferably a stepping motor, and can drive the second fan 8 to rotate between zero and one hundred eight, so as to effectively blow attachments on the second screen from the lower side of the second screen, and simultaneously blow the attachments to the first discharge hole 105 by matching with the first fan 5; in order to protect the third fan, a disc cover 801 is mounted on the fan housing 803, and the center of the disc cover 801 is a solid disc 8011. Therefore, the second fan 8 should be perpendicular to the horizontal plane when not in operation, so as to reduce the damage of the broken garbage to the second fan 8, and meanwhile, as the second fan 8 is arranged in a hollow manner, garbage fragments falling from the second fan blade 802 fall onto the first conveying belt 10 from the fan shell 803.

Referring to fig. 6, the disc cover 801 includes a solid disc 8011 and a mesh disc 8012, the mesh disc 8012 surrounds the solid disc 8011 and is concentric with the solid disc 8011, and the diameter of the solid disc 8011 is larger than that of the third motor 804. Protecting the third motor 804 from damage.

Referring to fig. 1, a mesh cover 501 is installed in front of the first fan 5. The output of wind power is ensured and a certain protection effect is achieved.

Referring to fig. 1 and 2, the upper end of the housing 1 is provided with a first groove 102, the first baffle 2 is provided with a first protrusion 201 matched with the first groove 102, the first rotating shaft 101 penetrates through the first protrusion 201 and the first groove 102 to connect the first baffle 2 and the housing 1 together, one side of the first baffle 2 close to the housing 1 is further provided with a spring 103, and one end of the spring 103 is connected with the first baffle 2 and the other end is connected with the housing 1. The spring 103 is used for adjusting the angle between the first baffle 2 and the shell 1 by the shell 1 so as to enlarge the angle when the garbage amount is large, and rebounds when the garbage amount is small, so that the garbage can be concentrated between the two crushing rollers 3 as much as possible under the condition of adapting to the garbage amount and width.

Referring to fig. 2 and 4, a first guide plate 106 is arranged below a first discharge port 105 of the housing 1, a second screen plate 11 is arranged below the first guide plate 106, the second screen plate 11 is connected with the housing 1, the second screen plate 11 comprises a herringbone sloping plate 1103, a transverse plate 1104, a second baffle 1101 and a third baffle 1102, screen holes are arranged on the herringbone sloping plate 1103 and the transverse plate 1104, a transverse plate 1104 is respectively arranged on each of two sides of the herringbone sloping plate 1103, one end of the transverse plate 1104 is connected with the herringbone sloping plate 1103, the other end of the transverse plate 1104 is connected with the third baffle 1102, the third baffle 1102 is arranged on one side of the herringbone sloping plate 1103 and the transverse plate 1104, which is far away from the housing 1, and the third baffle 1102 is fixedly connected with the herringbone sloping plate 1103, the transverse plate 1104 and the third baffle 1102. The second screen cloth of herringbone design can be effectual will be flocculent or banding plastics rubbish is held back at the top of herringbone design, makes things convenient for the staff to clear up the second screen cloth.

Referring to fig. 2, a second conveyor belt 12 is installed below the second screen deck 11. Larger particle trash is transported together.

Referring to fig. 1, a second material guide plate 107 is installed on a side surface inside the casing 1, and one end of the second material guide plate 107 is connected to the casing 1 and the other end is located on the upper side of the second conveyor belt 12 and spaced from the second conveyor belt 12. Refuse is prevented from falling into the gap between the second conveyor belt 12 and the housing 1.

Referring to fig. 2, there are two crushing rollers 3, the crushing rollers 3 are mounted on a second rotating shaft 4, a first rotating wheel 13 is mounted on the portion of the second rotating shaft 4 outside the housing 1, a belt 14 is mounted on the first rotating wheel 13, one end of the belt 14 is sleeved on the rotating wheel, and the other end of the belt 14 is sleeved on a second rotating wheel on the rotating shaft of the first motor 15.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (9)

1. The building rubbish crushing device for the building engineering comprises a shell (1) and a crushing roller (3), and is characterized in that a first baffle (2) used for guiding materials is installed at the upper end of the shell (1), the crushing roller (3) is installed at the lower end of the first baffle (2), the crushing roller (3) is installed in the shell (1) through a second rotating shaft (4), a first sieve plate (6) is installed below the crushing roller (3), the first sieve plate (6) is obliquely arranged, a first matching opening (104) is formed in the position, close to the higher side of the first sieve plate (6), of the shell (1), a first fan (5) is installed in the first matching opening (104), a first discharge opening (105) is formed in the position, close to the lower side of the first sieve plate (6), of the shell (1), a vibrating motor (7) is installed below the first sieve plate (6), a third rotating shaft (9) parallel to the second rotating shaft (4) is installed below the first sieve plate (6), install second fan (8) on third pivot (9), first conveyer belt (10) are installed to second fan (8) below, and the one end of first conveyer belt (10) is in casing (1), and the other end passes second discharge gate (108) on casing (1) and installs outside casing (1).

2. The building rubbish crushing device for the building engineering as claimed in claim 1, wherein a second motor (16) is installed on a side face of the shell (1), the second motor (16) drives a third rotating shaft (9) to rotate, a second fan (8) is installed above the third rotating shaft (9), the second fan (8) comprises a fan shell (803), a disc cover (801) is arranged at the upper end of the fan shell (803), fan blades (802) are installed below the disc cover (801), the fan blades (802) are driven by the third motor (804) below the fan blades (802), the third motor (804) is installed on a cross support (805) in the fan shell (803), a third rotating shaft hole (806) is formed below the fan shell (803), and the third rotating shaft (9) is connected with the third rotating shaft hole (806).

3. The construction waste crushing device for the construction engineering as claimed in claim 2, wherein the disc cover (801) comprises a solid disc (8011) and a mesh disc (8012), the mesh disc (8012) surrounds the solid disc (8011) and is concentric with the solid disc (8011), and the diameter of the solid disc (8011) is larger than that of the third motor (804).

4. The construction waste crushing device for the construction engineering as claimed in claim 1, wherein a mesh cover (501) is installed in front of the first fan (5).

5. The construction waste crushing device for the constructional engineering as claimed in claim 1, wherein the housing (1) is provided at an upper end thereof with a first groove (102), the first baffle (2) is provided with a first protrusion (201) which is matched with the first groove (102), the first rotating shaft (101) penetrates through the first protrusion (201) and the first groove (102) to connect the first baffle (2) and the housing (1), the spring (103) is further mounted on a side of the first baffle (2) close to the housing (1), one end of the spring (103) is connected with the first baffle (2), and the other end is connected with the housing (1).

6. The construction waste crushing device for the building engineering as claimed in claim 1, wherein a first material guide plate (106) is arranged below a first material outlet (105) of the shell (1), a second screen plate (11) is arranged below the first material guide plate (106), the second screen plate (11) is connected with the shell (1), the second screen plate (11) comprises a herringbone sloping plate (1103), a transverse plate (1104), a second baffle plate (1101) and a third baffle plate (1102), the herringbone sloping plate (1103) and the transverse plate (1104) are provided with screen holes, two transverse plates (1104) are respectively arranged on two sides of the herringbone sloping plate (1103), one end of each transverse plate (1104) is connected with the herringbone sloping plate (1103) and the other end is connected with the third baffle plate (1102), the third baffle plate (1102) is arranged on one side of the herringbone sloping plate (1103) and the transverse plate (1103) far away from the shell (1), and the third baffle plate (1104) is connected with the herringbone sloping plate (1103), The transverse plate (1104) and the third baffle plate (1102) are fixedly connected.

7. A construction waste crushing device for building engineering according to claim 6, wherein a second conveyor belt (12) is installed below the second sieve plate (11).

8. The construction waste crushing device for the construction engineering as claimed in claim 1, wherein a second material guiding plate (107) is installed on the side surface in the housing (1), one end of the second material guiding plate (107) is connected with the housing (1), and the other end is positioned on the upper side of the second conveying belt (12) and keeps a space with the second conveying belt (12).

9. The construction waste crushing device for the construction engineering as claimed in claim 1, wherein the number of the crushing rollers (3) is two, the crushing rollers (3) are arranged on a second rotating shaft (4), a first rotating wheel (13) is arranged on the part of the second rotating shaft (4) outside the shell (1), a belt (14) is arranged on the first rotating wheel (13), and one end of the belt (14) is sleeved on the rotating wheel and the other end of the belt is sleeved on a second rotating wheel on the rotating shaft of the first motor (15).

Images