CN111804572A

CN111804572A - Energy-concerving and environment-protective type building engineering construction building materials multidirectional vibration sorting device

Info

Publication number: CN111804572A
Application number: CN202010708814.6A
Authority: CN
Inventors: 董立东
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2020-10-23

Abstract

The invention discloses an energy-saving environment-friendly multidirectional vibration sorting device for construction building materials of constructional engineering, wherein a feeding port is formed in the right side of the upper part of a device body, a first support body is arranged on the left side of the bottom of the device body, a first track body is screwed on the right side of the inside of the device body, a second track body is screwed and fixed above the first support body, a transverse sliding plate is arranged above the first track body and the second track body in a sliding mode, a blanking channel port is formed in the middle of the transverse sliding plate, a vibration driving assembly can drive the transverse sliding plate to slide on the first track body and the second track body, the upper part of the vibration driving assembly is connected with a screening device and can drive the screening device to vibrate, a first outflow groove is formed in the left side of the screening device, a blanking channel is formed in. The vibrating sorting machine can realize vibrating sorting of materials, effectively reduce labor intensity, save energy and protect environment. The invention is suitable for wide application in the field of construction engineering construction.

Description

Energy-concerving and environment-protective type building engineering construction building materials multidirectional vibration sorting device

Technical Field

The invention relates to the technical field of construction machinery, in particular to an energy-saving and environment-friendly multidirectional vibration sorting device for construction building materials of constructional engineering.

Background

At the construction site, often need vibrate the drive to the material, mostly adopt manual operation's mode in the construction site for a long time, not only work efficiency is low, workman intensity of labour is big, with high costs, vibrate the dust diffusion back that the in-process produced moreover, can produce very big harm to operating personnel's healthy, the feature of environmental protection is relatively poor.

Disclosure of Invention

The invention aims to solve the technical problem of providing an energy-saving environment-friendly multidirectional vibration sorting device for construction building materials of constructional engineering, which can solve the problems in the prior art.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an energy-saving environment-friendly multidirectional vibration sorting device for construction building materials of constructional engineering comprises a device body, a screening device, a first rail body, a second rail body, a transverse sliding plate and a vibration driving assembly, wherein a feeding port is formed in the right side of the upper portion of the device body, a first supporting body is arranged on the left side of the bottom of the device body, the first rail body is connected with the right side of the inner portion in a threaded manner, a second supporting body is arranged on the outer portion of the inner portion of the device body, the top of the second supporting body is fixed with the device body in a threaded manner, the second rail body is fixed above the first supporting body in a threaded manner, the transverse sliding plate is arranged above the first rail body and the second rail body in a sliding manner, a blanking channel port is formed in the middle of the transverse sliding plate, the vibration driving assembly can drive the transverse sliding plate to slide on the first, the screening device is characterized in that a first outflow groove is formed in the left side of the screening device, a blanking channel is formed in the middle of the screening device, a blanking plate with multiple groups of blanking holes is arranged above the blanking channel, the blanking plate corresponds to the blanking channel opening, the left side of the device body is located below the first outflow groove, a first material box is arranged below the first outflow groove, and the right side of the device body is located below the blanking plate, a second material box is arranged below the second outflow groove.

As limiting, it includes cooperation fixer, hydraulic drive ware and shock motor to vibrate drive assembly, two tops of the track body are equipped with multiunit cooperation central siphon, the inside return spring that is equipped with of cooperation central siphon, horizontal slide left end is equipped with the cooperation fixer, be equipped with the cooperation axle on the cooperation fixer, the cooperation axle inserts in the cooperation central siphon, horizontal slide right-hand member with be equipped with between the track body one the hydraulic drive ware, hydraulic drive ware drive connecting rod, the connecting rod left end be connected with the fixed cooperation connector of horizontal slide right-hand member spiro union, horizontal slide left side upper portion is equipped with rotation support, right side top is equipped with shock motor, rotation support upper portion is connected with the rotation support axle, shock motor drives the drive wheel and rotates, the rotation supporter body is installed to screener left side below, The right side below is equipped with vibrates supporter and axis of rotation, it is equipped with the rotation lug to rotate the supporter both sides, rotate the lug with the rotation back shaft cooperation just the rotation lug can wind the rotation back shaft rotates, it is equipped with the vibration cam to vibrate the supporter below, the axis of rotation both sides with the device body is rotated and is connected and the middle part is connected with the vibration cam and vibrate from the driving wheel, the drive wheel with vibrate from driving wheel cooperation drive.

As another limitation, a first dust-proof rubber film is connected to the right end of the rotary support body and the right end of the second track body in a threaded manner, and a second dust-proof rubber film is connected to the left end of the oscillating support body and the left end of the first track body in a threaded manner.

As another limitation, a bearing is arranged at the matching position of the rotating lifting lug and the rotating supporting shaft, and a bearing is arranged at the matching position of the rotating shaft and the device body.

As another limitation, sliding rails are arranged on the first rail body and the second rail body, a plurality of groups of sliding wheels are arranged on the lower portion of the transverse sliding plate, and the sliding wheels are respectively matched with the sliding rails of the first rail body and the second rail body.

As limiting, a plurality of groups of material taking-out rails are arranged at the bottom in the device body, a plurality of groups of first sliding wheels are arranged at the lower part of the first material box, a plurality of groups of second sliding wheels are arranged at the lower part of the second material box, and the first sliding wheels and the second sliding wheels slide along the material taking-out rails in a matched mode.

As another definition, the blanking plate is removably connected to the sizer.

As another limitation, the rear side wall of the device body is provided with a first taking-out door and a second taking-out door, and the right side wall is provided with a maintenance back plate.

Due to the adoption of the design, compared with the prior art, the invention has the technical progress that:

(1) according to the energy-saving environment-friendly multidirectional vibration sorting device for building materials for building engineering construction, the vibration driving assembly is arranged, on one hand, a hydraulic driver of the vibration driving assembly can drive the transverse sliding plate to slide left and right on the first track body and the second track body so as to drive the screening device to move left and right, and on the other hand, a vibration motor of the vibration driving assembly can drive the screening device to periodically vibrate up and down around the rotation supporting shaft, so that the screening of materials is realized;

(2) according to the energy-saving environment-friendly multidirectional vibration sorting device for the construction building materials of the construction engineering, the matching fixer is provided with the matching shaft, the matching shaft is inserted into the matching shaft pipe above the second track body, and the return spring is arranged in the matching shaft pipe, so that the stability of transverse sliding of the transverse sliding plate can be ensured, and the return and buffering of the transverse sliding plate can be realized;

(3) according to the energy-saving environment-friendly multidirectional vibration sorting device for the construction building materials in the building engineering, the plurality of groups of material taking-out tracks are arranged at the bottom in the device body, the plurality of groups of first sliding wheels are arranged at the lower part of the first material box, the plurality of groups of second sliding wheels are arranged at the lower part of the second material box, and the first sliding wheels and the second sliding wheels are matched with the material taking-out tracks to slide, so that the resistance in the material taking-out process can be effectively reduced, the labor intensity of workers is reduced, and the;

(4) according to the energy-saving environment-friendly multidirectional vibration sorting device for the construction building materials of the construction engineering, the first dust-proof rubber film and the second dust-proof rubber film are arranged, so that dust in the fine material blanking process can be prevented from entering the rotary support body and the second track body and the vibration support body and the first track body, the second track body and the vibration driving assembly are effectively prevented from being polluted, and the service life of parts is prolonged;

(5) when the energy-saving environment-friendly multidirectional vibrating sorting device for building materials for construction of building engineering is used, materials are put from a material inlet, then the materials fall into the screener, at the moment, under the driving of the vibrating motor, the driving wheel drives the vibrating driven wheel to rotate, the vibrating cam coaxially connected with the vibrating driven wheel and the vibrating driven wheel rotate together, the whole screener can be pushed to vibrate up and down periodically around the rotating supporting shaft, meanwhile, under the action of the hydraulic driver and the return spring, the transverse sliding plate can be pushed to move left and right periodically, the screener is further driven to move left and right periodically, large particles in the materials slide into a first material box through a first outflow groove of the screener, and small particles in the materials fall into a second material box through a blanking plate and a blanking channel, so that screening is completed; and, because all screening processes are accomplished in the confined space, can prevent dust pollution effectively, environmental protection is effectual.

In conclusion, the vibration screening and the respective storage of materials can be realized by arranging the screener, the first track body, the second track body, the transverse sliding plate and the vibration driving assembly, so that the labor intensity is effectively reduced, and the vibration screening and the respective storage of the materials can be realized, and the vibration screening and the storage device have the advantages of energy conservation, environmental protection and wide applicability. The invention is suitable for wide application in the field of buildings.

Drawings

The accompanying drawings, which 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 principles of the invention and not to limit the invention.

Fig. 1 is a schematic structural view of an energy-saving environment-friendly multidirectional vibration sorting device for construction building materials in building engineering in an embodiment of the invention;

FIG. 2 is a schematic rear view of the multi-directional oscillating and sorting apparatus for energy-saving and environment-friendly construction building materials in the embodiment of the present invention;

FIG. 3 is an enlarged fragmentary view of the left end of the cross slide of FIG. 1;

fig. 4 is a schematic top view of a cross slide according to an embodiment of the present invention.

In the figure: 1. a device body; 11. a feeding port; 12. taking out the first door; 13. taking out the second door; 14. maintaining the back plate; 15. a first support; 16. a second support; 17. the material taking track; 2. a screener; 21. a first outflow slot; 22. a blanking channel; 23. a blanking plate; 24. rotating the support body; 241. rotating the lifting lug; 242. rotating the support shaft; 25. vibrating the support body; 26. oscillating the cam; 261. a rotating shaft; 262. oscillating the driven wheel; 31. a first track body; 32. a second track body; 321. matching the shaft tube; 322. a return spring; 4. a transverse slide plate; 41. a sliding wheel; 42. a blanking channel opening; 43. fitting a fixer; 431. a mating shaft; 44. rotatably supporting; 5. a hydraulic drive; 51. a connecting rod; 52. a mating connector; 6. a vibration motor; 61. a drive wheel; 7. a first material tank; 71. a first sliding wheel; 8. a second material box; 81. a second sliding wheel; 91. a first dust-proof rubber film; 92. and a second dust-proof rubber film.

Detailed Description

The invention is further illustrated below with reference to the figures and examples. In the following detailed description, certain exemplary embodiments of the present invention are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments can be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1 to 4, the multidirectional vibration sorting device for energy-saving and environment-friendly building materials for construction and construction of building engineering according to the embodiment comprises a device body 1, a screening device 2, a first rail body 31, a second rail body 32, a transverse sliding plate 4 and a vibration driving component, wherein a feeding port 11 is arranged on the right side of the upper portion of the device body 1, a first supporting body 15 is arranged on the left side of the bottom of the device body 1, the first rail body 31 is screwed on the right side of the inner portion of the device body, a second supporting body 16 is arranged on the outer portion of the bottom of the device body, the top of the second supporting body 16 is screwed and fixed with the device body 1, the second rail body 32 is screwed and fixed on the upper portion of the first supporting body 15, the transverse sliding plate 4 is slidably arranged above the first rail body 31 and the second rail body 32, a blanking passage port 42 is arranged in the middle portion of the transverse sliding, vibrate drive assembly upper portion with 2 connection of sieve separator and can drive 2 vibrations of sieve separator, 2 left sides of sieve separator are equipped with first outflow groove 21, the middle part is equipped with blanking passageway 22, blanking passageway 22 top is equipped with the blanking board 23 of seting up multiunit blanking hole, blanking board 23 with blanking passage mouth 42 corresponds the setting, the device is internal left side is located first outflow groove 21 below is equipped with first material case 7, the device is internal right side is located blanking board 23 below is equipped with second material case 8.

Thus, by arranging the oscillation driving assembly, on one hand, the hydraulic driver 5 of the oscillation driving assembly can drive the transverse sliding plate 4 to slide left and right on the first track body 31 and the second track body 32 so as to drive the screener 2 to move left and right, and on the other hand, the oscillation motor 6 of the oscillation driving assembly can also drive the screener 2 to periodically vibrate up and down around the rotation supporting shaft 242 so as to realize screening of materials; and, because all screening processes are accomplished in the confined space, can prevent dust pollution effectively, environmental protection is effectual.

Wherein, the multidirectional sorting device that vibrates of energy-concerving and environment-protective type building engineering construction building materials of this embodiment is at the during operation, when using, put into the material from pan feeding mouth 11, the material falls into sieve separator 2 afterwards, this moment under the drive of vibrating drive assembly, can realize the periodic vibrations from top to bottom of sieve separator 2, simultaneously under the effect of vibrating drive assembly, can promote the horizontal slide 4 side-to-side motion, and then drive sieve separator 2 and realize side-to-side motion, large granule thing in the material passes through sieve separator 2 in the first outflow groove 21 slips into first material case 7, little particulate matter in the material falls into second material case 8 through blanking plate 23 and blanking passageway 22, accomplish the screening.

In this embodiment, the oscillation driving assembly includes a matching fixer 43, a hydraulic driver 5 and an oscillation motor 6, a plurality of sets of matching axle tubes 321 are arranged above the second track body 32, a return spring 322 is arranged inside the matching axle tube 321, the left end of the transverse sliding plate 4 is provided with the matching fixer 43, a matching axle 431 is arranged on the matching fixer 43, the matching axle 431 is inserted into the matching axle tube 321, the hydraulic driver 5 is arranged between the right end of the transverse sliding plate 4 and the first track body 31, the hydraulic driver 5 drives a connecting rod 51, the left end of the connecting rod 51 is connected with a matching connector 52 fixed to the right end of the transverse sliding plate 4 in a threaded manner, the upper portion of the left side of the transverse sliding plate 4 is provided with a rotation support 44, the upper portion of the rotation support 44 is connected with a rotation support shaft 242, the oscillation motor 6 drives a driving wheel 61 to rotate, the screening device is characterized in that a rotary support body 24 is installed below the left side of the screening device 2, a vibration support body 25 and a rotary shaft 261 are arranged below the right side of the screening device, rotary lifting lugs 241 are arranged on two sides of the rotary support body 24, the rotary lifting lugs 241 are matched with the rotary supporting shaft 242, the rotary lifting lugs 241 can rotate around the rotary supporting shaft 242, a vibration cam 26 is arranged below the vibration support body 25, two sides of the rotary shaft 261 are rotationally connected with the device body 1, the middle of the rotary lifting lugs is connected with the vibration cam 26 and a vibration driven wheel 262, and the driving wheel 61 is in matched driving.

At this time, by arranging the matching fixer 43, and arranging the matching shaft 431 on the matching fixer 43, the matching shaft 431 is inserted into the matching shaft tube 321 above the second rail body 32, and the return spring 322 is arranged in the matching shaft tube 321, so that the stability of the transverse sliding plate 4 can be ensured, and the return and the buffering of the transverse sliding plate 4 can be realized; when using, put into the material from pan feeding mouth 11, the material falls into sieve separator 2 afterwards, this moment under the drive of oscillating motor 6, drive wheel 61 drives to vibrate and rotates from driving wheel 262, with vibrate from the oscillation cam 26 of driving wheel 262 coaxial coupling with vibrate from driving wheel 262 and rotate together, can promote sieve separator 2 whole to revolute and move back shaft 242 periodicity vibrations from top to bottom, simultaneously under the effect of hydraulic drive 5 and return spring 322, can promote horizontal slide 4 left and right sides periodic motion, and then drive sieve separator 2 and realize left and right sides periodic motion, large granule thing in the material slides in first material case 7 through first outflow slot 21 of sieve separator 2, the small granule thing in the material falls into second material case 8 through blanking board 23 and blanking passageway 22, accomplish the screening.

In this embodiment, the first dust-proof rubber film 91 is screwed to the right end of the rotary support 24 and the right end of the first rail body 32, and the second dust-proof rubber film 92 is screwed to the left end of the oscillating support 25 and the left end of the first rail body 31.

Like this, through setting up two 92 of dust proof rubber membrane 91 and dust proof rubber membrane, can the separation fine material blanking in-process dust get into rotate the supporter 24 and the track body two 32 and vibrate the supporter 25 and the track body 31, effectively prevent to cause the pollution to track body one 31, track body two 32 and vibration drive assembly, extension part life.

In this embodiment, a bearing is provided at the position where the rotating lug 241 is engaged with the rotating support shaft 242, and a bearing is provided at the position where the rotating shaft 261 is engaged with the device body 1.

In this way, by providing bearings at the fitting portion of the rotation lug 241 with the rotation support shaft 242 and the fitting portion of the rotation shaft 261 with the apparatus body 1, friction can be reduced, the service life of the components can be prolonged, and the cost can be reduced.

In this embodiment, the first rail body 31 and the second rail body 32 are both provided with sliding rails, the lower portion of the transverse sliding plate 4 is provided with a plurality of sets of sliding wheels 41, and the sliding wheels 41 are respectively matched with the sliding rails of the first rail body 31 and the second rail body 32.

In this embodiment, a plurality of sets of material taking-out rails 17 are arranged at the bottom in the device body 1, a plurality of sets of first sliding wheels 71 are arranged at the lower part of the first material box 7, a plurality of sets of second sliding wheels 81 are arranged at the lower part of the second material box 8, and the first sliding wheels 71 and the second sliding wheels 81 slide along the material taking-out rails 17 in a matching manner.

Like this, through set up multiunit material in device body 1 bottom and take out track 17, and first material case 7 lower part is equipped with multiunit movable pulley one 71, and second material case 8 lower part is equipped with multiunit movable pulley two 81, and movable pulley one 71 and movable pulley two 81 slide with the cooperation of material take out track 17, can effectively reduce the resistance of material in-process of taking out, reduce workman intensity of labour, improve work efficiency.

In this embodiment, the blanking plate 23 is detachably connected to the sifter 2.

Like this, through the detachable setting of blanking plate 23, can be equipped with the blanking plate 23 in the different apertures of multiunit, through the screening of the blanking plate 23 in order to realize different granularities of selecting different apertures, the practicality is stronger.

In this embodiment, the rear side wall of the device body 1 is provided with a first taking-out door 12 and a second taking-out door 13, and the right side wall is provided with a maintenance back plate 14.

Therefore, the first taking-out door 12 and the second taking-out door 13 are arranged, so that the first material box 7 and the second material box 8 can be taken out conveniently, and the maintenance back plate 14 is arranged, so that the internal parts of the device body 1 can be maintained and replaced conveniently.

Therefore, the vibration screening and the respective storage of materials can be realized by arranging the screener, the first track body, the second track body, the transverse sliding plate and the vibration driving assembly, the labor intensity is effectively reduced, and the energy-saving and environment-friendly effects are achieved, so that the vibration screening and the respective storage of the materials are realized, and the wide applicability is realized. The invention is suitable for wide application in the field of buildings.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention. Any equivalent changes and modifications that can be made by one skilled in the art without departing from the spirit and principles of the invention should fall within the protection scope of the invention.

Claims

1. The utility model provides an energy-concerving and environment-protective type building engineering construction building materials multidirectional vibration sorting device which characterized in that: the device comprises a device body, a screener, a first rail body, a second rail body, a transverse sliding plate and a vibration driving assembly, wherein a feeding port is formed in the right side of the upper part of the device body, a first supporting body is arranged on the left side of the bottom of the device body, the first rail body is in threaded connection with the first right side of the inner part of the device body, a second supporting body is arranged on the outer part of the device body, the top of the second supporting body is in threaded connection with the device body, the second rail body is fixed above the first supporting body, the transverse sliding plate is arranged above the first rail body and above the second rail body in a sliding manner, a blanking channel port is formed in the middle of the transverse sliding plate, the vibration driving assembly can drive the transverse sliding plate to slide on the first rail body and on the second rail body, the upper part of the vibration driving assembly is connected with the screener, the blanking device is characterized in that a blanking plate provided with a plurality of groups of blanking holes is arranged above the blanking channel, the blanking plate corresponds to the blanking channel opening, the left side in the device body is located below the first outflow groove, a first material box is arranged below the first outflow groove, and the right side in the device body is located below the blanking plate, and a second material box is arranged below the blanking plate.

2. The multi-directional vibration sorting device for energy-saving and environment-friendly building materials for construction of building engineering according to claim 1, characterized in that: the vibration driving assembly comprises a matching fixer, a hydraulic driver and a vibration motor, a plurality of groups of matching shaft tubes are arranged above the second track body, return springs are arranged in the matching shaft tubes, the left end of the transverse sliding plate is provided with the matching fixer, the matching fixer is provided with a matching shaft, the matching shaft is inserted into the matching shaft tubes, the hydraulic driver is arranged between the right end of the transverse sliding plate and the first track body, the hydraulic driver drives the connecting rod, the left end of the connecting rod is connected with a matching connector fixed with the right end of the transverse sliding plate in a screwed manner, the upper part of the left side of the transverse sliding plate is provided with a rotation support, the vibration motor is arranged above the right side of the transverse sliding plate, the upper part of the rotation support is connected with a rotation support shaft, the vibration motor drives the driving wheel to rotate, a rotation support body is arranged below, the device comprises a rotating support body and is characterized in that rotating lugs are arranged on two sides of the rotating support body, the rotating lugs are matched with the rotating support shaft and can wind the rotating support shaft to rotate, a vibrating cam is arranged below the vibrating support body, two sides of the rotating shaft are rotatably connected with the device body, the middle of the rotating shaft is connected with the vibrating cam and a vibrating driven wheel, and the driving wheel is driven by the vibrating driven wheel in a matched mode.

3. The multi-directional vibration sorting device for energy-saving and environment-friendly building materials for construction of building engineering as claimed in claim 2, wherein: the right end of the rotary supporting body and the right end of the track body are in threaded connection with a first dust-proof rubber film, and the left end of the vibration supporting body and the left end of the track body are in threaded connection with a second dust-proof rubber film.

4. The multi-directional vibration sorting device for energy-saving and environment-friendly building materials for construction of building engineering as claimed in claim 2, wherein: the rotating lifting lug is provided with a bearing at the matching position with the rotating supporting shaft, and the rotating shaft is provided with a bearing at the matching position with the device body.

5. The multi-directional vibration sorting device for energy-saving and environment-friendly building materials for construction of building engineering according to claim 1, characterized in that: the first rail body and the second rail body are both provided with sliding rails, the lower portion of the transverse sliding plate is provided with a plurality of groups of sliding wheels, and the sliding wheels are respectively matched with the sliding rails of the first rail body and the second rail body.

6. The multi-directional vibration sorting device for energy-saving and environment-friendly building materials for construction of building engineering according to claim 1, characterized in that: the device is characterized in that a plurality of groups of material taking-out tracks are arranged at the bottom in the device body, a plurality of groups of first sliding wheels are arranged at the lower part of the first material box, a plurality of groups of second sliding wheels are arranged at the lower part of the second material box, and the first sliding wheels and the second sliding wheels slide in a matched mode with the material taking-out tracks.

7. The multi-directional vibration sorting device for energy-saving and environment-friendly building materials for construction of building engineering according to claim 1, characterized in that: the blanking plate is detachably connected with the screening device.

8. The multidirectional vibrating and sorting device for energy-saving and environment-friendly building materials for construction and building engineering according to any one of claims 1 to 7, wherein: the device body rear side wall is provided with a first taking-out door and a second taking-out door, and the right side wall is provided with a maintenance back plate.