CN217165303U - Recycled aggregate screening and impurity removing equipment - Google Patents

Abstract

The utility model belongs to the technical field of the recycled material manufacture equipment and specifically relates to a recycled aggregate screening edulcoration equipment is related to, it includes the feeding portion, connect in the motion of feeding portion, connect in the shovel hopper of motion and connect in the upset subassembly of motion, the motion is including connecting in the vertical motion subassembly of feeding portion and connecting in the horizontal motion subassembly of vertical motion subassembly, the shovel hopper is connected in the horizontal motion subassembly, the upset subassembly is connected in the vertical motion subassembly. This application has the user's of being convenient for feeding, improves the effect of feeding convenience.

Description

Recycled aggregate screening and impurity removing equipment

Technical Field

The application relates to the field of recycled material manufacturing equipment, in particular to recycled aggregate screening and impurity removing equipment.

Background

The recycled aggregate is a building raw material formed by remanufacturing recycled building waste, has good water permeability, does not expand or shrink when meeting water, can be prepared by adding cement, water and the like, and the recycled concrete can be used as materials such as recycled backfill materials, recycled permeable bricks and the like and is mostly involved in building construction.

At present, when making regeneration aggregate, need use regeneration aggregate production facility to carry out the breakage with construction waste, the screening, regeneration aggregate production facility includes the feeding portion, screening portion and transport the portion, at first transport a large amount of construction waste to the feeding portion through the excavator, then the feeding portion conveys construction waste to screening portion, vibrate the construction waste of different diameters respectively to the portion of transporting of difference through vibrating in screening portion, will separate through transporting the portion and transport the region to the difference with construction waste.

In view of the above-mentioned related art, the inventor believes that when the recycled aggregate production equipment is used, an excavator is required for auxiliary construction, and if the working site is too limited, the excavator cannot enter the working site, and the excavator is not beneficial to the user to perform work.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the user's feeding, improve the convenience of feeding, this application provides a regeneration aggregate screening edulcoration equipment.

The application provides a recycled aggregate screening edulcoration equipment adopts following technical scheme:

the utility model provides a regenerated aggregate screening edulcoration equipment, includes the feed portion, connects in the moving mechanism of feed portion, connects in the shovel hopper of moving mechanism and connects in the upset subassembly of moving mechanism, and the moving mechanism is including connecting in the vertical motion subassembly of feed portion and connecting in the horizontal motion subassembly of vertical motion subassembly, and the shovel hopper is connected in the horizontal motion subassembly, and the upset subassembly is connected in the vertical motion subassembly.

Through adopting above-mentioned technical scheme, when the user used this application, at first descend the bottom of shovel hopper to suitable height through vertical motion subassembly, then start the horizontal motion subassembly and make the upper surface of shovel hopper bottom be located under the construction waste, shovel construction waste in the inside of shovel hopper, then start motion, make the shovel hopper be located the top of feed portion, start the upset subassembly at last, make motion drive shovel hopper take place to deflect, the inside of the inside construction waste of shovel hopper is emptyd to the feed portion, need not the user and uses the excavator feeding, the user's feeding of being convenient for, the convenience of feeding has been improved.

Optionally, the vertical motion assembly comprises a vertical support rod rotatably connected to the feeding portion, a vertical lead screw rotatably connected to the vertical support rod and a vertical driving motor connected to the vertical support rod, the axis of the vertical lead screw is parallel to the length direction of the vertical support rod, one end of the horizontal motion assembly is connected to the vertical lead screw in a threaded manner, the horizontal motion assembly is connected to the vertical support rod in a sliding manner along the direction perpendicular to the length direction of the vertical support rod, the output shaft of the vertical driving motor is fixedly connected to one end of the vertical lead screw, and the vertical motion assembly is rotatably connected to the feeding portion through the overturning assembly.

Through adopting above-mentioned technical scheme, when vertical driving motor starts, vertical lead screw takes place to rotate, drive horizontal movement subassembly and shovel hopper along vertical direction motion, vertical movement subassembly rotates through the upset subassembly to be connected in the feeding portion, when there is construction waste in the inside of shovel hopper, through starting vertical driving motor, it promotes to suitable height with the shovel hopper to drive horizontal movement subassembly, later start the upset subassembly and drive vertical vaulting pole and take place to deflect in the feeding portion, the inside construction waste of shovel hopper is emptyd to the inside of feeding portion.

Optionally, the horizontal movement assembly includes threaded connection in the horizontal vaulting pole of vertical lead screw, rotates to connect in the horizontal lead screw of horizontal vaulting pole and connect in the horizontal drive motor of horizontal vaulting pole, and the axis of horizontal lead screw is on a parallel with the length direction of horizontal vaulting pole, and horizontal vaulting pole is along the length direction sliding connection of vertical vaulting pole in vertical vaulting pole, and horizontal drive motor's output shaft fixed connection is in horizontal lead screw one end, shovel hopper threaded connection in horizontal lead screw, and shovel hopper is along the length direction sliding connection of horizontal vaulting pole in horizontal vaulting pole.

Through adopting above-mentioned technical scheme, can drive horizontal lead screw and rotate after starting horizontal driving motor, horizontal vaulting pole along the length direction sliding connection of vertical vaulting pole in vertical vaulting pole, the one end sliding connection that horizontal vaulting pole is close to the feeding portion in the inside in vertical groove, vertical groove plays limiting displacement to horizontal vaulting pole for the motion of horizontal vaulting pole is more stable.

Optionally, both sides of the feeding portion are provided with a vertical movement assembly and a horizontal movement assembly, and the shovel hopper is connected between the two horizontal movement assemblies.

Through adopting above-mentioned technical scheme, two vertical motion subassemblies make the motion of shovel hopper more stable with two horizontal motion subassemblies, make the fixed of shovel hopper more stable simultaneously, improve the stability and the security of shovel hopper feeding.

Optionally, a vertical groove is formed in a side surface of each of the two vertical support rods, two ends of the vertical screw rod are respectively rotatably connected to two ends of the inside of the vertical groove, and the horizontal support rod is slidably connected to the inside of the vertical groove.

Through adopting above-mentioned technical scheme, vertical groove plays the guard action to vertical lead screw, reduces the external possibility that causes the damage to vertical lead screw, and the one end sliding connection of horizontal motion subassembly is in the inside of vertical groove, and the motion of horizontal motion subassembly is retrained by vertical groove, and vertical groove plays limiting displacement to the horizontal motion subassembly for the horizontal motion subassembly motion is more stable.

Optionally, a horizontal groove is formed in the surface of one side, opposite to each other, of each horizontal support rod, two ends of each horizontal lead screw are respectively connected to two ends of the inside of the horizontal groove in a rotating mode, and the shovel hopper is connected to the inside of the horizontal groove in a sliding mode.

Through adopting above-mentioned technical scheme, the horizontal groove plays limiting displacement to the shovel hopper for the motion of shovel hopper is more stable.

Optionally, the overturning assembly comprises an overturning shaft rotatably connected to the feeding portion, an overturning gear fixedly connected to the end portion of the overturning shaft, and an overturning motor fixedly connected to the feeding portion, the two vertical support rods are fixedly connected to the overturning shaft, and an output end of the overturning motor is meshed with the overturning gear.

Through adopting above-mentioned technical scheme, after starting the upset motor, the upset gear drives the trip shaft and rotates, and the trip shaft drives motion and takes place to deflect, and the inside construction waste of shovel hopper dumps to the inside of feed portion.

Optionally, edges of two sides of one end, close to the feeding portion, of the shovel hopper are gradually closed.

Through adopting above-mentioned technical scheme, be convenient for shovel hopper shovel material with unload for the inside construction waste material of shovel hopper easily gets into the feeding portion, reduces the shovel hopper construction waste material when dumping construction waste material and drops the possibility outside.

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

1. by arranging the movement mechanism, the turnover assembly and the shovel hopper to be matched with one another, a user does not need to use an excavator for feeding, feeding is facilitated for the user, and feeding convenience is improved;

2. this application is mutually supported through setting up vertical motion subassembly and horizontal motion subassembly, has realized that the shovel hopper gets the user's feeding of being convenient for to construction waste's shovel.

Drawings

FIG. 1 is a schematic structural diagram of a recycled aggregate screening and impurity removing device in an embodiment of the application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic view of the structure intended to emphasize the connection of the kinematic mechanism with the flip assembly.

Description of reference numerals: 1. a feeding section; 2. shoveling a hopper; 3. a motion mechanism; 31. a vertical motion assembly; 311. a vertical stay bar; 3111. a vertical slot; 312. a vertical lead screw; 313. a vertical drive motor; 32. a horizontal motion assembly; 321. a horizontal stay bar; 3211. a horizontal groove; 322. a horizontal lead screw; 323. a horizontal driving motor; 4. a turnover assembly; 41. a turning shaft; 42. turning over a gear; 43. and (5) overturning the motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses recycled aggregate screening edulcoration equipment. Referring to fig. 1 and 2, the recycled aggregate screening and impurity removing equipment comprises a feeding part 1, a moving mechanism 3 connected to the feeding part 1, a shovel hopper 2 connected to the moving mechanism 3, and an overturning assembly 4 connected to the moving mechanism 3, wherein the moving mechanism 3 comprises a vertical moving assembly 31 connected to the feeding part 1 and a horizontal moving assembly 32 connected to the vertical moving assembly 31, the shovel hopper 2 is connected to the horizontal moving assembly 32, and the overturning assembly 4 is connected to the vertical moving assembly 31. When the user uses this application, at first descend the bottom of shovel hopper 2 to suitable height through vertical motion subassembly 31, then start horizontal motion subassembly 32 and make the upper surface of shovel hopper 2 bottom be located under the construction waste, shovel construction waste in the inside of shovel hopper 2, then start motion 3, make shovel hopper 2 be located the top of feed portion 1, start upset subassembly 4 at last, make motion 3 drive shovel hopper 2 and take place to deflect, the inside of shovel hopper 2 inside construction waste is emptyd to feed portion 1, need not the user and uses the excavator feeding, the user's of being convenient for feeding, the convenience of feeding has been improved.

Referring to fig. 2 and 3, a vertical moving assembly 31 and a horizontal moving assembly 32 are provided at both sides of the charging part 1, and the shovel hopper 2 is connected between the two horizontal moving assemblies 32. Two vertical motion components 31 and two horizontal motion components 32 make the motion of shovel hopper 2 more stable, make the fixed of shovel hopper 2 more stable simultaneously, improve the stability and the security of shovel hopper 2 feeding.

Referring to fig. 2 and 3, the vertical movement assembly 31 includes a vertical support rod 311 rotatably connected to the feeding portion 1, a vertical lead screw 312 rotatably connected to the vertical support rod 311, and a vertical driving motor 313 connected to the vertical support rod 311, an axis of the vertical lead screw 312 is parallel to a length direction of the vertical support rod 311, a top of the vertical support rod 311 is higher than a top of the feeding portion 1, one end of the horizontal movement assembly 32 is threadedly connected to the vertical lead screw 312, and the horizontal movement assembly 32 is slidably connected to the vertical support rod 311 in a direction perpendicular to the length direction of the vertical support rod 311, an output shaft of the vertical driving motor 313 is fixedly connected to one end of the vertical lead screw 312, when the vertical driving motor 313 is activated, the vertical lead screw 312 rotates to drive the horizontal movement assembly 32 and the shovel hopper 2 to move in the vertical direction, the vertical movement assembly 31 is rotatably connected to the feeding portion 1 through the overturning assembly 4, when the building waste exists inside the shovel hopper 2, by starting the vertical driving motor 313, the horizontal movement component 32 and the shovel hopper 2 are driven to lift to a proper height, then the overturning component 4 is started to drive the vertical supporting rod 311 to deflect at the feeding part 1, and the construction waste in the shovel hopper 2 is dumped into the feeding part 1.

Referring to fig. 2 and 3, vertical groove 3111 has been seted up along vertical stay 311's length direction to the side surface that two vertical stay 311 kept away from each other, vertical lead screw 312 is located vertical groove 3111's inside, vertical lead screw 312's both ends rotate respectively and connect in vertical groove 3111's inside both ends, play the guard action to vertical lead screw 312, reduce the external possibility that causes the damage to vertical lead screw 312, horizontal motion assembly 32's one end sliding connection is in vertical groove 3111's inside, horizontal motion assembly 32's motion is retrained by vertical groove 3111, vertical groove 3111 plays limiting displacement to horizontal motion assembly 32, make horizontal motion assembly 32 motion more stable.

Referring to fig. 2 and 3, the horizontal moving assembly 32 includes a horizontal support rod 321 threadedly connected to the vertical screw rod 312, a horizontal screw rod 322 rotatably connected to the horizontal support rod 321, and a horizontal driving motor 323 connected to the horizontal support rod 321, wherein a length direction of the horizontal support rod 321 is perpendicular to a length direction of the vertical support rod 311, an output shaft of the horizontal driving motor 323 is fixedly connected to one end of the horizontal screw rod 322, the horizontal screw rod 322 can be driven to rotate by starting the horizontal driving motor 323, the horizontal support rod 321 is slidably connected to the vertical support rod 311 along the length direction of the vertical support rod 311, a horizontal groove 3211 is formed on a side surface of the two opposite horizontal support rods 321, two ends of the horizontal screw rod 322 are respectively rotatably connected to two inner ends of the horizontal groove 3211, an axis of the horizontal screw rod 322 is parallel to the length direction of the horizontal support rod 321, the horizontal groove 3211 can protect the horizontal screw rod 322, and prolong a service life of the horizontal screw rod 322, the vertical screw 312 passes through and threaded connection is in one end of the horizontal support rod 321 close to the feeding portion 1, one end of the horizontal support rod 321 close to the feeding portion 1 is slidably connected in the vertical groove 3111, and the vertical groove 3111 plays a limiting role in the horizontal support rod 321, so that the horizontal support rod 321 moves more stably.

Referring to fig. 2 and 3, the horizontal screw 322 passes through and is in threaded connection with the top of the shovel hopper 2, and the top of the shovel hopper 2 is slidably connected in the horizontal groove 3211, and the horizontal groove 3211 limits the shovel hopper 2, so that the movement of the shovel hopper 2 is more stable.

Shovel hopper 2 is located when suitable height, start horizontal drive motor 323, horizontal lead screw 322 rotates, shovel hopper 2 slides along the direction of being close to or keeping away from feeding portion 1 in horizontal groove 3211, shovel building waste to the inside of shovel hopper 2, later start vertical movement subassembly 31 and make shovel hopper 2 along vertical direction motion, when shovel hopper 2 is located suitable height, start upset subassembly 4, building waste gets into the inside of feeding portion 1 from the inside of shovel hopper 2, accomplish the building waste feeding.

Referring to fig. 2 and 3, the turnover assembly 4 includes a turnover shaft 41 rotatably connected to the feeding portion 1, a turnover gear 42 fixedly connected to the end of the turnover shaft 41, and a turnover motor 43 fixedly connected to the feeding portion 1, the turnover shaft 41 passes through and is rotatably connected to the feeding portion 1, two ends of the turnover shaft 41 are located outside the feeding portion 1, two vertical support rods 311 are fixedly connected to the turnover shaft 41, the output end of the turnover motor 43 is meshed with the turnover gear 42, after the turnover motor 43 is started, the turnover gear 42 drives the turnover shaft 41 to rotate, the turnover shaft 41 drives the movement mechanism 3 to deflect, and construction waste in the shoveling hopper 2 is dumped into the feeding portion 1.

Referring to fig. 2 and 3, the both ends of shovel hopper 2 are the opening, are convenient for shovel hopper 2 to shovel the material and unload, and shovel hopper 2 is close to one end both sides edge of feed portion 1 and draws close gradually for the inside construction waste of shovel hopper 2 easily gets into feed portion 1, reduces shovel hopper 2 and drops the possibility outside when dumping construction waste.

The implementation principle of the recycled aggregate screening and impurity removing equipment in the embodiment of the application is as follows: start vertical driving motor 313, drive vertical lead screw 312 and rotate, make horizontal vaulting pole 321 and shovel hopper 2 along vertical decurrent direction motion, shovel hopper 2 is located when suitable height, close vertical driving motor 313, start horizontal driving motor 323, make shovel hopper 2 to the direction shovel of keeping away from feed portion 1 get construction waste, later close horizontal driving motor 323, start vertical driving motor 313, raise shovel hopper 2 in the top of feed portion 1, close vertical driving motor 313, start horizontal driving motor 323, make shovel hopper 2 be located directly over feed portion 1, start upset motor 43, drive upset gear 42 and upset shaft 41 and rotate, moving mechanism 3 takes place to deflect with shovel hopper 2 this moment, the inside construction waste of shovel hopper 2 gets into the inside of feed portion 1, accomplish the feeding.

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

Claims (8)

1. The utility model provides a recycled aggregate screening edulcoration equipment, is provided with feed portion (1), its characterized in that: still including connecting in the motion (3) of feed portion (1), connect shovel hopper (2) in motion (3) and connect in the upset subassembly (4) of motion (3), motion (3) are including connecting in vertical motion subassembly (31) of feed portion (1) and connecting in horizontal motion subassembly (32) of vertical motion subassembly (31), shovel hopper (2) are connected in horizontal motion subassembly (32), upset subassembly (4) are connected in vertical motion subassembly (31).

2. The recycled aggregate screening and impurity removing equipment according to claim 1, characterized in that: vertical motion subassembly (31) including rotate connect in vertical vaulting pole (311) of feed portion (1), rotate connect in vertical lead screw (312) of vertical vaulting pole (311) and connect in vertical driving motor (313) of vertical vaulting pole (311), the axis of vertical lead screw (312) is on a parallel with the length direction of vertical vaulting pole (311), the one end threaded connection of horizontal motion subassembly (32) is in vertical lead screw (312), and horizontal motion subassembly (32) along the direction sliding connection of perpendicular to vertical vaulting pole (311) length in vertical vaulting pole (311), the output shaft fixed connection of vertical driving motor (313) is in vertical lead screw (312) one end, vertical motion subassembly (31) rotate through upset subassembly (4) and connect in feed portion (1).

3. The recycled aggregate screening and impurity removing equipment according to claim 2, characterized in that: horizontal motion subassembly (32) are including horizontal vaulting pole (321) of threaded connection in vertical lead screw (312), rotate horizontal lead screw (322) of connecting in horizontal vaulting pole (321) and connect in horizontal driving motor (323) of horizontal vaulting pole (321), the axis of horizontal lead screw (322) is on a parallel with the length direction of horizontal vaulting pole (321), the length direction sliding connection in vertical vaulting pole (311) is followed in horizontal vaulting pole (321), the output shaft fixed connection in horizontal lead screw (322) one end of horizontal driving motor (323), shovel hopper (2) threaded connection in horizontal lead screw (322), and shovel hopper (2) along the length direction sliding connection in horizontal vaulting pole (321).

4. The recycled aggregate screening and impurity removing equipment according to claim 3, characterized in that: both sides of the feeding part (1) are provided with a vertical movement assembly (31) and a horizontal movement assembly (32), and the shovel hopper (2) is connected between the two horizontal movement assemblies (32).

5. The recycled aggregate screening and impurity removing equipment according to claim 4, characterized in that: two vertical groove (3111) have been seted up to vertical vaulting pole (311) one side surface of keeping away from each other, and the both ends of vertical lead screw (312) rotate respectively and connect in the inside both ends of vertical groove (3111), and horizontal vaulting pole (321) sliding connection is in the inside of vertical groove (3111).

6. The recycled aggregate screening and impurity removing equipment according to claim 4, characterized in that: horizontal grooves (3211) are formed in the surfaces of the two opposite sides of the horizontal support rods (321), the two ends of the horizontal lead screw (322) are respectively connected to the two ends of the inside of the horizontal grooves (3211) in a rotating mode, and the shovel hopper (2) is connected to the inside of the horizontal grooves (3211) in a sliding mode.

7. The recycled aggregate screening and impurity removing equipment according to claim 4, characterized in that: upset subassembly (4) are including rotating upset axle (41) of connecting in feed portion (1), fixed connection in upset gear (42) and fixed connection in upset motor (43) of feed portion (1) of upset axle (41) tip, two vertical vaulting poles (311) fixed connection in upset axle (41), the output and the meshing of upset gear (42) of upset motor (43).

8. The recycled aggregate screening and impurity removing equipment according to claim 1, characterized in that: the two side edges of one end of the shovel hopper (2) close to the feeding part (1) are gradually closed.

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