CN216862610U

CN216862610U - A charging equipment for building engineering

Info

Publication number: CN216862610U
Application number: CN202220013921.1U
Authority: CN
Inventors: 杨思皓
Original assignee: Yan Pingxiang; Yang Heliang; Ren Kepan
Current assignee: Yan Pingxiang; Yang Heliang; Ren Kepan
Priority date: 2022-01-05
Filing date: 2022-01-05
Publication date: 2022-07-01
Anticipated expiration: 2032-01-05

Abstract

The utility model relates to a feeding device for constructional engineering, which comprises an inclined conveying structure, a bottom supporting body and a middle supporting body, wherein the inclined conveying structure is arranged on the bottom supporting body; building materials at a low position can be gradually conveyed upwards to move through the inclined conveying structure until the building materials are added into other equipment at the end position to complete subsequent work, in addition, when the height of the inclined conveying structure needs to be adjusted, the height adjustment is completed through the lifting structure, namely, the first driving wheel and the second driving wheel respectively drive the first rotating gear and the second rotating gear to rotate through the rotating action of the driving shaft rod, correspondingly, the lifting screw rod arranged in the inner sleeve is made to perform lifting motion, therefore, the lifting screw rod drives the inclined conveying structure arranged at the top position to perform lifting motion, the bottom position of the inclined conveying structure performs hinged turnover motion around the bottom support body, and therefore, the inclined height of the inclined conveying belt is changed to be matched with different height positions.

Description

A charging equipment for building engineering

Technical Field

The utility model relates to a feeding device for constructional engineering, in particular to a feeding device with an adjusting function for constructional engineering.

Background

In the field of building engineering, the processes and related equipment involved are very diverse, and each equipment can complete specific process operations, such as cutting, crushing, stirring, mixing and the like of building materials. However, for many cases it is often necessary to transport the building material, e.g. stones, gravel etc. in a low position to other equipment, e.g. to a screening device or a concrete mixing device.

While the process of transferring such materials is usually accomplished by specialized mechanical equipment, the process is preferably accomplished by conveyors, typically in an inclined conveyor configuration, which gradually move the construction material from the ground level upwardly and into other equipment at an elevated end level. However, there is a problem in this type of conveying method that the height position to be conveyed is changed frequently, and the existing inclined conveying structure is usually fixed in height, so that the inclined conveyor belt cannot be matched with equipment at different height positions in many cases, and the universality of the conveying equipment is reduced, and the cost is undoubtedly increased because of the need to provide equipment at different heights in the conveying of building materials.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a feeding conveying structure which is convenient for height adjustment of an inclined conveying structure and can be matched with equipment with different heights.

In order to achieve the above object, the present invention provides a feeding device for construction engineering, which includes an inclined conveying structure, a bottom supporting body and a middle supporting body, wherein one end of the bottom of the inclined conveying structure is hinged to the bottom supporting body, the middle of the inclined conveying structure is connected to the middle supporting body, the middle supporting body includes a supporting plate and a lifting structure, the lifting structure includes a driving shaft rod, a first driving wheel, a second driving wheel, a first rotating gear, a second rotating gear, a first lifting screw rod and a second lifting screw rod, the first driving wheel and the second driving wheel are respectively disposed at two sides of the driving shaft rod, the first driving wheel is meshed with the first rotating gear, the second driving wheel is meshed with the second rotating gear, the first lifting screw rod is sleeved inside the first rotating gear, the second lifting screw is sleeved inside the second rotating gear.

The beneficial effect of above-mentioned scheme does: the building material in the low position can be gradually conveyed upwards by the inclined conveying structure until the building material is added into other equipment at the end position to complete subsequent work. In addition, when the height of the inclined conveying structure needs to be adjusted, the height adjustment is completed through the lifting structure, namely, the first driving wheel and the second driving wheel respectively drive the first rotating gear and the second rotating gear to rotate through the rotating action of the driving shaft rod, and correspondingly, the lifting screw rod sleeved inside is made to perform lifting motion, so that the lifting screw rod drives the inclined conveying structure arranged at the top position to perform lifting motion, and the bottom position of the inclined conveying structure performs hinged turnover motion around the bottom supporting body, so that the inclined height of the inclined conveying belt is changed to be matched with different height positions.

Preferably, the bottom of the first rotary gear is rotatably connected to the first connecting cylinder, the bottom of the first connecting cylinder is connected to the support plate, the bottom of the second rotary gear is rotatably connected to the second connecting cylinder, and the bottom of the second connecting cylinder is connected to the support plate.

Preferably, the lifting structure further comprises a driving assembly, the driving assembly comprises a driving motor, a driving chain and a driving end wheel which are sequentially connected, and the driving end wheel is arranged at the end part of the driving shaft rod.

In a preferred embodiment, the bottom of the support plate has a support frame with a support bar and a bottom support ring.

A preferred scheme is that the tops of a first lifting screw and a second lifting screw are connected to a connecting frame body, the connecting frame body is provided with an inclined connecting rod, a transverse connecting rod and a vertical connecting rod, one side of the transverse connecting rod is connected with an inclined supporting frame of the inclined conveying structure through the inclined connecting rod, the top of the vertical connecting rod is connected with the inclined supporting frame, and the bottom of the vertical connecting rod is connected with the transverse connecting rod; the bottom of the transverse connecting rod is provided with a hinged mounting piece, and the hinged mounting piece is hinged to the top connecting body of the first lifting screw rod and the second lifting screw rod.

Preferably, a plurality of partition plates are arranged on the inclined conveying belt of the inclined conveying structure at intervals, each partition plate is provided with a partition vertical plate and a connecting transverse plate, and the connecting transverse plates are fastened on the inclined conveying belt through bolts.

One preferred scheme is that the inclined conveying structure comprises an inclined supporting frame, the inclined supporting frame is provided with a first side supporting plate and a second side supporting plate, the first side supporting plate and the second side supporting plate are both provided with connecting rib plates, the connecting rib plates at two sides are connected through supporting rollers, the connecting rib plates are provided with clamping grooves, two ends of each supporting roller are detachably matched and connected with the clamping grooves, and the supporting rollers are positioned in the middle of an inclined conveying belt which moves circularly; and the top parts of the first side supporting plate and the second side supporting plate are provided with inclined bent guard plates.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a first perspective view of a loading apparatus for construction work according to the present invention;

FIG. 2 is a schematic structural view of a front view of the loading apparatus for construction work of the present invention;

FIG. 3 is a schematic structural view of a second perspective view of a loading device for construction engineering according to the present invention;

FIG. 4 is a schematic structural view of a third perspective view of a loading device for constructional engineering according to the utility model;

FIG. 5 is an enlarged schematic view of region A in FIG. 1;

fig. 6 is an enlarged schematic view of a region B in fig. 1.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment:

as shown in fig. 1 to 6, the present invention provides a feeding apparatus for construction engineering, which includes an inclined conveying structure 10, a bottom supporting body 20 and a middle supporting body 30, wherein one end of the bottom of the inclined conveying structure 10 is hinged to the bottom supporting body 20, the middle of the inclined conveying structure 10 is connected to the middle supporting body 30, the middle supporting body 30 includes a supporting plate 300 and a lifting structure 31, as shown in fig. 5 and 6, the lifting structure 31 includes a driving shaft 32, a first driving wheel 33, a second driving wheel 34, a first rotating gear 35, a second rotating gear 36, a first lifting screw 37 and a second lifting screw 38, the first driving wheel 33 and the second driving wheel 34 are respectively disposed at two sides of the driving shaft 32, the first driving wheel 33 is engaged with the first rotating gear 35, the second driving wheel 34 is engaged with the second rotating gear 36, the first lifting screw 37 is sleeved inside the first rotating gear 35, and the second lifting screw 38 is sleeved inside the second rotating gear 36.

The building material in the low position can be gradually transferred upwards by the inclined conveying structure 10 until the building material is added to other equipment in the end position to complete the subsequent work. In addition, when the height of the inclined conveying structure 10 needs to be adjusted, the height adjustment is completed through the lifting structure 31, that is, the first driving wheel 33 and the second driving wheel 34 respectively drive the first rotating gear 35 and the second rotating gear 36 to rotate through the rotating action of the driving shaft 32, and accordingly the lifting screw rod sleeved inside is lifted, so that the lifting screw rod drives the inclined conveying structure 10 arranged at the top position to lift, and the bottom position of the inclined conveying structure 10 performs a hinged turning motion around the bottom support body 20, so that the inclined height of the inclined conveying structure 10 is changed to match different height positions.

Second embodiment:

as shown in fig. 5, the bottom of the first rotary gear 35 is rotatably coupled to the first connecting cylinder 301, the bottom of the first connecting cylinder 301 is coupled to the support plate 300, the bottom of the second rotary gear 36 is rotatably coupled to the second connecting cylinder 302, and the bottom of the second connecting cylinder 302 is coupled to the support plate 300.

The lifting structure 31 further comprises a driving assembly 310, wherein the driving assembly 310 comprises a driving motor 311, a driving chain 312 and a driving end wheel 313, which are connected in sequence, and the driving end wheel 313 is arranged at the end of the driving shaft 32.

As shown in fig. 2, the bottom of the support plate 300 has a support bracket 314, and the support bracket 314 has a support bar 315 and a bottom support ring 316.

As shown in fig. 3, the top portions of the first lifting screw 37 and the second lifting screw 38 are connected to a connecting frame 303, the connecting frame 303 has a tilted connecting rod 304, a transverse connecting rod 305 and a vertical connecting rod 306, one side of the transverse connecting rod 305 is connected to the tilted supporting frame 16 of the tilted conveying structure 10 through the tilted connecting rod 304, the top portion of the vertical connecting rod 306 is connected to the tilted supporting frame 16, and the bottom portion of the vertical connecting rod 306 is connected to the transverse connecting rod 305; the bottom of the transverse connecting rod 305 has a hinge mounting plate 307, and the hinge mounting plate 307 is hinged to the top connecting body 39 of the first lifting screw 37 and the second lifting screw 38.

As shown in fig. 4, a plurality of partition plates 12 are arranged at intervals on the inclined conveyor belt 11 of the inclined conveyor structure 10, the partition plates 12 have partition risers 13 and connecting transverse plates 14, and the connecting transverse plates 14 are fastened 15 on the inclined conveyor belt 11 by bolts.

Preferably, the inclined conveying structure 10 comprises an inclined supporting frame 16, the inclined supporting frame 16 is provided with a first side supporting plate 17 and a second side supporting plate 18, the first side supporting plate 17 and the second side supporting plate 18 are respectively provided with a connecting rib plate 19, the connecting rib plates 19 at two sides are connected through a supporting roller 101, the connecting rib plates 19 are provided with clamping grooves 102, two ends of the supporting roller 101 are detachably matched and connected with the clamping grooves 102, and the supporting roller 101 is positioned in the middle of the inclined conveying belt 11 which moves circularly; the top positions of the first side supporting plate 17 and the second side supporting plate 18 are provided with inclined bent guard plates 103.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. A feeding device for constructional engineering is characterized by comprising an inclined conveying structure, a bottom supporting body and a middle supporting body, wherein one end of the bottom of the inclined conveying structure is hinged to the bottom supporting body, the middle of the inclined conveying structure is connected to the middle supporting body, the middle supporting body comprises a supporting plate and a lifting structure, the lifting structure comprises a driving shaft rod, a first driving wheel, a second driving wheel, a first rotating gear, a second rotating gear, a first lifting screw rod and a second lifting screw rod, the first driving wheel and the second driving wheel are respectively arranged at two sides of the driving shaft rod, the first driving wheel is meshed with the first rotating gear, the second driving wheel is meshed with the second rotating gear, the first lifting screw rod is sleeved in the first rotating gear, the second lifting screw is sleeved inside the second rotating gear.

2. A feeding apparatus for constructional engineering as claimed in claim 1 wherein the bottom of the first rotary gear is rotatably connected to a first connecting cylinder, the bottom of the first connecting cylinder is connected to the support plate, the bottom of the second rotary gear is rotatably connected to a second connecting cylinder, the bottom of the second connecting cylinder is connected to the support plate.

3. A feeding device for building engineering according to claim 1, characterized in that the lifting structure further comprises a driving assembly, the driving assembly comprises a driving motor, a driving chain and a driving end wheel which are connected in sequence, and the driving end wheel is arranged at the end of the driving shaft rod.

4. A feeding device for building engineering according to claim 1, characterized in that the bottom of the supporting plate has a supporting frame with a supporting bar and a bottom supporting ring.

5. The loading device for building engineering according to claim 1, wherein the top of the first lifting screw and the top of the second lifting screw are connected to a connecting frame, the connecting frame has a diagonal connecting rod, a transverse connecting rod and a vertical connecting rod, one side of the transverse connecting rod is connected to the diagonal supporting frame of the diagonal conveying structure through the diagonal connecting rod, the top of the vertical connecting rod is connected to the diagonal supporting frame, and the bottom of the vertical connecting rod is connected to the transverse connecting rod; the bottom of the transverse connecting rod is provided with a hinged mounting piece, and the hinged mounting piece is hinged to the top connecting body of the first lifting screw rod and the second lifting screw rod.

6. The feeding equipment for building engineering of claim 1, wherein a plurality of separation plates are arranged at intervals on the inclined conveyor belt of the inclined conveyor structure, and the separation plates are provided with separation vertical plates and connection transverse plates which are fastened on the inclined conveyor belt through bolts.

7. The feeding device for the building engineering as claimed in claim 1, wherein the inclined conveying structure comprises an inclined supporting frame, the inclined supporting frame is provided with a first side supporting plate and a second side supporting plate, the first side supporting plate and the second side supporting plate are respectively provided with a connecting rib plate, the connecting rib plates at two sides are connected through a supporting roller, the connecting rib plates are provided with a clamping groove, two ends of the supporting roller are detachably matched and connected with the clamping groove, and the supporting roller is positioned in the middle of the inclined conveying belt which moves circularly; and the top parts of the first side supporting plate and the second side supporting plate are provided with inclined bent guard plates.