CN215594965U - Self-cleaning telescopic side-dumping hopper for engineering - Google Patents

Abstract

The utility model discloses a self-cleaning telescopic side-dumping hopper for engineering, and belongs to the field of hoppers. The device comprises a supporting frame, a telescopic discharging system, a storage system, a suspension system and a vibration cleaning system; the storage system comprises a feed inlet, a main storage area and an auxiliary storage area; the telescopic discharging system comprises a discharging port, a manual control valve and a waiting area; the manual control valve separates the discharge hole from the waiting area; the suspension system is connected to the storage system. The utility model can be additionally provided with the material port lengthening groove and three groups of lengthening groove suspension points, can select proper suspension points according to the distance between the part to be poured and the material outlet, and extends the material port lengthening groove into the part to be poured to ensure that concrete can accurately flow into the part to be poured.

Description

Self-cleaning telescopic side-dumping hopper for engineering

Technical Field

The utility model relates to the field of hoppers, in particular to a self-cleaning telescopic side dumping hopper for engineering.

Background

Traditional concrete hopper is the bottom opening, uses the spout to realize that the side pours, and construction process is as follows:

step 1, adopting a side pouring mode, namely installing a sliding chute at a part to be poured;

step 2, adjusting the hopper for loading the concrete to be above the installed chute at the position of the concrete to be poured;

step 3, discharging materials by a hopper;

step 4, closing a discharge hole of the hopper and moving the chute;

and 5, repeating the steps 1 to 4.

Its advantage is: the process is mature, the hopper is convenient to process and manufacture, and the direct lower pouring is more practical;

the disadvantages are as follows: when the side face pouring is needed, the sliding groove needs to be processed and manufactured, the sliding groove is heavy, the sliding groove needs to be moved back and forth according to construction requirements during construction, time and labor are wasted, and the sliding groove is easy to deform during moving; the switch for controlling discharging is positioned right below, so that the switch is inconvenient to open and close, and sometimes is clamped by concrete, needs to be knocked by a hammer and is easy to deform, and the safety and quality of construction are affected due to untimely opening and closing; when the hopper is cleaned after pouring, the concrete on the inner wall of the hopper needs to be manually cleaned by a spade in the hopper, and the efficiency is low.

Therefore, there is a need to develop a self-cleaning retractable side-dumping hopper for engineering.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the background technology and provide a self-cleaning telescopic side dumping hopper for engineering.

In order to achieve the purpose, the technical scheme of the utility model is as follows: self-cleaning retractable side dump hopper for engineering, its characterized in that: the device comprises a supporting frame, a telescopic discharging system, a storage system, a suspension system and a vibration cleaning system;

the storage system comprises a feed inlet, a main storage area and an auxiliary storage area from top to bottom in sequence, and is placed on the supporting frame;

the telescopic discharging system comprises a discharging port, a manual control valve and a waiting area; the discharge port is connected with the auxiliary storage area through a manual control valve and a waiting area in sequence; the manual control valve separates the discharge hole from the waiting area and is of a lifting structure;

the suspension system is connected with the top of the storage system;

the vibration cleaning system is positioned on the back of the auxiliary storage area.

In the above technical solution, the manual control valve includes a handle, a spacer and a pin; the partition plate can be lifted by the control handle, so that the discharge hole is communicated with the waiting area.

In the above technical solution, the vibration cleaning system includes a vibrator located at the back of the secondary storage area and a power interface connected to an external power supply to supply power to the vibrator.

In the above technical scheme, the retractable discharging system further comprises a material opening elongated slot and an elongated slot suspension point; the hanging point of the lengthening groove is positioned on the outer wall of the waiting area; the material opening long connecting groove is detachably hung on a long connecting groove hanging point.

In the above technical solution, the suspension points of the extension slot include a first suspension point, a second suspension point, and a third suspension point.

In the above technical solution, the support frame includes four bearing columns, four main connecting rods, and two auxiliary connecting rods; the four bearing columns are connected with the intersection of the main storage area and the auxiliary storage area, the bottoms of the four bearing columns are connected through four main connecting rods, and auxiliary connecting rods are arranged on two of the main connecting rods.

In the technical scheme, the suspension system comprises lifting lugs positioned at four inflection points at the upper end of the main storage area, a steel wire rope penetrating through the lifting lugs, and an external hoisting equipment connecting end positioned on the steel wire rope; and the connecting end of the external hoisting equipment is connected with the external hoisting equipment.

Compared with the prior art, the utility model has the following advantages:

1) the utility model can omit the traditional chute for casting concrete on the side surface.

2) If the discharge port is far away from the part to be poured and objects on the discharge port block the discharge port and cannot be aligned with the part to be poured, the utility model can be additionally provided with the feed port lengthening groove and three groups of lengthening groove suspension points, can select proper suspension points according to the distance between the part to be poured and the discharge port, and extend the feed port lengthening groove into the part to be poured, thereby ensuring that concrete can accurately flow into the part to be poured.

3) The flow of the concrete is controlled by controlling the lifting distance of the isolating plate by the handle of the manual control valve, and the larger the lifting distance is, the larger the flow of the concrete is, and the smaller the flow of the concrete is otherwise; compared with the traditional switch of the hopper, the switch of the utility model is not easy to be clamped by concrete and is not easy to deform.

4) After the pouring is finished, the power socket is connected to a power interface of a vibrator of the vibration cleaning system, concrete attached to the inner wall of the hopper is automatically cleaned through high-frequency vibration, and finally the concrete is washed by the water pipe. Time and labor are saved, the safety and the quality of construction are improved, meanwhile, the construction efficiency is also improved, the labor cost is saved, and the value is created.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a side view of the utility model with the loading port connected to the elongated slot.

Fig. 4 is a side view of the present invention in operation.

Wherein, 1-a supporting frame, 11-a main connecting rod, 12-a bearing column, 13-an auxiliary connecting rod, 2-a telescopic discharging system, 21-a discharging port, 22-a manual control valve, 221-a handle, 222-a partition plate, 223-a pin shaft, 3-a storage system, 23-a waiting area and 24-a discharging port connecting long groove, 25-elongated groove suspension point, 261-first suspension point, 262-second suspension point, 263-third suspension point, 3-storage system, 31-feed inlet, 32-main storage area, 33-auxiliary storage area, 4-suspension system, 41-lifting lug, 42-steel wire rope, 43-external hoisting equipment connecting end, 5-vibration cleaning system, 51-vibrator and 52-power supply interface.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are not intended to limit the present invention, but are merely exemplary. While the advantages of the utility model will be apparent and readily appreciated by the description.

With reference to the accompanying drawings: self-cleaning retractable side dump hopper for engineering, its characterized in that: the device comprises a supporting frame 1, a telescopic emptying system 2, a storage system 3, a suspension system 4 and a vibration cleaning system 5;

the storage system 3 sequentially comprises a feed inlet 31, a main storage area 32 and an auxiliary storage area 33 from top to bottom, and the storage system 3 is placed on the support frame 1;

the telescopic discharging system 2 comprises a discharging port 21, a manual control valve 22 and a waiting area 23; the discharge port 21 is connected with the auxiliary storage area 33 through a manual control valve 22 and a waiting area 23 in sequence; the manual control valve 22 separates the discharge port 21 from the waiting area 23, and the manual control valve 22 is of a lifting structure;

the suspension system 4 is connected with the top of the storage system 3;

the vibration cleaning system 5 is located at the back of the sub storage area 33.

The manual control valve 22 comprises a handle 221, a partition plate 222 and a pin 223; the partition plate 222 may be lifted by the control handle 221 so that the discharge port 21 and the waiting area 23 communicate.

The vibration cleaning system 5 comprises a vibrator 51 positioned at the back of the secondary storage area 33 and a power interface 52 for connecting an external power supply to supply power to the vibrator 51.

The telescopic discharging system 2 further comprises a material opening elongated slot 24 and an elongated slot suspension point 25; the elongated slot suspension point 25 is positioned on the outer wall of the waiting area 23; the spout-receiving slot 24 is detachably suspended on a slot-receiving slot suspension point 25.

The elongated slot suspension point 25 comprises a first suspension point 261, a second suspension point 262 and a third suspension point 263.

The supporting frame 1 comprises four bearing columns 12, four main connecting rods 11 and two auxiliary connecting rods 13; the four bearing columns 12 are connected with the intersection of the main storage area 32 and the auxiliary storage area 33, the bottoms of the four bearing columns 12 are connected through four main connecting rods 11, and the auxiliary connecting rods 13 are arranged on two main connecting rods 11.

The suspension system 4 comprises lifting lugs 41 positioned at four inflection points at the upper end of the main storage area 32, a steel wire rope 42 passing through the lifting lugs 41, and an external hoisting equipment connecting end 43 positioned on the steel wire rope 42; the external hoisting equipment connecting end 43 is connected with external hoisting equipment.

In practical use, under the concrete loading condition, the stirred concrete is conveyed to the front of the storage system through transportation equipment such as a tank car, and the concrete enters the waiting area 23 from the feeding hole 31 through the main storage area 32 and the auxiliary storage area 33 and is sequentially stored in the whole storage system 3 from bottom to top.

Under the working condition of concrete transfer, the external hoisting equipment hoists the concrete pipe through the steel wire rope 42 and transfers the concrete pipe to the part to be constructed.

Under the concrete pouring working condition, the discharge port 21 of the retractable discharging system 2 is aligned to the position to be poured, the isolating plate 222 is lifted for a certain distance by controlling the handle 221 of the manual control valve 22, the concrete in the waiting area 23 reaches the discharge port 21 through the isolating plate 222, and the concrete enters the position to be poured under the action of gravity. The flow rate of the concrete is controlled by controlling the lifting distance of the isolating plate 222 by the handle 221 of the manual control valve 22, and the larger the lifting distance is, the larger the flow rate of the concrete is, and vice versa;

if the discharge port 21 is far away from the part to be poured and the discharge port 21 is blocked by an object and cannot be aligned with the part to be poured, the feed port connecting long groove 24 can be additionally arranged, the feed port connecting long groove 24 is hung on the first hanging point 261, the second hanging point 262 and the third hanging point 263, a proper hanging point is selected according to the distance between the part to be poured and the discharge port 21, and the feed port connecting long groove 24 extends into the part to be poured, so that concrete can accurately flow into the part to be poured.

Under the working condition of self-cleaning of the retractable hopper, after the concrete in the utility model naturally flows out, the concrete attached to the inner wall of the hopper cannot naturally flow out, at the moment, the power supply interface 52 of the vibration cleaning system 5 is connected to an external power supply, the vibrator 51 attached to the back surface of the auxiliary storage area 33 is started, the vibration is transmitted to the inner wall of the storage system 3 through the vibrator 51, and the concrete attached to the inner wall of the storage system 3 is separated through vibration so as to flow out of the storage system 3.

Other parts not described belong to the prior art.

Claims (7)

1. Self-cleaning retractable side dump hopper for engineering, its characterized in that: the device comprises a supporting frame (1), a telescopic emptying system (2), a storage system (3), a suspension system (4) and a vibration cleaning system (5);

the storage system (3) sequentially comprises a feed port (31), a main storage area (32) and an auxiliary storage area (33) from top to bottom, and the storage system (3) is placed on the supporting frame (1);

the telescopic discharging system (2) comprises a discharging hole (21), a manual control valve (22) and a waiting area (23); the discharge hole (21) is connected with the auxiliary storage area (33) through a manual control valve (22) and a waiting area (23) in sequence; the manual control valve (22) separates the discharge hole (21) from the waiting area (23), and the manual control valve (22) is of a lifting structure;

the suspension system (4) is connected with the top of the storage system (3);

the vibration cleaning system (5) is positioned at the back of the auxiliary storage area (33).

2. The self-cleaning telescopic side dump hopper for engineering of claim 1, wherein: the manual control valve (22) comprises a handle (221), a partition plate (222) and a pin shaft (223); the partition plate (222) can be lifted by the control handle (221) so that the discharge port (21) and the waiting area (23) are communicated.

3. The self-cleaning telescopic side dump hopper for engineering of claim 2, wherein: the vibration cleaning system (5) comprises a vibrator (51) positioned on the back of the auxiliary storage area (33) and a power supply interface (52) connected with an external power supply to supply power to the vibrator (51).

4. An engineering self-cleaning retractable side dumping hopper according to claim 3 wherein: the telescopic discharging system (2) further comprises a material opening elongated slot (24) and an elongated slot suspension point (25); the lengthening groove hanging point (25) is positioned on the outer wall of the waiting area (23); the material opening long connecting groove (24) is detachably hung on a long connecting groove hanging point (25).

5. The self-cleaning telescopic side dump hopper for engineering of claim 4, wherein: the elongated slot suspension point (25) comprises a first suspension point (261), a second suspension point (262) and a third suspension point (263).

6. The self-cleaning telescopic side dump hopper for engineering of claim 5, wherein: the supporting frame (1) comprises four bearing columns (12), four main connecting rods (11) and two auxiliary connecting rods (13); the four bearing columns (12) are connected with the intersection of the main storage area (32) and the auxiliary storage area (33), the bottoms of the four bearing columns (12) are connected through four main connecting rods (11), and the two main connecting rods (11) are provided with auxiliary connecting rods (13).

7. The self-cleaning telescopic side dump hopper for engineering of claim 6, wherein: the suspension system (4) comprises lifting lugs (41) positioned at four inflection points at the upper end of the main storage area (32), a steel wire rope (42) penetrating through the lifting lugs (41), and an external hoisting equipment connecting end (43) positioned on the steel wire rope (42); and the external hoisting equipment connecting end (43) is connected with the external hoisting equipment.

Images