CN214238868U - Concrete mixing plant with flat inclined belt feeder of integral type - Google Patents

Abstract

The utility model relates to a concrete mixing plant with flat oblique belt feeder of integral type belongs to concrete production processing equipment field, and its technical scheme main points are including feeding jar, flat belt feeder, oblique belt feeder and agitator tank, and the feeding jar is located flat belt feeder, and the belt feeder is located one side of flat belt feeder to one side, and the slope sets up, and the belt feeder bottom is located flat belt feeder direction of transfer one end to one side, and the top is close to the agitator tank, and fixed connection has the horizontally flitch that connects on the belt feeder to one side, connects the flitch to set up to a plurality ofly. This application has flat belt conveyor conveying concrete and connects the flitch to oblique belt feeder on, and the concrete can not be along with oblique belt feeder landing gets off to improve, the effect of the efficiency of belt conveying concrete.

Description

Concrete mixing plant with flat inclined belt feeder of integral type

Technical Field

The application relates to the field of concrete production and processing equipment, in particular to a concrete mixing plant with an integrated flat and inclined belt conveyor.

Background

In the concrete production process, a belt conveyor is the most common aggregate conveying equipment in a mixing plant, and a plurality of mixing plants adopt the belt to convey aggregates.

The prior Chinese patent with the reference publication number of CN202910995U discloses a full-automatic feeding device of a concrete mixing plant, which comprises a controller, a mixer, a belt conveyor and a plurality of proportioning bins; the belt conveyor is provided with an input end, an output end and a driving motor, the proportioning bin is provided with a discharge door, and the stirrer is provided with a feed inlet; the belt conveyor comprises a flat belt conveyor and an inclined belt conveyor, the input end of the belt conveyor is arranged below the discharge doors of the plurality of proportioning bins, and the output end of the belt conveyor is connected with the feed inlet of the stirrer; the discharge door of each proportioning bin is provided with an inductive switch which is connected with a controller; the driving motor of the belt conveyor is connected with the controller. The working principle is as follows: when the discharge door of the first proportioning bin is opened, the inductive switch transmits a signal to the controller, and the controller transmits a signal to the driving motor of the belt conveyor to start working; when the discharge door is closed, the inductive switch transmits a signal to the controller to wait for a set time, if the discharge door of the second proportioning bin is opened, the signal is transmitted to the controller, the controller transmits a signal to the driving motor of the belt conveyor to work, and if no signal exists after the set time is reached, the driving motor of the belt conveyor is stopped to continue working; and the plurality of proportioning bins are sequentially carried out until the last proportioning bin.

Aiming at the related technologies, the inventor thinks that the defects of easy rolling of materials on the inclined belt, low feeding efficiency and long time exist when the belt conveyor feeds materials.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of belt feeder pay-off inefficiency, this application provides a concrete mixing plant with flat oblique belt feeder of integral type.

The application provides a concrete mixing plant with flat inclined belt feeder of integral type adopts following technical scheme:

the utility model provides a concrete mixing plant with flat oblique belt feeder of integral type, includes feeding jar, flat belt feeder, oblique belt feeder and agitator tank, and the feeding jar is located flat belt machine top, and the belt feeder is located one side of flat belt feeder to one side, and the slope setting, and the belt feeder bottom is located flat belt machine direction of transfer one end to one side, and the agitator tank is close to on the top, is connected with a plurality of flitches that connect of horizontally on the belt feeder to one side.

Through adopting above-mentioned technical scheme, connect the setting of flitch for concrete material that flat belt conveyer conveyed on the oblique belt feeder can not be along with oblique belt feeder landing when oblique belt feeder conveying concrete, and all concrete that connect the flitch to catch all can be conveyed the agitator tank, and when oblique belt feeder transfer rate was too fast, lie in and connect the concrete on the flitch and can not drop yet, improved the efficiency of belt conveying concrete.

Optionally, the longitudinal section of the material receiving plate is arc-shaped, and the bending direction is vertical downward.

Through adopting above-mentioned technical scheme, connect the flitch longitudinal section to be curved design for the concrete that flat belt conveyer conveyed on connecing the flitch can not drop from connecing the flitch both sides, connects the flitch and can receives all concrete that flat belt conveyer conveyed down, and at the in-process of the belt feeder upwards transmission to one side, the concrete also can not drop from connecing the flitch both sides, has improved the conveying efficiency of belt feeder.

Optionally, the inclined belt conveyor is connected with a reinforcing plate, and the reinforcing plate is located below the material receiving plate and is abutted to the material receiving plate.

Through adopting above-mentioned technical scheme, the setting of reinforcing plate for connect the flitch can be stable on oblique belt feeder fixed, can not too big because of concrete gravity, and make and connect the flitch slope, destroy and connect the flitch.

Optionally, a plurality of material hitting plates are hinged to the inclined belt conveyor and located between two adjacent material receiving plates.

Through adopting above-mentioned technical scheme, the setting of striker plate for when the flitch that connects that contains full concrete is along with oblique belt feeder when conveying agitator tank one side, connect the flitch upset, the striker plate upset, and articulate the striker plate rotation angle on oblique belt feeder bigger, hit and hit the bottom that hits the flitch, make the concrete that connects on the flitch all drop in the agitator tank, improve the efficiency that connects the flitch conveying concrete.

Optionally, the material receiving plate is fixedly connected with a first material stop plate on one side far away from the inclined belt conveyor.

Through adopting above-mentioned technical scheme, the setting of first striker plate for concrete that falls on connecing the flitch can not be because of oblique belt feeder transmission is too fast from connecing the flitch landing, and concrete that falls on connecing the flitch from flat belt feeder can all be by the conveyer belt agitator tank, can not fall from connecing the flitch on the way in the conveying, connects the efficient of flitch conveying waste material.

Optionally, a plurality of second material baffles are fixedly connected to two sides of the flat belt conveyor.

Through adopting above-mentioned technical scheme, the setting of a plurality of second striker plates for concrete can not drop from flat belt feeder on falling on flat belt feeder from the feeding tank, and the in-process of concrete transmission on flat belt feeder can not drop because of transmission speed is too fast.

Optionally, the oblique belt feeder bottom is located flat belt feeder below.

Through adopting above-mentioned technical scheme, the setting that the oblique belt feeder bottom is located flat belt feeder below for in concrete data send process, flat belt feeder below has at all and connects the flitch to connect the concrete greatly, and the in-process that the concrete fell to the oblique belt feeder from flat belt feeder can not fall ground.

Optionally, the inclined belt conveyor forms an included angle of 60-90 degrees with the ground.

Through adopting above-mentioned technical scheme, the increase of oblique belt feeder and ground contained angle for inclined belt feeder area of taking up a land reduces, and inclined belt feeder and ground contained angle are bigger, and area is less, has saved the space.

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

1. due to the arrangement of the material receiving plate, concrete materials conveyed to the inclined belt conveyor by the flat belt conveyor cannot fall off along with the inclined belt conveyor, so that the efficiency of conveying the concrete by the belt is improved;

2. the longitudinal section of the material receiving plate is designed in an arc shape, so that concrete cannot fall off from two sides of the material receiving plate in the upward conveying process of the inclined belt, and the conveying efficiency of the belt conveyor is improved;

3. the inclined belt and the ground included angle are increased, so that the occupied area of the inclined belt is reduced, the larger the inclined belt and the ground included angle is, the smaller the occupied area is, and the space is saved.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic view for showing the structure of the second baffle plate;

fig. 3 is a schematic view intended to show the structure of the receiver plate, the stiffener plate and the striker plate.

Reference numerals: 1. a feed tank; 11. a discharge port; 2. a belt flattening machine; 21. a flat belt; 22. a flat drive roll; 23. a second retainer plate; 3. an inclined belt conveyor; 31. an inclined belt; 32. an oblique driving roller; 4. a stirring tank; 41. a feed inlet; 42. sliding the material frame; 5. a material receiving plate; 51. a first striker plate; 6. a reinforcing plate; 7. a material beating plate; 8. and (4) the ground.

Detailed Description

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

The embodiment of the application discloses concrete mixing plant with flat inclined belt feeder of integral type. Referring to fig. 1, a concrete mixing plant with an integrated horizontal and inclined belt conveyor comprises a feeding tank 1 buried under the ground 8, a horizontal belt conveyor 2 located in a basement, an inclined belt conveyor 3 located on one side of the horizontal belt conveyor and a mixing tank 4 located on one side of the inclined belt conveyor 3, wherein the feeding tank 1 is located above the horizontal belt conveyor 2; the inclined belt conveyor 3 is obliquely arranged, and the bottom end of the inclined belt conveyor is positioned at the basement and below the flat belt conveyor 2; the stirring tank 4 is positioned on the ground 8, and the top end of the inclined belt conveyor 3 is close to the stirring tank 4.

When the staff carries out the transmission of concrete, at first pour the concrete into feed tank 1, the concrete in feed tank 1 falls into flat belt feeder 2, and flat belt feeder 2 conveys the concrete of its top to oblique belt feeder 3 on, and oblique belt feeder 3 conveys the concrete that falls on it to agitator tank 4, and agitator tank 4 stirs the concrete.

Referring to fig. 2, feed inlet 41 has been seted up to feed tank 1 bottom, and feed inlet 41 is located flat belt feeder 2 directly over, and flat belt feeder 2 level sets up, and flat belt feeder 2 includes flat belt 21 and drives two flat driving rollers 22 of flat belt 21 driven, the vertical second striker plate 23 of flat belt 21 length direction's both sides fixedly connected with, second striker plate 23 sets up to a plurality ofly, and a plurality of second striker plates 23 are adjacent arranges.

The concrete falling on the flat belt 21 moves along with the transmission of the flat belt 21, and the first baffle plates on the two sides of the flat belt 21 in the length direction block the concrete, so that the concrete cannot fall under the ground 8.

Referring to fig. 1 and 3, the inclined belt conveyor 3 and the ground 8 form an included angle of 60-90 degrees. The inclined belt conveyor 3 comprises an inclined belt 31 and two inclined transmission rollers 32 driving the inclined belt 31 to transmit, a horizontal material receiving plate 5 is fixedly connected to the inclined belt 31, the longitudinal section of the material receiving plate 5 is arc-shaped, the bending direction is vertical downward, the length of the material receiving plate 5 is larger than the width of the flat belt 21, a first material blocking plate 51 is fixedly connected to one side, away from the inclined belt 31, of the material receiving plate 5, the first material blocking plate 51 and the material receiving plate 5 are integrally formed, the material receiving plates 5 are arranged in a plurality, and the material receiving plates 5 are distributed on the inclined belt 31 at equal intervals; the inclined belt 31 is fixedly connected with a reinforcing plate 6, the longitudinal section of each reinforcing plate 6 is triangular, the number of the reinforcing plates 6 is multiple, each reinforcing plate 6 is positioned between two adjacent material receiving plates 5, and the bottom surfaces of the reinforcing plates 6 and the material receiving plates 5 are abutted; the inclined belt 31 is hinged with a material hitting plate 7, the material hitting plate 7 is a plate with a rectangular cross section, and the material hitting plate 7 is positioned between the adjacent reinforcing plate 6 and the material receiving plate 5.

On the concrete that falls from flat belt 21 fell to connecing flitch 5, connect flitch 5 to rotate along with the transmission of oblique belt 31, the drive connects flitch 5 and connects the concrete on flitch 5 to the direction removal that is close to agitator tank 4, and the top that reaches oblique belt 31 is met to connecing flitch 5, connects flitch 5 upset, and the upset of striker plate 7 is hit and connect flitch 5 to connect the face that deviates from of charge level for the concrete that connects on the flitch 5 all falls into agitator tank 4.

Referring to fig. 1, agitator tank 4 is vertically arranged on ground 8, and with ground 8 fixed connection, agitator tank 4 has seted up feed inlet 41 near oblique belt 31 top department, is provided with smooth material frame 42 under feed inlet 41, and smooth material frame 42 inclines to set up, and the top is close to oblique belt 31 one side, and is the opening form, and oblique belt 31 top is located directly over smooth material frame 42.

After the concrete on the material receiving plate 5 falls from the feeding hole 41, the concrete finally slides into the stirring tank 4 along the material sliding frame 42, and the stirring tank 4 stirs the concrete falling into the stirring tank 4.

The concrete mixing plant with the integrated flat inclined belt 31 machine 3 in the embodiment of the application has the following implementation principle:

when the staff carries out the transmission of concrete, at first pour the concrete into feed tank 1 in, the concrete in feed tank 1 falls into flat belt 21 on, the concrete that falls into on flat belt 21 rotates along with flat belt 21's transmission, and the first striker plate 23 of flat belt 21 length direction both sides blocks the concrete, the concrete falls on oblique belt 31's material receiving plate 5 from flat belt 21 after that, material receiving plate 5 rotates along with oblique belt 31's transmission, material receiving plate 5 reachs the top of oblique belt 31 machine 3, material receiving plate 5 overturns, material receiving plate 7 overturns, hit and connect material receiving plate 5 to connect the face of deviating from of material face, the concrete that connects on material receiving plate 5 all falls into agitator tank 4, agitator tank 4 stirs the concrete that falls into agitator tank 4.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the 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 concrete mixing plant with flat oblique belt feeder of integral type, includes feeding jar (1), flat belt machine (2), oblique belt feeder (3) and agitator tank (4), feeding jar (1) is located flat belt feeder (2) top, and oblique belt feeder (3) are located one side of flat belt feeder (2), and the slope setting, and oblique belt feeder (3) bottom is located flat belt feeder (2) direction of transfer one end, and agitator tank (4), its characterized in that are close to on the top: a plurality of material receiving plates (5) are connected to the inclined belt conveyor (3).

2. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: the longitudinal section of the material receiving plate (5) is arc-shaped, and the bending direction is vertical and downward.

3. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: be connected with reinforcing plate (6) on oblique belt feeder (3), reinforcing plate (6) are located and connect flitch (5) below, and with connect flitch (5) butt.

4. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: a plurality of material hitting plates (7) are hinged to the inclined belt conveyor (3), and the material hitting plates (7) are located between the two adjacent material receiving plates (5).

5. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: the material receiving plate (5) is far away from one side of the inclined belt conveyor (3) and is fixedly connected with a first material blocking plate (51).

6. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: and a plurality of second material retaining plates (23) are fixedly connected to two sides of the flat belt conveyor (2).

7. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: the bottom end of the inclined belt conveyor (3) is positioned below the flat belt conveyor (2).

8. The concrete mixing plant with an integrated flat and inclined belt conveyor according to claim 1, characterized in that: the inclined belt conveyor (3) and the ground (8) form an included angle of 60-90 degrees.

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