阅读说明：本技术 一种混凝土防凝结搅拌站 (Concrete anti-condensation mixing plant ) 是由 李邦俭 李邦勤 于 2021-07-16 设计创作，主要内容包括：本发明公开了一种混凝土防凝结搅拌站,包括第一配料室(1)、第二配料室(2)、两个搅拌罐(3)、第一传送带(4)、两个第三配料室(5)、两个第二传送带(6)、两个动力室(7)、第四配料室(10)、两个第一配料机(14)、两个发电机(15)、两个电池箱(16)、第二配料机(17)和第三配料机(18)；本发明设有自主动力能源用于规避失去外部动力能源造成搅拌装置停止工作而造成搅拌装置内部混凝土凝结的风险,因此本发明可广泛应用于土木工程领域。(The invention discloses a concrete anti-condensation mixing station, which comprises a first batching chamber (1), a second batching chamber (2), two mixing tanks (3), a first conveyor belt (4), two third batching chambers (5), two second conveyor belts (6), two power chambers (7), a fourth batching chamber (10), two first batching machines (14), two generators (15), two battery boxes (16), a second batching machine (17) and a third batching machine (18); the invention is provided with the autonomous power source for avoiding the risk of concrete condensation inside the stirring device caused by stopping the stirring device due to the loss of the external power source, so the invention can be widely applied to the field of civil engineering.)

1. The concrete solidification prevention mixing plant is characterized by comprising a first batching chamber (1), a second batching chamber (2), two mixing tanks (3), a first conveyor belt (4), two third batching chambers (5), two second conveyor belts (6), two power chambers (7), a fourth batching chamber (10), two first batching machines (14), two generators (15), two battery boxes (16), a second batching machine (17) and a third batching machine (18), wherein both power chambers (7) are provided with gates (8) and windows (11), the fourth batching chamber (10) is provided with a parking space (9) which is communicated with the front and the back, the second batching chamber (2) is provided with a second inlet (13), and both power chambers (7) are provided with first inlets (12);

the second batching chamber (2), the first batching chamber (1) and the fourth batching chamber (10) are sequentially arranged from top to bottom, the two power chambers (7) are symmetrically arranged on two sides of the fourth batching chamber (10), the two third batching chambers (5) are symmetrically arranged on two sides of the first batching chamber (1), and the two stirring tanks (3) are symmetrically arranged on two sides of the second batching chamber (2);

the third batching machine (18) is arranged inside the second batching chamber (2), the second batching machine (17) is arranged inside the first batching chamber (1), the two generators (15) are sequentially arranged inside the two power chambers (7), and the two first batching machines (14) are sequentially arranged inside the two third batching chambers (5);

one end of the first conveying belt (4) is arranged inside the second batching chamber (2) along the second inlet (13) and can convey raw materials to the third batching machine (18), the two second conveying belts (6) are symmetrically arranged on two sides of the fourth batching chamber (10), and one end of the second conveying belt is arranged inside the power chamber (7) along the first inlet (12) and can convey raw materials to the first batching machine (14).

2. A concrete anti-concreting mixing plant according to claim 1, characterised in that the output power of the generator (15) is not less than 50 kw.

3. A concrete mixing plant as claimed in claim 1, characterised in that the battery box (16) is internally fitted with an accumulator.

4. A concrete anti-setting mixing plant as claimed in claim 3, wherein said accumulator has a capacity of not less than 8 kwh.

Technical Field

The invention relates to the field of civil engineering, in particular to a concrete anti-condensation mixing plant.

Background

The mixing plant is often needed to be used for stably outputting concrete in the civil engineering field, and the mixing plant is required to be provided with stable external energy power, but when the external energy power is lost, the mixing plant can not work, particularly, when the concrete is mixed in the mixing plant, the concrete can be quickly condensed, and further inevitable property loss is caused, so that the mixing plant which is provided with the autonomous power energy source and used for avoiding that the external power energy source is lost to cause the stop work of the mixing device and the condensation of the concrete in the mixing device is realized.

Disclosure of Invention

In order to solve the technical problem, the invention discloses a concrete anti-condensation mixing plant which comprises a first batching chamber, a second batching chamber, two mixing tanks, a first conveyor belt, two third batching chambers, two second conveyor belts, two power chambers, a fourth batching chamber, two first batching machines, two generators, two battery boxes, a second batching machine and a third batching machine, wherein the two power chambers are respectively provided with a gate and a window, the fourth batching chamber is provided with a parking space which is communicated with the front and the back, the second batching chamber is provided with a second inlet, and the two power chambers are respectively provided with a first inlet;

the second batching chamber, the first batching chamber and the fourth batching chamber are sequentially arranged from top to bottom, the two power chambers are symmetrically arranged on two sides of the fourth batching chamber, the two third batching chambers are symmetrically arranged on two sides of the first batching chamber, and the two stirring tanks are symmetrically arranged on two sides of the second batching chamber;

the third batching machine is arranged inside the second batching chamber, the second batching machine is arranged inside the first batching chamber, the two generators are sequentially arranged inside the two power chambers, and the two first batching machines are sequentially arranged inside the two third batching chambers;

one end of the first conveying belt is arranged in the second batching chamber along the second inlet and can convey raw materials to the third batching machine, the two second conveying belts are symmetrically arranged on two sides of the fourth batching chamber, and one end of the second conveying belt is arranged in the power chamber along the first inlet and can convey raw materials to the first batching machine. (ii) a

Further, the output power of the generator is not less than 50 kilowatts;

further, the inside of the battery case is equipped with a storage battery. (ii) a

Further, the capacity of the storage battery is not less than 8 kilowatt-hours.

By adopting the technical scheme, the concrete mixer has the technical effect of avoiding concrete coagulation inside the mixer caused by stopping the mixer due to loss of external power energy.

Drawings

FIG. 1 is a first perspective view of an embodiment of the present invention;

FIG. 2 is a perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic diagram of an internal structure according to an embodiment of the present invention;

as shown in the figure:

1-first ingredient compartment, 2-second ingredient compartment, 3-agitator tank, 4-first conveyor, 5-third ingredient compartment, 6-second conveyor, 7-power compartment, 8-gate, 9-parking space, 10-fourth ingredient compartment, 11-window, 12-first inlet, 13-second inlet, 14-first ingredient machine, 15-generator, 16-battery box, 17-second ingredient machine, 18-third ingredient machine.

Detailed Description

In order to better explain the invention, the invention will be further described with reference to the following examples, which should be construed as merely illustrative and not limitative of the remainder of the disclosure;

example one

As shown in fig. 1 to 3, a concrete solidification prevention mixing plant comprises a first batching chamber 1, a second batching chamber 2, two mixing tanks 3, a first conveyor belt 4, two third batching chambers 5, two second conveyor belts 6, two power chambers 7, a fourth batching chamber 10, two first batching machines 14, two generators 15, two battery boxes 16, a second batching machine 17 and a third batching machine 18;

the two power rooms 7 are respectively provided with a gate 8 and a window 11, the gate 8 is used for workers to go in and out, and the window 11 is used for improving the comfort level of the workers;

the fourth batching chamber 10 is provided with a parking space 9 which is through from front to back, and the parking space 9 is used for parking the transport vehicle;

the second batching chamber 2 is provided with a second inlet 13, and the two power chambers 7 are provided with first inlets 12;

the second batching chamber 2, the first batching chamber 1 and the fourth batching chamber 10 are sequentially arranged from top to bottom, and the second batching chamber 2, the first batching chamber 1 and the fourth batching chamber 10 are sequentially connected with each other through bolts and reinforcing ribs;

the two power chambers 7 are symmetrically arranged at two sides of the fourth batching chamber 10, the two third batching chambers 5 are symmetrically arranged at two sides of the first batching chamber 1, and the two stirring tanks 3 are symmetrically arranged at two sides of the second batching chamber 2;

the stirring tank 3, the third batching chamber 5 and the power chamber 7 which are positioned on the same side are sequentially arranged from top to bottom, and the stirring tank 3, the third batching chamber 5 and the power chamber 7 which are positioned on the same side are sequentially connected with each other through bolts and reinforcing ribs;

the power chamber 7 is connected with the fourth batching chamber 10 through bolts and reinforcing ribs, and the third batching chamber 5 is connected with the first batching chamber 1 through bolts and reinforcing ribs;

the third batching machine 18 is arranged inside the second batching chamber 2, the second batching machine 17 is arranged inside the first batching chamber 1, the two generators 15 are sequentially arranged inside the two power chambers 7, and the two first batching machines 14 are sequentially arranged inside the two third batching chambers 5;

the stirring tank 3 on the same side is communicated with the first proportioning machine 14, and the second proportioning machine 17 is respectively communicated with the third proportioning machine 18 and the two first proportioning machines 14;

the second batching machine 17 conveys the concrete raw materials to the parked vehicle in the fourth batching chamber 10 through a conveying pipe;

one end of the first conveyor belt 4 is arranged inside the second batching chamber 2 along the second inlet 13 and can convey the raw materials to the third batching machine 18, two second conveyor belts 6 are symmetrically arranged on two sides of the fourth batching chamber 10, and one end of the second conveyor belt is arranged inside the power chamber 7 along the first inlet 12 and can convey the raw materials to the first batching machine 14;

the first conveyor belt 4 and the two second conveyor belts 6 are used for conveying concrete raw materials to the two stirring tanks 3;

the output power of the generator 15 is not less than 50 kilowatts, a storage battery is arranged in the battery box 16, and the capacity of the storage battery is not less than 8 kilowatt-hours;

when the external energy power is lost, the generator 15 is preferentially used for supplying the energy power, and when the generator 15 cannot be used, the storage battery in the battery box 16 is used for supplying power.

The above embodiments are only illustrative of the present invention, and the present invention is not limited to the embodiments described above.