A storage tank for many raw materialss store
Technical Field
The utility model belongs to the technical field of the concrete construction equipment and specifically relates to a be related to be a storage tank that is used for many raw materialss to store.
Background
The construction of secondary structure fine aggregate concrete on a construction site is a difficult problem which troubles engineering technicians. At present, the source of the secondary structure fine stone concrete is mainly field stirring or provided by commercial concrete enterprises.
On one hand, when field stirring is adopted, ① is dependent on manpower, the efficiency is low, various raw materials in ② mixing proportion are not accurately metered, the quality is unstable, when ③ uses bagged cement, dust is difficult to avoid, and ④ field materials are stacked to occupy space.
On the other hand, when commercial concrete is adopted, the concrete transport vehicle occupies a long time, and commercial and concrete enterprises are reluctant to accept the business.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome above-mentioned not enough, provide a storage tank for many raw materialss store.
In order to achieve the above object, the technical solution of the present invention is: the utility model provides a storage tank for many raw materials store, includes the support, sets up the jar body on the support, the internal a plurality of former feed bins that deposit different raw materialss that are equipped with of jar, each the upper portion of former feed bin all is equipped with first feed inlet, and the bottom is equipped with the discharge gate, each all be equipped with the switching device of control raw materials ejection of compact on the discharge gate, the support bottom is equipped with the induction system that weighs, the induction system that weighs is connected with the electric cabinet electricity, with the data transfer who responds to jar body weight to the electric cabinet, the jar body is equipped with the agitating unit who is used for the raw materials stirring with the discharge gate under.
Preferably, each of the first feed openings is located on the same horizontal plane.
Preferably, each of the first feed openings is located on a different horizontal plane.
Preferably, agitating unit includes the workbin, sets up pivot in the workbin, the stirring vane who is connected with the pivot and sets up the drive arrangement in pivot one end, the workbin top is equipped with the second feed inlet, drive arrangement can drive stirring vane and rotate the raw materials stirring to in the workbin.
Preferably, the switching device is any one of an electronic cut-off valve and a solenoid valve.
Preferably, the switch device is electrically connected with an electric cabinet, and the electric cabinet can automatically control the on-off of the switch device.
Preferably, the driving device is electrically connected with an electric cabinet, and the electric cabinet can automatically control the opening and closing of the driving device.
Preferably, the outer side of the tank body is provided with a climbing ladder for overhauling the tank body.
Through adopting foretell technical scheme, the beneficial effects of the utility model are that: the interior of the storage tank is divided into a plurality of raw material bins with independent spaces, the raw material bins are used for storing raw materials such as dry-mixed mortar and fine stones, and have the functions of metering and stirring, the electric cabinet is used for controlling the on-off of the weighing sensing device and the stirring device, so that the raw materials are mixed according to a certain proportion, and the fine stone concrete meeting the construction requirements can be conveniently obtained after the water is fully added and stirred; the proportion of each raw material is accurately controlled, the working efficiency and the quality of the fine aggregate concrete are improved, no dust is generated during stirring, the occupied space is small, the construction efficiency of the secondary structure fine aggregate concrete of the engineering project is improved, and the quality and the cost of the secondary structure fine aggregate concrete are controlled conveniently.
Drawings
Fig. 1 is a schematic structural diagram of example 1 according to a first embodiment of the present invention;
fig. 2 is a schematic structural diagram of example 2 according to a first embodiment of the present invention;
fig. 3 is a schematic structural diagram of example 3 according to the first embodiment of the present invention;
FIG. 4 is a cross-sectional view taken along line A-B of FIG. 2 in accordance with the present invention;
fig. 5 is a schematic structural view of example 1 according to a second embodiment of the present invention;
fig. 6 is a schematic structural view of example 2 according to the second embodiment of the present invention;
FIG. 7 is a schematic structural view of the inside of the stirring device of the present invention;
description of the main reference numerals: the device comprises a support 1, a tank body 2, a first feeding hole 3', a discharging hole 4, a switching device 5, a weighing sensing device 6, an electric cabinet 7, a stirring device 8, a material box 81, a rotating shaft 82, a stirring blade 83, a driving device 84, a climbing ladder 9 and a second feeding hole 10.
Detailed Description
The invention is further described with reference to the following figures and specific examples.
As shown in fig. 1-4, a storage tank for storing multiple raw materials comprises a support 1 and a tank body 2 arranged on the support 1, wherein a plurality of raw material bins for storing different raw materials are arranged in the tank body 2, a first feed port 3 is arranged at the upper part of each raw material bin, a discharge port 4 is arranged at the bottom of each raw material bin, a switch device 5 for controlling the discharge of the raw materials is arranged on each discharge port 4, a weighing sensing device 6 is arranged at the bottom end of the support 1, the weighing sensing device 6 is electrically connected with an electric cabinet 7 and transmits data for sensing the weight of the tank body 2 to the electric cabinet 7, and a stirring device 8 for stirring the raw materials is arranged under the position of the tank body 2 corresponding to the discharge port 4.
The first feed openings 3 are located on the same horizontal plane.
The first feed openings 3 are located on different levels.
Agitating unit 8 includes workbin 81, sets up pivot 82 in workbin 81, the stirring vane 83 of being connected with pivot 82 and sets up the drive arrangement 84 in pivot 82 one end, the workbin 81 top is equipped with second feed inlet 10, drive arrangement 84 can drive stirring vane 83 and rotate the raw materials stirring in the workbin 81.
The switching device 5 is any one of an electronic cut valve and a solenoid valve.
The switch device 5 is electrically connected with an electric cabinet 7, and the electric cabinet 7 can automatically control the on-off of the switch device 5.
The driving device 84 is electrically connected with the electric cabinet 7, and the electric cabinet 7 can automatically control the opening and closing of the driving device 84.
The outer side of the tank body 2 is provided with a climbing ladder 9 for overhauling the tank body 2.
The first implementation mode comprises the following steps:
each first feed inlet 3 is located same horizontal plane, and each former feed bin of being convenient for feeds in raw materials, but the integrative injection moulding of jar body reduces the processing cost simultaneously.
Example 1 according to embodiment one
The tank body 2 is provided with two raw material bins, dry-mixed mortar is placed in a first raw material bin, the dry-mixed mortar is pneumatically conveyed into the first raw material bin by a special transport vehicle, fine stones are placed in a second raw material bin, the fine stones are lifted into the second raw material bin by an external bucket elevator, the first feed inlets 3 corresponding to the first raw material bin and the second raw material bin are all positioned on the same horizontal plane, an electronic stop valve of the first raw material bin is controlled to be opened by an electric cabinet 7, the dry-mixed mortar flows out of a first discharge port 4 and enters a stirring device 8 from a second feed port 10, a weighing sensor 6 (such as a weighing sensor) is waited for sensing that the weight change of the whole tank body 2 reaches a specific value (namely the dry-mixed mortar is placed to reach the specific value), the weighing sensor transmits a data signal to the electric cabinet 7, the electronic stop valve of the first raw material bin is controlled to be closed by the electric cabinet 7, and, the fine stones flow out of the first discharge port 4 and enter the stirring device 8 from the second feed port 10, waiting for a weighing sensor 6 (such as a weighing sensor) to sense that the weight change of the whole tank body 2 reaches a specific value (namely the fine stones are discharged to reach the specific value), so that the dry-mixed mortar and the fine stones enter the stirring device 8 according to a certain proportion, the weighing sensor transmits data signals to the electric cabinet 7, the electric cabinet 7 controls the electronic stop valve of the second raw material bin to be closed, quantitative water is added into the material box 81, the electric cabinet 7 controls the driving device 84 to be started, the stirring blades 83 are driven to rotate, the dry-mixed mortar and the fine stones are stirred, and the fine stone concrete with high quality can be obtained.
Example 2 according to embodiment one
The tank body 2 is provided with three raw material bins, the contact surface of each raw material bin is of a vertical structure, sand is stored in a first raw material bin, cement is stored in a second raw material bin, fine stones are stored in a third raw material bin, first feed inlets 3 corresponding to the first raw material bin, the second raw material bin and the third raw material bin are all positioned on the same horizontal plane, an electronic stop valve of the first raw material bin is controlled to be opened through an electric cabinet 7, the sand flows out of a first discharge port 4 and enters a stirring device 8 from a second feed port 10, a weighing sensor 6 (such as a weighing sensor) senses that the weight change of the whole tank body 2 reaches a specific value (namely the sand discharge reaches the specific value), a data signal is transmitted to the electric cabinet 7 by the weighing sensor, the electronic stop valve of the first raw material bin is controlled to be closed through the electric cabinet 7, the electronic stop valve of the second raw material bin is opened at the same time, the cement flows out of the first discharge port 4 and enters the stirring device, waiting for the weight change of the whole tank body 2 to reach a specific value (namely cement emptying reaches the specific value) sensed by a weighing sensing device 6 (such as a weighing sensor), transmitting a data signal to an electric cabinet 7 by the weighing sensor, closing an electronic cut valve of a second raw material bin by the electric cabinet 7, opening an electronic cut valve of a third raw material bin at the same time, enabling fine stones to flow out of a first discharge port 4 and enter a stirring device 8 from a second feed port 10, enabling sand, cement and the fine stones to enter the stirring device 8 according to a certain proportion, adding a certain amount of water into a material bin 81, starting a driving device 84 by the electric cabinet 7, driving a stirring blade 83 to rotate, stirring the sand, the cement and the fine stones, and further subdividing dry-mixed mortar into the sand and the cement to more accurately control the proportion of the concrete, so as to obtain the fine stone concrete with higher quality.
Example 3 according to embodiment one
The tank body 2 is provided with three raw material bins, the contact surface of each raw material bin is of an inclined structure, the first feed inlets 3 corresponding to the first raw material bin, the second raw material bin and the third raw material bin are all positioned on the same horizontal plane, sand is stored in the first raw material bin, cement is stored in the second raw material bin, fine stones are stored in the third raw material bin, the first feed inlets 3 corresponding to the first raw material bin, the second raw material bin and the third raw material bin are all positioned on the same horizontal plane, the electronic stop valve of the first raw material bin is controlled to be opened through the electric cabinet 7, sand flows out from the first discharge port 4 and enters the stirring device 8 from the second feed inlet 10, a weighing sensing device 6 (such as a weighing sensor) senses that the weight change of the whole tank body 2 reaches a specific value (namely the sand reaches the specific value), the weighing sensor transmits a data signal to the electric cabinet 7, the electronic stop valve of the first raw material bin is controlled to be closed through the electric cabinet, meanwhile, the electronic stop valve of the second raw material bin is opened, cement flows out from the first discharge port 4 and enters the stirring device 8 from the second feed port 10, a weighing sensing device 6 (such as a weighing sensor) senses that the weight change of the whole tank body 2 reaches a specific value (namely, the cement reaches the specific value), the weighing sensor transmits a data signal to the electric control box 7, the electric control box 7 controls the electronic stop valve of the second raw material bin to be closed, the electronic stop valve of the third raw material bin is opened, fine stones flow out from the first discharge port 4 and enter the stirring device 8 from the second feed port 10, so that the sand, the cement and the fine stones enter the stirring device 8 according to a certain proportion, then, a certain amount of water is added into the material box 81, the electric control driving device 84 is started through the electric control box 7 to drive the stirring blades 83 to rotate, the sand, the cement and the fine stones are stirred, and the dry-mixed mortar is further subdivided into the sand, the proportion of the concrete is more accurately controlled, and the fine aggregate concrete with higher quality can be obtained.
The second embodiment:
each first feed inlet 3 is located different horizontal planes for each raw material storehouse is mutual noninterference when feeding, can not appear adding by mistake, leak the circumstances of adding and adding more.
Example 1
The tank body 2 is provided with two raw material bins which are divided into an upper raw material bin and a lower raw material bin which are mutually attached, a first feed port 3 corresponding to the upper raw material bin and a first feed port 3 'corresponding to the lower raw material bin are respectively positioned on different horizontal planes, the bottom of the upper raw material bin is of an inclined part structure, the feeding of the upper raw material bin and the lower raw material bin is facilitated through the inclined part structure, the feeding is smoother, a discharge pipe is externally connected with a corresponding first discharge port 4, dry-mixed mortar is stored in the upper raw material bin through the first feed port 3, fine stones are stored in the lower raw material bin through the first feed port 3', an electronic stop valve of the upper raw material bin is controlled to be opened through an electric cabinet 7, the dry-mixed mortar flows out from the first discharge port 4, enters a stirring device 8 through the discharge pipe, and waits for a weighing sensing device 6 (such as a weighing sensor) to sense that the weight, the weighing sensor transmits a data signal to the electric cabinet 7, the electric cabinet 7 controls the electronic stop valve of the upper raw material bin to be closed, meanwhile, the electronic stop valve of the lower raw material bin is opened, fine stones flow out of the first discharge port 4 and enter the stirring device 8 from the second feed port 10, the weighing sensor 6 (such as the weighing sensor) waits for sensing that the weight change of the whole tank body 2 reaches a specific value (namely the fine stone discharge reaches the specific value), so that dry-mixed mortar and the fine stones enter the stirring device 8 according to a certain proportion, the weighing sensor transmits the data signal to the electric cabinet 7, the electronic stop valve of the raw material bin is closed under the control of the electric cabinet 7, a certain amount of water is added into the material box 81, the electric cabinet 7 controls the driving device 84 to be started, the stirring blades 83 to be driven to rotate, the dry-mixed mortar and the fine stones are stirred, and then high.
Example 2
The tank body 2 is provided with three raw material bins, the contact surface of each raw material bin is of an inclined structure, the first feed inlets 3 corresponding to the first raw material bin, the second raw material bin and the third raw material bin are respectively positioned on different horizontal planes, the first raw material bin is filled with sand, the second raw material bin is filled with cement, the third raw material bin is filled with fine stones, the first feed inlets 3 corresponding to the first raw material bin, the second raw material bin and the third raw material bin are all positioned on the same horizontal plane, the electronic stop valve of the first raw material bin is controlled to be opened through the electric cabinet 7, the sand flows out from the first discharge port 4 and enters the stirring device 8 from the second feed inlet 10, a weighing sensing device 6 (such as a weighing sensor) senses that the weight change of the whole tank body 2 reaches a specific value (namely the sand reaches the specific value), the weighing sensor transmits a data signal to the electric cabinet 7, the electronic stop valve of the first raw material bin is controlled to be closed through the electric cabinet, meanwhile, the electronic stop valve of the second raw material bin is opened, cement flows out from the first discharge port 4 and enters the stirring device 8 from the second feed port 10, a weighing sensing device 6 (such as a weighing sensor) senses that the weight change of the whole tank body 2 reaches a specific value (namely, the cement reaches the specific value), the weighing sensor transmits a data signal to the electric control box 7, the electric control box 7 controls the electronic stop valve of the second raw material bin to be closed, the electronic stop valve of the third raw material bin is opened, fine stones flow out from the first discharge port 4 and enter the stirring device 8 from the second feed port 10, so that the sand, the cement and the fine stones enter the stirring device 8 according to a certain proportion, then, a certain amount of water is added into the material box 81, the electric control driving device 84 is started through the electric control box 7 to drive the stirring blades 83 to rotate, the sand, the cement and the fine stones are stirred, and the dry-mixed mortar is further subdivided into the sand, the proportion of the concrete is more accurately controlled, and the fine aggregate concrete with higher quality can be obtained.
In conclusion, the interior of the storage tank is divided into a plurality of raw material bins with independent spaces, the raw material bins are used for storing raw materials such as dry-mixed mortar and fine stones, and have the functions of metering and stirring, the electric cabinet 7 is used for controlling the on-off of the weighing sensing device 6 and the stirring device 8, so that the raw materials are mixed according to a certain proportion, and the fine stone concrete meeting the construction requirements can be conveniently obtained after the water is added and fully stirred; the proportion of each raw materials has accurately been controlled, has improved the quality of work efficiency and pea gravel concrete, because the stirring all goes on in relative inclosed space, so do not have the dust to produce, occupation space is less moreover, improves the efficiency of construction of engineering project secondary structure pea gravel concrete, the quality and the cost control of secondary structure pea gravel concrete of being convenient for.
The above-mentioned, only preferred embodiments of the present invention are described, the scope of the present invention cannot be limited, and all the equivalent changes and decorations made according to the claims of the present invention should still fall within the scope covered by the present invention.