CN220763098U - Inorganic terrazzo production system - Google Patents

Abstract

The utility model provides an inorganic terrazzo production system, which relates to the technical field of inorganic terrazzo production and specifically comprises a holding device, a quantitative feeding device, a conveying device and a stirring device; the holding device is provided with a feed inlet, a discharge outlet and a storage space for storing raw materials; the quantitative feeding device is arranged at the bottom of the accommodating device; the conveying device is used for receiving and conveying the materials discharged by the discharge port; the feed inlet of the stirring device is arranged at the tail end of the conveying device; wherein, hold device and ration feedway all have a plurality of and one-to-one setting, and a plurality of discharge gates that hold the device all face conveyor. When the automatic quantitative feeding device is used, the quantitative feeding device is used for controlling the feeding amount of the materials in each containing device, manual weighing and feeding are not needed, the materials are conveyed by the conveying device after feeding, automatic quantitative feeding of various materials is realized, the control of the ratio precision of various raw materials is excellent, the phenomena of wrong feeding and uneven mixing are avoided, and the production efficiency is improved.

Description

Inorganic terrazzo production system

Technical Field

The utility model relates to the technical field of inorganic terrazzo production, in particular to an inorganic terrazzo production system.

Background

Terrazzo (also called terrazzo) is a product obtained by mixing aggregates such as broken stone, glass, quartz stone and the like into cement binder to prepare a concrete product and grinding and polishing the surface of the concrete product. Wherein, the terrazzo made by taking cement as adhesive binder is called inorganic terrazzo.

The dry-mixed integral seamless inorganic terrazzo consists of natural ore, quartz sand, 1-5cm glass and cobble with different specific gravity, polymer crack-resistant cement, S105 mineral powder and various additives, wherein the raw materials contain large-particle-size aggregate, and the involved colored aggregate and quartz sand are various. In the prior art, various materials are put into a stirrer for mixing in a manual feeding mode, the materials are weighed in advance and then fed, but due to the fact that the raw materials are more, the requirement on the ratio precision of the various raw materials is larger, the phenomena of wrong feeding and uneven mixing are easy to occur in the production process, and the production work efficiency is low.

Disclosure of Invention

The utility model aims to provide an inorganic terrazzo production system so as to solve the technical problems of low production efficiency caused by the phenomena of easy wrong feeding and uneven mixing of a manual feeding mode in the prior art.

The utility model provides an inorganic terrazzo production system which comprises a holding device, a quantitative feeding device, a conveying device and a stirring device, wherein the holding device is used for holding a terrazzo; the containing device is provided with a feed inlet, a discharge outlet and a storage space for storing raw materials; the quantitative feeding device is arranged at the bottom of the containing device; the conveying device is used for receiving and conveying the materials discharged by the discharge port; the feed inlet of the stirring device is arranged at the tail end of the conveying device; wherein, hold device and quantitative feedway all have a plurality of and one-to-one setting, a plurality of hold the discharge gate of device all towards conveyor.

Further, the quantitative feeding device comprises a supporting frame, a weight sensor and a control valve; the supporting frame comprises a bearing part and a supporting part, and the bearing part is used for bearing the containing device; the weight sensor is arranged between the bearing part and the containing device; the control valve is arranged on the discharge port.

Further, the bearing part is a supporting plate, and the supporting part is a supporting leg; the support legs are multiple, and the support legs are uniformly distributed at the bottom of the support plate.

Further, the control valve is an electromagnetic valve.

Further, the stirring device comprises a weighing frame, a stirrer, a weighing piece and a filling piece; the top of the weighing frame is provided with a mounting part; the stirrer is arranged on the mounting part, the feeding port is arranged at the top of the stirrer, and the bottom of the stirrer is provided with a discharge port; the weighing piece is arranged between the mounting part and the stirrer; the filling piece is connected with the discharge opening.

Further, the conveying device is a belt conveyor or a screw conveyor.

Further, the inorganic terrazzo production system also comprises a batching tank; the batching jar is located one side of agitating unit, and pass through conveying equipment with the feed inlet links to each other, the intercommunication has the charging pipeline that is used for connecting the cement tank car on the batching jar.

Further, the inorganic terrazzo production system also comprises a travelling rail and a travelling crane; the travelling rail is arranged at the top of the containing device, and the extending shape of the travelling rail is opposite to the setting positions of the containing devices.

Further, the inorganic terrazzo production system also comprises a controller; the controller is respectively connected with the holding device, the quantitative feeding device, the conveying device and the stirring device.

Further, the stirring device and the conveying device are two; the two stirring devices and the two conveying devices are arranged in one-to-one correspondence; each conveying device is arranged corresponding to a plurality of containing devices; the discharge port of one stirring device is connected with the feed port of the other stirring device through conveying equipment.

The beneficial effects are that:

the utility model provides an inorganic terrazzo production system which comprises a holding device, a quantitative feeding device, a conveying device and a stirring device, wherein the holding device is used for holding a terrazzo; the holding device is provided with a feed inlet, a discharge outlet and a storage space for storing raw materials; the quantitative feeding device is arranged at the bottom of the accommodating device; the conveying device is used for receiving and conveying the materials discharged by the discharge port; the feed inlet of the stirring device is arranged at the tail end of the conveying device; wherein, hold device and ration feedway all have a plurality of and one-to-one setting, and a plurality of discharge gates that hold the device all face conveyor.

Specifically, when the inorganic terrazzo production system provided by the utility model is used, a plurality of holding devices are used for holding various materials independently, in the production process, the quantitative feeding device is used for controlling the amount of the materials put in each holding device, the materials are put on the conveying device, and the conveying device is used for conveying the materials into the stirring device for stirring.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an inorganic terrazzo production system according to an embodiment of the utility model;

fig. 2 is a schematic diagram of a second embodiment of the present utility model.

Icon:

100-holding device;

200-a quantitative feeding device; 210-a support frame; 220-weight sensor; 230-a control valve;

300-conveying device;

400-stirring device; 410-a weigh frame; 420-stirrer; 430-weighing piece; 440-filling part;

500-batching jar.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal," "vertical," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The utility model will now be described in further detail with reference to specific examples thereof in connection with the accompanying drawings.

As shown in fig. 1, the inorganic terrazzo production system provided in this embodiment includes a holding device 100, a quantitative feeding device 200, a conveying device 300, and a stirring device 400; the holding device 100 is provided with a feed inlet, a discharge outlet and a storage space for storing raw materials; the quantitative feeding device 200 is arranged at the bottom of the containing device 100; the conveying device 300 is used for receiving and conveying the materials discharged by the discharge port; the feed inlet of the stirring device 400 is arranged at the tail end of the conveying device 300; wherein, the holding device 100 and the quantitative feeding device 200 are respectively provided with a plurality of corresponding devices, and the discharge holes of the plurality of holding devices 100 face the conveying device 300.

When the inorganic terrazzo production system is used, the quantitative feeding device 200 is used for controlling the feeding amount of the materials in each containing device 100, the feeding amount of the materials fed by each containing device 100 is controlled by the quantitative feeding device 200, the materials are fed to the conveying device 300, and the materials are conveyed to the stirring device 400 for stirring.

Wherein, because transport the material through conveyor 300 in this embodiment, need not artifical transport, empty realization and throw the material, consequently, need not to set up the equipment device of tower type, and the production factory building need not too high space in order that the personnel transport material to agitated vessel's top. The height requirement of the factory building is reduced, the investment cost is reduced, the probability of falling of objects and personnel at high altitude is reduced, and the production safety is improved.

In this embodiment, the dosing device 200 includes a support frame 210, a weight sensor 220, and a control valve 230; the support frame 210 includes a bearing portion and a supporting portion, the bearing portion is used for bearing the holding device 100; the weight sensor 220 is disposed between the carrying part and the holding device 100; the control valve 230 is arranged on the discharge port.

Specifically, the holding device 100 is fixed on the supporting frame 210, the holding device 100 stores production materials therein, the weight sensor 220 is between the bearing part and the holding device 100, and the weight sensor 220 weighs the holding device 100. The indication of the weight sensor 220 is the sum of the weight of the holding device 100 and the weight of the material in the holding device 100, when the holding device 100 feeds the material to the conveying device 300, the material is transferred to the conveying device 300, the sum of the weight of the holding device 100 and the weight of the material in the holding device 100 is reduced, the indication of the weight sensor 220 is changed, and after the indication change range of the weight sensor 220 reaches a preset value, the control valve 230 is triggered to be closed, so that the technical effect of quantitative feeding is achieved.

In this embodiment, the bearing portion is a supporting plate, and the supporting portion is a supporting leg; the landing leg has a plurality ofly, and a plurality of landing legs evenly distributed are in the bottom of backup pad.

The support plate and the support legs are connected to form a support frame 210, and a weight sensor 220 in this embodiment is disposed on the top surface of the support plate, and the holding device 100 is disposed on the weight sensor 220.

Specifically, in order to enable the placement of the holding device 100 to be stable, the number of the weight sensors 220 should be not less than three, and the three weight sensors 220 can form a stable triangular support, thereby improving the stability of the placement of the weight sensors 220.

The four weight sensors 220 in this embodiment are arranged in four corners of a rectangle on the top surface of the support plate, the holding device 100 is set up on the support plate with the four sensors as supporting legs, and the four sensors can form a support for the holding device 100 and can detect the total weight of the holding device 100 and the internal materials at any time.

In addition, the support structure of the four weight sensors 220 facilitates determining and adjusting the center of gravity of the holding device 100.

In the present embodiment, the control valve 230 is a solenoid valve.

Solenoid valves are electromagnetic controlled industrial equipment, which belongs to actuators and are not limited to hydraulic and pneumatic. For use in industrial control systems to adjust the direction, flow, velocity and other parameters of the medium. The solenoid valve can be matched with different circuits to realize expected control, and the control precision and flexibility can be ensured. The solenoid valves are various, and different solenoid valves function at different positions of the control system, and most commonly include a check valve, a safety valve, a directional control valve 230, a speed adjusting valve, etc., and in this embodiment, the solenoid valve is a check valve, so that foreign matters can be prevented from entering the containing device 100 from the solenoid valve.

In this embodiment, the stirring device 400 includes a weigh frame 410, a stirrer 420, a weigh member 430, and a filler 440; the top of the weighing frame 410 is provided with a mounting part; the stirrer 420 is arranged on the mounting part, the feed inlet is arranged at the top of the stirrer 420, and the bottom of the stirrer 420 is provided with a discharge outlet; the weighing piece 430 is provided between the mounting portion and the agitator 420; the filling member 440 is connected to the discharge opening.

Wherein the weight frame 410 is used to mount and elevate the equipment height, and the weight 430 is provided on the weight frame 410 to support the agitator 420 and measure the total weight of the agitator 420 and the material within the agitator 420.

After the materials enter the stirrer 420, the weighing part 430 measures the total weight, the materials are uniformly stirred by the stirrer 420 and discharged from the discharge port to enter the filling part 440, and the filling part 440 fills the uniformly mixed materials respectively. Similarly, in the process of discharging the agitator 420, the total weight of the agitator 420 and the materials in the agitator 420 is reduced, the indication of the weighing member 430 is reduced, and when the indication variation range of the weighing member 430 reaches a preset value, the agitator 420 stops discharging, thereby completing one-time discharging.

After the material discharged by the primary discharge is packaged by the to-be-filled member 440, the agitator 420 discharges again and repeats the above process to realize the multiple discharge and filling.

In the present embodiment, the conveying device 300 is a belt conveyor or a screw conveyor.

As the inorganic terrazzo has both powdery and granular materials in the raw materials, during production, in order to avoid the scattering of the powdery materials, the powdery materials are conveyed by adopting a screw conveyor.

The granular materials are easy to clamp the equipment in the screw conveyor, so that the screw conveyor is damaged, and the granular materials are conveyed by the belt conveyor.

The materials in this embodiment are all in powder form, so in this embodiment, a screw conveyor is used to convey the materials.

In this embodiment, the inorganic terrazzo production system further comprises a batching tank 500; the batching jar 500 is located one side of agitating unit 400 to link to each other with the feed inlet through conveying equipment, communicate with each other on the batching jar 500 and be used for connecting the charging pipe of cement tank car.

The formulation tank 500 is used for storing cement, in this embodiment, in order to avoid the cement from contacting with the raw materials too early, the cement is disposed on one side of the stirring device 400 far away from the holding device 100 through the formulation tank 500 and is connected with the stirring device 400 through an independent conveying device, specifically, the conveying device is a screw elevator, and the screw elevator conveys the cement in the formulation tank 500 into the stirring device 400 to be mixed with other raw materials.

When the cement in the batching tank 500 is filled to the required extent, the cement tank truck can be connected with the feeding pipeline through a pipeline, and the cement tank truck can be used for feeding the cement into the batching tank 500 through the feeding pipeline in an air compression mode.

In this embodiment, the inorganic terrazzo production system further includes a travelling rail and a travelling crane; the travelling rail is arranged at the top of the containing device 100, and the extending shape of the travelling rail is opposite to the arrangement positions of the containing devices 100.

The travelling crane is commonly known as a crane, a navigation vehicle, a crown block and other cranes, and the travelling crane in the embodiment is specifically the crown block. When the crown block runs along the running track and materials need to be supplemented to each containing device 100, the materials can be placed on the crown block, the crown block moves the materials to the containing device 100 needing to be supplemented with the materials, the materials are supplemented into the containing device 100, manual supplementation is not needed, and time and labor are saved in the supplementing process.

In this embodiment, the inorganic terrazzo production system further comprises a controller; the controller is connected to the holding device 100, the quantitative feeding device 200, the conveying device 300, and the stirring device 400, respectively.

Specifically, the controller in this embodiment is a PLC controller, and is electrically connected to the stirrer 420, the electromagnetic valve, the filling member 440, and the screw conveyor, respectively, and automatic feeding, stirring, and filling are realized through the PLC controller.

In this embodiment, as shown in fig. 2, there are two stirring devices 400 and conveying devices 300; the two stirring devices 400 and the two conveying devices 300 are arranged in a one-to-one correspondence; each conveying device 300 is arranged corresponding to a plurality of containing devices 100; the discharge port of one stirring device 400 is connected with the feed port of another stirring device 400 through a conveying device.

Specifically, one stirring device 400 and one conveying device 300 are connected with the material mixing tank 500 and the containing device 100 to form a production line, two production lines are provided in this embodiment, and the material outlet of the stirrer 420 in one production line is connected with the material inlet of the other production line through conveying equipment, so that when materials are required to be stirred for the second time, the materials can be stirred in one production line and then conveyed into the stirrer 420 in the other production line, and mixed with other materials and then subjected to the second stirring.

When the secondary stirring is not needed, the two production lines can run simultaneously, and the filling piece 440 is used for replacing conveying equipment between the two production lines, so that the two production lines can produce simultaneously, and the production efficiency is improved.

In addition, the stirrer 420 in this embodiment is a gravity-free vacuum stirrer, which strictly ensures uniformity of material mixing.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced with equivalents; such modifications and substitutions do not depart from the spirit of the technical solutions according to the embodiments of the present utility model.

Claims (10)

1. An inorganic terrazzo production system, comprising: a holding device (100), a quantitative feeding device (200), a conveying device (300) and a stirring device (400);

the containing device (100) is provided with a feed inlet, a discharge outlet and a storage space for storing raw materials;

the quantitative feeding device (200) is arranged at the bottom of the containing device (100);

the conveying device (300) is used for receiving and conveying the materials discharged by the discharge hole;

the feed inlet of the stirring device (400) is arranged at the tail end of the conveying device (300);

wherein, hold device (100) and ration feedway (200) all have a plurality of and one-to-one setting, a plurality of discharge gate that holds device (100) all towards conveyor (300).

2. The inorganic terrazzo production system of claim 1, wherein the dosing device (200) comprises a support frame (210), a weight sensor (220) and a control valve (230);

the support frame (210) comprises a bearing part and a supporting part, wherein the bearing part is used for bearing the containing device (100);

the weight sensor (220) is arranged between the bearing part and the containing device (100);

the control valve (230) is arranged on the discharge hole.

3. The inorganic terrazzo production system of claim 2, wherein the carrier is a support plate and the support is a leg;

the support legs are multiple, and the support legs are uniformly distributed at the bottom of the support plate.

4. The inorganic terrazzo production system of claim 2, wherein the control valve (230) is a solenoid valve.

5. The inorganic terrazzo production system of claim 1, wherein the stirring device (400) comprises a weigh frame (410), a stirrer (420), a weigh piece (430) and a filler (440);

the top of the weighing frame (410) is provided with a mounting part;

the stirrer (420) is arranged on the mounting part, the feeding hole is arranged at the top of the stirrer (420), and the bottom of the stirrer (420) is provided with a discharging hole;

the weighing piece (430) is arranged between the mounting part and the stirrer (420);

the filling piece (440) is connected with the discharge opening.

6. The inorganic terrazzo production system of claim 1, wherein the conveyor means (300) is a belt conveyor or a screw conveyor.

7. The inorganic terrazzo production system of claim 1, further comprising a batching tank (500);

the batching jar (500) is located one side of agitating unit (400) and pass through conveying equipment with the feed inlet links to each other, the intercommunication has the charging pipeline that is used for connecting the cement tank car on batching jar (500).

8. The inorganic terrazzo production system of claim 1, further comprising a travelling crane rail and a travelling crane;

the travelling rail is arranged at the top of the containing device (100), and the extending shape of the travelling rail is opposite to the setting positions of the containing devices (100).

9. The inorganic terrazzo production system of claim 1, wherein the inorganic terrazzo production system further comprises a controller;

the controller is respectively connected with the containing device (100), the quantitative feeding device (200), the conveying device (300) and the stirring device (400).

10. The inorganic terrazzo production system of any of claims 1 to 9, wherein there are two of said stirring means (400) and said conveying means (300);

the two stirring devices (400) and the two conveying devices (300) are arranged in a one-to-one correspondence;

each conveying device (300) is arranged corresponding to a plurality of containing devices (100);

the discharge port of one stirring device (400) is connected with the feed port of the other stirring device (400) through conveying equipment.