CN114953199B - Full-automatic batching conveying equipment for concrete production - Google Patents

Abstract

The invention discloses full-automatic batching conveying equipment for concrete production, which comprises a first spiral conveying pipe, a discharging bin, an automatic batching assembly, a stirring reaction tank, a second spiral conveying pipe and a mixing stirrer, wherein the discharging bin is arranged below a discharging port of the first spiral conveying pipe, a conveyor belt is arranged on the lower side frame of the discharging bin, the automatic batching assembly is positioned on the right side of the conveyor belt, the automatic batching assembly is provided with a plurality of stirring reaction tanks, the second spiral conveying pipe is arranged below the stirring reaction tank, and the discharging port of the second spiral conveying pipe is communicated with the mixing stirrer; the invention can control the position of the movable feed bin by controlling the positive and negative rotation of the output shaft of the motor, and simultaneously utilizes the start and stop of the first spiral feed pipe, the discharge bin and the conveyor belt to form corresponding working procedures by matching with the motor, thereby completing the process of automatic material mixing and proportioning, and effectively solving the technical problems as proposed in the background art.

Description

Full-automatic batching conveying equipment for concrete production

Technical Field

The invention relates to the field of batching conveying equipment, in particular to batching conveying equipment for full-automatic concrete production

Background

In the existing concrete production and preparation process, various ingredients are added, mixed and stirred one by one in a mode of manually adding the ingredients or erecting a plurality of feeding devices, but the ingredients can be mixed and stirred in the same stirring barrel, and part of concrete with special materials is required to be mixed, and the special materials are required to be reacted by another reaction tank before being mixed, so that the ingredients required to be reacted and other ingredients cannot be poured into the same stirring tank to be directly mixed; and the erection of a plurality of feeding devices can occupy excessive space, and if the single feeding device is used, a plurality of different concrete raw materials cannot be discharged into different reaction tanks and stirring tanks.

Disclosure of Invention

The invention provides full-automatic batching and conveying equipment for concrete production, which overcomes the defects described in the background art.

The technical scheme adopted for solving the technical problems is as follows:

The utility model provides a full-automatic batching conveying equipment for concrete production, includes first spiral conveying pipe, arranges feed bin, automatic batching subassembly, stirring retort, second spiral conveying pipe, hybrid mixer, arrange the feed bin and erect in the discharge port below of first spiral conveying pipe, arrange the feed bin lower side frame and be equipped with a conveyer belt, automatic batching subassembly is located the right side of conveyer belt, automatic batching subassembly is equipped with a plurality of stirring retort, the below of stirring retort is located to the second spiral conveying pipe, the discharge port of second spiral conveying pipe is linked together with hybrid mixer; the automatic batching subassembly is including activity feed bin, mount, lead screw and motor, the mount sets up the downside of locating the conveyer belt, the motor is installed in the mount surface, the lead screw is installed on the output shaft of motor, activity feed bin sets up on the lead screw, the lead screw is to pass activity feed bin to the lead screw is threaded connection with activity feed bin.

A preferred technical scheme is as follows: the movable feed bin comprises a bin body, a closing plate and a screw rod connecting block, wherein a discharge hole is formed in the lower side of the bin body, the closing plate is covered on the discharge hole, the screw rod connecting block is respectively arranged on the left side and the right side of the outer end of the bin body, threaded holes penetrating through the front end and the rear end are formed in the surface of the screw rod connecting block, and the screw rod penetrates through the threaded holes.

A preferred technical scheme is as follows: the number of the closing plates is two, and adjacent ends of the two closing plates are spliced in a zigzag contour.

A preferred technical scheme is as follows: the movable feeding bin comprises a movable engaging plate and a pneumatic telescopic rod, the closing plate is installed on the discharge port through a rotating shaft in a swinging mode, the tail ends of the same side of the rotating shaft are respectively provided with an arc engaging tooth block, the movable engaging plate is engaged with the arc engaging tooth blocks, the pneumatic telescopic rod is fixed on one side, close to the movable engaging plate, of the bin body, an output shaft of the pneumatic telescopic rod is connected with the upper end of the movable engaging plate, and the pneumatic telescopic rod is connected with an air pump through an air pipe for air supply.

A preferred technical scheme is as follows: the movable engagement plate is in an inverted U-shaped arrangement, the inner side of the movable engagement plate is provided with a tooth row protruding outwards, and the movable engagement plate is engaged with the arc-shaped engagement tooth block through the tooth row.

A preferred technical scheme is as follows: the movable feeding bin comprises left and right sides which are respectively arranged on the bin body, and each movable feeding bin is powered by an external power supply.

A preferred technical scheme is as follows: the screw rod connecting block is arranged in an L shape, a columnar cavity is arranged in the screw rod connecting block, a spring is arranged in the columnar cavity, and the upper end and the lower end of the spring are propped against the upper end and the lower end of the inner side of the columnar cavity.

Compared with the background technology, the technical proposal has the following advantages:

The invention can control the position of the movable feed bin by controlling the positive and negative rotation of the output shaft of the motor, and simultaneously utilizes the start and stop of the first spiral feed pipe, the discharge bin and the conveyor belt to form corresponding working procedures by matching with the motor, thereby completing the process of automatic material mixing and proportioning, and effectively solving the technical problems as proposed in the background art.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic perspective view of an automatic batching assembly.

Fig. 3 is a perspective view of the movable feed bin.

Fig. 4 is a top view of the movable feed bin.

Fig. 5 is an elevation view of the movable feed bin.

Fig. 6 is a schematic perspective view of the closure plate.

Fig. 7 is a schematic view of the structure when the closure plate is opened.

Fig. 8 is an elevation view of the screw engagement block.

In the figure: the first spiral feeding pipe 1, the discharging bin 2, the conveyor belt 21, the automatic batching assembly 3, the movable feeding bin 31, the bin body 311, the closing plate 312, the rotating shaft 3121, the arc-shaped meshing tooth block 3122, the movable meshing plate 313, the pneumatic telescopic rod 314, the screw rod connecting block 315, the threaded hole 3151, the spring 3152, the vibration motor 316, the fixing frame 32, the screw rod 33, the motor 34, the stirring reaction tank 4, the second spiral feeding pipe 5 and the mixing stirrer 6.

Detailed Description

As shown in fig. 1-8, a fully automatic batching and conveying device for concrete production comprises a first spiral conveying pipe 1, a discharging bin 2, an automatic batching component 3, a stirring reaction tank 4, a second spiral conveying pipe 5 and a mixing stirrer 6, wherein the discharging bin 2 is arranged below a discharging port of the first spiral conveying pipe 1, a conveyor belt 21 is arranged on a lower side frame of the discharging bin 2, the automatic batching component 3 is positioned on the right side of the conveyor belt 21, the automatic batching component 3 is provided with a plurality of stirring reaction tanks 4, the second spiral conveying pipe 5 is arranged below the stirring reaction tanks 4, and the discharging port of the second spiral conveying pipe 5 is communicated with the mixing stirrer 6; the automatic batching assembly 3 comprises a movable feed bin 31, a fixed frame 32, a screw rod 33 and a motor 34, wherein the fixed frame 32 is erected on the lower side of a conveyor belt 21, the motor 34 is arranged on the surface of the fixed frame 32, the screw rod 33 is arranged on an output shaft of the motor 34, the movable feed bin 31 is erected on the screw rod 33, the screw rod 33 passes through the movable feed bin 31, the screw rod 33 is in threaded connection with the movable feed bin 31, the upper end of the upper end part of the lower conveying belt 33 is communicated with a feed hopper, so that raw materials required to be conveyed to be stirred are discharged into a first spiral conveying pipe 1 through the feed hopper, discharged into a discharge bin 2 along a discharge port through a lifting and feeding function in the first spiral conveying pipe 1, slowly and uniformly discharged on the surface of the conveyor belt 21 through the discharge bin 2, and conveyed into the movable feed bin 31 through the conveyor belt 21, the movable feed bin 31 comprises a bin body 311, a closing plate 312 and a screw rod connecting block 315, wherein the lower side of the bin body 311 is provided with a discharge port, the closing plate 312 is covered on the discharge port, the screw rod connecting block 315 is respectively arranged at the left and right sides of the outer end of the bin body 311, threaded holes 3151 penetrating through the front and rear ends are formed in the surface of the screw rod connecting block 315, the screw rod 33 penetrates through the threaded holes 3151, so that the forward and backward rotation of an output shaft of a motor 34 can be controlled to drive the movable feed bin 31 to move, when the movable feed bin 31 is loaded with raw materials with proper weight, the raw materials are moved above the corresponding stirring reaction tank 4, the closing plate 312 is opened, the raw materials in the bin body 311 are discharged into the stirring reaction tank 4 for reaction or stirring and then are discharged into the second spiral feeding pipe 5, the raw materials are discharged into the mixing stirrer 6 through spiral blades in the second spiral feeding pipe 5 for mixing and stirring, it should be explained that the first spiral feeding pipe 1, the discharging bin 2, the conveyor belt 21, the stirring reaction tank 4, the second spiral feeding pipe 5 and the mixing stirrer 6 are all devices in the prior art, and all belong to devices known to those skilled in the art, so that they are not described herein, and since the stirring reaction tank 4 is provided with a plurality of stirring reaction tanks, the stirring reaction tanks can be replaced with reaction tanks or stirring tanks with different functions according to different requirements of a production line;

the number of the closing plates 312 is two, and adjacent ends of the two closing plates 312 are spliced in a zigzag profile, so as to control whether the materials in the bin body 311 are discharged outwards or not through opening and closing of the two closing plates 312.

Moreover, the movable feeding bin 31 includes a movable engaging plate 313 and a pneumatic telescopic rod 314, the closing plate 312 is pivotally mounted on the discharging opening through a rotary shaft 3121, the two ends of the same side of the rotary shaft 3121 are respectively provided with an arc engaging tooth block 3122, the movable engaging plate 313 is engaged with the arc engaging tooth blocks 3122, the pneumatic telescopic rod 314 is fixed on one side of the bin body 311 near the movable engaging plate 313, an output shaft of the pneumatic telescopic rod 314 is connected with an upper end of the movable engaging plate 313, the pneumatic telescopic rod 314 is supplied with air by an air pipe external air pump, when in use, the length of the outward extension of the pneumatic telescopic rod 314 can be determined by controlling the air supply amount of an air cylinder into the pneumatic telescopic rod 314, and because the output shaft of the pneumatic telescopic rod 314 is communicated with the upper end of the movable engaging plate 313, when the output shaft of the pneumatic telescopic rod 314 extends outwards, the movable engaging plate 313 moves downwards, the inner side of the movable engaging plate 313 is meshed with the arc engaging tooth block 3122, thereby driving the arc engaging tooth block 3122 to swing downwards, so as to drive the rotary shaft 3121 to swing outwards, thereby driving the rotary plate 311 to swing outwards, and discharging material into the opening 311 outwards.

Moreover, the movable engaging plate 313 is in an inverted U shape, the inner side of the movable engaging plate 313 has a tooth row protruding outwards, and the movable engaging plate 313 is engaged with the arc engaging tooth block 3122 through the tooth row, so that when the movable engaging plate 313 is pressed downwards, the rotation shafts 3121 on both sides can be simultaneously driven to rotate through the arc engaging tooth blocks 3122 on both sides.

In addition, the movable feeding bin 31 includes vibration motors 316, the vibration motors 316 are respectively disposed at the left and right sides of the bin body 311, each vibration motor 316 is powered by an external power source, when the closing plates 312 at both sides are opened, the vibration motors 316 can be opened simultaneously, the vibration motors 316 are utilized to drive the bin body 311 to vibrate integrally, so as to accelerate the dropping speed of the materials in the bin body 311, and when the materials discharged into the bin body 311 are sticky liquid, the sticky materials adhered to the surface of the closing plates 312 can be reduced when the vibration motors 316 are opened, and the explanation is that the vibration motors 316 can be selected from the vibration motors with vibration functions in the prior art, and are not limited to some equipment with specific functions, such as the vibration motors of mobile phones, although the vibration effect is weak, the vibration effect is still provided, and the corresponding positive effect is provided.

And, the lead screw joint block 315 is L-shaped, a columnar cavity is arranged in the lead screw joint block 315, a spring 3152 is arranged in the columnar cavity, the upper end and the lower end of the spring 3152 are propped against the upper end and the lower end of the inner side of the columnar cavity, the columnar cavity in the lead screw joint block 315 can be utilized to buffer the influence of vibration generated by the vibration motor 316 during working on the lead screw joint block 315 and the lead screw 33, and the vibration sense of the vibration motor 316 transmitted to the lead screw joint block 315 is reduced through the spring 3152, so that the abrasion on the lead screw 33 is reduced.

The basic working principle of the invention is as above, and the following further describes the operation process and working procedures of the invention: the fully-automatic batching and conveying equipment for concrete production further comprises a control system, wherein the control system comprises a monitoring module, a processing center and a control module, and the monitoring module and the control module are connected with the processing module through signals;

The monitoring module comprises a control button arranged at the feed hopper of the first spiral feeding pipe 1, after the raw materials are poured into the feed hopper of the first spiral feeding pipe 1, the monitoring module records the time of feeding the raw materials by pressing the button, and the recorded time is fed back to the processing center, for example, when three raw materials are fed, the control button is pressed once after each feeding, and the feeding time of three times is uniformly recorded; the number of the control buttons is consistent with that of the stirring reaction tanks 4, and each control button corresponds to one stirring reaction tank 4 respectively, so that if the same material is put in for many times, the same key is pressed for many times, and if the put materials are different in type and the stirring reaction tanks 4 with specific functions are required to react, the corresponding control buttons are pressed, and the pressing time is recorded and fed back to the processing center;

the control module comprises a motor driving module and a cylinder control module, the name of the control module is that the motor driving module is used for controlling the positive and negative steering and the speed of an output shaft of the motor 34, and the cylinder control module is used for controlling the flow of gas infused into the pneumatic telescopic rod 314 by a cylinder;

Such as: when the same materials are put in, the materials can be put in sequentially or continuously through the feed hopper of the first spiral feeding pipe 1, the corresponding control button is pressed by the stirring reaction tank 4 with the corresponding function required by the materials, then the control button is uploaded to the processing center through the monitoring module for recording, then the first spiral feeding pipe 1 is started to discharge the materials into the discharging bin 2, then the discharging bin 2 is controlled to uniformly discharge the materials to the surface of the conveying belt 21 at the lower end of the discharging bin 2, the conveying belt 21 is utilized to discharge the materials into the bin body 311 of the automatic batching assembly 3, and the explanation is that if the button is pressed once, the first spiral feeding pipe 1 can be continuously operated until the materials in the first spiral feeding pipe 1 are completely discharged, or the feeding progress is changed by setting the feeding speed or the feeding time of the first spiral feeding pipe 1, when the discharging bin 2 discharges materials onto the conveyor belt 21 and conveys the materials through the movable feeding bin 31, the motor driving module in the control module can control the screw rod 33 to correspondingly rotate positively and negatively under the feedback of the processing center, the movable feeding bin 31 is moved to the position above the stirring reaction tank 4 corresponding to the pressed control button, then the processing center controls the cylinder control module to drive the pneumatic telescopic rods 314 to press down, the closing plates 312 on two sides are opened, meanwhile, the vibration motor 316 is started, the materials in the bin body 311 are downwards discharged into the corresponding stirring reaction tank 4 to react, after the reaction is finished, the materials are discharged into the second spiral feeding pipe 5 and conveyed into the mixing stirrer 6, and if the poured materials only need to be mixed and stirred, the receiving materials can be directly taken out to receive the discharged materials at the discharge port of the stirring reaction tank 4;

Such as: when a plurality of different materials are put in, when the materials are sequentially discharged into the first spiral conveying pipe 1 through the feed hopper of the first spiral conveying pipe 1, the control buttons with different functions are needed to be pressed according to the stirring reaction tanks 4 with different functions, then the control buttons are uploaded to a processing center through a monitoring module for recording, as the feeding speed of the first spiral conveying pipe 1 is adjustable, and the control buttons are pressed after the materials are put in, the corresponding stirring reaction tanks 4 and the needed time after each pressing of the control buttons can be clearly known, so that one of the materials is discharged into the movable conveying bin 31 by the conveyor belt 21, the movable conveying bin 31 is controlled to move to the corresponding stirring reaction tank 4 by the screw rod 33, and the first spiral conveying pipe 1, the discharging bin 2 and the conveyor belt 21 stop working during the discharging of the materials, the waiting time of the movable feed bin 31 can be manually adjusted along with the opening time of the closing plate 312 and the material discharging speed until the movable feed bin 31 is waited for 3 seconds after discharging, the setting is only for playing a stop effect after the movable feed bin 31 is completed, the possibility of mixing is reduced, and the vibration motor 316 is given enough time to shake off the material in the bin body 311 through vibration, when the movable feed bin 31 is waited for the working distance, the first screw feed tube 1, the discharging bin 2 and the conveyor belt 21 can be driven again through the processing center to work again, different kinds of materials are discharged again into the movable feed bin 31, the movable feed bin 31 is moved to the corresponding stirring reaction tank 4 to discharge the materials, and the above procedures are repeated repeatedly, until the transfer of various materials poured into the first spiral conveying pipe 1 is completed;

Meanwhile, when various materials are discharged into the stirring reaction tank 4 to perform the reaction or stirring and other processes, the set time is consistent, so that it is known that all the stirring reaction tanks 4 can discharge the materials in the stirring reaction tanks into the second spiral conveying pipe 5 at the same time, and all the materials are uniformly added into the mixing stirrer 6 to be mixed together by using the second spiral conveying pipe 5, thereby completing the full-automatic material mixing and conveying and batching effects.

The foregoing description is only illustrative of the preferred embodiments of the present invention, and therefore should not be taken as limiting the scope of the invention, for all changes and modifications that come within the meaning and range of equivalency of the claims and descriptions are therefore intended to be embraced therein.

Claims (1)

1. Full-automatic concrete production is with batching conveying appliance, its characterized in that: the automatic material mixing device comprises a first spiral material conveying pipe (1), a material discharging bin (2), an automatic material mixing component (3), a stirring reaction tank (4), a second spiral material conveying pipe (5) and a mixing stirrer (6), wherein the material discharging bin (2) is arranged below a discharge port of the first spiral material conveying pipe (1), a conveyor belt (21) is arranged on a lower side frame of the material discharging bin (2), the automatic material mixing component (3) is positioned on the right side of the conveyor belt (21), the automatic material mixing component (3) is provided with a plurality of stirring reaction tanks (4), the second spiral material conveying pipe (5) is arranged below the stirring reaction tanks (4), and a discharge port of the second spiral material conveying pipe (5) is communicated with the mixing stirrer (6);

The automatic batching assembly (3) comprises a movable feed bin (31), a fixing frame (32), a screw rod (33) and a motor (34), wherein the fixing frame (32) is erected on the lower side of the conveyor belt (21), the motor (34) is installed on the surface of the fixing frame (32), the screw rod (33) is installed on an output shaft of the motor (34), the movable feed bin (31) is erected on the screw rod (33), the screw rod (33) penetrates through the movable feed bin (31), and the screw rod (33) is in threaded connection with the movable feed bin (31);

the movable feed bin (31) comprises a bin body (311), a closing plate (312) and a screw rod connecting block (315), a discharge port is formed in the lower side of the bin body (311), the closing plate (312) is arranged on the discharge port in a covering mode, the screw rod connecting block (315) is respectively arranged on the left side and the right side of the outer end of the bin body (311), threaded holes (3151) penetrating through the front end and the rear end are formed in the surface of the screw rod connecting block (315), and the screw rod (33) penetrates through the threaded holes (3151);

The number of the closing plates (312) is two, and adjacent ends of the two closing plates (312) are spliced in a zigzag contour;

The movable feeding bin (31) comprises movable meshing plates (313) and pneumatic telescopic rods (314), the closing plates (312) are installed on the discharge ports in a swinging mode through a rotating shaft (3121), arc-shaped meshing tooth blocks (3122) are arranged at the tail ends of the same sides of the two rotating shafts (3121), the movable meshing plates (313) are meshed with the arc-shaped meshing tooth blocks (3122), the pneumatic telescopic rods (314) are fixed on one side, close to the movable meshing plates (313), of the bin body (311), output shafts of the pneumatic telescopic rods (314) are connected with the upper ends of the movable meshing plates (313), and the pneumatic telescopic rods (314) are externally connected with an air pump through an air pipe for air supply;

The movable engagement plate (313) is arranged in an inverted U shape, the inner side of the movable engagement plate (313) is provided with a tooth row protruding outwards, and the movable engagement plate (313) is engaged with the arc-shaped engagement tooth block (3122) through the tooth row;

the movable feed bin (31) comprises vibration motors (316), the vibration motors (316) are respectively arranged at the left side and the right side of the bin body (311), and each vibration motor (316) is powered by an external power supply;

The screw rod connecting block (315) is arranged in an L shape, a columnar cavity is arranged in the screw rod connecting block (315), a spring (3152) is arranged in the columnar cavity, and the upper end and the lower end of the spring (3152) are propped against the upper end and the lower end of the inner side of the columnar cavity;

the using method of the full-automatic batching and conveying equipment for concrete production comprises the following steps:

When the same materials are put in, the materials can be firstly put in sequentially or continuously through the feed hopper of the first spiral conveying pipe (1), the corresponding control button is pressed by the stirring reaction tank (4) with the corresponding function required by the materials, then the control button is uploaded to a processing center for recording through a monitoring module, then the first spiral conveying pipe (1) is started, the materials are conveyed into the discharging bin (2), the discharging bin (2) is controlled to uniformly discharge the materials to the surface of the conveying belt (21) at the lower end of the discharging bin (2), the conveying belt (21) is utilized to discharge the materials into the bin body (311) of the automatic batching assembly (3), if the button is pressed once, the first spiral conveying pipe (1) continuously operates until the materials in the first spiral conveying pipe (1) are completely discharged, or the feeding progress is changed by setting the feeding speed or the feeding time of the first spiral conveying pipe (1), when the discharging bin (2) discharges the materials onto the conveying belt (21) and conveys the materials through the movable conveying bin (31), the processing center in the control module is controlled to uniformly discharge the materials into the conveying belt (21), the corresponding control module is driven by the corresponding control module to press the control module (33) to the corresponding air cylinder (31), the stirring reaction tank (3) is closed, the corresponding stirring reaction tank (3) is driven by the control module is simultaneously, the corresponding control module (316) is opened, the positive and negative is closed, and the control cylinder (3) is closed, and the control module is rotated, and the corresponding control module is opened, and the control module is pressed, the materials in the bin body (311) are downwards discharged into a corresponding stirring reaction tank (4) for reaction, and are discharged into a second spiral conveying pipe (5) to be conveyed into a mixing stirrer (6) after the reaction is finished, if the poured materials only need to be mixed and stirred, the receiving materials can be directly taken out to receive the discharged materials at the discharge port of the stirring reaction tank (4);

When a plurality of different materials are put in, when the materials are sequentially discharged into the first spiral conveying pipe (1) through the feed hopper of the first spiral conveying pipe (1), the stirring reaction tanks (4) with different functions are needed to press control buttons with different functions according to requirements, then the control buttons are uploaded to a processing center for recording through a monitoring module, and the feeding speed of the first spiral conveying pipe (1) is adjustable and the control buttons are pressed, so that the corresponding stirring reaction tanks (4) and the required time after each time of pressing the control buttons can be clearly known, and the conveyor belt (21) discharges one of the materials into the movable conveying bin (31), and the movable feed bin (31) is controlled by the screw rod 33 to move to the corresponding stirring reaction tank (4), during the material discharging period, the first spiral feed tube (1), the discharging bin (2) and the conveying belt (21) stop working until the movable feed bin (31) waits for 3 seconds to recover to a working distance point after the discharging is completed, the waiting time of the movable feed bin (31) can be manually adjusted along with the opening time of the closing plate (312) and the material discharging speed, the setting is only for playing a stop effect after the movable feed bin (31) finishes discharging the material, the possibility of mixing is reduced, and the vibration motor (316) is given enough time to shake the material in the bin body (311) through vibration, and after the movable feed bin (31) recovers to the working distance point, the first spiral conveying pipe (1), the discharging bin (2) and the conveying belt (21) can be driven to work again through the processing center, different materials are discharged into the movable conveying bin (31) again, the movable conveying bin (31) is moved to the corresponding stirring reaction tank (4) to discharge the materials through repeated procedures, and the process is repeated for a plurality of times until the conveying of various different materials poured into the first spiral conveying pipe (1) is completed.