CN215413995U - Aggregate automatic weighing device is used in production of slay brick that permeates water - Google Patents

Abstract

The application discloses aggregate automatic weighing device is used in production of slay brick that permeates water, include: the device comprises a first blanking assembly, a second blanking assembly, a weighing hopper, a transmitter and a PLC control module; a feed inlet is formed in the top surface of the first blanking assembly; the bottom surface of the first blanking assembly is provided with a processing port and is arranged opposite to the top surface opening of the weighing hopper; a feed inlet is formed in the top surface of the second blanking assembly; a processing opening is formed in the bottom surface of the second blanking assembly and is arranged opposite to the opening in the top surface of the weighing hopper; through just opening the setting to the hopper top surface of weighing with a plurality of unloading subassemblies to one by one to same weighing hopper unloading through unloading screw rod machine, lead to metering error when can avoiding multiple material unloading simultaneously, the device can utilize the high mobility of copper slay, improves the unloading and weighs efficiency when reducing the error.

Description

Aggregate automatic weighing device is used in production of slay brick that permeates water

Technical Field

The application relates to the technical field of permeable brick production, in particular to an aggregate automatic weighing device for slag permeable brick production.

Background

The brick that permeates water has high water permeability, can effectively pass through the brick body with surface runoff and permeate to the underground, can realize constructing the sponge type city through laying the brick that permeates water, realizes the effective utilization to the nature rainfall. The rainfall infiltration is enhanced to reduce the surface runoff and the flood peak flow, reduce the risk of rain flood and adjust local microclimate. At present, various slag and cement and other adhesives are mixed and then are pressed and sintered to prepare the water permeable brick, so that the production cost can be effectively reduced, and the slag can be effectively recycled.

Copper slag has high fluidity, and is easy to collapse or slide after being simply stacked, thereby having serious influence on residents around the slag stacking area. Meanwhile, the copper slag is used as fine aggregate, so that the workability, mechanical property and durability of concrete can be effectively improved, and the water absorption rate of the copper slag is low. By utilizing the copper slag as the aggregate of the permeable brick, not only can the safety accident caused by slag accumulation be avoided, but also the permeable brick with wide application value can be obtained.

When the concrete is used as the aggregate, the mechanical property of the water permeable brick is greatly influenced by the adding proportion of the aggregate, once the adding proportion of the copper slag is exceeded, the forming effect of a brick body can be reduced, the stress strength is reduced, the water permeable brick paved as the pavement brick cannot meet the use requirement, the rejection rate is increased, and the product quality is reduced.

SUMMERY OF THE UTILITY MODEL

The application provides an aggregate automatic weighing device is used in production of slay brick that permeates water for solving above-mentioned technical problem.

The application provides an aggregate automatic weighing device is used in production of slay brick that permeates water, include: the device comprises a first blanking assembly, a second blanking assembly, a weighing hopper, a transmitter and a PLC control module; a feed inlet is formed in the top surface of the first blanking assembly; the bottom surface of the first blanking assembly is provided with a processing port and is arranged opposite to the top surface opening of the weighing hopper; a feed inlet is formed in the top surface of the second blanking assembly; a processing opening is formed in the bottom surface of the second blanking assembly and is arranged opposite to the opening in the top surface of the weighing hopper;

the weighing hopper is suspended in the bracket and is in weighing connection with the bracket through a plurality of weighing sensors;

a feeding barrel is inserted in the bottom surface of the weighing hopper, and a pneumatic plate valve is inserted in the feeding barrel; the pneumatic plate valve is used for closing or opening the charging barrel;

the first blanking assembly comprises: the device comprises a hopper, a first stepping motor, a conveying screw rod and a feeding pipe; the hopper is arranged on the top surface of one end of the feeding pipe, a discharge port is formed in the bottom surface of the other end of the feeding pipe, and the hopper is arranged over against the opening in the top surface of the weighing hopper; the conveying screw is in driving connection with a first stepping motor; the first stepping motor is arranged on the outer side wall of one end of the feeding pipe;

the second unloading subassembly includes: the device comprises a hopper, a second stepping motor, a conveying screw rod and a feeding pipe; the hopper is arranged on the top surface of one end of the feeding pipe, a discharge port is formed in the bottom surface of the other end of the feeding pipe, and the hopper is arranged over against the opening in the top surface of the weighing hopper; the conveying screw is in driving connection with a second stepping motor; the second stepping motor is arranged on the outer side wall of one end of the feeding pipe;

the first stepping motor and the second stepping motor are respectively and electrically connected with the PLC control module; the hopper of weighing includes: a weighing sensor; the weighing sensors are respectively and electrically connected with the transmitters; the transmitter is electrically connected with the PLC control module.

Preferably, the first blanking assembly comprises: the stirring device comprises a first storage bin, a first stirring motor, a first stirring driving assembly, a first rotating shaft and a stirring paddle; a first stirring motor and a first stirring driving assembly are arranged on the top surface of the first storage bin at intervals; the first stirring driving component is in driving connection with a first stirring motor; the first rotating shaft is inserted in the first storage bin and is in driving connection with the first stirring driving assembly; a plurality of stirring paddles are arranged on the outer side wall of the first rotating shaft.

Preferably, the paddle includes: the stirring device comprises a first stirring steel belt and a plurality of first stirring rods; the first stirring rods are sleeved on the first rotating shaft at intervals and extend outwards to form extension ends perpendicular to the first rotating shaft; the first stirring rod is respectively arranged at the extending end and the middle part of the first rotating shaft; the first stirring steel belt is arranged on the extending end of the first stirring rod.

Preferably, the second blanking assembly comprises: the second bin, a second stirring motor, a second stirring driving assembly, a second rotating shaft and a stirring paddle; a second stirring motor and a second stirring driving assembly are arranged on the top surface of the second storage bin at intervals; the second stirring driving component is in driving connection with a second stirring motor; the second rotating shaft is inserted in the second storage bin and is in driving connection with the second stirring driving assembly; a plurality of stirring paddles are arranged on the outer side wall of the second rotating shaft.

Preferably, the paddle includes: the second stirring steel belt and the plurality of second stirring rods are arranged; the second stirring rods are sleeved on the second rotating shaft at intervals and extend outwards to form an extending end perpendicular to the second rotating shaft; the second stirring rod is respectively arranged at the extending end and the middle part of the second rotating shaft; the second stirring steel belt is arranged on the extending end of the second stirring rod.

Preferably, the first blanking assembly comprises: the first screw shaft and the first feeding pipe are arranged on the first feeding pipe; the conveying screw is rotationally arranged in the first feeding pipe; two ends of the conveying screw are respectively provided with a first screw shaft and extend out of the opposite end surfaces of the first feeding pipes; the first screw shaft is in driving connection with the first stepping motor; a feed port is formed in the top surface of one end of the first feeding pipe and communicated with a discharge port in the bottom surface of the first storage bin; the other end bottom surface of the first feeding pipe is provided with a discharge hole and is over against the open top surface of the weighing hopper.

Preferably, the second blanking assembly comprises: a second screw shaft and a second feeding pipe; the conveying screw is rotationally arranged in the second feeding pipe; two ends of the conveying screw are respectively provided with a second screw shaft and extend out of the opposite end surfaces of the second feeding pipes; the second screw shaft is in driving connection with a second stepping motor; a feed port is formed in the top surface of one end of the second feed pipe and communicated with a discharge port in the bottom surface of the second storage bin; and a discharge port is formed in the bottom surface of the other end of the second feeding pipe and is over against the opening of the top surface of the weighing hopper.

Preferably, the bracket comprises: a plurality of cross bars; a hanging plate is arranged on the outer side wall of the top of the weighing hopper; the hanging plate is connected with the cross rod through a plurality of weighing sensors; the weighing hopper is suspended below the cross rod in the support.

Preferably, the method comprises the following steps: the gate plate, the support plate and the pneumatic telescopic rod are arranged on the support plate; the gate plate is inserted into the lower charging barrel; one end of the flashboard extends out of the charging barrel; the telescopic end of the pneumatic telescopic rod is connected with the outer side wall of the flashboard and is arranged on the support plate; the support plate is arranged on the outer side wall of the blanking barrel.

The beneficial effects that this application can produce include:

1) the application provides an aggregate automatic weighing device is used in slay brick production of permeating water through just opening the setting to the hopper top surface of weighing with a plurality of unloading subassemblies to through unloading screw rod machine one by one to same weighing hopper unloading, lead to metering error when can avoiding multiple material unloading simultaneously, the device can utilize the high mobility of copper slay, improves the unloading and weighs efficiency when reducing the error.

Drawings

FIG. 1 is a schematic view of an automatic aggregate weighing device for slag permeable brick production provided by the present application;

FIG. 2 is a schematic view of a point A in FIG. 1;

FIG. 3 is a schematic view of a partially enlarged front view of a feed opening of the weighing hopper provided in the present application;

illustration of the drawings:

111. a first discharging interface; 112. a first stirring motor; 113. a first agitation drive assembly; 114. a first rotating shaft; 115. a first stirring steel belt; 116. a first stirring rod; 118. a first storage bin; 131. a first screw shaft; 132. a first stepper motor; 133. a first feed pipe; 134. a first bearing housing; 121. a second blanking interface; 122. a second stirring motor; 123. a second stirring driving component; 124. a second rotating shaft; 125. a second stirring steel belt; 126. a second stirring rod; 128. a second storage bin; 141. a second screw shaft; 142. a second stepping motor; 143. a second feed tube; 144. a second bearing housing; 22. feeding the material barrel; 21. weighing a hopper; 20. a support; 202. hanging the plate; 201. a cross bar; 205. a first hanging seat; 204. a second hanging seat; 206. a sling; 203. a weighing sensor; 221. a shutter plate; 222. a support plate; 223. a pneumatic telescopic rod; 224. a housing seat.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention 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 present invention, 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 obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In addition, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or orientations or positional relationships that are conventionally placed when the products of the present invention are used, or orientations or positional relationships that are conventionally understood by those skilled in the art, and are used only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element that is referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 ~ 3, the application provides an aggregate automatic weighing device is used in production of slay permeable brick includes: the device comprises a first blanking assembly, a second blanking assembly, a weighing hopper 21, a transmitter and a PLC control module; a feed inlet is formed in the top surface of the first blanking assembly; the bottom surface of the first blanking component is provided with a processing port and is arranged opposite to the top surface opening of the weighing hopper 21; a feed inlet is formed in the top surface of the second blanking assembly; a processing opening is formed in the bottom surface of the second blanking assembly and is arranged opposite to the top surface opening of the weighing hopper 21;

the weighing hopper 21 is suspended in the bracket 20 and is connected with the bracket 20 in a weighing way through a plurality of weighing sensors 203;

a lower charging barrel 22 is inserted on the bottom surface of the weighing hopper 21, and a pneumatic plate valve is inserted on the lower charging barrel 22; the lower charging barrel 22 is closed or opened by a pneumatic plate valve;

the first unloading subassembly includes: a hopper, a first stepping motor 132, a conveying screw and a feeding pipe; the hopper is arranged on the top surface of one end of the feeding pipe, a discharge port is arranged on the bottom surface of the other end of the feeding pipe, and the hopper is arranged opposite to the opening on the top surface of the weighing hopper 21; the conveying screw is in driving connection with a first stepping motor 132; the first stepping motor 132 is arranged on the outer side wall of one end of the feeding pipe;

the second unloading subassembly includes: a hopper, a second stepping motor 142, a conveying screw and a feeding pipe; the hopper is arranged on the top surface of one end of the feeding pipe, a discharge port is arranged on the bottom surface of the other end of the feeding pipe, and the hopper is arranged opposite to the opening on the top surface of the weighing hopper 21; the conveying screw is in driving connection with a second stepping motor 142; the second stepping motor 142 is arranged on the outer side wall of one end of the feeding pipe;

the first stepping motor 132 and the second stepping motor 142 are respectively and electrically connected with the PLC control module; the weighing hopper 21 includes: a load cell 203; the weighing sensors 203 are respectively electrically connected with the transmitters; the transmitter is electrically connected with the PLC control module.

According to this setting can be in first unloading subassembly material unloading accomplish the back, obtain the interior material weight of hopper through weighing hopper 21, later pass back to PLC control module, and according to the weight value who obtains, control first step motor 132 and close the unloading after, after opening second step motor 142 again, carry out next material unloading, improve unloading weight accuracy of weighing, reduce the weighing error that the unloading leads to simultaneously, utilize the high mobility of copper slay simultaneously, it is long when effectively shortening the slay unloading, improve batching efficiency. The multiple groups of blanking assemblies are arranged right opposite to the weighing hopper 21, so that blanking can be performed one by one, the blanking efficiency is improved, and the equipment investment is reduced.

Preferably, the first blanking assembly comprises: a first material bin 118, a first stirring motor 112, a first stirring driving component 113, a first rotating shaft 114 and a stirring paddle; a first stirring motor 112 and a first stirring driving component 113 are arranged on the top surface of the first storage bin 118 at intervals; the first stirring driving component 113 is in driving connection with the first stirring motor 112; the first rotating shaft 114 is inserted in the first storage bin 118 and is in driving connection with the first stirring driving component 113; a plurality of paddles are provided on the outer side wall of the first shaft 114.

Through set up the stirring subassembly in the hopper, can effectively utilize the mobility of copper slay, improve the smooth and easy nature of unloading, avoid the unloading stagnation or the card pause that the material jam leads to, influence the unloading.

The stirring driving component used in the present application realizes the driving of the stirring motor to the rotating shaft according to the driving component commonly used in the art, such as a gear combination, and the specific arrangement structure is not described herein in detail.

Preferably, the paddle comprises: a first stirring steel belt 115, a plurality of first stirring rods 116; the first stirring rods 116 are alternately sleeved on the first rotating shaft 114 and extend outwards to form an extending end perpendicular to the first rotating shaft 114; the first stirring rod 116 is respectively arranged at the extending end and the middle part of the first rotating shaft 114; the first stirring steel belt 115 is disposed on the extended end of the first stirring bar 116.

According to the setting, the stirring rod and the stirring belt which go deep into the material can be utilized, the material is effectively stirred, and the blanking smoothness is improved.

In one embodiment, the first blanking assembly comprises: a first blanking interface 111; the first blanking interface 111 is inserted on the top surface of the first storage bin 118 and is communicated with the inner cavity of the first storage bin 118. According to the arrangement, the material can be conveniently filled in the storage bin through the discharging interface.

Preferably, the second blanking assembly comprises: a second bin 128, a second stirring motor 122, a second stirring driving component 123, a second rotating shaft 124 and a stirring paddle; a second stirring motor 122 and a second stirring driving assembly 123 are arranged on the top surface of the second bin 128 at intervals; the second stirring driving component 123 is in driving connection with the second stirring motor 122; the second rotating shaft 124 is inserted into the second storage bin 128 and is in driving connection with the second stirring driving component 123; a plurality of paddles are arranged on the outer side wall of the second rotating shaft 124.

Through set up the stirring subassembly in the hopper, can effectively utilize the mobility of copper slay, improve the smooth and easy nature of unloading, avoid the unloading stagnation or the card pause that the material jam leads to, influence the unloading.

The stirring driving component used in the present application realizes the driving of the stirring motor to the rotating shaft according to the driving component commonly used in the art, such as a gear combination, and the specific arrangement structure is not described herein in detail.

Preferably, the paddle comprises: a second stirring steel belt 125, a plurality of second stirring rods 126; the second stirring rods 126 are alternately sleeved on the second rotating shaft 124 and extend outward to form an extending end perpendicular to the second rotating shaft 124; the second stirring rod 126 is respectively arranged at the extending end and the middle part of the second rotating shaft 124; the second agitating steel belt 125 is provided on the extended end of the second agitating bar 126.

According to the setting, the stirring rod and the stirring belt which go deep into the material can be utilized, the material is effectively stirred, and the blanking smoothness is improved.

In a specific embodiment, the second blanking assembly includes: a second blanking interface 121; the second blanking interface 121 is inserted on the top surface of the second storage bin 128 and is communicated with the inner cavity of the second storage bin 128. According to the arrangement, the material can be conveniently filled in the storage bin through the discharging interface.

Preferably, the first blanking assembly comprises: a first screw shaft 131, a first feed pipe 133; the conveying screw is rotatably arranged in the first feeding pipe 133; two ends of the conveying screw are respectively provided with a first screw shaft 131, and extend out of the opposite end surfaces of the first feeding pipes 133; the first screw shaft 131 is in driving connection with a first stepping motor 132; a feeding hole is formed in the top surface of one end of the first feeding pipe 133 and communicated with a discharging hole in the bottom surface of the first storage bin 118; the other end of the first feeding pipe 133 is provided with a discharge hole on the bottom surface and is opposite to the top opening of the weighing hopper 21.

According to this setting can realize the effective ejection of compact of powder through the screw rod, avoids the powder to block up and leads to unable ejection of compact, and the effective propelling movement powder of ejection of compact power.

In one embodiment, the first blanking assembly comprises: first bearing seats 134 arranged in pairs; the first bearing blocks 134 are respectively installed in opposite end surfaces of the first feeding pipe; the first screw shafts 131 are respectively inserted into the first bearing housings 134.

The arrangement is favorable for improving the conveying stability of screw discharging.

Preferably, the second blanking assembly comprises: a second screw shaft 141, a second feed pipe 143; the conveying screw is rotationally arranged in the second feeding pipe 143; two ends of the conveying screw are respectively provided with a second screw shaft 141 and extend out of the opposite end faces of the second feeding pipe 143; the second screw shaft 141 is in driving connection with the second stepping motor 142; a feeding hole is formed in the top surface of one end of the second feeding pipe 143 and communicated with a discharging hole in the bottom surface of the second storage bin 128; the other end of the second feeding pipe 143 is provided with a discharge hole on the bottom surface and is opposite to the top surface opening of the weighing hopper 21.

According to this setting can realize the effective ejection of compact of powder through the screw rod, avoids the powder to block up and leads to unable ejection of compact, and the effective propelling movement powder of ejection of compact power.

In a specific embodiment, the second blanking assembly includes: second bearing housings 144 arranged in pairs; second bearing blocks 144 are installed in opposite end surfaces of the first feeding pipe, respectively; the second screw shafts 141 are respectively inserted into the second bearing housings 144.

The arrangement is favorable for improving the conveying stability of screw discharging.

Preferably, the bracket 20 includes: a plurality of crossbars 201; the hanging plate 202 is arranged on the outer side wall of the top of the weighing hopper 21; the hanging plate 202 is connected with the cross rod 201 through a plurality of weighing sensors 203; a weighing hopper 21 is suspended within the frame 20 below the cross bar 201.

The weighing sensor 203 can acquire the weight of the material in the weighing hopper 21 according to the setting.

In one embodiment, the method comprises the following steps: the hanging device comprises a first hanging seat 205, a second hanging seat 204 and a sling 206, wherein the second hanging seat 204 is arranged on the bottom surface of the cross rod 201; the first hanging seat 205 is arranged on the top surface of the hanging plate 202; the connection between the load cell 203 and the respective hanging seat is realized by a sling 206.

Preferably, the method comprises the following steps: the gate 221, the support plate 222, and the pneumatic telescopic rod 223; the shutter 221 is inserted into the lower barrel 22; one end of the shutter 221 extends out of the lower barrel 22; the telescopic end of the pneumatic telescopic rod 223 is connected with the outer side wall of the gate plate 221 and is arranged on the support plate 222; the seat plate 222 is mounted to the outside wall of the lower cartridge 22.

According to the arrangement, the shutter 221 can be extracted and inserted through the pneumatic telescopic rod 223, the opening and closing of the lower charging barrel 22 can be controlled conveniently, and the extracted shutter 221 can be supported by the support plate 222.

In one embodiment, the air powered telescoping pole 223 comprises: and a receiving seat 224, into which the telescopic rod can be received, thereby performing an extracting operation of the shutter 221.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (9)

1. The utility model provides an aggregate automatic weighing device is used in production of slay permeable brick which characterized in that includes: the device comprises a first blanking assembly, a second blanking assembly, a weighing hopper (21), a transmitter and a PLC control module; a feed inlet is formed in the top surface of the first blanking assembly; the bottom surface of the first blanking component is provided with a processing opening and is arranged opposite to the top surface opening of the weighing hopper (21); a feed inlet is formed in the top surface of the second blanking assembly; a processing opening is formed in the bottom surface of the second blanking assembly and is arranged opposite to the top surface opening of the weighing hopper (21);

the weighing hopper (21) is suspended in the bracket (20) and is connected with the bracket (20) in a weighing way through a plurality of weighing sensors (203);

a lower charging barrel (22) is inserted into the bottom surface of the weighing hopper (21), and a pneumatic plate valve is inserted into the lower charging barrel (22); the pneumatic plate valve is arranged for closing or opening the charging barrel (22);

the first blanking assembly comprises: the device comprises a hopper, a first stepping motor (132), a conveying screw rod and a feeding pipe; the hopper is arranged on the top surface of one end of the feeding pipe, a discharge port is arranged on the bottom surface of the other end of the feeding pipe, and the hopper is arranged opposite to the opening on the top surface of the weighing hopper (21); the conveying screw is in driving connection with a first stepping motor (132); the first stepping motor (132) is arranged on the outer side wall of one end of the feeding pipe;

the second unloading subassembly includes: the device comprises a hopper, a second stepping motor (142), a conveying screw rod and a feeding pipe; the hopper is arranged on the top surface of one end of the feeding pipe, a discharge port is arranged on the bottom surface of the other end of the feeding pipe, and the hopper is arranged opposite to the opening on the top surface of the weighing hopper (21); the conveying screw is in driving connection with a second stepping motor (142); the second stepping motor (142) is arranged on the outer side wall of one end of the feeding pipe;

the first stepping motor (132) and the second stepping motor (142) are respectively and electrically connected with the PLC control module; the weighing hopper (21) comprises: a load cell (203); the weighing sensors (203) are respectively electrically connected with the transmitters; the transmitter is electrically connected with the PLC control module.

2. The automatic aggregate weighing device for slag permeable brick production according to claim 1, wherein the first blanking assembly comprises: the device comprises a first storage bin (118), a first stirring motor (112), a first stirring driving component (113), a first rotating shaft (114) and a stirring paddle; a first stirring motor (112) and a first stirring driving component (113) are arranged on the top surface of the first storage bin (118) at intervals; the first stirring driving component (113) is in driving connection with the first stirring motor (112); the first rotating shaft (114) is inserted in the first storage bin (118) and is in driving connection with the first stirring driving component (113); a plurality of stirring paddles are arranged on the outer side wall of the first rotating shaft (114).

3. The automatic aggregate weighing device for slag permeable brick production according to claim 2, wherein the paddle comprises: a first stirring steel belt (115), a plurality of first stirring rods (116); the first stirring rods (116) are sleeved on the first rotating shaft (114) at intervals and extend outwards to form an extending end perpendicular to the first rotating shaft (114); the first stirring rod (116) is respectively arranged at the extending end and the middle part of the first rotating shaft (114); the first stirring steel belt (115) is arranged on the extending end of the first stirring rod (116).

4. The automatic aggregate weighing device for slag permeable brick production according to claim 1, wherein the second blanking assembly comprises: the stirring device comprises a second storage bin (128), a second stirring motor (122), a second stirring driving component (123), a second rotating shaft (124) and a stirring paddle; a second stirring motor (122) and a second stirring driving component (123) are arranged on the top surface of the second storage bin (128) at intervals; the second stirring driving component (123) is in driving connection with the second stirring motor (122); the second rotating shaft (124) is inserted in the second storage bin (128) and is in driving connection with the second stirring driving component (123); a plurality of stirring paddles are arranged on the outer side wall of the second rotating shaft (124).

5. The automatic aggregate weighing device for slag permeable brick production according to claim 4, wherein the paddle comprises: a second stirring steel belt (125) and a plurality of second stirring rods (126); the second stirring rods (126) are sleeved on the second rotating shaft (124) at intervals and extend outwards to form an extending end perpendicular to the second rotating shaft (124); the second stirring rod (126) is respectively arranged at the extending end and the middle part of the second rotating shaft (124); the second stirring steel belt (125) is arranged on the extending end of the second stirring rod (126).

6. The automatic aggregate weighing device for slag permeable brick production according to claim 1, wherein the first blanking assembly comprises: a first screw shaft (131) and a first feeding pipe (133); the conveying screw is rotationally arranged in the first feeding pipe (133); two ends of the conveying screw are respectively provided with a first screw shaft (131) and extend out of the opposite end surface of the first feeding pipe (133); the first screw shaft (131) is in driving connection with a first stepping motor (132); a feeding hole is formed in the top surface of one end of the first feeding pipe (133) and communicated with a discharging hole in the bottom surface of the first storage bin (118); a discharge hole is formed in the bottom surface of the other end of the first feeding pipe (133) and is arranged right opposite to the top surface opening of the weighing hopper (21).

7. The automatic aggregate weighing device for slag permeable brick production according to claim 1, wherein the second blanking assembly comprises: a second screw shaft (141), a second feed pipe (143); the conveying screw is rotationally arranged in the second feeding pipe (143); two ends of the conveying screw are respectively provided with a second screw shaft (141) and extend out of the opposite end surface of the second feeding pipe (143); the second screw shaft (141) is in driving connection with a second stepping motor (142); a feeding hole is formed in the top surface of one end of the second feeding pipe (143) and communicated with a discharging hole in the bottom surface of the second storage bin (128); a discharge hole is arranged on the bottom surface of the other end of the second feeding pipe (143) and is over against the top surface opening of the weighing hopper (21).

8. The automatic weighing device of aggregate for slag permeable brick production according to claim 1, wherein the bracket (20) comprises: a plurality of crossbars (201); a hanging plate (202) is arranged on the outer side wall of the top of the weighing hopper (21); the hanging plate (202) is connected with the cross rod (201) through a plurality of weighing sensors (203); the weighing hopper (21) is suspended below the cross rod (201) in the bracket (20).

9. The automatic aggregate weighing device for slag permeable brick production according to claim 1, comprising: the device comprises a flashboard (221), a support plate (222) and a pneumatic telescopic rod (223); the gate plate (221) is inserted into the lower charging barrel (22); one end of the gate plate (221) extends out of the lower charging barrel (22); the telescopic end of the pneumatic telescopic rod (223) is connected with the outer side wall of the flashboard (221) and is arranged on the support plate (222); the support plate (222) is mounted on the outer side wall of the lower charging barrel (22).

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