CN213470428U - Pneumatic type does not stop production discharging device and cutting machine - Google Patents

Abstract

The utility model provides a pneumatic type does not stop production discharging device includes moving mechanism and cutting machine, moving mechanism sets up in two adjacent between the discharging mechanism, moving mechanism includes: the discharging mechanism comprises a discharging machine body and a conveying assembly, the discharging machine body comprises a bottom plate and an air pump, one end, close to the discharging side, of the bottom plate is provided with a plurality of pneumatic ports, and the air pump is communicated with the pneumatic ports. The utility model provides a pneumatic type does not stop production discharging device splices and then switches the discharge gate through fixed conveying subassembly and removal conveying subassembly at two discharge mechanism, blows the sheet metal on the discharge mechanism before again through the pneumatic port to prevent that sheet metal card from taking place between removal conveying subassembly and the discharge mechanism in the front, prevented that the dead situation of card from appearing when switching discharge mechanism from the pneumatic type does not stop production discharging device and taking place.

Description

Pneumatic type does not stop production discharging device and cutting machine

Technical Field

The utility model relates to a sheet metal carries the field, concretely relates to pneumatic type does not stop production discharging device and cutting machine.

Background

The metal sheet is used as an important production raw material in industrial manufacturing, and is obtained by cutting an uncoiled coil material through a cutting machine and is used in a next production tool. In the prior art, the coil stock is cut by the cutting machine and then conveyed to the discharge end, and the metal sheet is collected by a material collecting vehicle.

However, the cutting machine in the prior art needs to replace the material receiving trolley after cutting a certain number of metal sheets, and at the moment, the cutting machine needs to be controlled to stop running, so that workers can replace the material receiving trolley, the mode can lead to the stop running of the cutting machine, the working efficiency of the cutting machine is influenced, and the efficiency of the whole production line is further influenced.

In order to solve the above problems, two discharging mechanisms are connected in series for use, when the discharging mechanisms are switched, the previous discharging mechanism is switched to the next discharging mechanism, and the two discharging mechanisms need to be connected through a conveying mechanism, however, when the two discharging mechanisms are connected, the situation that the metal sheet is clamped between the discharging port of the previous discharging mechanism and the conveying mechanism can occur.

The above problems are currently in need of solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a pneumatic type does not shut down output material device is provided to metal sheet can not block dead purpose when realizing that adjacent discharge mechanism connects.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a pneumatic type does not stop production discharging device, including moving mechanism and discharge mechanism, moving mechanism sets up in two adjacent between the discharge mechanism, moving mechanism includes: the automatic discharging device comprises a first support frame, a second support frame, a fixed conveying assembly and a movable conveying assembly, wherein the first support frame and the second support frame are arranged in parallel, two ends of the first support frame and the second support frame are respectively and fixedly arranged on the discharging side and the feeding side of two adjacent discharging mechanisms, one end of the fixed conveying assembly is rotatably connected with one end, close to the discharging side, of the first support frame and one end, close to the discharging side, of the second support frame, the other end of the fixed conveying assembly is rotatably connected with the movable conveying assembly, one end, far away from the fixed conveying assembly, of the movable conveying assembly slides on the first support frame and the second support frame, the discharging mechanisms comprise discharging machine bodies and conveying assemblies, the conveying assemblies are arranged at the upper ends of the discharging machine bodies and are suitable for connecting the feeding side and the discharging side of the discharging mechanisms, the discharging machine body comprises a bottom plate and an air pump, a plurality of pneumatic ports are formed in one end, close to the discharging side, of the bottom plate, and the air pump is communicated with the pneumatic ports.

Furthermore, one end of the bottom plate close to the discharging side is also provided with a detection sensor.

Furthermore, discharge mechanism still including set up in the unloading auxiliary assembly of ejection of compact machine body discharge side, unloading auxiliary assembly includes two relative direction curb plates and the wind guide component who sets up, the gas vent of air pump with the wind guide component intercommunication has seted up the air outlet on two direction curb plates, the wind guide component with the air outlet intercommunication.

Furthermore, the number of the air outlets is multiple, and the air outlets are arranged along the lower end of the falling track of the guide side plate.

Furthermore, the air outlet link up the setting of direction curb plate, the axis and the direction curb plate of air outlet are the acute angle setting, and the wind direction orientation of air outlet upwards.

Further, unloading auxiliary assembly still includes unloading frame, first guide bar, second guide bar, dwang and driving motor, first guide bar and second guide bar one end with direction curb plate fixed connection, the other end passes unloading frame, dwang one end with the direction curb plate rotates to be connected, and the other end passes unloading frame, the dwang passes the one end of direction curb plate is the scroll bar form, driving motor's rotor pass through the turbine with the dwang meshing, and when the rotor rotates, drive the dwang promotes to control the direction curb plate and removes.

Further, the fixed transfer assembly comprises: first fixed block, second fixed block, first axis of rotation, second axis of rotation and first conveying roll table, first fixed block and the second fixed block respectively fixed set up in first support frame and the second support frame is close to the top of ejection of compact side, first axis of rotation and the second axis of rotation passes respectively first fixed block and behind the second fixed block will with first conveying roll table fixed connection, first axis of rotation and the second axis of rotation is kept away from the one end of conveying roll table respectively with first fixed block and the second fixed block rotates to be connected, first axis of rotation and/or when the second axis of rotation rotates under the external drive, drive the conveying roll table rotates.

Further, remove the transfer unit and include third axis of rotation, fourth axis of rotation, first slider, second slider and second transfer roll table, second transfer roll table one end is passed through the third axis of rotation and the fourth axis of rotation with first transfer roll table is kept away from the one end of ejection of compact side is rotated and is connected, the other end of second transfer roll table passes through first slider and second slider sliding connection on first support frame and second support frame respectively.

Furthermore, first slider with the second slider is the pulley, the second rollgang has all been seted up at the gliding one end of first support frame and second support frame and has been suitable for the opening that holds that the pulley was accomodate, first support frame and the second support frame has seted up the spout in the corresponding position that the pulley of second rollgang was drawn.

The utility model also provides a cutting machine, include as above-mentioned pneumatic type not stop production discharging device.

The utility model has the advantages that: the utility model provides a pneumatic type does not stop production discharging device includes moving mechanism and cutting machine, moving mechanism sets up in two adjacent between the discharging mechanism, moving mechanism includes: the automatic discharging device comprises a first support frame, a second support frame, a fixed conveying assembly and a movable conveying assembly, wherein the first support frame and the second support frame are arranged in parallel, two ends of the first support frame and the second support frame are respectively and fixedly arranged on the discharging side and the feeding side of two adjacent discharging mechanisms, one end of the fixed conveying assembly is rotatably connected with one end, close to the discharging side, of the first support frame and one end, close to the discharging side, of the second support frame, the other end of the fixed conveying assembly is rotatably connected with the movable conveying assembly, one end, far away from the fixed conveying assembly, of the movable conveying assembly slides on the first support frame and the second support frame, the discharging mechanisms comprise discharging machine bodies and conveying assemblies, the conveying assemblies are arranged at the upper ends of the discharging machine bodies and are suitable for connecting the feeding side and the discharging side of the discharging mechanisms, the discharging machine body comprises a bottom plate and an air pump, a plurality of pneumatic ports are formed in one end, close to the discharging side, of the bottom plate, and the air pump is communicated with the pneumatic ports. The utility model provides a pneumatic type does not stop production discharging device splices and then switches the discharge gate through fixed conveying subassembly and removal conveying subassembly at two discharge mechanism, blows the sheet metal on the discharge mechanism before again through the pneumatic port to prevent that sheet metal card from taking place between removal conveying subassembly and the discharge mechanism in the front, prevented that the dead situation of card from appearing when switching discharge mechanism from the pneumatic type does not stop production discharging device and taking place.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the pneumatic type continuous production discharging device provided by the present invention.

Fig. 2 is a schematic structural diagram of a discharging mechanism of the pneumatic type continuous production discharging device provided by the present invention.

Fig. 3 is a side view of the discharging mechanism of the pneumatic type continuous discharging device provided by the present invention.

Fig. 4 is a cross-sectional view at CC in fig. 3.

Fig. 5 is a schematic structural diagram of a discharging mechanism of the pneumatic type continuous production discharging device provided by the present invention.

Fig. 6 is a schematic structural view of the pneumatic type continuous material output device when the previous discharging mechanism discharges materials in two adjacent discharging mechanisms.

Fig. 7 is a schematic structural diagram of the pneumatic type continuous material output device when the next discharging mechanism discharges materials.

In the figure: 100-a moving mechanism; 110-a first support frame; 111-a chute; 112-a limiting groove; 120-a second support; 130-a stationary transport assembly; 131-a first fixed block; 132-a second fixed block; 133-a first rotating shaft; 134-a second rotational axis; 135-a first transfer table; 1351-first guide plate; 1352 — first transfer roll; 140-a mobile transfer assembly; 141-a third axis of rotation; 142-a fourth axis of rotation; 143-a first slide; 144-a receiving opening; 145-first connecting shaft; 146-a second connection shaft; 147-a follower block; 148-a second transfer table; 1481-second guide plate; 1482-second transfer roll; 200-a discharging mechanism; 210-discharging machine body; 211-a base plate; 212-support column; 213-pneumatic port; 214-anti-scratch board; 215-a detection sensor; 220-a delivery assembly; 221-a transport roller; 222-a guide plate; 230-a blanking auxiliary component; 231-an air pump; 2311-an air inlet; 2312-sound-proof shield; 2313-exhaust port; 232-air guide component; 2321-a first conduit; 2322-a second conduit; 2323-air duct; 233-guide side plate; 2331-air outlet; 234-a blanking frame; 235-a first guide bar; 236-a second guide bar; 237-rotating rods.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

Referring to fig. 1, the present embodiment provides a pneumatic continuous material production device, including: the device comprises a moving mechanism 100 and a discharging mechanism 200, wherein the moving mechanism 100 is arranged between two adjacent discharging mechanisms 200. The number of the discharging mechanisms 200 provided in this embodiment is greater than one, two or more discharging mechanisms 200 are arranged in series, and the moving mechanism 100 is arranged between two adjacent discharging mechanisms 200.

Referring to fig. 2 and 3, in the present embodiment, the discharging mechanism 200 includes a discharging machine body 210, a conveying assembly 220 and a discharging auxiliary assembly 230. The conveying component 220 is disposed at the upper end of the discharging machine body 210, and the discharging auxiliary component 230 is fixedly disposed at the discharging side of the discharging machine body 210. The sheet metal is transported from the feed side, as indicated by the arrow a in fig. 1, through the transport of the transport assembly 220 to the discharge side.

In this embodiment, the discharging machine body includes a bottom plate 211 and an air pump 231, one end of the bottom plate 211 close to the discharging side is opened with a plurality of pneumatic ports 2313, and the air pump 231 is communicated with the pneumatic ports 2313.

In this embodiment, a detection sensor is further disposed at one end of the bottom plate 211 close to the discharging side. When the passage of the metal sheet is detected, the air is supplied to the air port 213 by the air pump 231, and the metal sheet is blown up by the air flow. Wherein the detection sensor is a proximity switch.

In this embodiment, the discharging side of the bottom plate 211 of the discharging machine body 210 is further provided with a scratch-proof plate 214, the scratch-proof plate 214 comprises a straight plate and an arc-shaped plate which are integrally formed, the straight plate is fixed on the bottom plate 211, and the arc-shaped plate leaks out from the side edge of the bottom plate 211 and bends downward. When the sheet metal slides down from conveying assembly 220, contact with the arc, because the face of arc is smooth no arris form, consequently can not be with the sheet metal fish tail.

In the present embodiment, the conveying assembly 220 includes a plurality of conveying rollers 221 and a guide plate 222 for connecting the conveying rollers 221, and the plurality of conveying rollers 221 form a roller table to convey the metal thin plate. The guide plate 222 is provided with a plurality of motor transmission shafts and speed reducers therein to provide a rotational force to the conveying rollers 221 to achieve the transmission of the conveying assembly 220.

In this embodiment, the blanking auxiliary assembly 230 includes two opposite guide side plates and an air guiding assembly 232, the air outlet 2313 of the air pump 231 is communicated with the air guiding assembly 232, the two guide side plates are provided with an air outlet 2331, and the air guiding assembly 232 is communicated with the air outlet 2331.

The number of the air outlets 2331 is plural. The plurality of air outlets 2331 are disposed along the lower end of the falling trajectory of the guide side plate. The air outlet 2331 is arranged at the lower end of the falling track, so that the plate can provide an upward power when falling, partial gravity of the plate is offset, and the falling time is prolonged.

Referring to fig. 4, in the present embodiment, the air outlet 2331 penetrates through the guide side plate, an axis of the air outlet 2331 and the guide side plate 233 form an acute angle, and an air direction of the air outlet 2331 faces upward, so that the purpose of blowing the metal sheet upward is achieved.

In this embodiment, the auxiliary blanking assembly 230 further includes a blanking frame 234, a first guide rod 235, a second guide rod 236, a rotating rod 237 and a driving motor, wherein one end of the first guide rod 235 and one end of the second guide rod 236 are fixedly connected to the guide side plate, the other end of the first guide rod 236 passes through the blanking frame 234, one end of the rotating rod 237 is rotatably connected to the guide side plate, the other end of the rotating rod 237 passes through the blanking frame 234, one end of the rotating rod 237 passing through the guide side plate is in a scroll rod shape, a rotor of the driving motor is engaged with the rotating rod 237 through a turbine, and when the rotor rotates, the rotating rod 237 is driven to push the guide side plate to move left and right. When the guide side plate is used, the distance between the two guide side plates is adjusted by controlling the rotation of the driving motor, so that the use of metal sheets with different sizes is met. In other embodiments, the distance of the guide side plates may be manually adjusted.

In this embodiment, the guide side plate is a rectangular plate, the rotating rod 237 is disposed at the center of the rectangular plate, the first guide rod 235 and the second guide rod 236 are disposed at two sides of the rotating rod 237 respectively, and the three are disposed on the same horizontal line.

In the present embodiment, the air pump 231 includes an air pump 231 body, an air inlet 2311, a soundproof cover 2312, and an air outlet 2313. When the air pump 231 body is in operation, external air is sucked from the air inlet 2311 and then discharged from the air outlet 2313.

Referring to fig. 5, in the present embodiment, the air guiding assembly 232 includes a first conduit 2321 and a second conduit 2322, the first conduit 2321 is a two-way pipe, the second conduit 2322 is a three-way pipe, one end of the first conduit 2321 is communicated with the air pump 231, the other end is communicated with the second conduit 2322, the remaining two ports of the second conduit 2322 are respectively communicated with the pneumatic port 213, and an arm of the second conduit 2322 is provided with an air guiding pipe 2323 communicated with the air outlet 2331.

Referring to fig. 1, in the present embodiment, the moving mechanism 100 includes: the feeding device comprises a first support frame 110, a second support frame 120, a fixed conveying assembly 130 and a movable conveying assembly 140, wherein the first support frame 110 and the second support frame 120 are arranged in parallel, and two ends of the first support frame 110 and the second support frame 120 are respectively and fixedly arranged on the discharging side and the feeding side of two adjacent discharging mechanisms 200. One end of the fixed conveying component 130 is rotatably connected to one end of the first support frame 110 and one end of the second support frame 120 close to the discharge side, the other end of the fixed conveying component 130 is rotatably connected to the movable conveying component 140, and one end of the movable conveying component 140 far away from the fixed conveying component 130 slides on the first support frame 110 and the second support frame 120.

Two adjacent discharging mechanisms 200, when the previous discharging mechanism 200 is discharging, as shown in fig. 6, the longitudinal sections of the planes of the fixed conveying assembly 130 and the movable conveying assembly 140 and the first support frame 110 and the second support frame 120 are arranged in a triangle, the planes of the first support frame 110 and the second support frame 120 are arranged at the bottom of the triangle, the fixed conveying assembly 130 and the movable conveying assembly 140 are arranged at two waists of the triangle, a discharging port is reserved on the discharging side of the movable conveying assembly 140 and the previous discharging mechanism 200, and the metal sheets are conveniently discharged from the conveying assembly of the previous discharging mechanism 200. When the number of the metal sheets collected by the material receiving cart of the previous discharging mechanism 200 reaches a preset number, the fixed conveying assembly 130 is controlled to rotate, so that the fixed conveying assembly 130 is horizontally placed on the first supporting frame 110 and the second supporting frame 120, as shown in fig. 7, at this time, the movable conveying assembly slides towards the discharging side of the previous discharging mechanism 200 when the fixed conveying assembly 130 rotates, when the fixed conveying assembly is horizontally placed on the first supporting frame 110, the movable conveying assembly 140 is engaged with the conveying assembly of the previous discharging mechanism 200, in the process that the movable conveying assembly 140 is engaged with the conveying assembly of the previous discharging mechanism 200, the detection sensor controls the air pump to supply air to the pneumatic port when detecting that the metal sheets are transported from the discharging side of the previous discharging mechanism 200, the metal sheets are blown up, and the engagement of the movable conveying assembly and the conveying assembly of the previous discharging mechanism 200 is completed, the sheet metal is thus transported to the mobile transport assembly and then to the stationary transport assembly connected to the mobile transport assembly, so that the sheet metal is transported from the discharge side of the preceding discharge device 200 to the feed side of the following discharge device 200 by means of the mobile transport assembly and the stationary transport assembly.

The first support frame 110 and the second support frame 120 are cubic.

In this embodiment, the fixed transfer assembly 130 includes: first fixed block 131, second fixed block 132, first axis of rotation 133, second axis of rotation 134 and first conveying roller way 135, first fixed block 131 and second fixed block 132 respectively fixed set up in first support frame 110 and second support frame 120 are close to the top of ejection of compact side, first axis of rotation 133 and second axis of rotation 134 pass respectively first fixed block 131 and behind second fixed block 132 will with first conveying roller way 135 fixed connection, first axis of rotation 133 and the second axis of rotation 134 is kept away from the one end of conveying roller way respectively with first fixed block 131 and second fixed block 132 rotate and are connected, first axis of rotation 133 and/or when second axis of rotation 134 rotates under the exogenic drive, drive the conveying roller way rotates. In the present embodiment, the rotation of the first conveying roller way 135 is achieved by driving the first rotating shaft 133 by a motor.

In the present embodiment, the first conveying roller way 135 includes two first guide plates 1351 disposed opposite to each other and a plurality of first conveying rollers 1352 rotatably disposed between the two first guide plates 1351. A plurality of motor transmission shafts and a speed reducer are provided in the first guide plate 1351 to provide a rotational force to the first transfer roller 1352.

In this embodiment, the movable conveying assembly 140 includes a third rotating shaft 141, a fourth rotating shaft 142, a first sliding member 143, a second sliding member and a second conveying roller way 148, one end of the second conveying roller way 148 is rotatably connected to one end of the first conveying roller way 135 away from the discharging side through the third rotating shaft 141 and the fourth rotating shaft 142, and the other end of the second conveying roller way 148 is slidably connected to the first support frame 110 and the second support frame 120 through the first sliding member 143 and the second sliding member, respectively.

In this embodiment, the first sliding part 143 and the second sliding part are both pulleys, the second conveying roller way 148 is provided with an accommodating opening 144 at one sliding end of the first support frame 110 and the second support frame 120, the accommodating opening being suitable for accommodating the pulleys, and the first support frame 110 and the second support frame 120 are provided with sliding grooves 111 at corresponding positions where the pulleys of the second conveying roller way 148 pass through.

In this embodiment, the moving and conveying assembly 140 further includes a first connecting shaft 145, a second connecting shaft 146, and a driven block 147, the first support frame 110 is provided with a limiting groove 112, one end of the driven block 147 is rotatably connected to the second conveying roller 148 through the first connecting shaft 145, the other end of the driven block 147 is rotatably connected to the first support frame 110 through the second connecting shaft 146, and the second connecting shaft 146 is disposed in the limiting groove 112. When the first support frame 110 and the second support frame 120 slide, the second conveying roller way 148 drives the driven block 147 to slide in the limiting groove 112, so that on one hand, the second conveying roller way 148 is prevented from deviating during sliding, and on the other hand, when the second conveying roller way 148 deviates, the second conveying roller way 148 can be corrected by adjusting the positions of the connection positions of the driven block 147, the first connecting shaft 145 and the second connecting shaft 146.

In this embodiment, the second conveying roller bed 148 includes two second guide plates 1481 disposed opposite to each other and a plurality of second conveying rollers 1482 rotatably disposed between the two second guide plates 1481.

In this embodiment, the first support frame 110 and the second support frame 120 are disposed in an inclined manner, and the height of the connection point between the first support frame 110 and the feed side and the connection point between the second support frame 120 and the discharge side are higher than the height of the connection point between the first support frame 110 and the discharge side.

To sum up, the utility model discloses a pneumatic type does not stop production discharging device includes moving mechanism and cutting machine, moving mechanism sets up in two adjacent between the discharging mechanism, moving mechanism includes: the automatic discharging device comprises a first support frame, a second support frame, a fixed conveying assembly and a movable conveying assembly, wherein the first support frame and the second support frame are arranged in parallel, two ends of the first support frame and the second support frame are respectively and fixedly arranged on the discharging side and the feeding side of two adjacent discharging mechanisms, one end of the fixed conveying assembly is rotatably connected with one end, close to the discharging side, of the first support frame and one end, close to the discharging side, of the second support frame, the other end of the fixed conveying assembly is rotatably connected with the movable conveying assembly, one end, far away from the fixed conveying assembly, of the movable conveying assembly slides on the first support frame and the second support frame, the discharging mechanisms comprise discharging machine bodies and conveying assemblies, the conveying assemblies are arranged at the upper ends of the discharging machine bodies and are suitable for connecting the feeding side and the discharging side of the discharging mechanisms, the discharging machine body comprises a bottom plate and an air pump, a plurality of pneumatic ports are formed in one end, close to the discharging side, of the bottom plate, and the air pump is communicated with the pneumatic ports. The utility model provides a pneumatic type does not stop production discharging device splices and then switches the discharge gate through fixed conveying subassembly and removal conveying subassembly at two discharge mechanism, blows the sheet metal on the discharge mechanism before again through the pneumatic port to prevent that sheet metal card from taking place between removal conveying subassembly and the discharge mechanism in the front, prevented that the dead situation of card from appearing when switching discharge mechanism from the pneumatic type does not stop production discharging device and taking place.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a pneumatic type does not shut and produces material device which characterized in that, includes moving mechanism and discharge mechanism, moving mechanism sets up in two adjacent between the discharge mechanism, moving mechanism includes: the automatic discharging device comprises a first support frame, a second support frame, a fixed conveying assembly and a movable conveying assembly, wherein the first support frame and the second support frame are arranged in parallel, two ends of the first support frame and the second support frame are respectively and fixedly arranged on the discharging side and the feeding side of two adjacent discharging mechanisms, one end of the fixed conveying assembly is rotatably connected with one end, close to the discharging side, of the first support frame and one end, close to the discharging side, of the second support frame, the other end of the fixed conveying assembly is rotatably connected with the movable conveying assembly, one end, far away from the fixed conveying assembly, of the movable conveying assembly slides on the first support frame and the second support frame, the discharging mechanisms comprise discharging machine bodies and conveying assemblies, the conveying assemblies are arranged at the upper ends of the discharging machine bodies and are suitable for connecting the feeding side and the discharging side of the discharging mechanisms, the discharging machine body comprises a bottom plate and an air pump, a plurality of pneumatic ports are formed in one end, close to the discharging side, of the bottom plate, and the air pump is communicated with the pneumatic ports.

2. The pneumatic type continuous production discharging device of claim 1, wherein the end of the bottom plate near the discharging side is further provided with a detection sensor.

3. The pneumatic type continuous production discharging device of claim 1, wherein the discharging mechanism further comprises a discharging auxiliary assembly disposed on the discharging side of the discharging machine body, the discharging auxiliary assembly comprises two opposite guiding side plates and an air guiding assembly, the air outlet of the air pump is communicated with the air guiding assembly, the two guiding side plates are provided with air outlets, and the air guiding assembly is communicated with the air outlets.

4. The pneumatic type continuous-production material device as claimed in claim 3, wherein the number of the air outlets is plural, and the plural air outlets are arranged along the lower end of the falling track of the plate material on the guide side plate.

5. The pneumatic continuous material output device of claim 3, wherein the air outlet is arranged through the guide side plate, the axis of the air outlet is arranged at an acute angle with the guide side plate, and the wind direction of the air outlet is upward.

6. The pneumatic continuous discharging device of claim 3, wherein the discharging auxiliary assembly further comprises a discharging frame, a first guide rod, a second guide rod, a rotating rod and a driving motor, one end of the first guide rod and one end of the second guide rod are fixedly connected with the guide side plate, the other end of the first guide rod and the other end of the second guide rod pass through the discharging frame, one end of the rotating rod is rotatably connected with the guide side plate, the other end of the rotating rod passes through the discharging frame, one end of the rotating rod passing through the guide side plate is in a scroll rod shape, a rotor of the driving motor is meshed with the rotating rod through a turbine, and when the rotor rotates, the rotating rod is driven to push the guide side plate to move left and right.

7. The pneumatic non-stop production take-off of claim 1, wherein the fixed conveyor assembly comprises: first fixed block, second fixed block, first axis of rotation, second axis of rotation and first conveying roll table, first fixed block and the second fixed block respectively fixed set up in first support frame and the second support frame is close to the top of ejection of compact side, first axis of rotation and the second axis of rotation passes respectively first fixed block and behind the second fixed block will with first conveying roll table fixed connection, first axis of rotation and the second axis of rotation is kept away from the one end of conveying roll table respectively with first fixed block and the second fixed block rotates to be connected, first axis of rotation and/or when the second axis of rotation rotates under the external drive, drive the conveying roll table rotates.

8. The pneumatic non-stop output device of claim 7, wherein the movable conveying assembly comprises a third rotating shaft, a fourth rotating shaft, a first sliding member, a second sliding member and a second conveying roller way, one end of the second conveying roller way is rotatably connected with one end of the first conveying roller way far away from the output side through the third rotating shaft and the fourth rotating shaft, and the other end of the second conveying roller way is slidably connected with the first supporting frame and the second supporting frame through the first sliding member and the second sliding member respectively.

9. The pneumatic type production-uninterrupted discharging device of claim 8, wherein the first sliding part and the second sliding part are pulleys, the second conveying roller way is provided with an accommodating opening at one sliding end of the first supporting frame and one sliding end of the second supporting frame, the accommodating opening is suitable for accommodating the pulleys, and the first supporting frame and the second supporting frame are provided with sliding grooves at corresponding positions crossed by the pulleys of the second conveying roller way.

10. A cutting machine, characterized in that it comprises a pneumatic non-stop production discharge device according to any one of claims 1 to 9.

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