CN214358532U - Cannonball powder charge conveying production line - Google Patents

Abstract

The utility model discloses a shell powder charge conveying production line, which comprises a discharging device, a feeding device, a lifting device, a movable transfer device and a running track device; the running track device is divided into an upper running track and a lower running track, the upper running track is connected with the discharging device, and the lower running track is connected with the feeding device; the two ends of the upper layer running track and the lower layer running track are respectively connected through a lifting device; the movable transfer device runs on the running track device and the lifting device, and through the running of the production line, the combustion or explosion safety risk is greatly reduced, the labor cost is reduced, and the production efficiency is improved.

Description

Cannonball powder charge conveying production line

Technical Field

The utility model belongs to the technical field of the shell powder charge, concretely relates to production line is carried to shell powder charge in shell.

Background

Currently, in the production of cannonballs, a charging process is a very critical process, wherein the transfer of materials is the most important link in the charging process. The material is transported to corresponding emptying position to different materials. The material that the shell adorned mainly is flammable and explosive material, adopts artifical the transportation at present, and the risk will be uncontrollable, and the risk of material burning or explosion is great, causes the threat to personnel's safety to production efficiency is lower.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model provides a production line is carried to shell powder charge solves the material of existence among the above-mentioned prior art and transports inefficiency, the problem of the easy explosion risk that takes place.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a shell charge conveying production line comprises a discharging device, a feeding device, a lifting device, a moving transfer device, a running track device and a track switching device; the running track device is divided into an upper running track and a lower running track, and the two ends of the upper running track and the two ends of the lower running track are respectively connected through a lifting device; the discharging device is positioned on the upper running track; the feeding device is positioned on the lower running track; the track switching device is positioned on the running track device and arranged at a turning position; the mobile transfer device runs on a running track device and a lifting device.

Further, remove transfer device, including the frock board and transport material bucket, transport the material bucket and place on the frock board, transport and set up material bucket couple on the material bucket.

Further, frock board and transportation material bucket are the aluminum alloy material.

Further, at least one feeding device is arranged; at least one emptying device is arranged.

Furthermore, the lower running track is provided with a lower branch track device, and the feeding device is arranged on the lower branch track device.

Further, the discharging device comprises a discharging lifting component and a telescopic sealing device; the feeding lifting component is positioned above the running track device, and the telescopic sealing device is positioned below the running track device.

Further, loading attachment includes jacking device and weighing device, and weighing device installs on jacking device top.

Furthermore, the lifting device comprises a lifting frame, a lifting platform, a lifting rope assembly, a driving motor and a transverse driving assembly; the lifting platform is arranged in the lifting frame, and the driving motor is arranged at the top of the lifting frame; the lifting rope assembly is connected with a driving motor and drives the lifting platform to move up and down; the transverse driving assembly is positioned at the top of the lifting platform.

Further, the running rail device comprises a rail frame main body, a driving assembly A and a first friction roller assembly; the driving assembly A and the first friction roller assembly are arranged on the frame main body; the driving component A drives the first friction roller component to operate.

Furthermore, the track switching device is composed of a driving component B, a second friction roller component and a lifting component, wherein the driving component drives the second friction roller component to operate, and the lifting component lifts the second friction roller component to move up and down.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the feeding and discharging realize regional separation, and the safety risks such as explosion and the like are reduced;

2. the feeding is weighed on the track, so that the operation efficiency is improved; the blowing is through flexible sealing device, produces a large amount of dust when avoiding the blowing and wafts into the air, reduces the production and dissolves the possibility that the space produced explosion.

3. Through rail transport, reduce the collision risk to personnel's participation is reduced by a wide margin, thereby reduce the cost of labor.

4. The frock board sets up to aluminium alloy plate, reduces the collision risk that produces the spark.

Drawings

FIG. 1 is a partial perspective view of a projectile charge delivery line of the present invention;

FIG. 2 is a top view of the projectile charge delivery line of the present invention;

FIG. 3 is a drawing of the feeding device of the present invention;

FIG. 4 is a drawing of the blanking device of the present invention;

FIG. 5 is a drawing of the lifting device of the present invention;

FIG. 6 is a diagram of the orbit device of the invention;

fig. 7 is a diagram of the track switching device of the present invention.

In the figure, 1, a discharging device, 2, a feeding device, 3, a lifting device, 4, a movable transfer device, 5, a running track device, 6, a track switching device, 11, a discharging lifting component, 12, a telescopic sealing device, 21, a jacking device, 22, a weighing device, 31, a lifting frame, 32, a lifting platform, 33, a lifting rope component, 34, a driving motor, 35, a transverse driving component, 41, a tooling plate, 42, a transfer material barrel, 421, a material barrel hook, 51, an upper running track, 52, a lower running track, 521, a lower branch track device, 501, a frame main body, 502, a driving component A, 503, a first friction roller component, 61, a driving component B, 62, a second friction roller component, 63 and a lifting component.

Detailed Description

As shown in fig. 1-7, a shell charge conveying production line comprises a discharging device 1, a feeding device 2, a lifting device 3, a moving transfer device 4, a running track device 5 and a track switching device 6; the running track device 5 is divided into an upper running track 51 and a lower running track 52, and two ends of the upper running track 51 and two ends of the lower running track 52 are respectively connected through the lifting device 3; the discharging device 1 is positioned on the upper running track; the feeding device 2 is positioned on the lower running track 52; the track switching device 6 is positioned on the running track device 5 and is arranged at a turning position; the mobile transfer device 4 runs on a running rail device 5 and a lifting device 3.

During production, remove transfer device 4, the dress gets the material in loading attachment 2, through lower floor's operation rail set 51 and rail switching device 6, wherein rail switching device 6 mainly plays the rail switching effect, transport hoisting device 3, promote to rail switching device 6 and upper rail set 52, transport to blowing device 1, after accomplishing the blowing, through rail switching device 6 and upper rail set 52, transport to hoisting device 3, will remove transfer device 4 through hoisting device 3, transport to rail switching device 6 and upper rail set 52, accomplish a material and transport. According to the requirements of a charging process, a plurality of feeding devices 2 and discharging devices 1 matched with the feeding devices in number can be arranged, and four groups of feeding devices 2 and discharging devices 1 are preferably arranged for charging the shell; because loading attachment 2 accomplishes the material loading time longer, for improving the categorised transportation of operating efficiency, at lower floor's operation rail set 52, set up multichannel lower floor branch rail set 521, set up loading attachment 2 in lower floor's branch rail set 521.

As shown in fig. 3, the movable transfer device 4 includes a tooling plate 41 and a transfer material barrel 42, the tooling plate 41 is connected to the transfer material barrel 42 in a contact manner, and the transfer material barrel is provided with a material barrel hook 421. During production, the tooling plate 41 drives the material transferring barrel 42 to operate on the lifting device 3, the running track device 5 and the track switching device 6, so that a transferring task between feeding and discharging is realized. The tooling plate 41 and the material transferring barrel 42 are made of aluminum alloy plates, so that sparks are prevented from being generated in the transferring process.

As shown in FIG. 2, the discharging device 1 comprises a discharging lifting component 11 and a telescopic sealing device 12. In the transportation, when removing transfer device 4 and transporting to blowing device 1, blowing hoisting member 11 will transport material bucket 42 through material bucket couple 421 and draw and rise, separate with frock board 41, frock board 41 changes from the blowing device, flexible sealing device 12 will transport material bucket 42 in the material is emitted, after accomplishing the blowing, frock board 41 changes to transporting material bucket 42 below again, it puts down transports material bucket 42 to draw hoisting member 11, realize breaking away from the back, the frock board will transport material bucket 42 and transport and leave, accomplish a blowing. The telescopic sealing device 12 mainly prevents dust from flying out by sealing and discharging materials, reduces the risk of generating gas solution space explosion,

as shown in fig. 3, the loading device 2 includes a jacking device 21 and a weighing device 22, the weighing device 22 is installed on the jacking device 21, when loading, the jacking device 21 makes the mobile transfer device 4 separate from the running track device 5, at this time, the material is put into the transfer material barrel 42, the weighing device 22 is used for weighing the material, and loading is completed.

As shown in fig. 4, the lifting device 3 includes a lifting frame 31, a lifting platform 32, a lifting rope assembly 33, a driving motor 34 and a transverse driving assembly 35; the lifting platform 32 is arranged in the lifting frame 31, and the driving motor 34 is arranged at the top of the lifting frame 31; the lifting rope assembly 33 is connected with the driving motor 34, and the lifting rope assembly 33 drives the lifting platform 32 to move up and down; a transverse driving assembly 35 is positioned on the top of the lifting platform 32, wherein the transverse driving assembly 35 is preferably driven transversely mainly by a motor to drive the rollers; the lift cord assembly 33 is coupled to the set of mixing wheels mounted on the lift frame by cords. During the use, remove transfer device 4, change over to the horizontal drive assembly 35 on lift platform 32 through track auto-change over device 6 on, lift platform 32 promotes horizontal drive assembly 35 and removal transfer device 4 to the upper strata, starts horizontal drive assembly 32, will remove transfer device 4 and shift to track auto-change over device 6 on, realize removing transfer device 4 and get into upper run track 51 by lower floor's run track 52 on.

As shown in fig. 5, the running rail device 5 includes a frame body 501, a driving assembly a502 and a first friction roller assembly 503; the driving assembly a502 drives the first friction roller assembly 503 to operate, and when the mobile transferring device 4 contacts the first friction roller assembly 503, the operation on the track will be realized.

As shown in fig. 6, the track switching device 6 is composed of a driving assembly B61, a second friction roller assembly 62 and a lifting assembly 63, the driving assembly B61 drives the second friction roller assembly 62 to operate, and the lifting assembly 63 can lift the second friction roller assembly 62 to move up and down. During operation, the movable transfer device 4 turns through the track switching device 6, the specific process is that the lifting assembly 6 lifts the second friction roller assembly 62 to the height which is consistent with that of the movable transfer device 4 in the operation track device 5, when the movable transfer device 6 enters, the lifting assembly 63 reduces the second friction roller assembly 62 to the height which is consistent with that of the operation track device 5 needing to be switched, the track reduction of the movable transfer device 4 is realized, and vice versa, so that the track switching is realized.

The frame main body 501 and the lifting frame 31 are made of an aluminum alloy frame with an anodized surface, so that the frame is prevented from being corroded, sparks are prevented from being generated, and materials are ignited. Set up protective structure at frame main part plane and corner, prevent the collision to the frame to more importantly, prevent that the combustible dust of transporting from piling up on the frame and corner for a long time, its protective structure preferably adopts corrosion resistant plate or carbon steel plate plastic-blasting to seal.

The production line can realize linkage coordination of all devices through program control, and realize automatic operation.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (10)

1. A shell powder charge conveying production line is characterized in that: the device comprises a discharging device (1), a feeding device (2), a lifting device (3), a mobile transfer device (4), a running track device (5) and a track switching device (6); the running track device (5) is divided into an upper running track (51) and a lower running track (52), and the two ends of the upper running track (51) and the lower running track (52) are respectively connected through a lifting device (3); the emptying device (1) is positioned on the upper-layer running track (51); the feeding device (2) is positioned on the lower running track (52); the track switching device (6) is positioned on the running track device (5) and is arranged at a turning position; the mobile transfer device (4) runs on a running rail device (5) and a lifting device (3).

2. A projectile charge delivery line as claimed in claim 1, wherein: the movable transfer device (4) comprises a tooling plate (41) and a transfer material barrel (42), the transfer material barrel (42) is placed on the tooling plate (41), and a material barrel hook (421) is arranged on the transfer material barrel (42).

3. A projectile charge delivery line as claimed in claim 2, wherein: the tooling plate (41) and the material transferring barrel (42) are made of aluminum alloy.

4. A projectile charge delivery line as claimed in claim 1, wherein: at least one feeding device (2) is arranged; at least one emptying device (1) is arranged.

5. A projectile charge delivery line as claimed in claim 1, wherein: the lower-layer running track (52) is provided with a lower-layer branch track device (521), and the feeding device (2) is arranged on the lower-layer branch track device (521).

6. A projectile charge delivery line as claimed in claim 1, wherein: the emptying device (1) comprises an emptying lifting part (11) and a telescopic sealing device (12); the feeding lifting component (11) is located above the running track device (5), and the telescopic sealing device (12) is located below the running track device (5).

7. A projectile charge delivery line as claimed in claim 1, wherein: the feeding device (2) comprises a jacking device (21) and a weighing device (22); the weighing device (22) is installed on the top of the jacking device (21).

8. A projectile charge delivery line as claimed in claim 1, wherein: the lifting device (3) comprises a lifting frame (31), a lifting platform (32), a lifting rope assembly (33), a driving motor (34) and a transverse driving assembly (35); the lifting platform (32) is arranged in the lifting rack (31), and the driving motor (34) is arranged at the top of the lifting rack (31); the lifting rope component (33) is connected with the driving motor (34), and the lifting rope component (33) drives the lifting platform (32) to move up and down; the transverse driving assembly (35) is positioned at the top of the lifting platform (32).

9. A projectile charge delivery line as claimed in claim 1, wherein: the running rail device (5) comprises a rail frame main body (501), a driving assembly A (502) and a first friction roller assembly (503); the driving assembly A (502) and the first friction roller assembly (503) are arranged on the frame main body (501); the driving assembly A (502) drives the first friction roller assembly (503) to operate.

10. A projectile charge delivery line as claimed in claim 1, wherein: the track switching device (6) is composed of a driving component B (61), a second friction roller component (62) and a lifting component (63); the driving component B (61) drives the second friction roller component (62) to operate, and the lifting component (63) lifts the second friction roller component (62) to operate up and down.

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