CN220270250U - Quantitative type military industrial nitrate filling device - Google Patents

Abstract

The utility model discloses a quantitative type filling device for military nitro, which belongs to the field of firework and firecracker manufacturing, and comprises a transparent shell, wherein a loading plate is arranged at the inner bottom end of the transparent shell, a plurality of uniformly distributed firework cylinders are inserted at the upper end of the loading plate, a material injection plate is fixedly connected between the inner walls of the transparent shell, a plurality of uniformly distributed material injection holes are formed at the upper end of the material injection plate, and a fixing plate is fixedly connected between the inner walls of the transparent shell.

Description

Quantitative type military industrial nitrate filling device

Technical Field

The utility model relates to the field of firework and firecracker manufacturing, in particular to a quantitative military nitrate filling device.

Background

In the process of manufacturing fireworks and crackers by using the military nitrate, the paper cylinder is filled with soil as a bedding material, and the military nitrate is continuously filled after the soil filling is completed.

The number of the existing firework cylinder arrangements is large, manual labor is needed when the firework cylinder is filled with the military nitrate, but in the manual filling process, the entire filling efficiency is slow due to the fact that the military nitrate is required to be gradually filled into the firework cylinder, and when a plurality of firework cylinders are arranged and formed to be uniformly filled, the filling amount of the military nitrate in each time of firework cylinder arrangement cannot be controlled, so that the effect of setting off the subsequent firework is poor due to the fact that the number of the filled military nitrate is different when the subsequent firework is used.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems existing in the prior art, the utility model aims to provide a quantitative type filling device for the military nitrate, which can realize quantitative classification of a large amount of descending military nitrate under the action of a quantitative component by placing a plurality of groups of arranged firework cylinders above a loading plate when filling the firework cylinders with the military nitrate, so that the quantity of the military nitrate filled in the firework cylinders below is consistent, the working efficiency of personnel when filling the military nitrate in the firework cylinders is greatly improved, and meanwhile, the phenomenon that the subsequent firework is not set off due to the non-uniform loading capacity of the military nitrate in the firework cylinders is avoided.

2. Technical proposal

In order to solve the problems, the utility model adopts the following technical scheme.

The utility model provides a ration formula war industry nitre filling device, includes transparent shell, the inner bottom of transparent shell is equipped with the loading board, the upper end of loading board is inserted and is equipped with the fireworks section of thick bamboo that distributes evenly, fixedly connected with annotates the flitch between the inner wall of transparent shell, a plurality of evenly distributed annotates the material hole has been seted up to the upper end of annotating the flitch, fixedly connected with fixed plate between the inner wall of transparent shell, fixedly connected with annotate the glassware between the inner wall of fixed plate, the upper end fixedly connected with flitch down of annotating the glassware, a plurality of evenly distributed's unloading holes have been seted up to the upper end of flitch down, the upper end of flitch is equipped with quantitative subassembly, fixedly connected with storage box between the inner wall of transparent shell, the storage box is located the top of transparent shell, be equipped with the refining subassembly between the inner wall of storage box, the unloading hole is located quantitative subassembly's downside, the glassware is located the upside of annotating the material hole.

Further, a discharge hole is formed in the side end of the transparent shell, and a baffle is connected between the inner walls of the discharge hole in a rotating mode.

Furthermore, a plurality of blanking holes which are uniformly distributed are formed in the inner bottom end of the storage box, and a chute is cut on the inner wall of the storage box.

Further, the refining assembly comprises refining plates which are connected with the inner walls of the storage boxes in a sliding mode, one ends of the refining plates are arranged in a wavy mode, handles are fixedly connected to the upper ends of the refining plates, and reset springs are fixedly connected between the refining plates and the inner walls of the storage boxes.

Further, the quantitative assembly comprises a blocking plate arranged between the inner walls of the transparent shell, the left end and the right end of the blocking plate are fixedly connected with sliding blocks, the sliding blocks are connected with the inner walls of the transparent shell in a sliding mode, a plurality of evenly distributed storage assemblies are embedded into the lower end of the blocking plate, and the side ends of the blocking plate are fixedly connected with handles.

Further, the storage component comprises a quantitative barrel fixedly connected between the inner walls of the blocking plates, a rotating shaft is rotatably connected between the inner walls of the quantitative barrel, and a valve is fixedly connected to the side end of the rotating shaft.

3. Advantageous effects

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

according to the scheme, when the firework cylinder is filled with the military nitrate, the firework cylinder arranged in multiple groups is placed above the loading plate, and then quantitative classification is realized on a large amount of the downward-placed military nitrate under the action of the quantitative assembly, so that the quantity of the military nitrate filled in the firework cylinder below is consistent, the working efficiency of personnel when the firework cylinder is filled with the military nitrate is greatly improved, and meanwhile, the phenomenon that the subsequent firework is not set off due to non-uniform loading capacity of the military nitrate in the firework cylinder is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the overall internal structure of the present utility model;

FIG. 3 is a schematic structural view of the refining and dosing assemblies of the present utility model.

Fig. 4 is a schematic cross-sectional view of a storage assembly according to the present utility model.

The reference numerals in the figures illustrate:

1 transparent shell, 101 baffle, 102 discharge gate, 2 loading plate, 3 cartridge, 4, annotate the flitch, 5 annotate the material hole, 6 fixed plates, 7 notes glassware, 8 blanking plate, 9 blanking holes, 10 ration subassembly, 1001 storage subassembly, 1002 barrier plate, 1003 handle, 1004 slider, 10011 ration section of thick bamboo, 10012 pivot, 10013 valve, 11 storage box, 1101 blanking hole, 1102 spout, 12 refining subassembly, 1201 refining board, 1202 handle, 1203 reset spring.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Examples:

referring to fig. 1-4, a quantitative type filling device for military nitro comprises a transparent shell 1, wherein a loading plate 2 is arranged at the inner bottom end of the transparent shell 1, a plurality of uniformly distributed firework barrels 3 are inserted into the upper end of the loading plate 2, a material injection plate 4 is fixedly connected between the inner walls of the transparent shell 1, a plurality of uniformly distributed material injection holes 5 are formed in the upper end of the material injection plate 4, a fixing plate 6 is fixedly connected between the inner walls of the transparent shell 1, a material injector 7 is fixedly connected between the inner walls of the fixing plate 6, a blanking plate 8 is fixedly connected to the upper end of the material injector 7, a plurality of uniformly distributed blanking holes 9 are formed in the upper end of the blanking plate 8, a quantitative assembly 10 is arranged at the upper end of the blanking plate 8, a material storage box 11 is fixedly connected between the inner walls of the transparent shell 1, the material storage box 11 is positioned at the top end of the transparent shell 1, a material homogenizing assembly 12 is arranged between the inner walls of the material storage box 11, the blanking holes 9 are positioned at the lower side of the quantitative assembly 10, and the material injector 7 is positioned at the upper side of the material injection holes 5.

In order to avoid the phenomenon that the effect of later setting off is poor due to different amounts of the filled military nitrate in the firework barrels in use because the personnel need to gradually fill the military nitrate into the firework barrels in the prior art, the overall filling efficiency is slower, and the filling amount of the military nitrate in the firework barrels cannot be controlled each time when a plurality of firework barrels are arranged and formed for uniform filling, in this embodiment, the quantitative type filling device for the military nitrate is designed, so that when the firework barrels are quantitatively filled with the military nitrate, firstly, the material is added into the storage box 11, after a certain amount of firework barrels are filled, the personnel pulls the quantitative assembly 10 outwards to be communicated with the blanking holes 1101 until the material in the storage box 11 does not flow downwards, so that the quantitative assembly 10 is filled to a certain amount, then personnel can push the quantitative component to be attached to the inner wall of the transparent shell 1, so that the bottom of the quantitative component 10 is attached to the blanking hole 9, then the materials flow downwards, the quantitative materials stored in the quantitative component 10 are conveyed to the inside of the lower firework cylinder 3 under the conveying of the material injector 7, so as to finish the quantitative military nitrate loading work of a large number of firework cylinders 3, then the firework cylinders 3 loaded at the lower part are conveyed to the outside through the loading plate 2, the firework cylinders 3 required to be loaded at the next batch are replaced, then the quantitative component 10 is pulled out again in the material storage box 11 to be taken, then the materials are pushed to be attached to the inner wall of the transparent shell 1, and the quantitative conveying work step is realized in the firework cylinders 3, and then under the action of the quantitative component, quantitative classification of a large amount of descending military nitro is realized, the quantity of the military nitro filled in the firework cylinder below is promoted to be consistent, the working efficiency of personnel when filling the military nitro in the firework cylinder is greatly improved, and meanwhile, the phenomenon that the subsequent firework is not set off due to non-uniform loading quantity of the military nitro in the firework cylinder is avoided.

Referring to fig. 1-3, a discharge port 102 is provided at a side end of a transparent housing 1, and a baffle 101 is rotatably connected between inner walls of the discharge port 102.

In the use of this scheme, when the military project nitrate in the firework barrel fills up, when needing to fill to next batch of fireworks barrel, at first open baffle 101, take loading board 2 out through discharge gate 102, place ground with loading board 2 afterwards, take off fireworks barrel 3 from loading board 2's upper end in proper order, after accomplishing the dismantlement work, place next batch of fireworks barrel 3 on loading board 2 upper end again, then put into transparent shell 1 with loading board 2 inside, close baffle 101, can accomplish the change work to fireworks barrel 3, avoided filling fireworks barrel 3 one by one, production efficiency is improved, and production time is reduced.

Referring to fig. 1-4, a plurality of evenly distributed blanking holes 1101 are formed at an inner bottom end of the storage box 11, and a chute 1102 is cut on an inner wall of the storage box 11.

Further, the refining assembly 12 includes a refining plate 1201 slidingly connected between the inner walls of the storage box 11, one end of the refining plate 1201 is provided in a wave shape, a handle 1202 is fixedly connected to the upper end of the refining plate 1201, and a return spring 1203 is fixedly connected between the refining plate 1201 and the inner walls of the storage box 11.

In this scheme in the use, for realizing the make full use of to remaining military industrial and industrial nitrate materials, avoid the military industrial and industrial nitrate materials of sunk to fall into blanking hole 1101, in this implementation, when remaining military industrial and industrial nitrate in storage box bottom, personnel's accessible pulling handle 1202, impel the refining plate 1201 and slide in spout 1102, and under wavy setting refining plate 1201, scrape the abundant blanking hole 1101 with remaining military industrial and industrial nitrate, fall into the quantitative subassembly 10 of below afterwards, so that the loading of follow-up utilization, also avoid the extravagant of remaining military industrial and industrial nitrate materials's of remaining and inconvenient work study of loading simultaneously, reduced the extravagant of military industrial and industrial nitrate materials cost.

Referring to fig. 2-4, the dosing assembly 10 includes a blocking plate 1002 disposed between inner walls of the transparent housing 1, wherein sliding blocks 1004 are fixedly connected to left and right ends of the blocking plate 1002, the sliding blocks 1004 are slidably connected to the inner walls of the transparent housing 1, a plurality of evenly distributed material storage assemblies 1001 are embedded in a lower end of the blocking plate 1002, and grips 1003 are fixedly connected to side ends of the blocking plate 1002.

Further, the storage component 1001 includes a dosing cylinder 10011 fixedly connected between inner walls of the blocking plates 1002, a rotating shaft 10012 is rotatably connected between inner walls of the dosing cylinder 10011, and a valve 10013 is fixedly connected to a side end of the rotating shaft 10012.

In the use process, when quantitatively filling, the handle 1003 is pulled first, the storage component 1001 is aligned with the blanking hole 1101, so that the military nitro-material in the upper storage box 11 falls into the metering cylinder 10011, and at this time, the valve 10013 in the metering cylinder 10011 is under the bearing of the lower blanking plate 8 (the metering cylinder 10011 is displaced to one side of the blanking hole 9), the valve 10013 is in a horizontal state, the fallen military nitro-material is received and quantitatively stored, then when the quantitative cylinder 10011 is internally collected to the quantitative military nitro-material, when the material in the storage box 11 is not falling, the personnel can push the handle 1003, the upper blanking hole 1101 is blocked until the material is matched, the military nitro-material in the storage box 11 is not falling down, the lower quantitative cylinder 10011 is just above the blanking hole 9 after being displaced, the valve 10013 is in a horizontal state, the pressure of the valve 10013 is pushed to the upper side of the blanking hole, and the valve 10013 is pushed down in a collision force and the pressure of the lower quantitative cylinder 10011 is turned over, thus the quantity of the cotton-material can not be completely filled in the transparent shell 1, and the quantity of the cylindrical filler is completely filled with the cylindrical filler 3, and the quantity of the cotton-material is not completely is completely equal to the quantity of the cylindrical filler 3 when the quantitative filler is not filled in the whole, and the cylindrical filler is completely, and the quantitative filler is not filled in the cylindrical filler is completely, and the cylindrical filler is completely filled.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a ration formula war industry nitre filling device, includes transparent shell (1), its characterized in that: the utility model discloses a firework tube, including transparent shell (1), loading plate (2) are equipped with to the inner bottom of transparent shell (1), loading plate (2)'s upper end is inserted and is equipped with many evenly distributed fireworks section of thick bamboo (3), fixedly connected with annotates flitch (4) between the inner wall of transparent shell (1), annotate the upper end of flitch (4) and seted up a plurality of evenly distributed annotates material hole (5), fixedly connected with fixed plate (6) between the inner wall of transparent shell (1), fixedly connected with annotates glassware (7) between the inner wall of fixed plate (6), the upper end fixedly connected with unloading board (8) of annotating glassware (7), a plurality of evenly distributed unloading holes (9) have been seted up to the upper end of unloading board (8), the upper end of unloading board (8) is equipped with ration subassembly (10), fixedly connected with magazine (11) between the inner wall of transparent shell (1), magazine (11) are located the top of transparent shell (1), be equipped with refining subassembly (12) between the inner wall of magazine (11), unloading subassembly (9) are located down on the side of annotating material hole (5).

2. A quantitative military nitrate filling device according to claim 1, wherein: a discharge hole (102) is formed in the side end of the transparent shell (1), and a baffle (101) is rotatably connected between the inner walls of the discharge hole (102).

3. A quantitative military nitrate filling device according to claim 1, wherein: a plurality of uniformly distributed blanking holes (1101) are formed in the inner bottom end of the storage box (11), and a sliding groove (1102) is formed in the inner wall of the storage box (11).

4. A quantitative military nitrate filling device according to claim 1, wherein: the refining assembly (12) comprises refining plates (1201) which are connected between the inner walls of the storage boxes (11) in a sliding mode, one ends of the refining plates (1201) are arranged in a wavy mode, handles (1202) are fixedly connected to the upper ends of the refining plates (1201), and reset springs (1203) are fixedly connected between the refining plates (1201) and the inner walls of the storage boxes (11).

5. A quantitative military nitrate filling device according to claim 1, wherein: the quantitative assembly (10) comprises a blocking plate (1002) arranged between the inner walls of the transparent shell (1), sliding blocks (1004) are fixedly connected to the left end and the right end of the blocking plate (1002), the sliding blocks (1004) are slidably connected with the inner walls of the transparent shell (1), a plurality of evenly distributed storage assemblies (1001) are embedded into the lower end of the blocking plate (1002), and grips (1003) are fixedly connected to the side ends of the blocking plate (1002).

6. A quantitative military nitrate filling device according to claim 5, wherein: the storage component (1001) comprises a quantitative barrel (10011) fixedly connected between inner walls of a blocking plate (1002), a rotating shaft (10012) is rotatably connected between inner walls of the quantitative barrel (10011), and a valve (10013) is fixedly connected to a side end of the rotating shaft (10012).