CN105059575A - Emulsion explosive conveying and packaging machine - Google Patents

Abstract

An emulsion explosive conveying and packaging machine comprises a quantitative feeding device, a conveying pipeline system, a cartridge forming device and a sealing device for sealing a cartridge, wherein the quantitative feeding device, the conveying pipeline system, the cartridge forming device and the sealing device are sequentially connected. The quantitative feeding device comprises a hopper and a rotary table type diaphragm pump. The rotary table type diaphragm pump comprises a rotary table, a rotation driving mechanism driving the rotary table to rotate and an end cover in movable sealing fit with the upper end face of the rotary table. The end cover is provided with a feeding port and a discharging port. The rotary table is provided with a plurality of diaphragm work cavities which are periodically communicated with the feeding port and the discharging port along with rotation of the rotary table. The bottoms of the diaphragm work cavities are in sealing connection with diaphragms. The rotary table type diaphragm pump further comprises a drive mechanism driving the diaphragms to expand in a reciprocating manner, suck explosive when the diaphragm work cavities are communicated with the feeding port and discharge the explosive when the diaphragm work cavities are communicated with the discharging port. The emulsion explosive conveying and packaging machine has the beneficial effects of being simple in structure, good in wholeness and integrity, convenient to assemble, operate and maintain, good in safety, high in work efficiency, long in service life and the like.

Description

Emulsion bull ladle is installed

Technical field

The present invention relates to industrial emulsion explosive conveying and packaging technical field, be specifically related to the installation of a kind of emulsion bull ladle.

Background technology

Emulsion is a kind of novel commercial explosive, there is special physical structure, special chemical nature, in the conveying and packaging production process of emulsion, the physical structure not destroying emulsion, do not affect emulsion commercial performance prerequisite under, there is great potential safety hazard.After commercial explosive pharmacy completes, need bulk cargo explosive to pack by specification, so that management, storage, transport and sale.Current packaging production line generally adopts screw pump, blade-type pump, gerotor pump or plunger pump carry emulsion, wherein, screw pump is eccentric pump, and friction is strong, and friction point is many, and elastomer stator easily assembles heat energy, there is potential safety hazard; The blade of blade-type pump, impeller, cavity are all metal material, there is intermetallic rigidity friction in the course of the work, have and produce pyrophoric hidden danger; Gerotor pump be two cams to edging pressure, more responsive to particulate matter, have certain influence to explosive property, safeguard cleaning very inconvenient; Piston and the plunger cavity of plunger pump have friction at work, and between sealing member fragile, not easily find likely there is intermetallic rigidity friction after damage, there is potential safety hazard.Therefore, a kind of safety is provided, stable, the installation of cartridging efficiently becomes this area urgent problem.

Summary of the invention

The technical problem to be solved in the present invention overcomes the deficiency that prior art exists, provide that a kind of structure is simple, layout optimization rationally, globality and integration is good, assembling and convenient operating maintenance, equipment safety good, work efficiency is high, the installation of the emulsion bull ladle of long service life.

For solving the problems of the technologies described above, the present invention by the following technical solutions:

A kind of emulsion bull ladle installation, comprise the metering device connected successively, the delivery pipeline system of delivering explosion, powder stick shaped device and the sealing device that powder stick is sealed, described metering device comprises hopper and rotating disc type diaphragm pump, described rotating disc type diaphragm pump comprises rotating disk, the rotary drive mechanism driving dial rotation and the end cap coordinated with the dynamic seal of rotating disk upper surface, described end cap is provided with the inlet point that is communicated with hopper outlet and the discharging opening with delivery pipeline system inlet communication, described rotating disk is provided with multiple rotation axis that rotates and is evenly arranged and the diaphragm epitrochoidal chamber be periodically communicated with discharging opening with inlet point with dial rotation, the sealed bottom of each diaphragm epitrochoidal chamber is connected with diaphragm, described rotating disc type diaphragm pump also comprise order about each diaphragm back and forth agitate and diaphragm epitrochoidal chamber be communicated with inlet point time suck explosive, the driver train of explosive is discharged when diaphragm epitrochoidal chamber is communicated with discharging opening.

Above-mentioned emulsion bull ladle installation, preferably, described driver train comprises hard-wired upper cylindrical cam and lower cylindrical cam, on described rotating disk, corresponding each diaphragm is respectively equipped with a slide bar be slidably installed, one end of described slide bar is connected with diaphragm, the other end is provided with anchor shaft, described anchor shaft is equiped with two and contacts with the cam curved surface of lower cylindrical cam the bearing coordinated with upper cylindrical cam respectively.

Above-mentioned emulsion bull ladle installation, preferably, blanking auxiliary device is provided with in described hopper, described blanking auxiliary device comprises the rotating shaft be vertically installed in hopper inner chamber and the rotating shaft driver train driving described axis of rotation, the upper end of described rotating shaft is connected with rotating shaft driver train, the lower end of described rotating shaft is provided with propelling screw thread, and the outlet of described hopper is provided with one section of cylindrical cavity, and described propelling screw thread is arranged in described cylindrical cavity.

Above-mentioned emulsion bull ladle installation, preferably, described rotating shaft driver train comprises the retarder and motor that are installed on hopper top, and the output shaft of described motor is connected with the input end of retarder, and the mouth of described retarder is connected with rotating shaft.

Above-mentioned emulsion bull ladle installation, preferably, described end cap is hingedly mounted on a column, described column is fixed in the frame of emulsion bull ladle installation, described hopper is fixedly connected with described end cap, described frame is also provided with the cylinder opened and closed around hinge axes for Driving terminal.

Above-mentioned emulsion bull ladle installation, preferably, described rotating disk is provided with 4 ~ 20 diaphragm epitrochoidal chambers.

Above-mentioned emulsion bull ladle installation, preferably, the surrounding at described rotating disk top is along the projecting ring section being provided with evagination, described diaphragm epitrochoidal chamber to be located on projecting ring section and up/down perforation projecting ring section, the inwall of described diaphragm epitrochoidal chamber is provided with annular boss near bottom position place, and the surrounding of described diaphragm is along being tightly connected with described annular boss.

Above-mentioned emulsion bull ladle installation, preferably, the surrounding of described rotating disk is covered with transparent shroud.

Above-mentioned emulsion bull ladle installation, preferably, described delivery pipeline system comprises Pneumatic three-way valve and quick joint flexible pipe; Quick joint flexible pipe one end connects Pneumatic three-way valve, and the other end connects powder stick shaped device.

Above-mentioned emulsion bull ladle installation, preferably, described rotary drive mechanism is constant-speed drive mechanism.

Compared with prior art, the invention has the advantages that: emulsion bull ladle installation of the present invention adopts rotating disc type diaphragm pump that explosive is entered delivery pipeline system with constant flow, in the course of conveying of emulsion, without dynamic friction between diaphragm and diaphragm epitrochoidal chamber, good airproof performance, explosive can not enter airtight rotating mechanism, heat energy also would not be had to assemble, thus can ensure the safe reliability of emulsion pumping; Meanwhile, rotating disk is provided with multiple diaphragm epitrochoidal chamber, can continuously, efficient delivering explosion, be beneficial to the production efficiency improving bull ladle installation.Simple, the layout optimization of this emulsion bull ladle installation structure rationally, globality and integration is good, assembling and convenient operating maintenance, equipment safety good, work efficiency is high, long service life.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of emulsion bull ladle of the present invention installation.

Fig. 2 is the plan structure schematic diagram of emulsion bull ladle of the present invention installation.

Fig. 3 is the plan structure schematic diagram of metering device in emulsion bull ladle of the present invention installation.

Fig. 4 is the main TV structure schematic diagram of metering device when end cap is closed in emulsion bull ladle of the present invention installation.

Fig. 5 is the main TV structure schematic diagram of metering device when end cap is opened in emulsion bull ladle of the present invention installation.

Fig. 6 is the sectional structure schematic diagram of emulsion bull ladle of the present invention installation turntable formula diaphragm pump.

Marginal data:

1, metering device; 2, delivery pipeline system; 21, Pneumatic three-way valve; 22, quick joint flexible pipe; 3, powder stick shaped device; 4, sealing device; 5, hopper; 51, cylindrical cavity; 6, rotating disc type diaphragm pump; 61, rotating disk; 611, diaphragm epitrochoidal chamber; 612, projecting ring section; 613, annular boss; 62, end cap; 63, rotary drive mechanism; 64, inlet point; 65, discharging opening; 66, diaphragm; 67, upper cylindrical cam; 68, lower cylindrical cam; 69, slide bar; 610, anchor shaft; 620, bearing; 7, blanking auxiliary device; 71, rotating shaft; 72, screw thread is advanced; 73, retarder; 74, motor; 8, column; 9, cylinder; 10, transparent shroud; 100, frame.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

As shown in Figures 1 to 6, emulsion bull ladle installation of the present invention, comprise the metering device 1, the delivery pipeline system 2 of delivering explosion, powder stick shaped device 3 and the sealing device 4 that sealed by powder stick that connect successively, wherein, delivery pipeline system 2, powder stick shaped device 3 and sealing device 4 all can adopt prior art, powder stick shaped device 3 makes sheet plastic film form cylinder and is longitudinally glued together by connecting sewing, explosive is filled in column plastic film, U-shaped aluminium buckle is connected on powder stick by sealing device 4, and cuts powder stick sealing.The rotating disc type diaphragm pump 6 that metering device 1 comprises hopper 5 and is positioned at below hopper 5, rotating disc type diaphragm pump 6 comprises rotating disk 61, drive the rotary drive mechanism 63 that rotating disk 61 rotates and the end cap 62 coordinated with rotating disk 61 upper surface dynamic seal, end cap 62 is provided with and the inlet point 64 of hopper 5 outlet and the discharging opening 65 with delivery pipeline system 2 inlet communication, rotating disk 61 is provided with 11 rotation axis that rotate and is evenly arranged diaphragm epitrochoidal chamber 611, 11 diaphragm epitrochoidal chambers 611 are communicated with aiming at discharging opening 65 with inlet point 64 of rotating disk 61 rotation period, rotating disk 61 often rotates one week each diaphragm epitrochoidal chamber 611 and is communicated with successively with inlet point 64 with discharging opening 65 successively, the sealed bottom of each diaphragm epitrochoidal chamber 611 is connected with diaphragm 66, rotating disc type diaphragm pump 6 also comprises the driver train ordering about each diaphragm 66 and back and forth agitate, the size that can change diaphragm epitrochoidal chamber 611 is agitated by diaphragm 66, and then suck or discharge explosive, and this driver train sucks explosive when diaphragm epitrochoidal chamber 611 is communicated with inlet point 64, explosive is discharged when diaphragm epitrochoidal chamber 611 is communicated with discharging opening 65.

The rotating disk 61 of the present embodiment is provided with 11 diaphragm epitrochoidal chambers 611 altogether, and in other embodiments, diaphragm epitrochoidal chamber 611 also can be other quantity between 4 ~ 20.The transport efficiency that multiple diaphragm epitrochoidal chamber 611 can improve explosive is set.

In the present embodiment, as shown in Figure 6, driver train comprises hard-wired upper cylindrical cam 67 and lower cylindrical cam 68, on rotating disk 61, corresponding each diaphragm 66 is respectively equipped with a slide bar be slidably installed 69, one end of slide bar 69 is connected with diaphragm 66 removable seal, the other end is provided with anchor shaft 610, anchor shaft 610 is equiped with two and contacts with the cam curved surface of lower cylindrical cam 68 bearing 620 coordinated with upper cylindrical cam 67 respectively.The mating reaction of upper cylindrical cam 67 and lower cylindrical cam 68 and two bearings 620 controls slide bar 69 and slides up and down, rotating disk 61 often revolves and turns around, slide bar 69 slides up and down once, when diaphragm epitrochoidal chamber 611 and inlet point 64 are on time, the cam curved surface of upper cylindrical cam 67 just forces bearing 620 with slide bar 69 slide downward, slide bar 69 pulls diaphragm 66 to agitate downwards the volume of diaphragm epitrochoidal chamber 611 is increased, and then is sucked by explosive in diaphragm epitrochoidal chamber 611; When diaphragm epitrochoidal chamber 611 and discharging opening 65 are on time, the cam curved surface of lower cylindrical cam 68 just forces bearing 620 with slide bar 69 upward sliding, slide bar 69 pulls diaphragm 66 upwards to agitate the volume of diaphragm epitrochoidal chamber 611 is reduced, and then is released outside diaphragm epitrochoidal chamber 611 by explosive.The curve form of above-mentioned upper cylindrical cam 67 and lower cylindrical cam 68 can rationally be arranged according to actual needs, and it can with reference to existing mature technology.In other embodiments, coordinating of cam path and bearing 620 also can be adopted to control slide bar 69 and slide up and down.

In the present embodiment, blanking auxiliary device 7 is provided with in hopper 5, blanking auxiliary device 7 comprises the rotating shaft driver train being vertically installed on rotating shaft 71 in hopper 5 inner chamber and drive shaft 71 and rotating, the upper end of rotating shaft 71 is connected with rotating shaft driver train, the lower end of rotating shaft 71 is provided with and advances screw thread 72, the outlet of hopper 5 is provided with one section of cylindrical cavity 51, advances screw thread 72 to be arranged in cylindrical cavity 51.

Above-mentioned rotating shaft driver train comprises the retarder 73 and motor 74 that are installed on hopper 5 top, and the output shaft of motor 74 is connected with the input end of retarder 73, and the mouth of retarder 73 is connected with rotating shaft 71.

In the present embodiment, as shown in Figures 3 to 5, end cap 62 is hingedly mounted on a column 8, and column 8 is fixed in the frame 100 of emulsion bull ladle installation, hopper 5 is fixedly connected with end cap 62, frame 100 is also provided with the cylinder 9 opened and closed around hinge axes for Driving terminal 62.Cylinder 9 is hingedly mounted in frame 100, its telescoping cylinder and hopper 5 hinged, by the fore and aft motion of cylinder 9, end cap 62 can be made to be close to the upper surface of rotating disk 61, the reliability of guarantee dynamic seal, also can order about hopper 5 simultaneously and end cap 62 can be opened around hinge axes, easy access, maintenance.

In the present embodiment, the surrounding at rotating disk 61 top is along the projecting ring section 612 being provided with evagination, each diaphragm epitrochoidal chamber 611 to be located on projecting ring section 612 and up/down perforation projecting ring section 612, the inwall of diaphragm epitrochoidal chamber 611 is provided with annular boss 613 near bottom position place, and the surrounding of diaphragm 66 is along being tightly connected with annular boss 613.This kind of structure makes diaphragm 66 and slide bar 69 partial denudation outside, be convenient to the service condition checking diaphragm 66, if there is breakage to find easily, and carry out maintenance replacing in time, if there is material to ooze out, along with rotating disk 61 be rotated in centrifugal action under fallen out by from exposed position, and airtight center of turn can not be entered.

In the present embodiment, rotary drive mechanism 63 is constant-speed drive mechanism, and it drives rotating disk 61 constant revolution, and this rotary drive mechanism 63 can adopt various ways of the prior art, does not repeat them here.

In the present embodiment, as shown in Figure 6, the surrounding of rotating disk 61 is covered with transparent shroud 10, carries out safety precaution to rotating disk 61 and associated components, is also convenient to observe simultaneously.As depicted in figs. 1 and 2, delivery pipeline system 2 comprises Pneumatic three-way valve 21 and quick joint flexible pipe 22; Quick joint flexible pipe 22 one end connects Pneumatic three-way valve 21, and the other end connects powder stick shaped device 3.Pneumatic three-way valve 21 is convenient to the normal conveying or emptying of emulsion, quick joint flexible pipe 22 easy disassembly cleaning maintaining.

During the emulsion bull ladle installation work of the present embodiment, emulsion enters the inlet point 64 of rotating disc type diaphragm pump 6 by hopper 5, under the rotary actuation of rotating disk 61 and the elastic deformation motion of diaphragm 66, along with the emulsion in diaphragm epitrochoidal chamber 611 is escaped and enter delivery pipeline system 2 by discharging opening 65 by the rotation of rotating disk 61 successively, and the constant flow of explosive.Emulsion enters powder stick shaped device 3 through the delivery pipeline system 2 be made up of Pneumatic three-way valve 21, quick joint flexible pipe 22; Powder stick shaped device 3 first makes sheet plastic film form cylinder and by connecting sewing longitudinally gummed, is then filled into by explosive in column plastic film; The plastic film volume of filling full emulsion is drawn to sealing device 4, and U-shaped aluminium buckle is connected on powder stick by sealing device 4, and seals powder stick and cut, and so far completes the conveying to explosive, packaging.

The above is only the preferred embodiment of the present invention, and protection scope of the present invention is also not only confined to above-described embodiment.For those skilled in the art, do not departing from the improvement that obtains under the technology of the present invention concept thereof and conversion also should be considered as protection scope of the present invention.

Claims (10)

1. an emulsion bull ladle installation, comprise the metering device (1) connected successively, the delivery pipeline system (2) of delivering explosion, powder stick shaped device (3) and the sealing device (4) that powder stick is sealed, it is characterized in that: described metering device (1) comprises hopper (5) and rotating disc type diaphragm pump (6), described rotating disc type diaphragm pump (6) comprises rotating disk (61), drive the rotary drive mechanism (63) that rotating disk (61) rotates and the end cap (62) coordinated with rotating disk (61) upper surface dynamic seal, described end cap (62) is provided with and the inlet point (64) of hopper (5) outlet and the discharging opening (65) with delivery pipeline system (2) inlet communication, described rotating disk (61) is provided with multiple rotation axis that rotates and is evenly arranged and with the diaphragm epitrochoidal chamber (611) be communicated with discharging opening (65) with inlet point (64) of rotating disk (61) rotation period, the sealed bottom of each diaphragm epitrochoidal chamber (611) is connected with diaphragm (66), described rotating disc type diaphragm pump (6) also comprise order about each diaphragm (66) back and forth agitate and diaphragm epitrochoidal chamber (611) be communicated with inlet point (64) time suck explosive, the driver train of explosive is discharged when diaphragm epitrochoidal chamber (611) is communicated with discharging opening (65).

2. emulsion bull ladle installation according to claim 1, it is characterized in that: described driver train comprises hard-wired upper cylindrical cam (67) and lower cylindrical cam (68), the upper corresponding each diaphragm (66) of described rotating disk (61) is respectively equipped with a slide bar be slidably installed (69), one end of described slide bar (69) is connected with diaphragm (66), the other end is provided with anchor shaft (610), described anchor shaft (610) is equiped with two and contacts with the cam curved surface of lower cylindrical cam (68) bearing (620) coordinated with upper cylindrical cam (67) respectively.

3. emulsion bull ladle installation according to claim 1, it is characterized in that: in described hopper (5), be provided with blanking auxiliary device (7), described blanking auxiliary device (7) comprises the rotating shaft (71) be vertically installed in hopper (5) inner chamber and the rotating shaft driver train driving described rotating shaft (71) to rotate, the upper end of described rotating shaft (71) is connected with rotating shaft driver train, the lower end of described rotating shaft (71) is provided with and advances screw thread (72), the outlet of described hopper (5) is provided with one section of cylindrical cavity (51), described propelling screw thread (72) is arranged in described cylindrical cavity (51).

4. emulsion bull ladle installation according to claim 3, it is characterized in that: described rotating shaft driver train comprises the retarder (73) and motor (74) that are installed on hopper (5) top, the output shaft of described motor (74) is connected with the input end of retarder (73), and the mouth of described retarder (73) is connected with rotating shaft (71).

5. emulsion bull ladle installation according to claim 1, it is characterized in that: described end cap (62) is hingedly mounted on a column (8), described column (8) is fixed in the frame (100) of emulsion bull ladle installation, described hopper (5) is fixedly connected with described end cap (62), described frame (100) is also provided with the cylinder (9) opened and closed around hinge axes for Driving terminal (62).

6. emulsion bull ladle installation according to claim 1, is characterized in that: described rotating disk (61) is provided with 4 ~ 20 diaphragm epitrochoidal chambers (611).

7. emulsion bull ladle installation according to claim 1, it is characterized in that: the surrounding at described rotating disk (61) top is along the projecting ring section (612) being provided with evagination, described diaphragm epitrochoidal chamber (611) is located at the upper also up/down perforation projecting ring section (612) of projecting ring section (612), the inwall of described diaphragm epitrochoidal chamber (611) is provided with annular boss (613) near bottom position place, and the surrounding of described diaphragm (66) is along being tightly connected with described annular boss (613).

8. emulsion bull ladle installation according to claim 1, is characterized in that: the surrounding of described rotating disk (61) is covered with transparent shroud (10).

9. emulsion bull ladle installation according to claim 1, is characterized in that: described delivery pipeline system (2) comprises Pneumatic three-way valve (21) and quick joint flexible pipe (22); Quick joint flexible pipe (22) one end connects Pneumatic three-way valve (21), and the other end connects powder stick shaped device (3).

10. emulsion bull ladle installation according to claim 1, is characterized in that: described rotary drive mechanism (63) is constant-speed drive mechanism.