CN201680779U - Seismic charge continuous production device - Google Patents

Abstract

The utility model discloses a seismic charge continuous production device comprising a machine frame, a first bunker, a second bunker, a main quantitative spiral delivery mechanism, a conveying pipe and a mixing device. The main quantitative spiral delivery mechanism is disposed on the machine frame, and a first and second feeding port are respectively disposed on the left and right part of the main quantitative spiral delivery mechanism, besides, a main spiral discharging port is disposed on the lower right end of the main quantitative spiral delivery mechanism. On the lower part of the first bunker is disposed a first charging hopper communicated with the first feeding port, and on the lower part of the second bunker is disposed a second charging hopper communicated with the second feeding port. In addition, the inner cavity of the mixing device is communicated with the main spiral discharging port through the conveying pipe. By using the utility model, the ammonium nitrate, wood powder in the first bunker and the TNT in the second bunker can be quantitatively and continuously charged in the mixing device to mix. The utility model has advantages of tight, reasonable structure, convenient use, safety, environmental protection, high efficiency, ability of lowering the labor intensity, improving efficiency as well as safety, and improving the working environment.

Description

Explosive-source explosive post serialization process units

Technical field

The utility model relates to the production equipment technical field of explosive-source explosive post, is a kind of explosive-source explosive post serialization process units.

Background technology

Along with China's rapid economy development, the dynamics of oil exploration continues to increase, and the demand of carrying out the high explosion velocity plastic state powder charge type explosive-source explosive post of oil exploration with blasting method also increases thereupon.But, what the production of plastic state powder charge type explosive-source explosive post was adopted at present is the discontinuous production method, and high explosive is in the process of mixed preparing, after ammonium nitrate, wood powder need being mixed, with TNT mixed preparing in blending tank, be transported to again and carry out powder charge in the charging machine feed bin again.Therefore, have the following disadvantages in actual production process: production efficiency is low, personnel labor intensity is big, the work on the spot environment is poor, have potential safety hazard etc.

Summary of the invention

The utility model provides a kind of explosive-source explosive post serialization process units, the problem that its production efficiency that has solved existing explosive-source explosive post process units is low, personnel labor intensity big, the work on the spot environment is poor, exist potential safety hazard.

The technical solution of the utility model realizes by following measure: a kind of explosive-source explosive post serialization process units comprises frame, first feed bin, second feed bin, main quantitative helix transporting device, conveying pipeline and mixing arrangement; Main quantitative helix transporting device is fixed on the frame, and the left part and the right part of main quantitative helix transporting device have first charging aperture and second charging aperture respectively, and main spiral discharging mouth is arranged at the right-hand member bottom of main quantitative helix transporting device; First feed bin is fixed on the frame of main quantitative helix transporting device left part top, and there is first loading hopper bottom of first feed bin and is connected with first charging aperture; Second feed bin is fixed on the frame of main quantitative helix transporting device right part top, and there is second loading hopper bottom of second feed bin and is connected with second charging aperture; Mixing arrangement is fixed on the frame of main quantitative helix transporting device below, and the inner chamber of mixing arrangement is connected with main spiral discharging mouth by conveying pipeline.

Be further optimization and/or improvements below to above-mentioned utility model technical scheme:

The quantitative helix transporting device of above-mentioned master can comprise main motor, the main outer tube of carrying, lead spindle and main screw conveyor shaft, the lower end outlet of first loading hopper is by first charging aperture and the main left part intracavity inter-connection of carrying outer tube, the lower end outlet of second loading hopper is by second charging aperture and the main right part intracavity inter-connection of carrying outer tube, the upper end import of conveying pipeline is connected with the main inner chamber right-hand member of outer tube of carrying by main spiral discharging mouth, main screw conveyor shaft two ends are installed in the main inside, outer tube two ends of carrying by bearing respectively, the power output shaft right-hand member of main motor is fixed together by the left end of lead spindle and main screw conveyor shaft, is fixed with the main helical blade of quantitative convey materials from left to right on the main screw conveyor shaft.

The second quantitative helix transporting device can be arranged between above-mentioned second loading hopper and second charging aperture, the second quantitative helix transporting device is fixedly mounted on the frame, the second quantitative helix transporting device comprises second motor, second carries outer tube, second shaft coupling and second screw conveyor shaft, second carries the position of the corresponding second loading hopper lower end, outer tube rear portion that secondary charging aperture is arranged, second carries the position of anterior corresponding second charging aperture of outer tube top that secondary spiral discharging mouth is arranged, secondary spiral discharging mouth is connected by the looped pipeline joint with second charging aperture, the second screw conveyor shaft two ends are installed in second by bearing respectively and carry inside, outer tube two ends, the power output shaft end of second motor is fixed together by the rear end of second shaft coupling and second screw conveyor shaft, be fixed with on second screw conveyor shaft can by after quantitative second helical blade of convey materials forward.

Above-mentioned mixing arrangement can be and is the high right low drum mixer of placing in a left side, there is import the left part upper end of drum mixer and is connected with the lower end outlet of conveying pipeline, there is the explosive discharging opening that is positioned at charging machine hopper top the right part lower end of drum mixer, and the outside of drum mixer has the temperature that can make materials inside to remain on the steam jacket of 75 degree Celsius to 90 degree Celsius.

The low right high conveying worm in a left side can be arranged between above-mentioned explosive discharging opening and the charging machine hopper, and there is the charging aperture that is connected with the explosive discharging opening left part top of conveying worm, and there is the discharging opening that is connected with charging machine hopper oral area the right part below of conveying worm.

The utility model reasonable and compact in structure, easy to use, it is quantitatively imported the TNT in the ammonium nitrate in first feed bin, wood powder and second feed bin in the mixing arrangement continuously by main quantitative helix transporting device and mixes, reduced labour intensity, efficient and security have been improved, improve working environment, had safety, environmental protection, characteristics of high efficiency.

Description of drawings

Accompanying drawing 1 is looked the sectional structure schematic diagram for the master of the utility model most preferred embodiment.

Accompanying drawing 2 be in the accompanying drawing 1 A-A to the sectional structure schematic diagram.

Coding in the accompanying drawing is respectively: 1 is frame, and 2 is first feed bin, and 3 is second feed bin, 4 is conveying pipeline, and 5 is drum mixer, and 6 is first loading hopper, 7 is second loading hopper, and 8 is main motor, and 9 is the main outer tube of carrying, 10 is lead spindle, 11 is main screw conveyor shaft, and 12 is main helical blade, and 13 is the second quantitative helix transporting device, 14 is the charging machine hopper, 15 is the explosive discharging opening, and 16 is steam jacket, and 17 is second motor, 18 is the second conveying outer tube, 19 is second shaft coupling, and 20 is second screw conveyor shaft, and 21 is secondary charging aperture, 22 is secondary spiral discharging mouth, 23 is second helical blade, and 24 is first charging aperture, and 25 is second charging aperture, 26 is main spiral discharging mouth, and 27 are the looped pipeline joint.

The specific embodiment

The utility model is not subjected to the restriction of following embodiment, can determine concrete embodiment according to the technical solution of the utility model and actual conditions.

Below in conjunction with most preferred embodiment and accompanying drawing the utility model is further described:

As shown in Figure 1, this explosive-source explosive post serialization process units comprises frame 1, first feed bin 2, second feed bin 3, main quantitative helix transporting device, conveying pipeline 4 and mixing arrangement; Main quantitative helix transporting device is fixed on the frame 1, and the left part and the right part of main quantitative helix transporting device have first charging aperture 24 and second charging aperture 25 respectively, and main spiral discharging mouth 26 is arranged at the right-hand member bottom of main quantitative helix transporting device; First feed bin 2 is fixed on the frame 1 of main quantitative helix transporting device left part top, and there is first loading hopper 6 bottom of first feed bin 2 and is connected with first charging aperture 24; Second feed bin 3 is fixed on the frame 1 of main quantitative helix transporting device right part top, and there is second loading hopper 7 bottom of second feed bin 3 and is connected with second charging aperture 25; Mixing arrangement is fixed on the frame 1 of main quantitative helix transporting device below, and the inner chamber of mixing arrangement is connected with main spiral discharging mouth 26 by conveying pipeline 4.Be transported to the raw material in first feed bin 2 and second feed bin 3 in the mixing arrangement continuously by main quantitative helix transporting device, not only improve production efficiency, alleviated the labour intensity of personnel's shipments, and improved the work on the spot environment, reduced the potential safety hazard of personnel near explosive.

Can according to actual needs above-mentioned explosive-source explosive post serialization process units be made further optimization and/or improvements:

As shown in Figure 1, main quantitative helix transporting device comprises main motor 8, the main outer tube 9 of carrying, lead spindle 10 and main screw conveyor shaft 11, the lower end outlet of first loading hopper 6 is by first charging aperture 24 and the main left part intracavity inter-connection of carrying outer tube 9, the lower end outlet of second loading hopper 7 is by second charging aperture 25 and the main right part intracavity inter-connection of carrying outer tube 9, the upper end import of conveying pipeline 4 is connected with the main inner chamber right-hand member of outer tube 9 of carrying by main spiral discharging mouth 26, main screw conveyor shaft 11 two ends are installed in the main inside, outer tube 9 two ends of carrying by bearing respectively, the power output shaft right-hand member of main motor 8 is fixed together by the left end of lead spindle 10 with main screw conveyor shaft 11, is fixed with the main helical blade 12 of quantitative convey materials from left to right on the main screw conveyor shaft 11.Lead spindle 10 can be protected main motor 8, stops up in main conveying outer tube 9, and when main screw conveyor shaft 11 can't be rotated, lead spindle 10 can in time disconnect because of excess load.Main helical blade 12 is convey materials quantitatively, has guaranteed the explosive proportioning and the stable performance of producing.

As shown in Figure 2, the second quantitative helix transporting device 13 is arranged between second loading hopper 7 and second charging aperture, the second quantitative helix transporting device 13 is fixedly mounted on the frame 1, the second quantitative helix transporting device 13 comprises second motor 17, second carries outer tube 18, second shaft coupling 19 and second screw conveyor shaft 20, second carries the position of corresponding second loading hopper 7 lower ends, outer tube 18 rear portions that secondary charging aperture 21 is arranged, second carries the position of outer tube 18 anterior corresponding second charging apertures 25 tops that secondary spiral discharging mouth 22 is arranged, secondary spiral discharging mouth 22 is connected by looped pipeline joint 27 with second charging aperture 25, second screw conveyor shaft, 20 two ends are installed in second by bearing respectively and carry inside, outer tube 18 two ends, the power output shaft end of second motor 17 is fixed together by the rear end of second shaft coupling 19 and second screw conveyor shaft 20, be fixed with on second screw conveyor shaft 20 can by after quantitative second helical blade 23 of convey materials forward.The second quantitative helix transporting device 13 can with the material in second feed bin 3 in accordance with regulations quantity be transported to main the conveying in the outer tube 9 by second charging aperture 25 and mix.Second shaft coupling 19 can be protected second motor 17, stops up in the second conveying outer tube 18, and when second screw conveyor shaft 20 can't be rotated, second shaft coupling 19 can in time disconnect because of excess load.

As shown in Figure 1, mixing arrangement is to be the high right low drum mixer of placing 5 in a left side, there is import the left part upper end of drum mixer 5 and is connected with the lower end outlet of conveying pipeline 4, there is the explosive discharging opening 15 that is positioned at charging machine hopper 14 tops the right part lower end of drum mixer 5, and the outside of drum mixer 5 has the temperature that can make materials inside to remain on the steam jacket 16 of 75 degree Celsius to 90 degree Celsius.Steam jacket 16 can make various raw materials mix and form the plastic state mixture; Explosive discharging opening 15 is positioned at the top of charging machine hopper 14, and the explosive of being convenient to prepare is transported in the charging machine hopper 14 continuously, loads into the explosive-source explosive post of all size.

In addition, the low right high conveying worm in a left side is arranged between explosive discharging opening 15 and the charging machine hopper 14, there is the charging aperture that is connected with explosive discharging opening 15 the left part top of conveying worm, and there is the discharging opening that is connected with charging machine hopper 14 oral areas the right part below of conveying worm.The explosive for preparing that explosive discharging opening 15 can be come out by conveying worm is transported in far away, the higher charging machine hopper 14 in position continuously.

And, the mixture of ammonium nitrate and wood powder is housed in first feed bin 2, in second feed bin 3 TNT is housed.It is 50 to 60 percent that assurance makes the mass percent of ammonium nitrate in the interior mixture of mixing arrangement, and the mass percent of wood powder is 2 percent to five, and the mass percent of TNT is 35 to 50 percent.The explosive of mixed preparing has preferable performance like this.The mass percent of ammonium nitrate is preferably 55 seven percent in the mixture in the mixing arrangement, and the mass percent of wood powder is preferably 3 percent three, and the mass percent of TNT is preferably 41 percent.Can further improve the performance of the explosive of being prepared like this.

Above technical characterictic has constituted most preferred embodiment of the present utility model, and it has stronger adaptability and best implementation result, can increase and decrease non-essential technical characterictic according to actual needs, satisfies the demand of different situations.

The course of work of the utility model most preferred embodiment is: at first, the mixture of ammonium nitrate and wood powder is packed in first feed bin 2, TNT is packed in second feed bin 3; Then, mixture in first feed bin 2 is carried in the left part inner chamber of outer tube 9 by the master that first loading hopper 6 enters main quantitative helix transporting device, TNT in second feed bin 3 is sent in the middle part inner chamber of main conveying outer tube 9 by second loading hopper, 7, the second quantitative helix transporting device 13 simultaneously, mix with the mixture of ammonium nitrate and wood powder and be transported to the main right-hand member of carrying outer tube 9, enter into drum mixer 5 by conveying pipeline 4 by main helical blade 12; Afterwards, ammonium nitrate, wood powder and TNT are mixed in drum mixer 5 stirs, and is heated by steam cover 16 simultaneously and is heated to 75 degree Celsius, 90 degree extremely Celsius continuously and forms the plastic state mixture; At last, the plastic state mixture is outputed in the charging machine hopper 14 by explosive discharging opening 15, is loaded into the explosive-source explosive post of all size.

Claims (7)

1. an explosive-source explosive post serialization process units is characterized in that comprising frame, first feed bin, second feed bin, main quantitative helix transporting device, conveying pipeline and mixing arrangement; Main quantitative helix transporting device is fixed on the frame, and the left part and the right part of main quantitative helix transporting device have first charging aperture and second charging aperture respectively, and main spiral discharging mouth is arranged at the right-hand member bottom of main quantitative helix transporting device; First feed bin is fixed on the frame of main quantitative helix transporting device left part top, and there is first loading hopper bottom of first feed bin and is connected with first charging aperture; Second feed bin is fixed on the frame of main quantitative helix transporting device right part top, and there is second loading hopper bottom of second feed bin and is connected with second charging aperture; Mixing arrangement is fixed on the frame of main quantitative helix transporting device below, and the inner chamber of mixing arrangement is connected with main spiral discharging mouth by conveying pipeline.

2. explosive-source explosive post serialization process units according to claim 1, it is characterized in that main quantitative helix transporting device comprises main motor, the main outer tube of carrying, lead spindle and main screw conveyor shaft, the lower end outlet of first loading hopper is by first charging aperture and the main left part intracavity inter-connection of carrying outer tube, the lower end outlet of second loading hopper is by second charging aperture and the main right part intracavity inter-connection of carrying outer tube, the upper end import of conveying pipeline is connected with the main inner chamber right-hand member of outer tube of carrying by main spiral discharging mouth, main screw conveyor shaft two ends are installed in the main inside, outer tube two ends of carrying by bearing respectively, the power output shaft right-hand member of main motor is fixed together by the left end of lead spindle and main screw conveyor shaft, is fixed with the main helical blade of quantitative convey materials from left to right on the main screw conveyor shaft.

3. explosive-source explosive post serialization process units according to claim 1 and 2, it is characterized in that having between second loading hopper and second charging aperture second quantitative helix transporting device, the second quantitative helix transporting device is fixedly mounted on the frame, the second quantitative helix transporting device comprises second motor, second carries outer tube, second shaft coupling and second screw conveyor shaft, second carries the position of the corresponding second loading hopper lower end, outer tube rear portion that secondary charging aperture is arranged, second carries the position of anterior corresponding second charging aperture of outer tube top that secondary spiral discharging mouth is arranged, secondary spiral discharging mouth is connected by the looped pipeline joint with second charging aperture, the second screw conveyor shaft two ends are installed in second by bearing respectively and carry inside, outer tube two ends, the power output shaft end of second motor is fixed together by the rear end of second shaft coupling and second screw conveyor shaft, be fixed with on second screw conveyor shaft can by after quantitative second helical blade of convey materials forward.

4. explosive-source explosive post serialization process units according to claim 1 and 2, it is characterized in that mixing arrangement is to be the high right low drum mixer of placing in a left side, there is import the left part upper end of drum mixer and is connected with the lower end outlet of conveying pipeline, there is the explosive discharging opening that is positioned at charging machine hopper top the right part lower end of drum mixer, and the outside of drum mixer has the temperature that can make materials inside to remain on the steam jacket of 75 degree Celsius to 90 degree Celsius.

5. explosive-source explosive post serialization process units according to claim 3, it is characterized in that mixing arrangement is to be the high right low drum mixer of placing in a left side, there is import the left part upper end of drum mixer and is connected with the lower end outlet of conveying pipeline, there is the explosive discharging opening that is positioned at charging machine hopper top the right part lower end of drum mixer, and the outside of drum mixer has the temperature that can make materials inside to remain on the steam jacket of 75 degree Celsius to 90 degree Celsius.

6. explosive-source explosive post serialization process units according to claim 4, it is characterized in that having between explosive discharging opening and the charging machine hopper the low right high conveying worm in a left side, there is the charging aperture that is connected with the explosive discharging opening left part top of conveying worm, and there is the discharging opening that is connected with charging machine hopper oral area the right part below of conveying worm.

7. explosive-source explosive post serialization process units according to claim 5, it is characterized in that having between explosive discharging opening and the charging machine hopper the low right high conveying worm in a left side, there is the charging aperture that is connected with the explosive discharging opening left part top of conveying worm, and there is the discharging opening that is connected with charging machine hopper oral area the right part below of conveying worm.

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