CN115819156A - Vertical automatic heat-sealing machine for seismic explosive column shell - Google Patents

Abstract

The invention discloses a vertical automatic heat sealing machine for seismic charge shells, and particularly relates to the technical field of heat sealing of seismic charge shells. The vertical seismic charge column shell can be quickly subjected to up-down heat sealing operation, batch automatic heat sealing operation is realized, internal explosives are prevented from overflowing and dumping out, the temperature of the tops of a plurality of seismic charge column shells can be monitored only through one temperature sensor during heating, the heat sealing temperature is prevented from not reaching the standard, reworking of the seismic charge column shells in the later period is avoided, the seismic charge column shells are slowly guided and moved to the position of the next production line, the rapid blanking is realized, the efficiency of the seismic charge column shells during heat sealing can be effectively improved, the production efficiency is prevented from being reduced by reworking of the seismic charge column shells in the later period, and therefore the heat sealing efficiency is greatly improved.

Description

Vertical automatic heat-sealing machine for seismic explosive column shell

Technical Field

The invention relates to the technical field of thermal sealing of seismic explosive column shells, in particular to a vertical automatic thermal sealing machine for seismic explosive column shells.

Background

In general, the seismic charge product is placed in a hole for about 60 days, and then the seismic charge in the hole is detonated, so that the water resistance of the seismic charge is required to be greatly improved, and therefore, a vertical automatic heat sealing machine for the seismic charge shell is required to realize sealing, and the use requirements of users are met.

The invention patent of patent publication No. CN102032843B in the prior art discloses an automatic heat sealing device for seismic explosive columns. The automatic oil dipping device and the heat sealing device are arranged on the rack on the other side of the conveying chain belt in sequence, a shell baffle and a heat sealing rotating device are respectively arranged on the rack on the other side of the conveying chain belt corresponding to the automatic oil dipping device and the heat sealing device, and a material pressing device is arranged on the rack above the conveying chain belt in the middle of the heat sealing device and the heat sealing rotating device. The invention has reasonable structure, convenient use, high heat-sealing speed, high efficiency, good stability, high qualification rate, safety and reliability, realizes automatic heat sealing of the seismic charge, and greatly reduces the labor intensity of workers.

However, when the automatic heat sealing device for the seismic charge column shells is used, each seismic charge column shell needs to be horizontally placed to realize heat sealing operation, so that explosives in the whole seismic charge column shell are easy to topple over before heat sealing, glue for internal heat sealing is easy to topple over and gather at a point, the sealing effect is poor, heat sealing operation needs to be performed on the seismic charge column shells which are not subjected to heat sealing again in the later period, and the heat sealing efficiency is low.

Disclosure of Invention

In order to overcome the above drawbacks of the prior art, the present invention provides a vertical automatic heat sealing machine for seismic charge casings, which solves the above problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a vertical automatic heat sealing machine for a seismic charge shell comprises a heat sealing machine shell, wherein conveying frame plates are fixed on two sides of the inner wall of the heat sealing machine shell, a heat sealing mechanism is arranged below the conveying frame plates, and a guide assembly is arranged inside the conveying frame plates;

the heat seal mechanism is including installing the first bottom resistance heating rod of multiunit in transport frame plate below, one side of first bottom resistance heating rod is equipped with second bottom resistance heating rod, and the outer wall from the top down of second bottom resistance heating rod arranges in proper order equidistance has a plurality of arc heat conduction pieces, the bottom mounting of first bottom resistance heating rod has the connection pad that is used for playing vertical linkage effect to first bottom resistance heating rod, the bottom of connection pad just is located its centre of circle point position department and fixes the actuating cylinder, the inner wall top of heat seal machine shell has inserted down and has pushed down branch, and the fixed cylinder of pushing down in the top of pushing down branch, and the bottom welding of pushing down branch has the lower gland dish, and it has a plurality of top resistance heating rods that are ring grade distribution to peg graft in the bottom embedding of lower gland dish, the outside of pushing down branch is equipped with steady temperature subassembly.

Preferably, every group the quantity of first bottom resistance heating stick sets up to eight, and eight first bottom resistance heating sticks are ring equidistance and distribute the setting, the arc heat conduction piece is made by the copper product, and passes through welding technique fixed connection between arc heat conduction piece and the first bottom resistance heating stick.

Preferably, a controller for controlling the start or stop of the heat sealing machine is embedded in front of the heat sealing machine shell, the controller is fixedly connected with the heat sealing machine shell through bolts, three positioning support plates are sequentially arranged on the upper surface of the conveying frame plate at equal intervals from left to right, and a plurality of seismic source explosive column shells distributed in an annular and equal interval mode are movably inserted in the positioning support plates.

Preferably, the subassembly of stabilizing the temperature is including setting up at the outside rotation ring gear of the branch that pushes down, and the top of rotating the ring gear runs through the grafting and has had temperature sensor, the inner wall that rotates the ring gear is the ring equidistance and distributes and have a plurality of connection teeth, and the one side position department meshing of connecting the tooth has the drive ring gear, the top of drive ring gear is fixed with servo gear motor with the transmission of centre of a circle, servo gear motor and the branch outer wall one side fixed connection that pushes down, and push down the branch and make by stainless steel, the outer wall movable sleeve who rotates the ring gear installs the spacing collar, and the outer wall that rotates the ring gear is through the polishing processing of polishing.

Preferably, the guiding assembly comprises a transmission belt arranged inside the conveying frame plate, the transmission belt is movably connected with two driving rods, one end of each driving rod is connected with an upper driving motor in a coaxial transmission and fixing mode, one side of the conveying frame plate is fixedly connected with a concave frame, an arc-shaped flow guide supporting plate is installed on one side of the concave frame, a plurality of rolling shaft rods are arranged on the inner walls of the concave frame and the arc-shaped flow guide supporting plate, sleeves are movably connected to the outer walls of the rolling shaft rods, inclined supports are fixed to the inner walls of the arc-shaped flow guide supporting plate, the four rolling shaft rods are fixedly connected with the concave frame, and the other three rolling shaft rods are fixedly welded with the arc-shaped flow guide supporting plate.

1. According to the invention, a heat sealing mechanism is adopted to electrify a first bottom resistance heating rod and a second bottom resistance heating rod, and electrify a top resistance heating rod, a pushing cylinder is moved to drive a connecting disc to push upwards, the connecting disc drives a plurality of first bottom resistance heating rods to move upwards, the bottom of a seismic explosive column shell can be sleeved in a space formed between two arc-shaped heat conducting blocks, heat sealing treatment is realized on the bottom of the seismic explosive column shell, a pressing cylinder drives a pressing support rod to move downwards, the top resistance heating rod is inserted into the inner position at the top end of the seismic explosive column shell, heat sealing treatment is realized on the top position of the seismic explosive column shell, up-and-down heat sealing operation can be quickly realized on a plurality of vertical seismic explosive column shells, batch automatic heat sealing operation is realized, internal explosives are prevented from overflowing and falling out, and the heat sealing efficiency is improved;

2. when the top resistance heating rod is used for heating the top of the seismic charge shell, the servo reducing motor needs to be started to drive the driving toothed ring to rotate, the driving toothed ring drives the connecting teeth to realize meshing transmission, and the rotating toothed ring drives the temperature sensor to realize movement, so that the temperature sensor can realize temperature measurement operation on the upper surfaces of the seismic charge shells, overhigh or overlow temperature is avoided, heating is realized according to the specified temperature, the temperatures of the tops of the seismic charge shells can be monitored only through one temperature sensor during heating, the monitoring range is wider, the cost is lower, the heat-sealing temperature is prevented from not reaching the standard, and the seismic charge shell is prevented from being reworked in the later period;

3. according to the invention, the driving motor drives the driving rod to realize rotary driving by adopting the guide assembly, the driving rod drives the driving belt to realize transmission, the positioning support plate can move along the upper surface of the connecting concave frame and then is contacted with the lower surface of the positioning support plate by a plurality of sleeves, and the positioning support plate moves to the position of the outer wall of the arc-shaped guide support plate along the sleeves, so that the seismic focus explosive column shell inside the positioning support plate is prevented from being impacted with the next production line, the seismic focus explosive column shell inside the positioning support plate can be prevented from being impacted with the next production line, and the seismic focus explosive column shell is slowly guided to move to the position of the next production line, so that the rapid blanking is realized, and the blanking safety is ensured;

to sum up, through the above-mentioned interact of a plurality of effects, can realize the heat seal operation from top to bottom to a plurality of vertical seismic source powder column casings fast, realize automatic heat seal operation in batches, avoid inside explosive to overflow and empty out, thereby improve the heat seal efficiency, only need can supervise a plurality of seismic source powder column casing top temperature through a temperature sensor during the heating, avoid the heat seal temperature not up to standard, avoid the later stage to seismic source powder column casing reworking, slow direction removes to next production line position department, not only quick unloading, and guarantee the security of unloading, to sum up can effectively improve seismic source powder column casing heat time-sealing efficiency, avoid reducing production efficiency to seismic source powder column casing later stage reworking, therefore the heat seal efficiency increases substantially.

Drawings

FIG. 1 is a schematic view of the main structure of the vertical automatic heat sealing machine for the seismic charge column casing of the present invention.

Fig. 2 is a schematic view of the vertical automatic heat sealing machine for seismic charge casings of the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of a bottom partial structure of a lower gland plate in the vertical automatic heat sealing machine for seismic charge casings of the invention.

FIG. 5 is a schematic view of a cut-off partial structure of a pressing strut in the seismic charge shell vertical automatic heat-sealing machine.

Fig. 6 is an enlarged schematic view of the structure at B in fig. 5 according to the present invention.

FIG. 7 is a schematic view of a partial structure of a vertical section of a conveying frame plate in the vertical automatic heat sealing machine for seismic charge casings of the present invention.

Fig. 8 is a schematic view of a vertical cross-sectional cut-off partial structure of a connecting concave frame (21) in the vertical automatic heat sealing machine for the seismic charge shell.

The reference signs are: 1. a heat sealing machine shell; 2. conveying the frame plate; 3. a first bottom resistive heating rod; 4. a second bottom resistive heating rod; 5. an arc-shaped heat conducting block; 6. a connecting disc; 7. a push cylinder; 8. pressing the cover plate downwards; 9. pressing the support rod downwards; 10. pressing down the air cylinder; 11. a top resistive heating rod; 12. a controller; 13. positioning a support plate; 14. rotating the toothed ring; 15. a temperature sensor; 16. a servo deceleration motor; 17. a drive gear ring; 18. a limit collar; 19. a drive belt; 20. a drive rod; 21. connecting the concave frame; 22. a sleeve; 23. a rolling shaft rod; 24. an arc-shaped flow guide support plate; 25. a tilting bracket; 26. a drive motor; 27. and connecting teeth.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The vertical automatic heat sealing machine for the seismic charge shells is provided with a heat sealing mechanism, a guide assembly and a temperature stabilizing assembly, the vertical automatic heat sealing machine for the seismic charge shells can realize vertical heat sealing operation by the arrangement of each mechanism and assembly, batch automatic heat sealing operation is realized, internal explosives are prevented from overflowing and dumping out, and therefore heat sealing efficiency is improved, and the specific structures of each mechanism and assembly are set as follows: .

In some embodiments, as shown in fig. 1 to 4, the heat sealing mechanism includes a plurality of groups of first bottom resistance heating rods 3 installed below the conveying frame plate 2, one side of the first bottom resistance heating rods 3 is provided with a second bottom resistance heating rod 4, and a plurality of arc heat conduction blocks 5 are sequentially arranged on an outer wall of the second bottom resistance heating rod 4 at equal intervals from top to bottom, a connection disc 6 for vertical linkage to the first bottom resistance heating rods 3 is fixed at a bottom end of the first bottom resistance heating rod 3, a push cylinder 7 is fixed at a bottom end of the connection disc 6 and at a center point position thereof, a lower pressing support rod 9 is inserted at a top end of an inner wall of the heat sealing machine housing 1, an upper pressing cylinder 10 is fixed at a top end of the lower pressing support rod 9, a lower pressing cover plate 8 is welded at a bottom end of the lower pressing support rod 9, a plurality of top resistance heating rods 11 distributed in a ring grade are inserted at a bottom end of the lower pressing cover plate 8, a temperature stabilizing assembly is arranged outside the lower pressing support rod 9, the number of each group of the first bottom resistance heating rods 3 is set to eight, and the eight first bottom resistance heating rods 3 are arranged at equal intervals, and the arc heat conduction blocks 5 are welded to the bottom ends of the first bottom resistance heating rods.

In some embodiments, as shown in fig. 1, a controller 12 for controlling the start or stop of the heat sealing machine is embedded in front of the heat sealing machine housing 1, and the controller 12 is fixedly connected with the heat sealing machine housing 1 through a bolt, so that the controller 12 can control the equipment to realize automatic operation, or can start the equipment to close or open, three positioning support plates 13 are installed on the upper surface of the conveying frame plate 2, the three positioning support plates 13 are sequentially arranged from left to right at equal intervals, and a plurality of seismic charge column housings are movably inserted on the positioning support plates 13 and distributed at equal intervals in a circular ring, so that the three positioning support plates 13 can place a plurality of vertical seismic charge column housing vertical automatic heat sealing machines side by side, and thus the vertical automatic heat sealing machines can be placed in a positioned manner.

In some embodiments, as shown in fig. 4-6, the temperature stabilizing assembly includes a rotating toothed ring 14 disposed outside the lower pressing rod 9, and a temperature sensor 15 is inserted through the top end of the rotating toothed ring 14, a plurality of connecting teeth 27 are distributed on the inner wall of the rotating toothed ring 14 in a circular ring shape at equal intervals, a driving toothed ring 17 is engaged at a position on one side of one of the connecting teeth 27, a servo deceleration motor 16 is concentrically fixed on the top end of the driving toothed ring 17, the servo deceleration motor 16 is fixedly connected with a fixed position on one side of the outer wall of the lower pressing rod 9, the lower pressing rod 9 is made of stainless steel, a limit collar 18 is movably sleeved on the outer wall of the rotating toothed ring 14, and the outer wall of the rotating toothed ring 14 is polished.

In some embodiments, as shown in fig. 2 to 8, the guiding assembly includes a driving belt 19 disposed inside the conveying frame plate 2, and two driving rods 20 are movably connected inside the driving belt 19, one end of one of the driving rods 20 is coaxially and fixedly connected with an upper driving motor 26, one side of the conveying frame plate 2 is fixedly connected with a concave frame 21, one side of the concave frame 21 is mounted with an arc-shaped guiding support plate 24, a plurality of rolling shaft rods 23 are disposed on inner walls of the concave frame 21 and the arc-shaped guiding support plate 24, and a sleeve 22 is movably connected to an outer wall of the rolling shaft rods 23, an inclined support 25 is fixed to an inner wall of the arc-shaped guiding support plate 24, wherein four rolling shaft rods 23 are fixedly connected with the concave frame 21, and the other three rolling shaft rods 23 are welded and fixed to the arc-shaped guiding support plate 24.

The working principle of the invention is as follows:

when the seismic charge is positioned and thermally sealed, a seismic charge shell filled with explosives can be vertically placed in a plurality of hole sites of a positioning support plate 13, the diameter of the bottom end of the seismic charge shell is small, and the diameter of the top of the seismic charge shell is large, so that the seismic charge shell is clamped in the plurality of hole sites on the positioning support plate 13, after the positioning support plate 13 moves to the position below a lower pressing cover plate 8, a first bottom resistance heating rod 3 and a second bottom resistance heating rod 4 can be electrified, a top resistance heating rod 11 is electrified, then a pushing cylinder 7 is started to drive a connecting disc 6 to upwards push, the connecting disc 6 drives a plurality of first bottom resistance heating rods 3 to upwards move, the first bottom resistance heating rods 3 drive an arc-shaped heat conduction block 5 to upwards move the second bottom resistance heating rod 4, so that the bottom of the seismic charge shell can be sleeved in a space formed between two arc-shaped heat conduction blocks 5, thermal sealing treatment is realized on the bottom of the seismic charge shell, meanwhile, a lower pressing cylinder 10 is started to drive a lower pressing support rod 9 to downwards move, the lower pressing cover plate 8 to drive a plurality of lower heating rods to the top of the seismic charge shell, and the top of the seismic charge shell is inserted into the top of the seismic charge shell, and the seismic charge shell is thermally sealed;

during temperature monitoring, when the top resistance heating rod 11 is heated to the top of the seismic explosive column shell, the servo speed-reducing motor 16 needs to be started to drive the driving toothed ring 17 to rotate, the driving toothed ring 17 drives the plurality of connecting teeth 27 to realize meshing transmission, the connecting teeth 27 can drive the rotating toothed ring 14 to rotate on the inner wall of the limit shaft collar 18, and the rotating toothed ring 14 drives the temperature sensor 15 to move, so that the temperature sensor 15 can realize temperature measurement operation on the upper surfaces of the plurality of seismic explosive column shells, the heating temperature of each seismic explosive column shell can be known, the thermal sealing operation at the specified temperature is guaranteed, the phenomenon that the temperature is too high or too low is avoided, and heating is realized according to the specified temperature;

during discharging, two driving motors 26 can be started, the driving motors 26 drive the driving rods 20 to realize rotary driving, the driving rods 20 drive the driving belts 19 to realize transmission, the driving belts 19 drive the positioning support plate 13 to move, the positioning support plate 13 can move along the upper surface of the connecting concave frame 21, and then the positioning support plate 13 is in contact with the lower surface of the positioning support plate 13 through the plurality of sleeves 22, so that the sleeves 22 can rotate on the outer wall of the rolling shaft rod 23, the positioning support plate 13 moves to the position of the outer wall of the arc-shaped flow guide support plate 24 along the sleeves 22 to realize arc-shaped guide downward movement, meanwhile, the inclined support 25 can play an arc-shaped guide supporting role on the arc-shaped flow guide support plate 24, so that the positioning support plate 13 can slide to move downward to another production line along arc-shaped guide to realize labeling operation, collision between a seismic source explosive column shell inside the positioning support plate 13 and the next production line is avoided, and slow guide movement is realized.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a vertical automatic heat-sealing machine of seismic source powder column casing, includes heat-sealing machine shell (1), the inner wall both sides of heat-sealing machine shell (1) all are fixed with transport deckle board (2), heat-sealing mechanism, its characterized in that are installed to the below of carrying deckle board (2): a guide assembly is arranged in the conveying frame plate (2);

heat seal mechanism is including installing the first bottom resistance heating stick of multiunit (3) in transport deckle board (2) below, one side of first bottom resistance heating stick (3) is equipped with second bottom resistance heating stick (4), and the outer wall from the top down equidistance of second bottom resistance heating stick (4) is arranged in proper order and is had a plurality of arc heat conduction pieces (5), the bottom mounting of first bottom resistance heating stick (3) has connection pad (6) that are used for playing vertical linkage effect to first bottom resistance heating stick (3), the bottom of connection pad (6) just is located its centre of a circle point position department and fixes and promotes actuating cylinder (7), press branch (9) down has been inserted on the inner wall top of heat-sealing machine shell (1), presses actuating cylinder (10) about the top of branch (9) is fixed, and presses the bottom welding of branch (9) down to have a plurality of top resistance heating stick (11) that are the ring grade and distribute down in the bottom embedding of gland dish (8), the outside that presses branch (9) down is equipped with temperature stabilizing component.

2. The vertical automatic heat sealing machine for seismic charge casings of claim 1, wherein: every group the quantity of first bottom resistance heating stick (3) sets up to eight, and eight first bottom resistance heating stick (3) are ring equidistance and distribute the setting.

3. The vertical automatic heat sealing machine for seismic charge casings of claim 1, wherein: the arc heat conduction block (5) is made of copper materials, and the arc heat conduction block (5) is fixedly connected with the first bottom resistance heating rod (3) through a welding technology.

4. The vertical automatic heat sealing machine for seismic charge casings of claim 1, wherein: the controller (12) used for controlling the starting or stopping of the heat sealing machine is embedded in the front of the heat sealing machine shell (1), and the controller (12) is fixedly connected with the heat sealing machine shell (1) through bolts.

5. The vertical automatic heat sealing machine for seismic charge casings of claim 1, wherein: the upper surface of the conveying frame plate (2) is provided with three positioning support plates (13) which are sequentially arranged at equal intervals from left to right, and the positioning support plates (13) are movably inserted with a plurality of seismic charge column shells which are distributed in a ring shape at equal intervals.

6. The vertical automatic heat sealing machine for seismic charge casings of claim 1, wherein: the temperature stabilizing assembly comprises a rotating gear ring (14) arranged outside the pressing support rod (9), a temperature sensor (15) is connected to the top end of the rotating gear ring (14) in a penetrating and inserting mode, a plurality of connecting teeth (27) are distributed on the inner wall of the rotating gear ring (14) in a circular ring equidistant mode, a driving gear ring (17) is meshed at one side position of one connecting tooth (27), and a servo speed reducing motor (16) is fixed to the top end of the driving gear ring (17) in a concentric transmission mode.

7. The vertical automatic heat sealing machine for seismic charge casings of claim 6, wherein: the servo speed reducing motor (16) is fixedly connected with a fixed position on one side of the outer wall of the downward pressing support rod (9), and the downward pressing support rod (9) is made of stainless steel.

8. The vertical automatic heat sealing machine for seismic charge casings of claim 6, wherein: the outer wall of the rotating toothed ring (14) is movably sleeved with a limit collar (18), and the outer wall of the rotating toothed ring (14) is polished and polished.

9. The vertical automatic heat sealing machine for seismic charge casings of claim 1, wherein: the guide assembly comprises a transmission belt (19) arranged inside a conveying frame plate (2), two driving rods (20) are movably connected inside the transmission belt (19), one of the driving rods (20) is fixedly connected with an upper driving motor (26) in a coaxial transmission mode at one end of the driving rod (20), a concave frame (21) is fixedly connected to one side of the conveying frame plate (2), an arc-shaped flow guide support plate (24) is installed on one side of the concave frame (21), a plurality of rolling shaft rods (23) are arranged on the inner walls of the concave frame (21) and the arc-shaped flow guide support plate (24), a sleeve (22) is movably connected to the outer wall of each rolling shaft rod (23), and an inclined support (25) is fixed to the inner wall of the arc-shaped flow guide support plate (24).

10. The vertical automatic heat sealing machine for seismic charge casings of claim 9, wherein: wherein four rolling shaft levers (23) all with be connected concave frame (21) fixed connection, three rolling shaft levers (23) all with arc water conservancy diversion extension board (24) welded fastening in addition.

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