CN214296775U - Detonator packaging assembly - Google Patents

Abstract

The utility model discloses a detonator packaging assembly, open bagging apparatus and detonator bagging-off evacuation closing device including detonator broken line device, detonator system bag, detonator broken line device is used for buckling the stub of line handle, detonator system bag is opened bagging apparatus and is used for making the wrapping bag and general the wrapping bag struts, detonator bagging-off evacuation closing device is used for packing into the line that the stub was buckled and struts the wrapping bag evacuation and seal in the wrapping bag. The detonator packaging assembly can realize full-automatic packaging, is favorable for improving detonator packaging efficiency and detonator packaging safety, and can bend two ends of a wire handle due to the fact that the detonator packaging assembly is provided with a broken line station, so that the length of the wire handle is effectively reduced, the depth length of a packaging bag is favorably reduced, production consumables of the packaging bag are reduced, and production resources are saved; the wire handle with shorter depth occupies less space, and can save storage resources and transportation resources.

Description

Detonator packaging assembly

Technical Field

The utility model relates to a civilian explosive packaging equipment technical field especially relates to detonator packaging assembly.

Background

The detonator needs to be packaged after production is completed, the existing equipment for packaging the detonator does not have a broken line station, namely, in a finished product packaged by the existing detonator packaging assembly, two ends (one end is a junction box, and the other end is a basic detonator) of a wire handle are respectively in a straight extending shape, so that the wire handle occupies a longer space undoubtedly, the utilization efficiency of a packaging bag is low, and production resources and transportation/storage resources are wasted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the detonator packaging assembly capable of reducing resource waste is provided.

In order to solve the technical problem, the utility model discloses a technical scheme be: the detonator packaging assembly comprises a detonator folding line device, a detonator bag making and opening device and a detonator bagging and vacuumizing sealing device, wherein the detonator folding line device is used for bending a wire end of a wire handle, the detonator bag making and opening device is used for manufacturing a packaging bag and opening the packaging bag, and the detonator bagging and vacuumizing sealing device is used for loading the wire handle with the bent wire end into the opened packaging bag, vacuumizing the packaging bag and sealing the packaging bag.

Further, the conveying line for conveying the line handle is further included.

Furthermore, the conveying line comprises a conveying table and a conveying belt, a windowing window for exposing the conveying belt is arranged in the middle area of the top surface of the conveying table, gaps are respectively formed between two sides of the conveying belt and two side walls of the windowing window, and one part of the detonator folding line device penetrates through the gaps and goes up and down along the Z-axis direction.

Furthermore, the exposed surface of the conveying belt is provided with a plurality of partition plates arranged at intervals.

Further, the device also comprises a feeding device, and the feeding device is used for placing the wire bundle on the conveying line.

Further, the labeling device is used for labeling the sealed packaging bag.

Further, the packaging bag boxing device further comprises a boxing device, and the boxing device is used for boxing the sealed packaging bags.

Further, detonator broken line device includes the broken line frame and locates respectively broken line lifting unit, broken line board and broken line subassembly in the broken line frame, broken line lifting unit is used for ordering about the line handle and removes along Z axle direction, the broken line board is used for right the end of a thread of line handle carries out the first time and buckles, the broken line subassembly is used for right the end of a thread of line handle carries out the second time and buckles so that the tip of the end of a thread of line handle is close to the middle part region of line handle.

Further, the detonator bag making and opening device comprises a material discharging mechanism, a bag making ultrasonic welding mechanism, a bag making cutting mechanism, a material pulling mechanism and a bag opening mechanism which are respectively arranged on the main frame; the discharging mechanism is used for releasing the folded material belt, the bag-making ultrasonic welding mechanism is used for welding the folded material belt along the direction perpendicular to the folding line of the folded material belt to form a bag edge, the bag-making cutting mechanism is used for cutting off the bag edge, the material-pulling mechanism is used for pulling the folded material belt, and the bag-opening mechanism is used for opening the packaging bags with bag edges on two sides.

Further, detonator bagging-off evacuation closing device includes detonator bagging-off mechanism, evacuation mechanism and envelope ultrasonic welding mechanism, detonator bagging-off mechanism is used for sending into the wire in the wrapping bag, evacuation mechanism includes vacuum suction nozzle, vacuum suction nozzle locates on the detonator bagging-off mechanism, vacuum suction nozzle is used for loading the wrapping bag evacuation that has the wire handle for the load, envelope ultrasonic welding mechanism is used for sealing the wrapping bag after the evacuation.

The beneficial effects of the utility model reside in that: the detonator packaging assembly can realize full-automatic packaging, is favorable for improving detonator packaging efficiency and detonator packaging safety, and can bend two ends of a wire handle due to the fact that the detonator packaging assembly is provided with a broken line station, so that the length of the wire handle is effectively reduced, the depth length of a packaging bag is favorably reduced, production consumables of the packaging bag are reduced, and production resources are saved; the wire handle with shorter depth occupies less space, and can save storage resources and transportation resources.

Drawings

Fig. 1 is a schematic structural diagram of the overall structure of a detonator packaging assembly according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a partial structure of a detonator packaging assembly according to a first embodiment of the present invention;

fig. 3 is a schematic structural view of a detonator folding line device according to the first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a detonator folding line device at another view angle according to the first embodiment of the present invention;

fig. 5 is a schematic structural diagram of a partial structure of a detonator folding line device according to the first embodiment of the present invention;

fig. 6 is a schematic structural view of a bag-making ultrasonic welding machine and a bag-making cutting mechanism in a detonator bag-making and bag-opening device according to an embodiment of the present invention;

fig. 7 is a schematic structural view (from another view angle) of a bag-making ultrasonic welding mechanism and a bag-making cutting mechanism in a detonator bag-making and bag-opening device according to the first embodiment of the present invention;

fig. 8 is a schematic structural view of a material pulling mechanism in a detonator bag making and unpacking device according to the first embodiment of the present invention;

fig. 9 is a schematic structural view of a bag opening assembly in a detonator bag opening device according to the first embodiment of the present invention;

fig. 10 is a schematic structural view of a bag opening assembly in a detonator bag opening device according to a first embodiment of the present invention;

fig. 11 is a schematic structural view of a detonator bagging mechanism in a detonator bagging vacuumizing sealing device according to the first embodiment of the present invention;

fig. 12 is a schematic structural view of a bag sealing ultrasonic welding mechanism in a detonator bagging, vacuumizing and sealing device according to the first embodiment of the present invention;

fig. 13 is a schematic structural view (from another view angle) of a sealing ultrasonic welding mechanism in a detonator bagging, vacuumizing and sealing device according to the first embodiment of the present invention;

fig. 14 is an enlarged view of detail a in fig. 13.

Description of reference numerals:

1. a feeding device;

2. a conveying line; 21. a conveying table; 22. a conveyor belt; 23. a gap; 24. a partition plate;

3. a detonator fold line device; 31. a broken line frame; 32. a fold line lifting assembly; 321. a fold line support plate; 3211. a broken line connecting plate; 3212. a vertical plate of a broken line; 3213. a fold line support plate; 322. a first lifting driving member for folding lines; 33. a wire folding plate; 34. a fold line component; 341. a fold line push plate; 342. a fold line two-axis drive platform; 35. a fold line fixing component; 351. rotating the support rod; 352. a fold line rotary drive assembly; 36. the fold line pressing component; 361. pressing the plate by the folding line; 362. the fold line presses against the driving piece;

4. a detonator bag making and opening device; 41. a discharging mechanism; 42. a bag-making ultrasonic welding mechanism; 43. a bag-making cutting mechanism; 44. a material pulling mechanism; 441. a first driving member for pulling material; 442. a material pulling and clamping assembly; 4421. pulling and clamping the driving piece; 4422. pulling a material clamping block; 443. a second cutter assembly; 444. a waste collection assembly; 445. a material pulling length adjusting assembly; 4451. a first sensor; 4452. a material pulling length adjusting driving part; 4453. connecting plates; 45. a bag opening mechanism; 451. a bag opening assembly; 4511. a sucker is arranged; 4512. a lower sucker; 452. a suction cup drive assembly; 453. a bag opening assembly; 4531. a three-axis drive platform; 4532. a bag opening driving member; 4533. a bag opening plate; 4534. a bag support; 4535. a screw rod; 46. a sub-chassis;

5. a detonator bagging, vacuumizing and sealing device; 51. a detonator bagging mechanism; 511. a bagging machine frame; 512. bagging a first driving member; 513. bagging a first push plate; 514. bagging a bearing plate; 515. a bagging second drive; 516. a tongue plate; 517. a bagging third drive; 518. bagging a fourth driving part; 519. bagging and mounting; 520. bagging a second push plate; 521. a fifth driving member for bagging; 523. a bagging and gathering mechanism; 5231. drawing in the driving piece; 5232. drawing the push plate in; 524. a bagging guide mechanism; 5241. a bagging guide drive; 5242. bagging guide plates; 53. a vacuum pumping mechanism; 54. a bag sealing ultrasonic welding mechanism; 541. a second ultrasonic welding assembly; 542. a nip assembly; 5421. a pressure port driving member; 5422. pressing a port pressing plate; 543. a bag pressing assembly; 5431. a bag pressing driving member; 5432. pressing a bag and pressing a plate; 544. a second sensor;

6. a labeling device;

7. a boxing device;

8. a wire handle;

9. a main frame; 91. and a support table.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The wire handle comprises a cable, a junction box and a basic detonator, wherein one end of the cable is connected with the junction box, the other end of the cable is connected with the basic detonator, and the cable is bent for multiple times and then is in a folded state.

Referring to fig. 1 to 14, the detonator packaging assembly comprises a detonator folding line device 3, a detonator bag making and opening device 4 and a detonator bagging and vacuumizing sealing device 5, wherein the detonator folding line device 3 is used for bending a wire end of a wire handle 8, the detonator bag making and opening device 4 is used for making a packaging bag and opening the packaging bag, and the detonator bagging and vacuumizing sealing device 5 is used for filling the wire handle 8 with the bent wire end into the opened packaging bag and vacuumizing and sealing the packaging bag.

From the above description, the beneficial effects of the present invention are: the detonator packaging assembly can realize full-automatic packaging, is favorable for improving detonator packaging efficiency and detonator packaging safety, and can bend two ends of the wire handle 8 due to the fact that the detonator packaging assembly is provided with the broken line station, so that the length of the wire handle 8 is effectively reduced, the depth length of a packaging bag is favorably reduced, production consumables of the packaging bag are reduced, and production resources are saved; the wire handle 8 with shorter depth occupies less space, and can save storage resources and transportation resources.

Further, a conveyor line 2 for the conveyor line handle 8 is included.

As can be seen from the above description, the mechanical equipment is used for feeding materials, which is beneficial to further improving the safety of the detonator packaging assembly.

Further, the conveying line 2 comprises a conveying table 21 and a conveying belt 22, a window for exposing the conveying belt 22 is arranged in the middle area of the top surface of the conveying table 21, gaps 23 are respectively formed between two sides of the conveying belt 22 and two side walls of the window, and one part of the detonator folding line device 3 penetrates through the gaps 23 to lift along the Z-axis direction.

As can be seen from the above description, the conveying line 2 and the detonator folding line device 3 are integrated together, so that the layout of each device in the detonator packaging assembly is more reasonable, and the occupied space of the detonator packaging assembly device is favorably reduced.

Further, the exposed surface of the conveyor belt 22 has a plurality of partition plates 24 disposed at intervals.

As can be seen from the above description, the dividing plates 24 are used for dividing the wire holders 8, and the same number of wire holders 8 are ensured between two adjacent dividing plates 24 to ensure the consistency of the products packaged by the detonator packaging assembly.

Further, a feeding device 1 is included, wherein the feeding device 1 is used for placing a wire handle 8 on the conveying line 2.

As can be seen from the above description, the mechanical equipment is used for feeding, which is beneficial to further improving the safety of the detonator packaging assembly. Simultaneously, loading attachment 1's setting can further improve the degree of automation of detonator packaging assembly, does benefit to the packing efficiency who improves detonator packaging assembly.

Further, the packaging bag labeling device further comprises a labeling device 6, and the labeling device 6 is used for labeling the sealed packaging bag.

According to the above description, the automatic labeling device 6 is arranged to further improve the automation degree of the detonator packaging assembly, so that the packaging efficiency of the detonator packaging assembly is improved.

Further, the packaging device further comprises a boxing device 7, and the boxing device 7 is used for boxing the sealed packaging bags.

As can be seen from the above description, the automatic boxing device 7 can further improve the automation degree of the detonator packaging assembly, and is beneficial to improving the packaging efficiency of the detonator packaging assembly.

Further, the detonator folding line device 3 comprises a folding line frame 31, and a folding line lifting assembly 32, a folding line plate 33 and a folding line assembly 34 which are respectively arranged on the folding line frame 31, wherein the folding line lifting assembly 32 is used for driving the wire handle 8 to move along the Z-axis direction, the folding line plate 33 is used for bending the wire end of the wire handle 8 for the first time, and the folding line assembly 34 is used for bending the wire end of the wire handle 8 for the second time so that the end part of the wire end of the wire handle 8 is close to the middle area of the wire handle 8.

As can be seen from the above description, the detonator folding line device 3 has a simple and smart structure.

Further, the detonator bag making and opening device 4 comprises a material discharging mechanism 41, a bag making ultrasonic welding mechanism 42, a bag making cutting mechanism 43, a material pulling mechanism 44 and a bag opening mechanism 45 which are respectively arranged on the main frame 9; the discharging mechanism 41 is used for releasing a folded material strip, the bag-making ultrasonic welding mechanism 42 is used for welding the folded material strip along a direction perpendicular to a folding line of the folded material strip to form a bag edge, the bag-making cutting mechanism 43 is used for cutting off the bag edge, the material-pulling mechanism 44 is used for pulling the folded material strip, and the bag-opening mechanism 45 is used for opening a packaging bag with bag edges on two sides.

As can be seen from the above description, the detonator bag making and opening device 4 can realize bag making and opening operations of a packaging bag, and facilitates subsequent filling of detonators into the packaging bag.

Further, detonator bagging-off evacuation closing device 5 includes detonator bagging-off mechanism 51, evacuation mechanism 53 and envelope ultrasonic welding mechanism 54, detonator bagging-off mechanism 51 is used for sending the line into the wrapping bag in 8, evacuation mechanism 53 includes vacuum suction nozzle, vacuum suction nozzle locates on detonator bagging-off mechanism 51, vacuum suction nozzle is used for loading the wrapping bag evacuation of line 8 into, envelope ultrasonic welding mechanism 54 is used for sealing the wrapping bag after will vacuumizing.

As can be seen from the above description, the ultrasonic welding mechanism is adopted to seal the packaging bag with the detonator, so that the risk of accidental detonation of the detonator is greatly reduced, and the use safety of the detonator packaging assembly is further improved.

Example one

Referring to fig. 1 to 14, a first embodiment of the present invention is: as shown in fig. 1, 2 and 4, the detonator packaging assembly, which can be used for packaging electronic detonators and the like, comprises a feeding device 1, a conveying line 2, a detonator folding line device 3, a detonator bag making and opening device 4, a detonator bagging and vacuumizing sealing device 5, a labeling device 6 and a boxing device 7; the feeding device 1 is used for placing the wire bundle 8 on the conveying line 2, the conveying line 2 is used for conveying the wire bundle 8, the detonator folding line device 3 is used for bending a wire head of the wire bundle 8, the detonator bag making and opening device 4 is used for making and opening the packaging bag, the detonator bagging and vacuumizing sealing device 5 is used for filling the wire bundle 8 with the bent wire head into the opened packaging bag and vacuumizing and sealing the packaging bag, the labeling device 6 is used for labeling the sealed packaging bag, and the boxing device 7 is used for boxing the sealed and labeled packaging bag.

As shown in fig. 1, the feeding device 1 may select a material taking device disclosed in chinese patent with application number 201821980385.2; the transfer chain 2 is including carrying platform 21 and conveyer belt 22, the middle part region of the top surface of carrying platform 21 is equipped with the confession the exposed windowing of conveyer belt 22, the both sides of conveyer belt 22 with clearance 23 has respectively between the both sides wall of windowing, some of detonator broken line device 3 passes clearance 23 goes up and down along the Z axle direction, conveyer belt 22 is used for along Y axle direction conveying line 8, the exposure face of conveyer belt 22 has a plurality of division boards 24 that the interval set up, loading attachment 1 is at every turn to adjacent two same quantity of line 8 is put into to the region between the division board 24.

Referring to fig. 1 and 3 to 5, the detonator folding line device 3 includes a folding line frame 31, and a folding line lifting assembly 32, a folding line plate 33 and a folding line assembly 34 respectively disposed on the folding line frame 31, wherein the folding line lifting assembly 32 is configured to drive the wire handle 8 to move along the Z-axis direction, the folding line plate 33 is configured to bend the wire end of the wire handle 8 for the first time, and the folding line assembly 34 is configured to bend the wire end of the wire handle 8 for the second time so that the end of the wire handle 8 is close to the middle region of the wire handle 8. In this embodiment, the broken line frame 31 is fixed on the conveying table 21, so that the occupied space of the detonator packaging assembly can be reduced.

Referring to fig. 3 and 4, in particular, the folding line lifting assembly 32 includes a folding line supporting plate 321 and a folding line first lifting driving member 322, the folding line first lifting driving member 322 is fixed on the folding line frame 31, an output end of the folding line first lifting driving member 322 is connected to the folding line supporting plate 321, and one end of the folding line supporting plate 321 passes through the gap 23 on the conveying line 2 to lift along the Z-axis direction. More specifically, the broken line support plate 321 includes a broken line connecting plate 3211 connecting the first lifting driving element 322, two ends of the broken line connecting plate 3211 are respectively connected with a broken line riser 3212, a broken line supporting plate 3213 is arranged on the broken line riser 3212, the broken line connecting plate 3211 and the two broken line risers 3212 form a U-shaped structure, that is, the broken line supporting plate 3213 passes through the gap 23 on the conveying line 2 and is lifted along the Z-axis direction. In this embodiment, the detonator folding line device 3 is used for driving the wire handle 8 to ascend in a mode of lifting the wire handle 8, and in other embodiments, the detonator folding line device 3 can also be used for driving the wire handle 8 to ascend in a mode of lifting the wire handle 8, for example, clamping the wire handle 8 by a clamping jaw and lifting the wire handle 8. The first lifting driving member 322 of the folding line can select a cylinder, a linear push rod and the like.

It will be readily appreciated that the width between the two gaps 23 in the transfer wire 2 is less than the length of the fold line region of the wire handle 8, so that the detonator fold line device 3 is able to stably support both ends of the region of substantial weight of the wire handle 8 (i.e. the non-head region of the wire handle 8) when part of the area of the detonator fold line device 3 passes through the gaps 23. In a preferred embodiment, two ends of the top of the folding line support plate 3213 are respectively provided with a limiting protrusion, and the presence of the limiting protrusions can ensure that the handle 8 cannot accidentally drop off from the folding line support plate 3213 in the process of driving the handle 8 to rise. Optionally, guide surfaces are respectively arranged on the sides, close to each other, of the two limiting protrusions on the same broken line support plate 3213, and the guide surfaces may be arc surfaces or inclined surfaces. The presence of the guide surface provides guidance for the wire 8 between two adjacent divider panels 24, thereby ensuring that the fold-line support plate 3213 can lift all of the wire 8 between two adjacent divider panels 24.

Referring to fig. 3 and 4, in detail, the number of the two line folding plates 33 is two, the two line folding plates 33 are arranged oppositely, the line folding plates 33 are located at the upper part of the line folding frame 31, the distance between the two line folding plates 33 is slightly larger than the length of the non-end area of the line handle 8, when the line handle 8 is lifted to a certain height by the line folding plates 3213, the end of the line handle 8 contacts the bottom end of the line folding plates 33, the line handle 8 is continuously lifted by the line folding plates 3213, and under the abutting action of the line folding plates 33 on the end of the line handle 8, the end of the line handle 8 is bent for the first time in the direction close to the conveying table 21.

As shown in fig. 3, the folding line assembly 34 includes a folding line pushing plate 341 and a folding line two-axis driving platform 342, the folding line two-axis driving platform 342 is fixed on the folding line frame 31, and the output end of the folding line two-axis driving platform 342 is connected with the folding line pushing plate 341 to drive the folding line pushing plate 341 to move along the X-axis direction and the Z-axis direction, the folding line pushing plate 341 is used for abutting against the thread end of the thread handle 8 to enable the end of the thread handle 8 to be close to the middle region of the thread handle 8. It should be noted that, in other embodiments, a single-axis linear driving element may be used to replace the two-axis driving platform 342 for driving the push plate 341 directly along the X-axis direction. However, the folding device of this embodiment can better bend the thread end of the thread bundle 8 by using the folding biaxial driving platform 342, specifically, the folding biaxial driving platform 342 can drive the folding push plate 341 to bend the thread end of the thread bundle 8 along the oblique line direction (i.e. the direction forming an acute angle with the X axis and the Z axis respectively), so as to avoid that the folding push plate 341 accidentally presses the non-thread-end region of the thread bundle 8 to make the thread bundle 8 messy, and can make the end of the thread bundle 8 abut against the middle region of the thread bundle 8, thereby improving the bending effect of the thread end of the thread bundle 8. Optionally, the two-axis driving platform 342 includes two connected air cylinders, one of which acts along the X-axis direction, and the other of which acts along the Z-axis direction.

Referring to fig. 3 to 5, the detonator folding line device 3 further includes a plurality of folding line fixing assemblies 35 disposed on the folding line frame 31, the folding line fixing assemblies 35 are used for fixing the wire handle 8 lifted by the folding line lifting assembly 32, and the arrangement of the folding line fixing assemblies 35 can prevent the folding line lifting assembly 32 and the folding line pushing plate 341 from interfering in the working process. In this embodiment, the number of the fold line fixing assemblies 35 is four, and the four fold line fixing assemblies 35 are arranged in a matrix; in other embodiments, the number of the broken line fixing components 35 can also be one, two or other numbers, as the case may be.

In this embodiment, the broken line fixing assembly 35 includes a rotary supporting rod 351 and a broken line rotary driving assembly 352, the broken line rotary driving assembly 352 is fixed on the broken line frame 31, and an output end of the broken line rotary driving assembly 352 is connected with the rotary supporting rod 351 to rotate so that the rotary supporting rod 351 supports or avoids the wire handle 8. Optionally, the broken line rotation driving assembly 352 includes a broken line rotation driving member, a rack and a gear, the gear is rotatably disposed on the broken line frame 31 and is connected to the rotation supporting rod 351, the broken line rotation driving member is fixed on the broken line frame 31 and is connected to the rack, and the rack is engaged with the gear. The folding line rotary driving piece can select an air cylinder, a linear push rod and the like, in other embodiments, the folding line rotary driving piece can also select a motor and the like, and when the motor is selected for the folding line rotary driving piece, the matching structure of the rack and the gear can be replaced by a worm and gear matching structure.

With reference to fig. 3 and 5, in order to further improve the fold line effect, the detonator fold line device 3 further includes a fold line pressing component 36 disposed on the fold line frame 31, and the fold line pressing component 36 includes a fold line pressing plate 361 and a fold line pressing driving member 362 for driving the fold line pressing plate 361 to press the handle 8. In this embodiment, the broken line is supported and is pressed subassembly 36 to be located two regional top between the broken line board 33, the broken line is supported and is pressed subassembly 36 to support when broken line subassembly 34 is buckled the end of a thread of 8, avoids the end of a thread of 8 at the in-process of buckling, and the line is 8 to appear warping the phenomenon so that the broken line effect receives the influence.

The specific working process of the folding line device is briefly described as follows: when the conveyer belt 22 conveys the wire handle 8 to a preset position, the broken line first lifting driving member 322 drives the broken line supporting plate 321 to pass through the gap 23 and push against the wire handle 8 to lift, wherein the position where the broken line supporting plate 321 pushes against the wire handle 8 is positioned at two ends (non-head area) of the wire handle 8; when the wire handle 8 rises between the two wire folding plates 33, the wire handle 8 is continuously lifted by the wire folding supporting plate 321, and the wire end of the wire handle 8 is bent downwards under the action of the wire folding plates 33 (the wire handle 8 is bent for the first time); the broken line rotation driving component 352 drives the rotation supporting rod 351 to rotate, so that the length direction of the rotation supporting rod 351 is changed from the direction along the X axis to the direction along the Y axis, the bottom of the line handle 8 positioned between the two broken line plates 33 is further supported, and the broken line first lifting driving component 322 drives the broken line supporting plate 321 to descend for a certain distance; the driving member 362 drives the pressing plate 361 to press downward, so that the pressing plate 361 presses the top of the handle 8; the fold line two-axis driving platform 342 drives the fold line push plate 341 to abut against the thread end of the thread handle 8, so that the thread end of the thread handle 8 is bent towards the middle area of the thread handle 8 (the thread handle 8 is bent for the second time); finally, the two-axis driving platform 342 drives the pushing plate 341 to reset, the first driving member 322 drives the supporting plate 321 to ascend to support the bundle of wires 8, the rotating driving assembly 352 drives the rotating rod 351 to reset, the pressing member 362 drives the pressing plate 361 to reset, and the first driving member 322 drives the supporting plate 321 to descend to return the bundle of wires 8 to the conveying belt 22.

Referring to fig. 2 and fig. 6 to fig. 10, the detonator bag making and opening device 4 includes a material feeding mechanism 41, a bag making ultrasonic welding mechanism 42, a bag making cutting mechanism 43, a material pulling mechanism 44 and a bag opening mechanism 45 respectively disposed on the main frame 9; the discharging mechanism 41 is used for releasing a folded material strip, the bag-making ultrasonic welding mechanism 42 is used for welding the folded material strip along a direction perpendicular to a folding line of the folded material strip to form a bag edge, the bag-making cutting mechanism 43 is used for cutting off the bag edge, the material-pulling mechanism 44 is used for pulling the folded material strip, and the bag-opening mechanism 45 is used for opening a packaging bag with bag edges on two sides.

As shown in fig. 2, 6 and 7, in order to make the structure of the detonator bag making and opening device 4 more compact, the detonator bag making and opening device 4 further includes a sub-frame 46 disposed on the main frame 9, the bag making ultrasonic welding mechanism 42 includes a first ultrasonic welding component, the bag making cutting mechanism 43 includes a first cutting blade component, the first ultrasonic welding component and the first cutting blade component are both disposed on the sub-frame 46, and the first cutting blade component is located on a side of the first ultrasonic welding component away from the material placing mechanism 41. Since the first ultrasonic welding assembly and the first cutter assembly are conventional mechanisms, the present embodiment is not described in detail.

Referring to fig. 2 and 8, the material pulling mechanism 44 includes a first material pulling driving member 441 and a material pulling clamping assembly 442, the first material pulling driving member 441 is disposed on the main frame 9, an output end of the first material pulling driving member 441 is connected to the material pulling clamping assembly 442 to drive the material pulling clamping assembly 442 to move along the Y-axis direction, and the material pulling clamping assembly 442 is configured to clamp the bag edge. In detail, the material pulling and clamping assembly 442 includes a material pulling and clamping driving piece 4421 and two material pulling and clamping blocks 4422, and the material pulling and clamping driving piece 4421 is connected to the two material pulling and clamping blocks 4422 to drive the two material pulling and clamping blocks 4422 to open and close so as to clamp the bag edge. The first material drawing driving part 441 can be an air cylinder and the like, and the material drawing clamping driving part 4421 can be a clamping air cylinder.

To ensure that the pulling mechanism 44 can stably pull material, the number of the pulling and clamping assemblies 442 is plural, for example, in this embodiment, the number of the pulling and clamping assemblies 442 is two, and the two pulling and clamping assemblies 442 are disposed away from each other. In order to facilitate the tearing of the packaging bag by the subsequent user, at least one of the pulling and clamping assemblies 442 is provided with a second cutter assembly 443, and the second cutter assembly 443 is used for cutting a notch on the edge of the packaging bag, and optionally, the notch is triangular.

As shown in fig. 6 and 7, since waste is generated when the notch is made, the detonator bag making and opening device 4 further includes a waste collecting assembly 444 disposed adjacent to the bag making and cutting mechanism 43, the waste collecting assembly 444 being configured to collect waste made by the second cutter assembly 443.

As shown in fig. 8, to improve the versatility of the pulling mechanism 44, so that the pulling mechanism 44 can pull out packages with different bag opening lengths, the pulling mechanism 44 further includes a pulling length adjusting assembly 445, and the pulling length adjusting assembly 445 includes a first sensor 4451. In this embodiment, the material pulling length adjusting assembly 445 further includes a material pulling length adjusting driving member 4452 and a connecting plate 4453 connected to each other, the material pulling length adjusting driving member 4452 is disposed on the main frame 9, an output end of the material pulling length adjusting driving member 4452 is connected to the connecting plate 4453 to drive the connecting plate 4453 to move along the Y-axis direction, and the first sensor 4451 is disposed on the connecting plate 4453. The material pulling length adjusting driving piece 4452 can be an air cylinder, a linear push rod and the like. When the first pulling driving member 441 drives the pulling clamping assembly 442 to pull the bag edge to the detection position of the first sensor 4451, the first pulling driving member 441 stops; the pulling length adjusting assembly 445 adjusts the detecting position of the first sensor 4451 by moving the first sensor 4451 along the Y-axis direction.

As shown in fig. 2 and 9, the bag opening mechanism 45 includes a bag opening assembly 451 and a suction cup driving assembly 452, the bag opening assembly 451 includes an upper suction cup 4511 and a lower suction cup 4512, the lower suction cup 4512 is located right above the upper suction cup 4511, and the suction cup driving assembly 452 is configured to drive at least one of the upper suction cup 4511 and the lower suction cup 4512 to move along the Z-axis direction. The suction cup driving assembly 452 may be an air cylinder, a linear push rod, or the like.

As shown in fig. 2 and 10, in detail, the bag opening mechanism 45 further includes a bag opening assembly 453, the bag opening assembly 453 includes a three-axis driving platform 4531, a bag opening driving member 4532 and two bag opening plates 4533, the bag opening driving member 4532 is connected to the three-axis driving platform 4531, the three-axis driving platform 4531 is connected to the main frame 9, and an output end of the bag opening driving member 4532 is connected to the two bag opening plates 4533 to open and close the two bag opening plates 4533. In more detail, the bag supporting assembly 453 further includes a bag supporting bracket 4534, and the bag supporting driving member 4532 is connected to the three-axis driving platform 4531 through the bag supporting bracket 4534, that is, the bag supporting driving member 4532 is disposed on the bag supporting bracket 4534. In this embodiment, the bag supporting plate 4533 is slidably disposed on the bag supporting bracket 4534 along a Y axis, the bag supporting bracket 4534 is further provided with a screw rod 4535, the bag supporting driving member 4532 is a driving motor, and the driving motor is connected to the two bag supporting plates 4533 through the screw rod 4535 to drive the two bag supporting plates 4533 to open and close. As can be easily understood, the bag supporting plate 4533 is provided with a threaded hole matching with the screw rod 4535, and the thread directions of the threaded holes on the two bag supporting plates 4533 are different. In other embodiments, one bag opening plate 4533 may be fixed to the bag opening support 4534, and the bag opening driving member 4532 only needs to drive the other bag opening plate 4533 along the Y-axis direction. In this embodiment, the three-axis driving platform 4531 includes three cylinders, one cylinder moves along the X-axis direction, another cylinder moves along the Y-axis direction, and the last cylinder moves along the Z-axis direction.

The specific working process of the detonator bag making and opening device 4 is as follows: the material feeding mechanism 41 releases the folded material belt (in the packaging bag, the end far away from the bag opening is the folding line of the material belt), the first ultrasonic welding component welds the material belt to form a bag edge, the material pulling first driving component 441 drives the material pulling clamping component 442 to approach and clamp the bag edge, after the bag edge is clamped by the material pulling clamping component 442, the material pulling first driving component 441 drives the material pulling clamping component 442 to move along the Y-axis direction until the bag edge reaches the detection position of the first sensor 4451, the material pulling first driving component 441 stops, the first ultrasonic welding component welds the material belt to form a next bag edge, then the first cutter component cuts off the next bag edge from the central line of the next bag edge to obtain the packaging bag, then the upper sucker 4511 and the lower sucker 4512 of the bag opening component 451 adsorb the packaging bag from the top surface and the bottom surface of the packaging bag, and the sucker driving component 452 drives the upper sucker 4511, the lower sucker 4512, the bag opening component sucks the packaging bag edge from the top surface and the bottom surface of the packaging bag opening component, The lower suction cups 4512 are separated to open the mouth of the pouches, the three-axis drive platform 4531 then drives the two folded gusset panels 4533 to insert the pouches from their mouths, and the gusset drive 4532 then drives the two gusset panels 4533 apart to fully open the pouches.

Referring to fig. 1 and 11 to 14, the detonator bagging and vacuumizing and sealing device 5 includes a detonator bagging mechanism 51, a vacuumizing mechanism 53 and a bag sealing ultrasonic welding mechanism 54, the detonator bagging mechanism 51 is used for feeding the wire bundle 8 on the conveying line 2 into a packaging bag, the vacuumizing mechanism 53 includes a vacuum suction nozzle, the vacuum suction nozzle is arranged on the detonator bagging mechanism 51 and is used for vacuumizing the packaging bag loaded with the wire bundle 8, and the bag sealing ultrasonic welding mechanism 54 is used for sealing the vacuumized packaging bag.

As shown in fig. 11, specifically, the detonator bagging mechanism 51 includes a bagging frame 511, a bagging first driving member 512, a bagging first push plate 513, a bagging bearing plate 514 and a bagging second driving member 515, the bagging first driving member 512 is disposed on the bagging frame 511 and connected to the bagging first push plate 513 to drive the bagging first push plate 513 to move along the X-axis direction, the bagging second driving member 515 is disposed on the bagging frame 511 and connected to the bagging bearing plate 514 to drive the bagging bearing plate 514 to move along the X-axis direction, and the bagging bearing plate 514 is used for bearing the line handle 8. Optionally, the bagging frame 511 is disposed on the conveying table 21. The bagging first driving element 512 and the bagging second driving element 515 can be respectively selected from air cylinders.

A tongue plate 516 is arranged at one end of the bagging bearing plate 514, which is far away from the bagging first push plate 513, and the tongue plate 516 can extend into the opened packaging bag, so that the wire handle 8 on the bagging bearing plate 514 can be smoothly fed into the packaging bag.

Detonator bagging-off mechanism 51 still includes bagging-off third drive 517, bagging-off fourth drive 518, bagging-off mounting bracket 519 and bagging-off second push pedal 520, bagging-off third drive 517 locates on the bagging-off frame 511 and connect bagging-off fourth drive 518 is in order to order about the removal of bagging-off fourth drive 518 along the X axle direction, the output of bagging-off fourth drive 518 is connected bagging-off mounting bracket 519 is in order to order about the removal of bagging-off mounting bracket 519 along the Z axle direction, bagging-off mounting bracket 519 connects bagging-off second push pedal 520, vacuum nozzle locates on the bagging-off mounting bracket 519, be equipped with on the bagging-off second push pedal 520 and be used for keeping away the position groove is kept away to vacuum nozzle's suction nozzle.

The detonator bagging mechanism 51 further comprises a bagging fifth driving member 521, the bagging mounting frame 519 is connected with the bagging second push plate 520 through the bagging fifth driving member 521, and the bagging fifth driving member 521 is used for driving the bagging second push plate 520 to move along the X-axis direction. The bottom that the line handle 8 can be pushed to the wrapping bag can be ensured in the setting of bagging-off fifth driving piece 521, avoids vacuum suction nozzle to stretch into length overlength in the wrapping bag, and causes harmful effects to follow-up operation of sealing. As will be readily appreciated, the bagging fourth drive 518 and the bagging fifth drive 521 can be pneumatic cylinders, respectively.

For letting a plurality of lines on bagging bearing board 514 fold each other 8 in order to make things convenient for the bagging-off, detonator bagging-off mechanism 51 still includes bagging-off draw in mechanism 523, bagging-off draw in mechanism 523 includes draw in driving piece 5231 and draw in push pedal 5232, draw in driving piece 5231 locate on the bagging bearing board 514 and connect draw in push pedal 5232 in order to order about draw in push pedal 5232 and remove along the Y axle direction, specifically, the quantity of bagging-off mechanism 523 is two, two bagging-off draw in mechanism 523 sets up relatively. The furling drive 5231 may be an air cylinder, a linear push rod, or the like.

To ensure that the wire handle 8 on the conveying belt 22 can be smoothly pushed onto the bagging bearing plate 514, the detonator bagging mechanism 51 further comprises two bagging guide mechanisms 524, the bagging guide mechanisms 524 comprise a bagging guide driving member 5241 and a bagging guide plate 5242, and the bagging guide driving member 5241 is arranged on the bagging frame 511 and connected with the bagging guide plate 5242 to drive the bagging guide plate 5242 to move along the X-axis direction. As a preferred embodiment, the distance between two adjacent partition plates 24 on the conveying belt 22 is slightly larger than the distance between two bagging guide plates 5242. The bagging guide drive 5241 can be an air cylinder, a linear push rod, or the like. Preferably, a guide portion is provided at an end of the bagging guide plate 5242 away from the bagging carrier plate 514.

Referring to fig. 12 to 14, the bag sealing ultrasonic welding mechanism 54 includes a second ultrasonic welding component 541, a bag pressing component 542, and a bag pressing component 543, the bag pressing component 543 is located at a side of the second ultrasonic welding component 541 far from the detonator bagging mechanism 51, the bag pressing component 543 is used for pressing and fixing the wire handle 8 in the packaging bag, and the bag pressing component 542 is used for pressing and pressing the bag opening of the packaging bag and the vacuum suction nozzle.

As shown in fig. 12, the bag pressing assembly 543 includes a bag pressing driving element 5431 and a bag pressing plate 5432 which are connected, the bag pressing driving element 5431 is disposed on the main frame 9, the bag pressing plate 5432 is used for pressing the packaging bag provided with the handle 8, which is easy to understand, a supporting table 91 is further disposed on the main frame 9, the supporting table 91 is located below the bag pressing plate 5432, further, a conveyor belt is disposed on the supporting table 91 and is used for conveying the packaging bag after sealing, so that the packaging bag after sealing is labeled by the subsequent labeling device 6. The bag pressing driving piece 5431 can be selected from an air cylinder, a linear push rod and the like.

Referring to fig. 12 to 14, the mouth pressing assembly 542 includes a mouth pressing driving member 5421 and a mouth pressing plate 5422 connected to each other, the mouth pressing driving member 5421 is disposed on the main frame 9, and the mouth pressing plate 5422 is used for closing the opening of the packaging bag. It is understood that the number of the pressure-opening pressing plates 5422 is two, and as a preferred embodiment, the pressure-opening pressing plates 5422 are made of rubber. The pressure port driving part 5421 can be selected from an air cylinder, a linear push rod and the like.

As shown in fig. 13 and 14, in order to improve the safety of the cap bagging vacuum sealing device 5, the bag sealing ultrasonic welding mechanism 54 further includes a second sensor 544, the second sensor 544 is disposed near the second ultrasonic welding component 541 and is located on a side of the second ultrasonic welding component 541 away from the cap bagging mechanism 51, and the second sensor 544 is used for detecting the wire end of the wire handle 8 in the packaging bag. When the second sensor 544 detects that the wire end of the wire handle 8 extends to the detection position of the second sensor 544, it indicates that at least part of the wire end of the wire handle 8 is not bent in place or the wire handle 8 is not fed into the packaging bag in place, and the detonator bagging and vacuumizing sealing device 5 immediately stops working, so that the probability of accidents can be reduced, and the waste of production resources can be further reduced. Preferably, the second sensor 544 forms a detection light curtain at the detection position thereof, so that the detection accuracy can be ensured.

The specific working process of the detonator bagging, vacuumizing and sealing device 5 is briefly as follows: when the thread bundle 8 with the thread end bent on the conveyor belt 22 is conveyed to a predetermined position, the bagging guide driving member 5241 drives the bagging guide plate 5242 to move in the X-axis direction so that one end of the bagging guide plate 5242 having a guide portion extends between two adjacent partition plates 24 on the conveyor belt 22; the bagging first driving member 512 drives the bagging first push plate 513 to push the thread bundle 8 with the bent thread end onto the bagging bearing plate 514; under the action of the two furling drives 5231, the two furling push plates 5232 furl the plurality of wire grips 8 located on the bagging carrier plate 514; the bagging second driving element 515 drives the bagging bearing plate 514 to move along the X-axis direction, so that the tongue plate 516 extends into the opened packaging bag; the bagging fourth driving piece 518 drives the bagging second push plate 520 to descend, and the bagging third driving piece 517 drives the bagging mounting frame 519 to move along the X-axis direction so as to push the line bundle 8 on the bagging bearing plate 514 to enter the packaging bag; the fifth driving member 521 for bagging pushes the second pushing plate 520 for bagging along the X-axis direction to make the thread handle 8 go deep into the bag; the fifth driving member 521 for bagging is reset; the bag pressing driving piece 5431 drives the bag pressing plate 5432 to press downwards to fix the wire handle 8 in the packaging bag; the opening pressing driving piece 5421 drives the opening pressing plate 5422 to press the opening of the packaging bag and the vacuum suction nozzle, so that the vacuum pumping operation in the packaging bag is completed; the second ultrasonic welding unit 541 welds the opening of the packing bag subjected to the vacuuming operation to seal the packing bag.

To sum up, the detonator packaging assembly provided by the utility model can realize full-automatic packaging, is beneficial to improving the detonator packaging efficiency and the detonator packaging safety, and can effectively reduce the length of the wire handle and is beneficial to reducing the depth length of the packaging bag because the detonator packaging assembly is provided with the broken line station, thereby reducing the production material consumption of the packaging bag and saving the production resource; the wire handle with shorter depth occupies less space, and can save storage resources and transportation resources.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. Detonator package assembly, its characterized in that: the detonator bag making and opening device is used for manufacturing packaging bags and opening the packaging bags, and the detonator bagging and vacuumizing sealing device is used for loading the wire bundles with the bent wire ends into the opened packaging bags, vacuumizing the packaging bags and sealing the packaging bags.

2. The detonator packaging assembly of claim 1 wherein: the conveying line is used for conveying the line handle.

3. The detonator packaging assembly of claim 2 wherein: the conveying line comprises a conveying table and a conveying belt, a windowing for exposing the conveying belt is arranged in the middle area of the top surface of the conveying table, gaps are respectively reserved between two sides of the conveying belt and two side walls of the windowing, and a part of the detonator folding line device penetrates through the gaps and goes up and down along the Z-axis direction.

4. The detonator packaging assembly of claim 3 wherein: the exposed surface of the conveying belt is provided with a plurality of partition plates arranged at intervals.

5. The detonator packaging assembly of claim 2 wherein: the automatic wire handle feeding device further comprises a feeding device, and the feeding device is used for placing wire handles onto the conveying line.

6. The detonator packaging assembly of claim 1 wherein: the labeling device is used for labeling the sealed packaging bag.

7. The detonator packaging assembly of claim 1 wherein: the packaging bag boxing device is used for boxing the sealed packaging bags.

8. The detonator packaging assembly of claim 1 wherein: detonator broken line device includes the broken line frame and locates respectively broken line lifting unit, broken line board and broken line subassembly in the broken line frame, broken line lifting unit is used for ordering about the line handle and removes along Z axle direction, the broken line board is used for right the end of a thread of line handle carries out the first time and buckles, the broken line subassembly is used for right the end of a thread of line handle carries out the second time and buckles so that the tip of the end of a thread of line handle is close to the middle part region of line handle.

9. The detonator packaging assembly of claim 1 wherein: the detonator bag making and opening device comprises a material discharging mechanism, a bag making ultrasonic welding mechanism, a bag making cutting mechanism, a material pulling mechanism and a bag opening mechanism which are respectively arranged on the main rack; the discharging mechanism is used for releasing the folded material belt, the bag-making ultrasonic welding mechanism is used for welding the folded material belt along the direction perpendicular to the folding line of the folded material belt to form a bag edge, the bag-making cutting mechanism is used for cutting off the bag edge, the material-pulling mechanism is used for pulling the folded material belt, and the bag-opening mechanism is used for opening the packaging bags with bag edges on two sides.

10. The detonator packaging assembly of claim 9 wherein: detonator bagging-off evacuation closing device includes detonator bagging-off mechanism, evacuation mechanism and envelope ultrasonic welding mechanism, detonator bagging-off mechanism is used for sending into the wrapping bag with the line in, evacuation mechanism includes vacuum suction nozzle, vacuum suction nozzle locates on the detonator bagging-off mechanism, vacuum suction nozzle is used for loading the wrapping bag evacuation that has the line handle for, envelope ultrasonic welding mechanism is used for sealing the wrapping bag after the evacuation.

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