CN111772231A

CN111772231A - Automatic material filling and capping equipment for drying filter rods

Info

Publication number: CN111772231A
Application number: CN202010596010.1A
Authority: CN
Inventors: 杨飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2020-10-16

Abstract

The invention relates to filter rod production equipment, in particular to automatic material filling and cover sealing equipment for a dry filter rod. The technical problem is as follows: the automatic material filling and capping equipment for the dry filter rods is capable of automatically performing the filtering agent adding action and the capping work in the same amount, and is low in risk in the capping process. The technical scheme is as follows: the utility model provides an automatic material closing cap equipment of irritating of dry filter stick, is equipped with the mounting bracket including the support frame, support frame one side, is equipped with the link between support frame and the mounting bracket. According to the automatic feeding device, the belt transmission assembly is adopted to drive the first toothed belt to do periodic reciprocating motion, the material box is driven to automatically feed the filter rods in an equivalent manner, the feeding process can be automated, and the defect of unequal feeding amount is avoided without manual operation.

Description

Automatic material filling and capping equipment for drying filter rods

Technical Field

The invention relates to filter rod production equipment, in particular to automatic material filling and cover sealing equipment for a dry filter rod.

Background

In the process of producing the dry filter rod, a filter agent needs to be added into the filter rod body, and then the filter rod cover is covered in the filter rod body, most of the production processes are carried out manually at present, the filter rod body needs to be held manually, the filter agent is shoveled and added, equivalent adding cannot be achieved by adopting the adding mode, the quality of the filter rod is uneven, in the adding process, the efficiency is low, the filter rod cover is covered in the filter rod body by adopting the manual adding mode, the cover needs to be placed in place on the rod body manually, the cover is tightly covered by a pressing machine, the cover is easily damaged by adopting the mode, and the manual work is easily damaged in the cover covering process.

According to the defects, the automatic material filling and capping equipment for the dry filter rods, which can add the filter agent in an equivalent amount, has low risk in the capping process, and can automatically carry out the operation of adding the filter agent and the capping work, needs to be designed to overcome the defects that the filter agent cannot be added in an equivalent amount, the risk in the capping process is high, and the automation degree is low in the production process of the filter rods at present.

Disclosure of Invention

In order to overcome the defects that the equivalent adding of a filtering agent cannot be realized, the danger in the capping process is high and the automation degree is low in the production process of the filter rod at present, the technical problem is as follows: the automatic material filling and capping equipment for the dry filter rods is capable of automatically performing the filtering agent adding action and the capping work in the same amount, and is low in risk in the capping process.

The technical scheme is as follows: an automatic material filling and capping device for a dry filter rod comprises a support frame, wherein a mounting frame is arranged on one side of the support frame, and a connecting frame is arranged between the support frame and the mounting frame; the placing frame is arranged on the supporting frame and is of a structure with an opening facing one side of the connecting frame; the blanking device is arranged at the position, close to one side of the connecting frame, of the mounting frame and is used for storing a filtering agent and releasing the filtering agent; the cover pushing device is arranged on one side of the connecting frame, which is close to the mounting frame, and is used for pushing the cover of the filter rod; the placing plate is arranged at the position of one side of the connecting frame, which is far away from the mounting frame; the stabilizing device is arranged on one side of the placing plate close to the cover pushing device, is positioned below the cover pushing device and is used for stabilizing the filter rod cover to be pushed, and is positioned above the placing frame at a distance of the thickness of one filter rod cover; the bracket is arranged at the position of one side of the mounting frame, which is far away from the connecting frame; and the driving device is arranged on the connecting frame, is positioned between the blanking devices, is connected with the cover pushing device and the blanking devices, and is used for driving the blanking devices and the cover pushing device.

Further, unloader including: the number of the support rods is at least two, and the support rods are respectively arranged on one side of the mounting frame, which is close to the connecting frame; the first guide rails are at least two in number and are respectively arranged between the support rod and the mounting frame, and first guide sleeves are sleeved on the first guide rails; the material box is arranged between the first guide sleeves and is of a U-shaped structure, and the interior of the material box is communicated with each other; the number of the racks is two, the racks are respectively arranged on two sides of the U-shaped wall of the material box, and the racks are connected with the driving device; the blocking frame is arranged between the support rods, a blocking block is connected to the position, far away from the mounting frame, of one side of the blocking frame, and the blocking block blocks a feed opening of the material box.

Further, the cover pushing device comprises: the mounting seat is mounted on one side, close to the connecting frame, of the driving device, and a first support is arranged on one side, close to the connecting frame, of the mounting seat; the first rotating shaft and the second rotating shaft are rotatably arranged on the first support, first gears are arranged on the first rotating shaft and the second rotating shaft at positions close to one side of the support frame, the first gears are meshed with each other, a second gear is arranged on the first rotating shaft at a position close to one side of the driving device, and the second gear is in contact with the driving device; the second support is arranged on one side, close to the connecting frame, of the first support, a nut is rotatably arranged on the second support, a third gear is arranged on the periphery of the nut, and the third gear is meshed with a group of first gears which are not connected with the second gear; the screw rod is arranged in the nut and matched with the nut, a push block is arranged at one side of the screw rod close to the stabilizing device, and the push block is positioned above the stabilizing device; the second guide rails are arranged on the connecting frame, the number of the second guide rails is at least two, second guide sleeves are sleeved on the second guide rails, a moving frame is arranged between the second guide sleeves, and the moving frame is connected with one side, away from the push block, of the screw rod.

Further, the stabilizing device comprises: the connecting plates are arranged on the placing plate at a position close to one side of the pushing block, a U-shaped frame is arranged between the connecting plates, and the U-shaped frame is positioned at a height of the thickness of one filter rod cover at one side of the placing frame close to the connecting frame; a plurality of groups of third guide sleeves are arranged on the inner wall of the U-shaped frame, third guide rails are sleeved in the third guide sleeves, and first elastic pieces are arranged between the third guide rails and the third guide sleeves; and the third guide rail is connected with the clamping blocks at the positions between the U-shaped frames.

Further, the driving device includes: the fixing frame is arranged on the bracket and is positioned in the material box, and the mounting seat is arranged on one side of the fixing frame, which is close to the screw rod; the third supports are arranged on two sides of the fixed frame, which are parallel to the moving direction of the material box, and are respectively and rotatably connected with third rotating shafts, and belt transmission assemblies are connected between the third rotating shafts; the speed reducing motor is arranged on one side of the fixed frame, and an output shaft of the speed reducing motor is connected with the group of third rotating shafts; the first toothed belt is arranged on one side, far away from the support, of the surface of the belt transmission assembly; the second toothed belt is arranged on one side, close to the bracket, of the surface of the belt transmission component and can be meshed with the second gear; the fourth supports are arranged on the fixing frame at one side close to the rack, the number of the fourth supports is two, and the fourth supports are symmetrically distributed by taking the fixing frame as a symmetry axis; the fourth rotating shafts are respectively and rotatably provided with two groups of fourth rotating shafts on each group of fourth supports, a ratchet backstop is arranged between every two adjacent groups of fourth rotating shafts, fourth gears are arranged on the fourth rotating shafts and are positioned on the same horizontal line with the racks, the adjacent fourth gears and the racks can be meshed, fifth gears are arranged on the fourth rotating shafts and are positioned on the same horizontal line with the first toothed belt, and the fifth gears can be meshed with the first toothed belt; the contact switch is installed on the position, far away from one side of the material box, of the fixed frame, and the surface of the belt transmission assembly is provided with a contact block which can be in contact with the contact switch.

Further, still including advancing the subassembly, place board one side and place frame one side and all be equipped with advancing the subassembly, advance the subassembly and be used for self-advancing to place the board and place the interior filter rod lid and the filter rod barred body of frame, advance the subassembly including: a fourth guide rail is arranged on one side of the placing plate and one side of the placing frame, a fourth guide sleeve is sleeved on each fourth guide rail, and a second elastic piece is arranged between each fourth guide sleeve and each fourth guide rail; push away the frame, all be equipped with on the fourth uide bushing and push away the frame, push away the frame and stretch into respectively and place the board and place the frame in, push away the frame opposite side and all be equipped with the movable block.

Further, the method also comprises the following steps: the fifth guide sleeves are provided with at least three groups of pushing blocks close to one side of the clamping block, fifth guide rails are sleeved in the fifth guide sleeves, and third elastic parts are arranged between the fifth guide sleeves and the fifth guide rails; and the moving balls are respectively arranged on one side of the fifth guide rail, which is far away from the central position of the push block.

Further, the first elastic piece, the second elastic piece and the third elastic piece are straight springs; the belt transmission component is used for belt transmission.

The beneficial effects are that: 1. according to the automatic feeding device, the belt transmission assembly is adopted to drive the first toothed belt to do periodic reciprocating motion, the material box is driven to automatically feed the filter rods in an equivalent manner, the feeding process can be automated, and the defect of unequal feeding amount is avoided without manual operation.

2. Through adopting belt drive assembly to drive the second toothed belt and carry out periodic reciprocating motion, can make the ejector pad cover the filter rod lid automatically, can solve the artifical dangerous shortcoming that leads to of covering the filter rod lid.

3. Through the effect that adopts movable block and second elastic component, can make the excellent body of filter rod and filter rod lid take one's place automatically, make the production process automation of filter rod obtain improving.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a perspective view of the mounting bracket of the present invention.

Fig. 4 is a schematic perspective view of a driving device according to the present invention.

Fig. 5 is a perspective view of a belt drive assembly portion of the present invention.

Fig. 6 is a perspective view of the rack part of the present invention.

Fig. 7 is a perspective view of the mounting base portion of the present invention.

Fig. 8 is a perspective view of the connecting frame part of the present invention.

Fig. 9 is a perspective view of the placing plate portion of the present invention.

Fig. 10 is a schematic perspective view of the stabilization device of the present invention.

Fig. 11 is a schematic perspective view of the push block of the present invention.

Part names and serial numbers in the figure: 1 supporting frame, 2 mounting frames, 3 connecting frames, 4 placing frames, 5 blanking devices, 6 pushing cover devices, 7 placing plates, 8 stabilizing devices, 9 supports, 10 driving devices, 51 supporting rods, 52 first guide rails, 53 first guide sleeves, 54 bins, 55 racks, 56 blocking frames, 57 blocking blocks, 61 mounting seats, 62 first supports, 63 first rotating shafts, 64 second rotating shafts, 65 first gears, 66 second gears, 67 second supports, 68 nuts, 69 third gears, 610 lead screws, 611 pushing blocks, 612 second guide rails, 613 second guide sleeves, 614 moving frames, 81 connecting plates, 82U-shaped frames, 83 third guide sleeves, 84 third guide rails, 85 first elastic pieces, 86 clamping blocks, 101 fixing frames, 102 third supports, 103 third rotating shafts, 104 belt transmission components, 105 reducing motor, 106 first toothed belt, 107 second toothed belt, 108 fourth support, 109 fourth rotating shaft, 1010 ratchet backstop, 1011 fourth gear, 1012 fifth gear, 1013 contact switch, 1014 contact block, 11 propelling component, 111 fourth guide rail, 112 fourth guide sleeve, 113 second elastic piece, 114 pushing frame, 115 moving block, 121 fifth guide sleeve, 122 fifth guide rail, 123 third elastic piece and 124 moving ball.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides an automatic material closing cap equipment of irritating of dry filter stick, as shown in fig. 1-2, including support frame 1, mounting bracket 2, link 3, place frame 4, unloader 5, push away and cover device 6, place board 7, stabilising arrangement 8, support 9 and drive arrangement 10, specifically do:

1 right side of support frame is equipped with mounting bracket 2, be connected with link 3 between support frame 1 and the mounting bracket 2, 1 upside of support frame is connected with places frame 4, it is rear portion right side open-ended structure to place

frame

4, 2 left side tops of mounting bracket are equipped with

unloader

5, 3 upsides of link are equipped with and push away

capping device

6, 3 upside middle parts of link are connected with places board 7, it is equipped with stabilising arrangement 8 to place board 7 right side, it is located stabilising arrangement 8 top to push away capping device 6, stabilising arrangement 8 is located the distance department of placing 4 right side top filter rod lid thicknesses of frame, 2 right side tops of mounting bracket are connected with support 9, support 9 upside is equipped with drive arrangement 10, drive arrangement 10 with push away capping device 6 and unloader 5 be connected.

When the dry filter rod needs to be produced, a filter rod body can be placed in the placing frame 4 and pushed to be positioned below the cover pushing device 6 and the stabilizing device 8, a filter rod cover is placed on the placing plate 7 and pushed into the stabilizing device 8, the stabilizing device 8 stabilizes the filter rod cover, then the filtering agent is placed in the blanking device 5, then the power supply of the device can be started, the driving device 10 works at the moment, the driving device 10 drives the blanking device 5 to operate, the blanking device 5 conveys the filtering agent in the filter rod body to the filter rod body, the driving device 10 drives the blanking device 5 to reset again, at the moment, the filtering agent in the filter rod body is filled, the driving device 10 drives the cover pushing device 6 to work, the cover pushing device 6 pushes the filter rod cover in the stabilizing device 8 to move downwards, pushing the filter rod cover into the filter rod body, then driving the cover pushing device 6 to reset by the driving device 10, automatically resetting the driving device 10 after the cover pushing device 6 resets, and repeating the actions so as to automatically add the filter agent and push the cover into the filter rod; or the next group of filter rod bodies and the filter rod covers can be positioned in place to continuously produce the next dry filter rod; when the production of the dry filter rod is completed, the power supply of the device can be turned off.

Example 2

On the basis of embodiment 1, as shown in fig. 3 to 10, the blanking device 5 includes a support rod 51, a first guide rail 52, a first guide sleeve 53, a bin 54, a rack 55, a blocking frame 56, and a blocking block 57, and specifically includes:

two groups of supporting rods 51 are arranged above the left side of the mounting frame 2, a first guide rail 52 is connected between the supporting rods 51 and the left side of the upper side of the mounting frame 2, a first guide sleeve 53 is connected on the first guide rail 52 in a sliding mode, a material box 54 is connected between the first guide sleeves 53, the material box 54 is of a U-shaped structure and is communicated with the inside, racks 55 are connected to the U-shaped inner wall of the material box 54, the racks 55 are connected with the driving device 10, a blocking frame 56 is connected between the two groups of supporting rods 51, a blocking block 57 is connected to the left side of the blocking frame 56, and the blocking block 57.

When the driving device 10 operates, the driving device 10 drives the feed box 54 to move to the left through the rear rack 55, the feed box 54 moves to the left through the first guide sleeve 53, so that the feed opening of the feed box 54 is not blocked by the blocking block 57, at this time, the feed opening of the feed box 54 is positioned above the filtering rod body, so that the filtering agent in the feed box 54 falls into the filtering rod body, when the driving device 10 continues to operate, the driving device 10 drives the feed box 54 to move to the right through the front rack 55, so that the feed opening of the feed box 54 moves to the upper side of the blocking block 57, so that the feed box 54 stops feeding, and the blocking block 57 blocks the feed opening of the feed box 54, then the driving device 10 drives the cap pushing device 6 to push the cap, and after the driving device 10 enters the reset state, the driving device 10 does not drive the feed box 54 to move through the two sets of racks 55.

The cover pushing device 6 includes an installation seat 61, a first support 62, a first rotating shaft 63, a second rotating shaft 64, a first gear 65, a second gear 66, a second support 67, a nut 68, a third gear 69, a screw 610, a pushing block 611, a second guide rail 612, a second guide sleeve 613, and a moving frame 614, and specifically:

the left side of the driving device 10 is connected with an installation base 61, the upper side of the lower side wall of the installation base 61 is connected with a first support 62, the rear left side of the first support 62 is rotatably connected with a first rotating shaft 63, the middle left side of the first support 62 is rotatably connected with a second rotating shaft 64, the lower sides of the first rotating shaft 63 and the second rotating shaft 64 are both connected with a first gear 65, the first gears 65 are mutually meshed, the upper side of the first rotating shaft 63 is connected with a second gear 66, the second gear 66 is contacted with the driving device 10, the left side of the lower side wall of the installation base 61 is connected with a second support 67, the second support 67 is rotatably connected with a nut 68, the upper side of the nut 68 is connected with a third gear 69, the third gear 69 is meshed with the front first gear 65, a screw rod 610 is screwed in the nut 68, the lower end of the screw rod 610 is connected with a push block 611 in a movable manner, the push block 611 is positioned above the stabilizing, a moving frame 614 is connected between the second guide sleeves 613, and the upper end of the screw 610 is connected to the middle of the upper side of the moving frame 614.

When the driving device 10 works, the driving device 10 drives the second gear 66 to operate after the feeding and resetting of the driving bin 54, the second gear 66 rotates counterclockwise, the second gear 66 drives the third gear 69 to rotate counterclockwise through the two sets of first gears 65, the third gear 69 drives the nut 68 to rotate counterclockwise, so as to drive the lead screw 610 to move downward, the lead screw 610 moves downward through the second guide sleeve 613, the lead screw 610 drives the push block 611 to move downward, so as to enable the push block 611 to push the filter rod cover in the stabilizing device 8 to move downward, so as to enable the filter rod cover to be covered in the filter rod body, and after the driving device 10 completes a rotation cycle to reset, the driving device 10 drives the second gear 66 to rotate clockwise, so as to drive the lead screw 610 to move upward to reset.

The stabilizing device 8 comprises a connecting plate 81, a U-shaped frame 82, a third guide sleeve 83, a third guide rail 84, a first elastic member 85 and a clamping block 86, and specifically:

the front side and the rear side of the right side of the placing plate 7 are both connected with connecting plates 81, a U-shaped frame 82 is connected between the connecting plates 81, the U-shaped frame 82 is located at the height of the thickness of a filter rod cover above the right side of the placing frame 4, the front side wall and the rear side wall of the U-shaped frame 82 are both connected with third guide sleeves 83, the third guide sleeves 83 are connected with third guide rails 84 in an inner sliding mode, first elastic pieces 85 are connected between the third guide rails 84 and the third guide sleeves 83, and the inner sides of the third guide rails 84 on the front side and the rear side are both.

The filter rod cover can be placed on the placing plate 7 and pushed into between the clamping blocks 86, the clamping blocks 86 temporarily clamp the cover through the third guide rail 84 and the first elastic piece 85, when the pushing block 611 moves downwards, the pushing block 611 moves downwards to push the cover clamped by the clamping blocks 86, so that the cover falls into the filter rod body, and the pushing block 611 presses the cover.

The driving device 10 includes a fixed frame 101, a third support 102, a third rotating shaft 103, a belt transmission assembly 104, a speed reduction motor 105, a first toothed belt 106, a second toothed belt 107, a fourth support 108, a fourth rotating shaft 109, a ratchet wheel check device 1010, a fourth gear 1011, a fifth gear 1012, a contact switch 1013, and a contact block 1014, and specifically includes:

the lower side of the bracket 9 is connected with a fixed frame 101, the left side and the right side of the fixed frame 101 are both connected with a third support 102, the third support 102 is rotatably connected with a third rotating shaft 103, a belt transmission component 104 is connected between the third rotating shafts 103, the right side of the fixed frame 101 is connected with a speed reducing motor 105, an output shaft of the speed reducing motor 105 is connected with the upper side of the right third rotating shaft 103, the mounting seat 61 is connected with the left side of the fixed frame 101, the upper side of the belt transmission component 104 is connected with a first toothed belt 106, the lower side of the belt transmission component 104 is connected with a second toothed belt 107, the second toothed belt 107 can be meshed with a second gear 66, the front side and the rear side below the right side of the fixed frame 101 are both connected with fourth supports 108, the fourth supports 108 are rotatably connected with two groups of fourth rotating shafts 109, a ratchet backstop 1010 is connected between two adjacent groups of the fourth rotating shafts 109, the, the fifth gear 1012 can be engaged with the first toothed belt 106, the front fourth gear 1011 is engaged with the front rack 55, the rear fourth gear 1011 is engaged with the rear rack 55, the contact switch 1013 is connected to the rear left of the fixed frame 101, the contact block 1014 is connected to the rear left of the belt drive assembly 104, and the contact block 1014 is located to the right of the contact switch 1013.

The reduction motor 105 can be started, the reduction motor 105 will drive the belt transmission assembly 104 to rotate clockwise, the belt transmission assembly 104 will drive the first toothed belt 106 and the second toothed belt 107 to rotate, when the belt transmission assembly 104 starts to perform a cycle, the belt transmission assembly 104 will drive the first toothed belt 106 to engage with the rear fifth gear 1012, the first toothed belt 106 will drive the rear fifth gear 1012 to rotate counterclockwise, the rear fifth gear 1012 will drive the rear fourth gear 1011 to rotate counterclockwise through the rear fourth rotating shaft 109 and the rear ratchet backstop 1010, the rear fourth gear 1011 will drive the rear rack 55 to move leftward, so that the bin 54 will move leftward to perform blanking, when the belt transmission assembly 104 drives the first toothed belt 106 to rotate out of engagement with the rear fifth gear 1012, the rear fifth gear 1012 and the rear fourth gear 1011 will stop rotating, the bin 54 will keep in blanking state, when the belt transmission assembly 104 drives the first toothed belt 106 to mesh with the front fifth gear 1012, the first toothed belt 106 drives the front fifth gear 1012 to rotate counterclockwise, and the front fifth gear 1012 drives the front fourth gear 1011 to rotate counterclockwise through the front fourth rotating shaft 109 and the front ratchet backstop 1010, so that the front fourth gear 1011 drives the front rack 55 to move rightwards, and the bin 54 moves rightwards to be reset, so that the bin 54 enters a blanking stop state; when the belt transmission assembly 104 continues to operate clockwise, the second gear 107 rotates to mesh with the second gear 66, the second gear 107 drives the second gear 66 to rotate counterclockwise, so as to drive the screw rod 610 to move downward, when the belt transmission assembly 104 continues to operate, so as to contact the contact block 1014 with the contact switch 1013, the contact switch 1013 is triggered, so as to control the decelerating motor 105 to rotate reversely, so that the decelerating motor 105 drives the belt transmission assembly 104 to rotate counterclockwise, the belt transmission assembly 104 drives the first gear 106 and the second gear 107 to rotate counterclockwise, at this time, the second gear 107 drives the second gear 66 to rotate clockwise, so as to drive the screw rod 610 to move upward, when the second gear 107 is disengaged from the second gear 66, the screw rod 610 stops operating, when the first gear 106 rotates counterclockwise to mesh with the fifth gear 1012, the fifth gear 1012 does not drive the fourth rotating shaft 109 to rotate through the ratchet backstop 1010, the fourth gear 1011 will not be rotated, so that the bin 54 will not move, and when the belt driving assembly 104 continues to rotate counterclockwise and the contact block 1014 contacts the other side of the contact switch 1013, the contact switch 1013 will be triggered, so that the speed reducing motor 105 is controlled to drive the belt driving assembly 104 to rotate clockwise again, so that a cycle is performed again.

Example 3

On the basis of embodiment 2, as shown in fig. 9 to 11, the present invention further includes a propelling component 11, where the propelling component 11 includes a fourth guide rail 111, a fourth guide sleeve 112, a second elastic member 113, a pushing frame 114, and a moving block 115, specifically:

place board 7 rear side and place frame 4 rear side and all be equipped with propulsion subassembly 11, propulsion subassembly 11 is used for self-propelled to place board 7 and places the filter rod lid and the filter rod body in the frame 4, place board 7 rear side and place frame 4 rear side and all be connected with fourth guide rail 111, all be connected with fourth guide pin bushing 112 on the fourth guide rail 111 in the slidingtype, all be connected with second elastic component 113 between fourth guide pin bushing 112 and the fourth guide rail 111, fourth guide pin bushing 112 upside all is connected with and pushes away frame 114, push away frame 114 and stretch into respectively and place board 7 and place in the frame 4, it all is connected with movable block 115 to push away frame 114 right side.

The pushing frame 114 can be moved to the left, the pushing frame 114 can drive the moving block 115 to move to the left, the pushing frame 114 can move to the left on the fourth guide rail 111 through the fourth guide sleeve 112, the second elastic piece 113 enters a stress state at the moment, the filter rod cover and the filter rod body can be placed in the placing plate 7 and the placing frame 4 respectively at the moment, the pushing frame 114 can be released at the moment, the second elastic piece 113 can recover from the stress state, the fourth guide sleeve 112 is driven to move to the right, and the pushing frame 114 and the moving block 115 move to push the filter rod cover and the filter rod body to be automatically placed in place.

The device further comprises a fifth guide sleeve 121, a fifth guide rail 122, a third elastic element 123 and a moving ball 124, and specifically comprises:

the third group of fifth guide sleeves 121 are connected to the lower side of the pushing block 611, the fifth guide sleeves 122 are connected to the fifth guide sleeves 121 in an inward sliding manner, a third elastic member 123 is connected between the fifth guide rails 122 and the fifth guide sleeves 121, and the moving balls 124 are connected to the outer sides of the fifth guide rails 122.

The moving ball 124 will initially stabilize the filter rod cover during movement under the push block 611 without the filter rod cover becoming misaligned during movement under the push block 611.

Further explanation is as follows: the first elastic member 85, the second elastic member 113 and the third elastic member 123 are straight springs; the belt drive assembly 104 is a belt drive.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an automatic material closing cap equipment of irritating of dry filter stick which characterized in that, including:

the device comprises a support frame (1), wherein an installation frame (2) is arranged on one side of the support frame (1), and a connecting frame (3) is arranged between the support frame (1) and the installation frame (2);

the placing frame (4), the placing frame (4) is arranged on the support frame (1), and the placing frame (4) is of a structure with an opening facing one side of the connecting frame (3);

the blanking device (5) is arranged at the position, close to one side of the connecting frame (3), of the mounting frame (2), and the blanking device (5) is used for storing a filtering agent and releasing the filtering agent;

the cover pushing device (6), the cover pushing device (6) is arranged on the connecting frame (3) at a position close to one side of the mounting frame (2), and the cover pushing device (6) is used for pushing the cover of the filter rod;

the placing plate (7) is arranged at the position of one side of the connecting frame (3) far away from the mounting frame (2);

the stabilizing device (8) is arranged on one side, close to the cover pushing device (6), of the placing plate (7), the stabilizing device (8) is located below the cover pushing device (6), the stabilizing device (8) is used for stabilizing a filter rod cover to be pushed, and the stabilizing device (8) is located at a position above the placing frame (4) and at a distance of the thickness of one filter rod cover;

the bracket (9), the bracket (9) is arranged on the position of one side of the mounting rack (2) far away from the connecting rack (3);

the driving device (10) is arranged on the connecting frame (3), the driving device (10) is located between the blanking devices (5), the driving device (10) is connected with the cover pushing device (6) and the blanking devices (5), and the driving device (10) is used for driving the blanking devices (5) and the cover pushing device (6).

2. An automatic filling and capping device for dry filter rods, as in claim 1, characterized in that the blanking device (5) comprises:

the number of the support rods (51) is at least two, and the support rods (51) are respectively arranged on one side of the mounting frame (2) close to the connecting frame (3);

the number of the first guide rails (52) is at least two, the first guide rails (52) are respectively arranged between the support rod (51) and the mounting rack (2), and the first guide rails (52) are sleeved with first guide sleeves (53);

the feed box (54), the feed box (54) is installed between the first guide sleeves (53), the feed box (54) is of a U-shaped structure and is communicated with the inside;

the number of the racks (55) is two, the racks (55) are respectively arranged on two sides of the U-shaped wall of the feed box (54), and the racks (55) are connected with the driving device (10);

the stopping frame (56) is arranged between the support rods (51), a stopping block (57) is connected to one side of the stopping frame (56) far away from the mounting frame (2), and the stopping block (57) blocks a feed opening of the feed box (54).

3. An automatic filling and capping device for dry filter rods, as in claim 2, characterized in that the cap-pushing means (6) comprise:

the mounting seat (61), the mounting seat (61) is mounted on one side of the driving device (10) close to the connecting frame (3), and a first support (62) is arranged on one side of the mounting seat (61) close to the connecting frame (3);

the device comprises a first rotating shaft (63), a first rotating shaft (63) and a second rotating shaft (64) are rotatably arranged on a first support (62), first gears (65) are arranged on the positions, close to one side of a support frame (1), of the first rotating shaft (63) and the second rotating shaft (64), the first gears (65) are mutually meshed, a second gear (66) is arranged on the position, close to one side of a driving device (10), of the first rotating shaft (63), and the second gear (66) is in contact with the driving device (10);

the second support (67) is arranged on the first support (62) and close to one side of the connecting frame (3), a nut (68) is rotatably arranged on the second support (67), a third gear (69) is arranged on the periphery of the nut (68), and the third gear (69) is meshed with a group of first gears (65) which are not connected with the second gear (66);

the screw rod (610), the screw rod (610) is arranged in the nut (68), the screw rod (610) is matched with the nut (68), a push block (611) is arranged at the position, close to one side of the stabilizing device (8), of the screw rod (610), and the push block (611) is located above the stabilizing device (8);

the second guide rails (612) are arranged on the connecting frame (3) and are at least two in number, second guide sleeves (613) are sleeved on the second guide rails (612), a moving frame (614) is arranged between the second guide sleeves (613), and the moving frame (614) is connected with one side, far away from the push block (611), of the screw rod (610).

4. An automatic filler capping device for dry filter rods, as in claim 3, characterized in that the stabilizing means (8) comprise:

the connecting plates (81), the connecting plates (81) are arranged on the placing plate (7) at a position close to one side of the pushing block (611), U-shaped frames (82) are arranged between the connecting plates (81), and the U-shaped frames (82) are positioned at the height of the thickness of one filter rod cover at one side of the placing frame (4) close to the connecting frame (3);

a plurality of groups of third guide sleeves (83) are arranged on the inner wall of the U-shaped frame (82), third guide rails (84) are sleeved in the third guide sleeves (83), and first elastic pieces (85) are arranged between the third guide rails (84) and the third guide sleeves (83);

the third guide rail (84) is connected with the clamping blocks (86) at the position between the U-shaped frames (82).

5. An automatic filler capping device for dry filter rods, as in claim 4, wherein the actuating means (10) comprises:

the fixing frame (101), the fixing frame (101) is arranged on the bracket (9) and is positioned in the material box (54), and the mounting seat (61) is arranged on the fixing frame (101) at a position close to the screw rod (610);

the third supports (102), the third supports (102) are arranged on two sides of the fixed frame (101) parallel to the moving direction of the material box (54), third rotating shafts (103) are rotatably connected to the third supports (102), and belt transmission assemblies (104) are connected between the third rotating shafts (103);

the speed reducing motor (105), the speed reducing motor (105) is installed on one side of the fixed frame (101), and an output shaft of the speed reducing motor (105) is connected with the group of third rotating shafts (103);

the first toothed belt (106), the first toothed belt (106) is installed on one side, far away from the bracket (9), of the surface of the belt transmission component (104);

the second toothed belt (107), the second toothed belt (107) is installed on one side of the surface of the belt transmission component (104) close to the bracket (9), and the second toothed belt (107) can be meshed with the second gear (66);

the fourth supports (108) are arranged on one side, close to the rack (55), of the fixed frame (101), the number of the fourth supports (108) is two, and the fourth supports are symmetrically distributed by taking the fixed frame (101) as a symmetry axis;

the four-gear rack comprises fourth rotating shafts (109), two groups of fourth rotating shafts (109) are rotatably arranged on each group of fourth supports (108), a ratchet wheel backstop (1010) is arranged between every two adjacent groups of fourth rotating shafts (109), fourth gears (1011) are arranged on the fourth rotating shafts (109) and are positioned on the same horizontal line with the racks (55), the adjacent fourth gears (1011) can be meshed with the racks (55), fifth gears (1012) are arranged on the fourth rotating shafts (109) and are positioned on the same horizontal line with the first toothed belt (106), and the fifth gears (1012) can be meshed with the first toothed belt (106);

the contact switch (1013), the contact switch (1013) is installed on the fixed frame (101) far away from the side position of the feed box (54), the surface of the belt transmission assembly (104) is provided with a contact block (1014), and the contact block (1014) can be contacted with the contact switch (1013).

6. An automatic filling and capping device for dry filter sticks as claimed in claim 5, characterized by further comprising a pushing assembly (11), wherein the pushing assembly (11) is arranged on one side of the placing plate (7) and one side of the placing frame (4), the pushing assembly (11) is used for automatically pushing the filter stick cover and the filter stick body in the placing plate (7) and the placing frame (4), and the pushing assembly (11) comprises:

a fourth guide rail (111), wherein the fourth guide rail (111) is arranged on one side of the placing plate (7) and one side of the placing frame (4), a fourth guide sleeve (112) is sleeved on each fourth guide rail (111), and a second elastic piece (113) is arranged between each fourth guide sleeve (112) and each fourth guide rail (111);

the pushing frame (114) is arranged on the fourth guide sleeve (112), the pushing frame (114) extends into the placing plate (7) and the placing frame (4) respectively, and the moving block (115) is arranged on the other side of the pushing frame (114).

7. An automated dry filter rod potting and capping apparatus as claimed in claim 6 further comprising:

the fifth guide sleeve (121), the push block (611) is installed on one side of the fifth guide sleeve (121) close to the clamping block (86), the number of the fifth guide sleeve (121) is at least three, a fifth guide rail (122) is sleeved in each fifth guide sleeve (121), and a third elastic piece (123) is arranged between each fifth guide sleeve (121) and each fifth guide rail (122);

and the moving balls (124), and the moving balls (124) are respectively arranged on one side of the fifth guide rail (122) far away from the center position of the push block (611).

8. An automated dry filter rod filling and capping apparatus as claimed in claim 7, wherein the first (85), second (113) and third (123) resilient members are straight springs; the belt drive assembly (104) is a belt drive.