CN112045722A

CN112045722A - Extrusion formula tinfoil paper cutting device

Info

Publication number: CN112045722A
Application number: CN202010874553.5A
Authority: CN
Inventors: 陈春领
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-27
Filing date: 2020-08-27
Publication date: 2020-12-08

Abstract

The invention provides an extrusion type tinfoil paper cutting device, and belongs to the field of paper cutters. The problem that the cutting is tidy is difficult to guarantee due to the fact that the existing tin foil paper is weak is solved. This extrusion formula tin foil paper cutting device, including upper end open-ended casing, be equipped with in the casing and settle the chamber, casing upper end fixedly connected with cutter shell, this cutter shell is located casing upper end open-ended rear end for the casing, and sliding connection has the blade disc in the cutter shell, and both ends face difference fixedly connected with baffle about the blade disc, these two baffles become bilateral symmetry about the blade disc, two first extension springs of fixedly connected with within a definite time of the side inner wall of every baffle and cutter shell. This extrusion formula tinfoil paper cutting device convenient to use, cutting are more neat.

Description

Extrusion formula tinfoil paper cutting device

Technical Field

The invention belongs to the field of paper cutters, and particularly relates to an extrusion type tinfoil paper cutting device.

Background

In daily life, the tinfoil paper is widely used due to good smoothness, heat preservation and heat resistance, but the tinfoil paper is fragile, so that the tinfoil paper is easy to damage if force is improperly controlled in the using process, and the cutting level of the tinfoil paper is not difficult to guarantee.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an extrusion type tinfoil paper cutting device which can finish paper output in an extrusion mode and can ensure that tinfoil paper is not damaged by regular cutting.

The purpose of the invention can be realized by the following technical scheme: an extrusion type tinfoil paper cutting device comprises a shell with an opening at the upper end, wherein a placement cavity is arranged in the shell, a cutter shell is fixedly connected to the upper end of the shell, the cutter shell and the opening at the upper end of the shell are arranged in a staggered mode, the cutter shell is positioned at the rear end of the opening at the upper end of the shell relative to the shell, a cutter head is connected in the cutter shell in a sliding mode, baffles are respectively and fixedly connected to the left end face and the right end face of the cutter head, the two baffles are bilaterally symmetrical relative to the cutter head, two first tension springs are fixedly connected between each baffle and the inner wall of the side end of the cutter shell, each two first tension springs are vertically symmetrical relative to the corresponding baffle, a cutting knife is fixedly connected to the upper end of the cutter head, the upper end and the lower end of the cutting knife are respectively and, the end face of the sliding block is fixedly connected with a contact, the inner wall of one side of the sliding way is fixedly connected with a contact, the inner walls of the upper side and the lower side of the cutter shell are respectively and fixedly provided with two limiting grooves, and the two limiting grooves of the inner wall of the upper side of the cutter shell and the two limiting grooves of the inner wall of the lower side of the cutter shell are vertically symmetrical relative to the cutter shell. In the initial state, the cutter head is positioned at one end in the cutter shell, the slide block extends to the outer end of the slide way under the action of the first compression spring and is contacted with the limiting grooves on the inner walls of the upper side and the lower side of the cutter shell to limit the cutter head, when the tin foil paper is conveyed to a required length, the switch at the side end of the cutter shell is pressed to compress and store the force of the two second compression springs, the switch drives the connecting rod to push the baffle plate in the cutter shell, external force is applied to the cutter head, the slide blocks in the two slide ways on the cutter head slide out of the limiting grooves under the action of the external force, the cutter head loses the limiting function, the cutter head losing the limiting function slides to the other end of the cutter shell under the action of the first extension spring, and in the sliding process of the cutter head in the cutter shell, on one hand, the tin foil paper is cut by the cutter, on the other hand, the slide block is extruded to slide, adjust the electric charge on the cutting knife, avoid the cutting knife to produce the friction to the tinfoil paper cutting in-process, make the tinfoil paper subsides and apply on the cutting knife surface, when the blade disc slides to the spacing groove department of the cutter shell other end, first compression spring resets and promotes the slider and slides to the slide outside, enters into the spacing inslot, and it is spacing once more to carry out to the blade disc, is convenient for next time to the cutting use of tinfoil paper.

Above-mentioned extrusion formula tinfoil paper cutting device, both ends difference sliding connection has the connecting rod about the cutter shell, and external space one end fixedly connected with switch respectively is arranged in to every connecting rod, and two second compression springs of still fixedly connected with between switch and cutter shell side end face, these two second compression springs become the longitudinal symmetry about the connecting rod. When the tinfoil paper is to be cut, a switch at the side end of the cutter shell is pressed, the two second compression springs are compressed to store force, the switch drives the connecting rod to push the baffle in the cutter shell, external force is applied to the cutter disc, under the action of the external force, the sliding blocks in the two sliding ways on the cutter disc slide out from the limiting grooves, the cutter disc loses limiting, the cutter disc is pushed to slide towards the other end in the cutter shell under the action of the first extension spring, and after the hand is loosened, the two second compression springs reset to push the switch to recover to the initial position.

The utility model provides an extrusion formula tin foil paper cutting device, it is connected with the optical axis to settle to rotate between chamber left and right sides inner wall, the cover is equipped with the gyro wheel on the optical axis, it is equipped with first arc still to overlap on the optical axis, this first arc surrounds two-thirds's gyro wheel, the gyro wheel side is fixedly connected with slide rail respectively still, sliding connection has the slide bar in the slide rail, two third compression springs of fixedly connected with go back between slide bar lower extreme and slide rail downside inner wall, these two third compression springs become bilateral symmetry about the slide bar, the slide bar lower extreme is fixedly connected with rack still, this rack runs through the slide rail. The tin foil paper is pulled out by a certain length and passes through the surface of the roller to the lower end of the spherical block, the tin foil paper passes through an opening at the upper end of the shell, the upper end of the cutter shell is arranged at the outer end of the device, when the tin foil paper slides on the surface of the roller, friction is generated between the tin foil paper and the roller, the roller is driven to rotate relatively on the optical axis, when a slide bar on the optical axis rotates to the inner side of a first arc plate, the slide bar is compressed by the first arc plate and slides towards the inner part of the slide rail, at the moment, two third compression springs in the slide rail are compressed to store force, when the slide bar slides downwards in the slide rail, the rack is driven to move downwards to be meshed with fan blades below the rack, when the slide bar on the optical axis rotates to the outer part.

Above-mentioned extrusion formula tin foil paper cutting device, the air chamber has been seted up respectively at both ends about the gyro wheel, rotates on the air chamber and is connected with first gear shaft, and external space one end fixedly connected with first gear is arranged in to first gear shaft, and air intracavity one end is arranged in to first gear shaft still fixedly connected with flabellum, and the gyro wheel upper end is fixedly connected with sucking disc still, and the fixedly connected with trachea is gone back between sucking disc and air chamber. When rack lapse and flabellum meshing, it takes place relative rotation to drive the flabellum, the flabellum takes place relative rotation through the first gear that first gear shaft drove the air intracavity, the air pressure in the trachea is adjusted through the air chamber, make the sucking disc adsorb the tin foil paper on the surface, when the rack lapse, the rack drives the flabellum with the in-process of flabellum disconnection meshing and reverses, the flabellum drives first gear through first gear shaft and reverses in the air intracavity this moment, the air pressure in the trachea is adjusted through the air chamber once more to the air chamber, make the sucking disc disconnection adsorb the tin foil paper, adsorb the tin foil paper through sucking disc intermittent type nature, better when control tin foil paper passes through the gyro wheel outside by conveyer belt device.

Above-mentioned extrusion formula tin foil paper cutting device, it has the second gear axle still to have sliding connection respectively between the chamber left and right sides inner wall to settle, and this second gear axle runs through the casing and arranges external space in, and external space one end fixedly connected with handle is arranged in to the second gear axle, still overlaps on the second gear axle to be equipped with the second gear. The handle of pulling the device left and right sides makes the distance increase between the second gear axle, and the tinfoil wheel that will tear the extranal packing open is placed between two second gear axles, and after placing, push back the second gear axle to initial position once more, press from both sides the tinfoil wheel tightly, meshes with the second gear through follow-up fifth gear mutually, drives the second gear and takes place relative rotation, and the second gear drives the tinfoil wheel through the second gear axle and takes place relative rotation, accomplishes the automatic discharging of tinfoil paper.

In the extrusion type tinfoil paper cutting device, the left side and the right side of an opening at the upper end of a shell are respectively and fixedly provided with a U-shaped groove, the upper inner wall of each U-shaped groove is respectively and fixedly provided with a second arc plate, a spherical block is rotationally connected in the second arc plate, the inner wall at the side end of each U-shaped groove is also and fixedly connected with a slide rail, a moving block is slidably connected in the slide rail, a second extension spring is fixedly connected between the side end of the moving block and the side end wall of the slide rail, the lower end of the moving block and the lower inner wall at the side of the U-shaped groove are rotationally connected with a flexible plate, the inner wall at the rear side of the U-shaped groove is rotationally connected with a third gear shaft, a reel is sleeved on the third gear shaft, a cotton, the fourth gear is rotatably arranged on the side end wall of the U-shaped groove, and the spherical block is fixedly connected with a shifting sheet which can drive the third gear to rotate relatively. The tin foil paper which slides out from the surface of the roller is conveyed to an opening at the upper end of the shell through the lower end of the spherical block, the tin foil paper is contacted with the spherical block to generate friction when passing through the spherical block, the spherical block relatively rotates in the second arc-shaped plate under the action of the friction force, when the spherical block rotates, the poking piece on the spherical block is controlled to poke the fourth gear to drive the fourth gear to relatively rotate, the fourth gear is meshed with the third gear when rotating, the reel is driven to relatively rotate by the third gear shaft, the thread rope is wound when the reel rotates, the movable block is pulled by the thread rope to relatively slide in the slide rail, and the second tension spring in the slide rail is stretched to store force, when the poking piece stops poking the fourth gear, the stretched second tension spring resets and pulls the movable block to be in an initial state, and the movable block is controlled to slide in the slide rail in a reciprocating manner through the intermittent contact between the poking piece, when the moving block slides on the sliding rail in a reciprocating mode, the flexible plates are driven to swing relatively, the conveying direction of the tin foil paper at the lower end of the spherical block is adjusted through the relative swing of the two flexible plates at the opening at the upper end of the shell, and the tin foil paper is prevented from deflecting under the action of friction force when the tin foil paper is in contact with the spherical block, so that the tin foil paper is damaged.

Above-mentioned extrusion formula tin foil paper cutting device, the casing lower extreme still fixedly connected with box, the box surrounds two first workspace and a second workspace of formation with the casing, these two first workspaces become bilateral symmetry about the casing, and the second workspace is located between two first workspaces, it is connected with the roller axle to rotate respectively in every first workspace, this roller axle one end is run through casing one end wall and is put in external space, the epaxial cover of roller is equipped with the roller, external space one end is arranged in to the roller axle and has been linked firmly the fifth gear that can mesh with the second gear. When the roller on the roller shaft rotates relatively, the roller drives the fifth gear to rotate relatively through the roller shaft, and the fifth gear is meshed with the second gear to provide power for conveying the tin foil paper by the device.

Above-mentioned extrusion formula tin foil paper cutting device, the box internal fixation is equipped with the telescoping cylinder, and sliding connection has the telescopic link of arranging the second working space in the telescoping cylinder, fixedly connected with fourth compression spring between telescopic link lower extreme and the telescoping cylinder downside inner wall, and the telescopic link upper end has linked firmly the holding rod that can place the palm, and two recesses have still been seted up to the upper end of box, and these two recesses become bilateral symmetry about the telescoping cylinder. When using this device, a hand is held and is extended to the outer tin foil paper of device, another hand is held tightly on the holding rod in the second working space, extrude the holding rod downwards, drive the telescopic link through the holding rod and slide to telescopic cylinder inside, hold power with the compression of fourth compression spring, the fourth compression spring resets and promotes the telescopic link and slides to the telescopic cylinder outside after the pine hand, through singlehanded extrusion holding rod, the control telescopic link reciprocates the slip about carrying out in telescopic cylinder inside, on the one hand, for the device carries tin foil paper and provides power, on the other hand also tempers the palm through the extrusion.

The utility model provides an extrusion formula tinfoil paper cutting device, settle recess one side inner wall has the spout, sliding connection has the sliding block in the spout, it is connected with first connecting rod to rotate between the terminal surface under sliding block rear end face and the holding rod, annular slide has still been seted up in the recess, sliding connection has spherical slider in the annular slide, it is connected with the gliding second connecting rod of spherical slider in the annular slide to rotate between the preceding terminal surface of spherical slider rear end face and sliding block when the sliding block slides, the spherical slider upper end has linked firmly the roller driving lever, recess rear side inner wall still rotates and is connected with the connecting rod slide, sliding connection has the third connecting rod in the connecting rod slide, this third connecting rod one end rotates with spherical slider's. When the holding rod slides downwards in the second working space, the holding rod pushes the sliding block to slide in the sliding groove in the direction far away from the telescopic cylinder through the first connecting rod, when the sliding block slides, the spherical sliding block is driven to slide in the annular slide way in the direction far away from the telescopic cylinder through the second connecting rod, when the spherical sliding block slides, the roller is driven to rotate relatively on the roller shaft through the roller deflector rod, power is provided for the subsequent device to convey the tin foil paper outwards, when the spherical sliding block slides in the annular slide way, the spherical sliding block drives the third connecting rod to slide on the connecting rod slide way in a reciprocating manner, meanwhile, the connecting rod slide way is driven to rotate relatively in the groove, when the holding rod slides upwards in the second working space, the sliding block drives the sliding block to slide in the sliding groove in the direction close to the telescopic cylinder through the first connecting rod, and at the moment, the sliding block pulls the spherical sliding block to slide in the, and the spherical sliding block is restored to the initial position through the mutual matching of the third connecting rod and the connecting rod slideway, and the spherical sliding block is positioned at the upper half section in the annular slideway in the initial state, so that the spherical sliding block slides at the lower half section of the annular slideway when being reset, the spherical sliding block is ensured to be disconnected with the roller when being reset, and the tin foil paper conveyed out of the device is prevented from being brought back again.

Compared with the prior art, the extrusion type tinfoil paper cutting device has the following advantages:

1. because the cutting knife is at the adjustable self electric charge of cutting process, avoid among the cutting process tin foil paper to paste and apply at the knife face, influence cutting effect, and the cutting knife is automatic re-setting after the use, under the circumstances of guaranteeing steam cutting, has also improved cutting efficiency.

2. Due to the reciprocating sliding design of the holding rod, on one hand, the hand can be exercised in a reciprocating extrusion mode, on the other hand, the tinfoil wheel can be driven to rotate in the device, and the tinfoil in the control device is stably conveyed to the outside of the device.

3. The mutual cooperation work of spherical piece and flexographic plate when guaranteeing that the smooth conveyer belt of tin foil paper is outside the device, also can suitably adjust the angle that the tin foil paper carried outside the device, avoids the tin foil paper deflection angle too big, causes the damage.

Drawings

Fig. 1 is a schematic structural diagram of the extrusion type tinfoil paper cutting device.

Fig. 2 is an enlarged view of the invention at a in fig. 1.

Fig. 3 is an enlarged view of the invention at B in fig. 1.

Fig. 4 is a bottom view of the U-shaped groove 47 of fig. 1.

Fig. 5 is a left side view of the fourth gear 51 of fig. 4 according to the present invention.

Fig. 6 is a left side view of the component roller 36 of fig. 1 according to the present invention.

Fig. 7 is a schematic view of the invention in the direction of C-C in fig. 1.

Fig. 8 is an enlarged view of the invention at D in fig. 1.

In the figure, a box body 10, a groove 11, a sliding chute 12, a sliding block 13, a first connecting rod 14, a second connecting rod 15, an annular slide way 16, a spherical slide block 17, a third connecting rod 18, a connecting rod slide way 19, a roller deflector 20, a telescopic cylinder 21, a fourth compression spring 22, a telescopic rod 23, a holding rod 24, a shell 25, a first working space 26, a roller 27, a roller shaft 28, a fifth gear 29, a second gear 30, a second gear shaft 31, a handle 32, an optical axis 35, a roller 36, a first arc-shaped plate 37, an air cavity 38, a first gear 39, a fan blade 40, a rack 41, a sliding rail 42, a sliding rod 43, a third compression spring 44, an air pipe 45, a suction cup 46, a U-shaped groove 47, a spherical block 49, a pull plate 50, a fourth gear 51, a third gear 52, a flexible plate 53, a sliding rail 54, a second tension spring 55, a moving block 56, a string 57, a third gear 58, a reel 59, a, The device comprises a switch 61, a connecting rod 62, a second compression spring 63, a limiting groove 64, a first extension spring 65, a baffle plate 66, a cutter disc 67, a cutting knife 68, a slide way 69, a slide block 70, a first compression spring 71, a contact 72, a mounting cavity 73, a second working space 74, a first gear shaft 75 and a second arc-shaped plate 76.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2 and 3, an extrusion type tinfoil paper cutting device comprises a shell 25 with an opening at the upper end, a placing cavity 73 is arranged in the shell 25, a cutter shell 60 is fixedly connected to the upper end of the shell 25, the cutter shell 60 is arranged in a staggered manner with the opening at the upper end of the shell 25, the cutter shell 60 is positioned at the rear end of the opening at the upper end of the shell 25 relative to the shell 25, a cutter head 67 is connected in the cutter shell 60 in a sliding manner, baffles 66 are respectively and fixedly connected to the left end surface and the right end surface of the cutter head 67, the two baffles 66 are bilaterally symmetrical with respect to the cutter head 67, two first extension springs 65 are fixedly connected between each baffle 66 and the inner wall of the side end of the cutter shell 60, every two first extension springs 65 are vertically symmetrical with respect to the baffle 66, a cutting knife 68 is fixedly connected to the upper end of the, two first compression springs 71 are fixedly connected between the sliding block 70 and the sliding rail 69, the two first compression springs 71 are symmetrical left and right with respect to the sliding block 70, a contact 72 is further fixedly connected to one end surface of the sliding block 70, a contact 72 is further fixedly connected to the inner wall of one side of the sliding rail 69, two limiting grooves 64 are further fixedly arranged on the inner walls of the upper side and the lower side of the cutter housing 60 respectively, and the two limiting grooves 64 on the inner wall of the upper side of the cutter housing 60 and the two limiting grooves 64 on the inner wall of the lower side of the cutter housing 60 are symmetrical up and down with. In an initial state, the cutter disc 67 is positioned at one end in the cutter shell 60, the slide block 70 extends to the outer ends of the slide ways 69 under the action of the first compression spring 71 and is contacted with the limiting grooves 64 on the inner walls of the upper side and the lower side of the cutter shell 60 to limit the cutter disc 67, when the tin foil paper is conveyed to a required length, the switch 61 at the side end of the cutter shell 60 is pressed to compress the two second compression springs 63 for storing force, at the moment, the switch 61 drives the connecting rod 62 to push the baffle 66 in the cutter shell 60, external force is applied to the cutter disc 67, under the action of the external force, the slide blocks 70 in the two slide ways 69 on the cutter disc 67 slide out of the limiting grooves 64, the cutter disc 67 loses the limiting, the cutter disc 67 which loses the limiting function slides to the other end of the cutter shell 60 under the action of the first extension spring 65, during the sliding of the cutter disc 67 in the cutter shell 60, on one hand, the tin foil paper, two first compression springs 71 are compressed to store force, meanwhile, a contact 72 on the sliding block 70 is in contact with a contact 72 on the inner wall of the slide way 69, electric charges on the cutting knife 68 are adjusted, friction generated in the cutting process of the cutting knife 68 on the tin foil paper is avoided, the tin foil paper is pasted on the surface of the cutting knife 68, when the cutter head 67 slides to the position of the limit groove 64 at the other end of the cutter shell 60, the first compression springs 71 reset to push the sliding block 70 to slide towards the outside of the slide way 69 and enter the limit groove 64, the cutter head 67 is limited again, and the next cutting on the tin foil paper is convenient to use.

Referring to fig. 1 and 2, the left and right ends of the cutter housing 60 are respectively slidably connected with a connecting rod 62, one end of each connecting rod 62, which is disposed in the external space, is respectively and fixedly connected with a switch 61, and two second compression springs 63 are further fixedly connected between the switches 61 and the end surface of one side of the cutter housing 60, and the two second compression springs 63 are vertically symmetrical with respect to the connecting rod 62. When the tinfoil paper is to be cut, the switch 61 at the side end of the cutter shell 60 is pressed, the two second compression springs 63 are compressed to store force, at the moment, the switch 61 drives the connecting rod 62 to push the baffle 66 in the cutter shell 60, external force is applied to the cutter disc 67, under the action of the external force, the sliding blocks 70 in the two sliding ways 69 on the cutter disc 67 slide out of the limiting groove 64, the cutter disc 67 loses limiting, the cutter disc 67 is pushed to slide towards the other end in the cutter shell 60 under the action of the first extension spring 65, and after the hand is loosened, the two second compression springs 63 reset to push the switch 61 to return to the initial position.

Referring to fig. 1, fig. 6 and fig. 7, the optical axis 35 is rotatably connected between the inner walls of the left side and the right side of the placement cavity 73, the roller 36 is sleeved on the optical axis 35, the first arc-shaped plate 37 is further sleeved on the optical axis 35, the first arc-shaped plate 37 surrounds the two-thirds roller 36, the side end of the roller 36 is further fixedly connected with the sliding rail 42, the sliding rail 42 is slidably connected with the sliding rod 43, two third compression springs 44 are further fixedly connected between the lower end of the sliding rod 43 and the inner walls of the lower side of the sliding rail 42, the two third compression springs 44 are bilaterally symmetrical with respect to the sliding rod 43, the lower end of the sliding rod 43 is further fixedly. The tin foil paper is pulled out for a certain length to reach the lower end of the spherical block 49 through the surface of the roller 36 and is arranged at the outer end of the device through the opening at the upper end of the shell 25 and the upper end of the cutter shell 60, when the tin foil paper slides on the surface of the roller 36, generates friction with the roller 36 to drive the roller 36 to rotate relatively on the optical axis 35, when the sliding rod 43 on the optical axis 35 rotates to the inner side of the first arc-shaped plate 37, the sliding rod 43 is compressed by the first arc-shaped plate 37 and slides towards the inside of the sliding rail 42, at this time, the two third compression springs 44 in the sliding rail 42 are compressed to store power, when the sliding rod 43 slides downwards in the sliding rail 42, the sliding rod drives the rack 41 to move downwards and engage with the fan blade 40 below the rack 41, when the sliding rod 43 on the optical axis 35 rotates to the outside of the first arc-shaped plate 37, at this time, the two third compression springs 44 are reset to push the sliding rod 43 to slide towards the outside of the sliding rail 42, and the sliding rod 43 drives the rack 41 to gradually disengage from the fan blade 40.

With reference to fig. 6 and 7, the left and right ends of the roller 36 are respectively provided with an air chamber 38, the air chamber 38 is rotatably connected with a first gear shaft 75, the first gear shaft 75 is arranged in the first gear 39, the first gear shaft 75 is arranged in the air chamber 38, one end of the first gear shaft 75 is fixedly connected with fan blades 40, the upper end of the roller 36 is fixedly connected with a suction cup 46, and an air pipe 45 is fixedly connected between the suction cup 46 and the air chamber 38. When the rack 41 slides downwards to be meshed with the fan blades 40, the fan blades 40 are driven to rotate relatively, the fan blades 40 drive the first gear 39 in the air cavity 38 to rotate relatively through the first gear shaft 75, the air cavity 38 adjusts the air pressure in the suction cup 46 through the air pipe 45, the suction cup 46 enables the tin foil paper to be adsorbed on the surface, when the rack 41 slides upwards, the rack 41 and the fan blades 40 are driven to rotate reversely in the process of being disconnected from the meshing, at the moment, the fan blades 40 drive the first gear 39 to rotate reversely in the air cavity 38 through the first gear shaft 75, the air cavity 38 adjusts the air pressure in the suction cup 46 through the air pipe 45 again, the suction cup 46 is enabled to disconnect from adsorbing the tin foil paper, the tin foil paper is intermittently adsorbed through the suction cup 46, and the tin foil paper is better adsorbed outside the conveying belt device when passing through the.

Referring to fig. 1, a second gear shaft 31 is slidably connected between the inner walls of the left and right sides of the accommodating cavity 73, the second gear shaft 31 penetrates through the housing 25 and is disposed in the external space, a handle 32 is fixedly connected to one end of the second gear shaft 31 disposed in the external space, and a second gear 30 is further sleeved on the second gear shaft 31. The handles 32 on the left side and the right side of the pulling device are pulled to increase the distance between the second gear shafts 31, the tinfoil wheel with the outer package removed is placed between the two second gear shafts 31, after the tinfoil wheel is placed, the second gear shafts 31 are pushed back to the initial position again, the tinfoil wheel is clamped tightly, the second gear 30 is meshed with the second gear 29, the second gear 30 is driven to rotate relatively, the second gear 30 drives the tinfoil wheel to rotate relatively through the second gear shafts 31, and the automatic discharging of the tinfoil paper is completed.

Referring to fig. 1, 4 and 5, U-shaped grooves 47 are respectively and fixedly formed on the left side and the right side of an opening at the upper end of the shell 25, a second arc-shaped plate 76 is respectively and fixedly formed on the inner wall of the upper side of each U-shaped groove 47, a spherical block 49 is rotatably connected to the second arc-shaped plate 76, a slide rail 54 is further and fixedly connected to the inner wall of the side end of each U-shaped groove 47, a moving block 56 is slidably connected to the slide rail 54, a second tension spring 55 is fixedly connected between the side end of the moving block 56 and the side end wall of the slide rail 54, a flexible plate 53 is rotatably connected between the lower end of the moving block 56 and the inner wall of the lower side of each U-shaped groove 47, a third gear shaft 58 is rotatably connected to the inner wall of the rear side of each U-shaped groove 47, a reel 59 is sleeved on the third gear shaft 58, a transmission, the fourth gear 51 is rotatably arranged on the side end wall of the U-shaped groove 47, and the spherical block 49 is fixedly connected with a shifting piece 50 capable of driving the third gear 52 to rotate relatively. The tin foil paper which slides out from the surface of the roller 36 is conveyed to an opening at the upper end of the shell 25 through the lower end of the spherical block 49, when the tin foil paper passes through the spherical block 49, the tin foil paper is contacted with the spherical block 49 to generate friction, the spherical block 49 generates relative rotation in the second arc-shaped plate 76 under the action of the friction force, when the spherical block 49 rotates, the poking piece 50 on the spherical block 49 is controlled to poke the fourth gear 51 to drive the fourth gear 51 to generate relative rotation, the fourth gear 51 is meshed with the third gear 52 when rotating, the reel 59 is driven to generate relative rotation through the third gear shaft 58, the reel 59 winds the thread rope 57 when rotating, the moving block 56 is pulled through the thread rope 57 to generate relative sliding in the sliding rail 54, the second stretching spring 55 in the sliding rail 54 is stretched to accumulate force, when the poking piece 50 stops poking the fourth gear 51, the stretched second stretching spring 55 pulls the moving block 56 to restore to the, through the intermittent type nature contact of plectrum 50 and fourth gear 51 on the spherical block 49, control movable block 56 and carry out reciprocating sliding in slide rail 54, when movable block 56 is on slide rail 54 reciprocating sliding, drive flexible plate 53 and take place the relative oscillation, through the relative oscillation of two flexible plates 53 of casing 25 upper end opening part, adjust spherical block 49 lower extreme tinfoil conveying direction, when avoiding tinfoil and spherical block 49 contact, make tinfoil ejection of compact angle take place to deflect under the frictional force effect, cause the tinfoil damage.

Referring to fig. 1, the lower end of the casing 25 is further fixedly connected with a box 10, the box 10 and the casing 25 are surrounded to form two first working spaces 26 and a second working space 74, the two first working spaces 26 are bilaterally symmetrical with respect to the casing 25, the second working space 74 is located between the two first working spaces 26, a roller shaft 28 is respectively rotatably connected in each first working space 26, one end of the roller shaft 28 penetrates through one end wall of the casing 25 and is placed in the external space, a roller 27 is sleeved on the roller shaft 28, and one end of the roller shaft 28, which is placed in the external space, is fixedly connected with a fifth gear 29 which can be meshed with the second gear 30. When the roller 27 on the roller shaft 28 rotates relatively, the roller 27 drives the fifth gear 29 to rotate relatively through the roller shaft 28, and the fifth gear 29 is meshed with the second gear 30 to provide power for the device to convey the tin foil paper.

With reference to fig. 1, a telescopic cylinder 21 is fixedly arranged in the box body 10, a telescopic rod 23 arranged in the second working space 74 is slidably connected in the telescopic cylinder 21, a fourth compression spring 22 is fixedly connected between the lower end of the telescopic rod 23 and the lower side inner wall of the telescopic cylinder 21, the upper end of the telescopic rod 23 is fixedly connected with a holding rod 24 capable of holding a palm, two grooves 11 are further formed in the upper end of the box body 10, and the two grooves 11 are bilaterally symmetrical with respect to the telescopic cylinder 21. When using this device, a hand is held and is extended to the outer tin foil paper of device, another hand is held tightly on holding rod 24 in second workspace 74, extrude holding rod 24 downwards, drive telescopic link 23 through holding rod 24 and slide to telescopic cylinder 21 is inside, hold the power with fourth compression spring 22 compression, fourth compression spring 22 resets and promotes telescopic link 23 and slides to telescopic cylinder 21 outside behind the pine hand, extrude holding rod 24 through the one hand, control telescopic link 23 is inside to carry out reciprocal slip from top to bottom at telescopic cylinder 21, provide power for the device transport tin foil paper on the one hand, on the other hand also tempers the palm through the extrusion.

Referring to fig. 1 and 8, a sliding groove 12 is arranged on the inner wall of one side of the groove 11, a sliding block 13 is connected in the sliding groove 12 in a sliding manner, a first connecting rod 14 is connected between the rear end face of the sliding block 13 and the lower end face of the holding rod 24 in a rotating manner, an annular slide way 16 is further arranged in the groove 11, a spherical sliding block 17 is connected in the annular slide way 16 in a sliding manner, a second connecting rod 15 capable of pushing the spherical sliding block 17 to slide in the annular slide way 16 when the sliding block 13 slides is connected in a rotating manner between the rear end face of the spherical sliding block 17 and the front end face of the sliding block 13 in a rotating manner, the upper end of the spherical sliding block 17 is fixedly connected with a roller deflector rod 20, a connecting rod slide way 19 is further connected in. When the holding rod 24 slides downwards in the second working space 74, the holding rod 24 pushes the sliding block 13 to slide in the sliding groove 12 in a direction away from the telescopic cylinder 21 through the first connecting rod 14, when the sliding block 13 slides, the spherical sliding block 17 is driven to slide in the annular slide way 16 in a direction away from the telescopic cylinder 21 through the second connecting rod 15, when the spherical sliding block 17 slides, the roller 27 is driven to rotate relatively on the roller shaft 28 through the roller deflector rod 20, power is provided for conveying tin foil paper outwards by a subsequent device, when the spherical sliding block 17 slides in the annular slide way 16, the spherical sliding block 17 drives the third connecting rod 18 to slide in a reciprocating manner on the connecting rod slide way 19, and simultaneously drives the connecting rod slide way 19 to rotate relatively in the groove 11, when the holding rod 24 slides upwards in the second working space 74, the holding rod 24 drives the sliding block 13 to slide in the sliding groove 12 in a direction close to the telescopic cylinder 21 through the first connecting rod 14, at this time, the sliding block 13 pulls the spherical sliding block 17 to slide in the annular slide way 16 in the direction close to the telescopic cylinder 21 through the second connecting rod 15, and the spherical sliding block 17 is restored to the initial position through the mutual matching of the third connecting rod 18 and the connecting rod slide way 19, and as the spherical sliding block 17 is positioned at the upper half section in the annular slide way 16 in the initial state, the spherical sliding block 17 slides at the lower half section of the annular slide way 16 when being restored, the spherical sliding block 17 is ensured to be disconnected from the roller 27 when being restored, and the tin foil paper conveyed out of the device is prevented from being brought back again.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an extrusion formula tin foil paper cutting device, includes upper end open-ended casing (25), be equipped with in casing (25) and settle chamber (73), its characterized in that: casing (25) upper end fixedly connected with cutter shell (60), this cutter shell (60) and casing (25) upper end opening dislocation set, and cutter shell (60) are located casing (25) upper end open-ended rear end for casing (25), sliding connection has blade disc (67) in cutter shell (60), both ends face fixedly connected with baffle (66) respectively about blade disc (67), and these two baffles (66) become bilateral symmetry about blade disc (67), every baffle (66) with two first extension spring (65) of fixedly connected with between the side inner wall of cutter shell (60), every two first extension spring (65) become longitudinal symmetry about baffle (66), blade disc (67) upper end fixedly connected with cutting knife (68), both ends fixedly connected with slide (69) respectively about cutting knife (68), slide (70) of sliding connection respectively in every slide (69), slider (70) with two first compression spring (71) of fixedly connected with between slide (69), these two first compression spring (71) become bilateral symmetry about slider (70), slider (70) terminal surface fixedly connected with contact (72) still, slide (69) one side inner wall fixedly connected with contact (72) still, both sides inner wall is still fixed respectively about cutter shell (60) and is equipped with two spacing groove (64), two spacing groove (64) of cutter shell (60) upside inner wall and two spacing groove (64) of cutter shell (60) downside inner wall become longitudinal symmetry about cutter shell (60).

2. The extrusion type tinfoil paper cutting device according to claim 1, characterized in that: both ends are sliding connection respectively has connecting rod (62) about cutter shell (60), external space one end fixedly connected with switch (61) respectively is arranged in to every connecting rod (62), still two second compression spring (63) of fixedly connected with between switch (61) and cutter shell (60) one side terminal surface, these two second compression spring (63) become longitudinal symmetry about connecting rod (62).

3. The extrusion type tinfoil paper cutting device according to claim 2, characterized in that: settle and rotate between chamber (73) left and right sides inner wall and be connected with optical axis (35), the cover is equipped with gyro wheel (36) on optical axis (35), still the cover is equipped with first arc (37) on optical axis (35), and this first arc (37) surround two-thirds's gyro wheel (36), gyro wheel (36) side is fixedly connected with slide rail (42) still respectively, sliding connection has slide bar (43) in slide rail (42), two third compression spring (44) of still fixedly connected with between slide bar (43) lower extreme and slide rail (42) downside inner wall, these two third compression spring (44) become bilateral symmetry about slide bar (43), slide bar (43) lower extreme still fixedly connected with rack (41), this rack (41) run through slide rail (42).

4. The extrusion type tinfoil paper cutting device according to claim 3, characterized in that: air chamber (38) have been seted up respectively at both ends about gyro wheel (36), it is connected with first gear shaft (75) to rotate on air chamber (38), external space one end fixedly connected with first gear (39) are arranged in first gear shaft (75), first gear shaft (75) are arranged in air chamber (38) one end fixedly connected with flabellum (40) still, gyro wheel (36) upper end fixedly connected with sucking disc (46) still, sucking disc (46) with fixedly connected with trachea (45) are gone back between air chamber (38).

5. The extrusion type tinfoil paper cutting device according to claim 4, characterized in that: the inner walls of the left side and the right side of the placement cavity (73) are respectively connected with a second gear shaft (31) in a sliding mode, the second gear shaft (31) penetrates through the shell (25) and is arranged in an external space, one end, arranged in the external space, of the second gear shaft (31) is fixedly connected with a handle (32), and a second gear (30) is further sleeved on the second gear shaft (31).

6. The extrusion type tinfoil paper cutting device according to claim 5, characterized in that: the left side and the right side of an opening at the upper end of the shell (25) are respectively and fixedly provided with a U-shaped groove (47), the inner wall of the upper side of each U-shaped groove (47) is respectively and fixedly provided with a second arc-shaped plate (76), a spherical block (49) is rotationally connected with the second arc-shaped plate (76), the inner wall of the side end of each U-shaped groove (47) is also fixedly connected with a sliding rail (54), the sliding rail (54) is internally and slidably connected with a movable block (56), a second tension spring (55) is fixedly connected between the side end of the movable block (56) and the side end wall of the sliding rail (54), a flexible plate (53) is rotationally connected between the lower end of the movable block (56) and the inner wall of the lower side of the U-shaped groove (47), the inner wall of the rear side of the U-shaped groove (47) is rotationally connected with a third gear shaft (58), a reel (59) is, the third gear shaft (58) is fixedly connected with a third gear (52), the rear end of the third gear (52) is meshed with a fourth gear (51), the fourth gear (51) is rotatably arranged on the side end wall of the U-shaped groove (47), and the spherical block (49) is fixedly connected with a shifting piece (50) capable of driving the third gear (52) to rotate relatively.

7. The extrusion type tinfoil paper cutting device according to claim 6, characterized in that: casing (25) lower extreme fixedly connected with box (10) still, box (10) surround with casing (25) and form two first workspace (26) and a second workspace (74), and these two first workspaces (26) become bilateral symmetry about casing (25), and second workspace (74) are located between two first workspaces (26), rotate respectively in every first workspace (26) and be connected with roller axle (28), and casing (25) one end wall is run through to this roller axle (28) one end and is put in external space, the cover is equipped with roller (27) on roller axle (28), external space one end is arranged in to roller axle (28) and has linked firmly fifth gear (29) that can mesh mutually with second gear (30).

8. The extrusion type tinfoil paper cutting device according to claim 7, characterized in that: the utility model discloses a telescopic box, including box (10), telescopic cylinder (21), sliding connection has and arranges in telescopic cylinder (21) telescopic link (23) in second workspace (74), fixedly connected with fourth compression spring (22) between telescopic link (23) lower extreme and telescopic cylinder (21) downside inner wall, telescopic link (23) upper end has linked firmly holding rod (24) that can place the palm, two recess (11) have still been seted up to the upper end of box (10), and these two recess (11) become bilateral symmetry about telescopic cylinder (21).

9. The extrusion type tinfoil paper cutting device according to claim 8, characterized in that: a sliding groove (12) is arranged on the inner wall of one side of the groove (11), a sliding block (13) is connected in the sliding groove (12) in a sliding mode, a first connecting rod (14) is connected between the rear end face of the sliding block (13) and the lower end face of the holding rod (24) in a rotating mode, an annular slide way (16) is further formed in the groove (11), a spherical sliding block (17) is connected in the annular slide way (16) in a sliding mode, a second connecting rod (15) capable of pushing the spherical sliding block (17) to slide in the annular slide way (16) when the sliding block (13) slides is connected between the rear end face of the spherical sliding block (17) and the front end face of the sliding block (13) in a rotating mode, a roller deflector rod (20) is fixedly connected to the upper end of the spherical sliding block (17), a connecting rod slide way (19) is further connected, one end of the third connecting rod (18) is rotationally connected with the front end surface of the spherical sliding block (17).