CN110817517A

CN110817517A - Cooling and shaping transmission device after medical packaging gummed paper pressing and shaping

Info

Publication number: CN110817517A
Application number: CN201911140598.3A
Authority: CN
Inventors: 王义文; 李晨
Original assignee: Individual
Current assignee: Anhui Huakang Medicine Packaging Co ltd
Priority date: 2019-11-20
Filing date: 2019-11-20
Publication date: 2020-02-21
Anticipated expiration: 2039-11-20
Also published as: CN110817517B

Abstract

The invention relates to a cooling and shaping transmission device after compression molding of medical packaging gummed paper, which comprises a bottom plate, a lifting device, a locking and positioning device, a transmission device and a winding device, wherein support plates are symmetrically arranged at the left end and the right end of the bottom plate, flat plates are arranged on the support plates, the winding device is arranged at the left end of each flat plate, the lifting device is arranged between the inner walls of the support plates, the transmission device is arranged on the lifting device, and the locking and positioning device is arranged on the outer wall of the support plate at the right end; the height of the transmission roller can not be adjusted when the traditional transmission machine transmits, the spreading paper can not be tightened in time when the spreading paper is not flexible, and cooling operation can be carried out when the spreading paper is transmitted.

Description

Cooling and shaping transmission device after medical packaging gummed paper pressing and shaping

Technical Field

The invention relates to the technical field of gummed paper processing, in particular to a cooling and shaping transmission device for medical packaging gummed paper after being pressed and shaped.

Background

While packaging has been extensively studied starting from the selection of suitable packaging materials and packaging methods which, in addition to being associated with sterilization, also take into account the sterilization of the articles, there are also a wide variety of medical packaging materials available on the market, medical gummed papers being an important component of the sterile barrier system based on medical packaging devices, being the most basic packaging which prevents the entry of microorganisms to maintain the sterility of the device and which, in use, allows the device to be presented in a sterile state. The paper-plastic packaging bag can realize sterilization after the packaging of the instruments, and reduces the intermediate links in direct contact with the instruments, so that the paper-plastic packaging is safer, and medical personnel can not be infringed by disinfection drugs possibly remaining in the bag after the instruments are unpacked.

However, the following problems exist in the prior art that the gummed paper for medical packaging is transported after being laminated and molded, firstly, the gummed paper needs to be transported to the side of a cooling machine through a transport machine during the transport after the traditional gummed paper is laminated and molded, the gummed paper can be rolled after the cooling treatment of the cooling machine, the cooling step is complicated, and the cooling cost is too high; the height of the transmission roller can not be adjusted when the traditional transmission machine transmits, the spreading paper can not be tightened in time when the spreading paper is not flexible, cooling operation can be carried out when the spreading paper is transmitted, and the cooling roller has the advantages of good cooling effect, high transmission efficiency and the like.

Disclosure of Invention

Technical problem to be solved

The cooling and shaping transmission device for the medical packaging gummed paper after press-forming can solve the problems existing in the process of transmission after the medical packaging gummed paper is press-formed.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the cooling and shaping transmission device after the medical packaging gummed paper is pressed and shaped comprises a bottom plate, a lifting device, a locking and positioning device, a transmission device and a winding device, wherein the left end and the right end of the bottom plate are symmetrically provided with supporting plates, flat plates are arranged on the supporting plates, the winding device is arranged at the left end of each flat plate, the lifting device is arranged between the inner walls of the supporting plates, the transmission device is arranged on the lifting device, and the locking and positioning device is arranged on the outer wall of the supporting plate at the.

Elevating gear include crank, circle axle, cam, dwang, lifter and slide bar, the backup pad inner wall between install the circle axle through the bearing, the crank is installed to circle axle right-hand member, the epaxial cam of evenly installing of circle and adjacent cam installation angle are different, seted up the lift annular on the cam, install the dwang through sliding fit's mode in the lift annular, install the lifter on the dwang, evenly seted up the slide opening on the flat board, install on the lifter that slide bar and slide bar pass through sliding fit's mode and install in the slide opening, install transmission on the slide bar.

The locking and positioning device comprises a locking wheel, a clamping rod and a clamping spring rod, wherein the locking wheel is fixedly arranged on a round shaft and positioned between the crank and the outer wall of the supporting plate, the clamping rod is symmetrically arranged on the outer wall of the supporting plate at the right end in the front and at the back through a pin shaft, the clamping rods are connected with each other through the clamping spring rod, and the clamping rod and the locking wheel are matched with each other for use.

The clamping rods are mutually pulled to enable the clamping rods to unlock the locking wheels, the crank handle is rotated to drive the cam to rotate through the round shaft, the rotating rod slides in the lifting ring groove of the cam, the sliding rod slides in the sliding hole, the sliding rod drives the transmission device to move to different heights, the clamping rods are loosened to enable the clamping rods to clamp the locking wheels under the tensioning of the clamping spring rods, and the height of the transmission device is located.

The transmission device include two-way cylinder, a transmission ring, No. two transmission rings, sucking disc and annular sheet rubber, transmission roller middle-end fixed mounting has a transmission ring, the straight flute has been seted up on the transmission ring, install two-way cylinder in the straight flute, two-way cylinder output end symmetry is installed No. two transmission rings and is installed on the transmission roller through sliding fit's mode, evenly install the sucking disc along its circumference direction on a transmission ring and No. two transmission rings, the annular sheet rubber cover is established at the transmission roller, annular sheet rubber one end is installed on the transmission ring, the annular sheet rubber other end is installed on the transmission roller inner wall.

The winding device comprises a winding motor, a winding roller and a square plate, the square plate is symmetrically installed at the front and the back of the installation of the left end of the flat plate, the winding roller is installed between the inner walls of the square plates through a bearing, and the output end of the winding motor are installed on the outer wall of the square plate and connected to the winding roller.

After the transmission device is positioned, the two-way cylinder drives the two-way transmission ring to move to the position where the width of the gummed paper is the same, the two-way transmission ring drives the annular rubber sheet to block the air passing hole close to one end of the inner wall on the transmission roller, the gummed paper needing to be cooled is laid along the track of the transmission roller, the starting point of the gummed paper is wound on the winding roller, and the winding motor drives the winding roller to rotate to wind the gummed paper.

The transmission device include lifter plate, straight board, transmission roller, driven gear, pivot, cooling flabellum, arc apron and horizontal pole, the lifter plate install on lifter plate, straight board is installed to both ends symmetry around on the lifter plate, install the transmission roller through the bearing between the straight inboard wall, install transmission device on the transmission roller, the circular slot has been seted up in the transmission roller, the gear groove has been seted up along circular slot circumference direction on the circular slot rear end inner wall, install the pivot through the bearing between the both ends inner wall around the circular slot, the driven gear with gear groove intermeshing is installed to the pivot rear end, extend its circumference direction in the pivot and evenly install the cooling flabellum, the transmission roller evenly is provided with the wind hole after to along its circumference direction from the front, the horizontal pole is installed to straight board left and right ends symmetry, install the arc apron on the horizontal pole.

The gummed paper is laid on the transmission roller after, the gummed paper is lived to the sucking disc absorption, and the sucking disc drives the transmission roller and rotates when carrying out the rolling, and the transmission roller drives driven gear through gear engagement's mode and rotates, and driven gear drives the cooling flabellum and rotates, and the cooling flabellum carries out fan-wind cooling operation to the gummed paper for the gummed paper can have the cooling efficiency when the rolling.

As a preferred technical scheme of the invention, the arc cover plates are arranged on the cross rods at intervals from top to bottom, the arc cover plates are symmetrically provided with the long grooves from left to right, the inner walls of the long grooves are provided with the auxiliary rotating rods through the pin shafts, and the glue coated paper can slide in an auxiliary manner when being wound, so that the sliding friction is changed into the rotating friction, and the friction force is reduced.

As a preferred technical scheme of the invention, the locking wheel is provided with a positive clamping strip and a negative clamping strip, a circular ring strip is formed between the positive clamping strip and the negative clamping strip, the circular ring strip is sleeved on the locking wheel, the positive clamping strip and the negative clamping strip are both provided with clamping strips, and the inclination angles of the clamping strips on the positive clamping strip and the negative clamping strip are opposite, so that the clamping rod can better clamp the locking wheel, and the transmission device can be better positioned in height.

(III) advantageous effects

1. The invention can solve the following problems existing in the prior art that the glue coating paper for medical packaging is transported after being pressed and molded, firstly, the glue coating paper is transported to the side of a cooling machine through a transport machine during the transport after the traditional glue coating paper is pressed and molded, and the glue coating paper can be rolled after the cooling treatment of the cooling machine, so that the cooling step is complicated and the cooling cost is too high; the height of the transmission roller can not be adjusted when the traditional transmission machine transmits, the spreading paper can not be tightened in time when the spreading paper is not flexible, cooling operation can be carried out when the spreading paper is transmitted, and the cooling roller has the advantages of good cooling effect, high transmission efficiency and the like.

2. The lifting device and the locking and positioning device can change the height of the conveying device by rotating the crank to adjust the angle of the cam when the gummed paper is loosened during conveying, the loosened gummed paper can be tightened in time, and the locking and positioning device locks the lifting device by the mutual matching of the locking wheel 31 and the clamping rod 32, so that the height of the conveying device is indirectly positioned.

3. The conveying device and the conveying mechanism drive the conveying roller to rotate through power generated when the gummed paper is rolled, the conveying roller drives the cooling fan blades to cool the gummed paper, the contact area of the gummed paper on the conveying roller is increased through the arc-shaped cover plate, the power for driving the conveying roller to rotate is increased, the annular rubber sheet blocks the unnecessary air passing holes, and the utilization rate of cold air generated by the cooling fan blades is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front-to-back cross-sectional view of FIG. 1 of the present invention;

FIG. 3 is an enlarged view of the invention taken along line K of FIG. 2;

FIG. 4 is a left-to-right cross-sectional view of FIG. 1 of the present invention;

FIG. 5 is an enlarged view of the L-direction portion of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic diagram of a transmission device according to the present invention;

FIG. 7 is a schematic view of the locking and positioning device of the present invention;

fig. 8 is a cross-sectional view of a transfer roll of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, a cooling design transmission device after medical packing gummed paper pressfitting shaping, including bottom plate 1, elevating gear 2, locking positioner 3, transmission device 4 and coiling mechanism 5, bottom plate 1 about both ends symmetry install backup pad 11, install dull and stereotyped 12 in the backup pad 11, coiling mechanism 5 is installed to dull and stereotyped 12 left end, installs elevating gear 2 between the 11 inner walls of backup pad, installs transmission device 4 on elevating gear 2, installs locking positioner 3 on the 11 outer walls of right-hand member backup pad.

Elevating gear 2 include crank 21, circle axle 22, cam 23, dwang 24, lifter 25 and slide bar 26, 11 inner walls of backup pad between install circle axle 22 through the bearing, crank 21 is installed to circle axle 22 right-hand member, evenly install cam 23 and adjacent cam 23 installation angle difference on the circle axle 22, the lifting ring groove has been seted up on the cam 23, dwang 24 is installed through sliding fit's mode in the lifting ring groove, install lifter 25 on the dwang 24, the spout has evenly been seted up on dull and stereotyped 12, install slide bar 26 and slide bar 26 on the lifter 25 and install in the spout through sliding fit's mode, install transmission device 4 on the slide bar 26.

Locking positioner 3 include locking wheel 31, chucking pole 32 and chucking spring pole 33, locking wheel 31 fixed mounting lie in between crank 21 and the backup pad 11 outer wall on round shaft 22, install chucking pole 32 through round pin axle longitudinal symmetry on the right-hand member backup pad 11 outer wall, be connected through chucking spring pole 33 between the chucking pole 32, chucking pole 32 and locking wheel 31 use of mutually supporting.

The clamping rods 32 are mutually pulled apart to enable the clamping rods 32 to unlock the locking wheels 31, the crank handle 21 is rotated to drive the cam 23 to rotate through the round shaft 22, the rotating rod 24 slides in the lifting ring groove of the cam 23, the sliding rod 26 slides in the sliding hole, the sliding rod 26 drives the transmission device 4 to move to different heights, the clamping rods 32 are loosened to enable the clamping rods 32 to clamp the locking wheels 31 under the tensioning of the clamping spring rods 33, and the height of the transmission device 4 is located.

The transmission mechanism 49 comprises a bidirectional cylinder 491, a first transmission ring 492, a second transmission ring 493, a suction cup 494 and an annular rubber sheet 495, the first transmission ring 492 is fixedly installed at the middle end of the transmission roller 43, a straight groove is formed in the first transmission ring 492, the bidirectional cylinder 491 is installed in the straight groove, the second transmission ring 493 is symmetrically installed at the output end of the bidirectional cylinder 491, the second transmission ring 493 is installed on the transmission roller 43 in a sliding fit mode, the suction cups 494 are evenly installed on the first transmission ring 492 and the second transmission ring 493 along the circumferential direction of the first transmission ring 492, the annular rubber sheet 495 is sleeved on the transmission roller 43, one end of the annular rubber sheet 495 is provided with the transmission ring, and the other end of the annular rubber sheet 495 is installed on the inner wall of the transmission roller 43.

Coiling mechanism 5 include coiling motor 51, wind-up roll 52 and square slab 53, dull and stereotyped 12 left end installation front and back symmetry install square slab 53, install wind-up roll 52 through the bearing between the square slab 53 inner wall, install coiling motor 51 and the output of coiling motor 51 is connected on wind-up roll 52 on the square slab 53 outer wall.

After the transmission device 4 is positioned, the bidirectional cylinder 491 drives the second transmission ring 493 to move to the position with the same width of the gummed paper, the second transmission ring 493 drives the annular rubber sheet 495 to block the air passing hole close to one end of the inner wall on the transmission roller 43, the gummed paper needing to be cooled is laid along the track of the transmission roller 43, the starting point of the gummed paper is wound on the winding roller 52, and the winding motor 51 drives the winding roller 52 to rotate to wind the gummed paper.

The transmission device 4 comprises a lifting plate 41, a straight plate 42, a transmission roller 43, a driven gear 44, a rotating shaft 45, cooling fan blades 46, an arc-shaped cover plate 47 and a cross bar 48, lifter plate 41 install on elevating gear 2, straight board 42 is installed to both ends symmetry around on lifter plate 41, install transmission roller 43 through the bearing between the straight board 42 inner wall, install transmission 49 on the transmission roller 43, the circular slot has been seted up in the transmission roller 43, the gear groove has been seted up along circular slot circumferential direction on the circular slot rear end inner wall, install pivot 45 through the bearing between the both ends inner wall around the circular slot, 45 rear ends of pivot install with gear groove intermeshing's driven gear 44, it evenly installs cooling fan 46 to extend its circumferential direction on the pivot 45, transmission roller 43 evenly is provided with the wind hole from front to back along its circumferential direction, horizontal pole 48 is installed to both ends symmetry about straight board 42, install arc apron 47 on the horizontal pole 48.

After the gummed paper is laid on the transmission roller 43, the gummed paper is adsorbed by the suckers 494, the suckers 494 drive the transmission roller 43 to rotate when the gummed paper is rolled, the transmission roller 43 drives the driven gear 44 to rotate in a gear meshing mode, the driven gear 44 drives the cooling fan blades 46 to rotate, and the cooling fan blades 46 carry out fan cooling operation on the gummed paper, so that the gummed paper can have a cooling effect when being rolled.

During operation

The first step is as follows: the clamping rods 32 are pulled away from each other to enable the clamping rods 32 to unlock the locking wheel 31, the crank handle 21 is rotated to drive the cam 23 to rotate through the round shaft 22, the rotating rod 24 slides in the lifting ring groove of the cam 23 to enable the sliding rod 26 to slide in the sliding hole, and after the sliding rod 26 drives the transmission device 4 to move to different heights, the clamping rods 32 are loosened to enable the clamping rods 32 to clamp the locking wheel 31 under the tensioning of the clamping spring rods 33, so that the height of the transmission device 4 is located;

the second step is that: the bidirectional cylinder 491 drives the second transmission ring 493 to move to the position where the width of the gummed paper is the same, the second transmission ring 493 drives the annular rubber sheet 495 to block an air passing hole at one end, close to the inner wall, of the transmission roller 43, then the gummed paper to be cooled is laid along the track of the transmission roller 43, the starting point of the gummed paper is wound on the winding roller 52, and the winding motor 51 drives the winding roller 52 to rotate to wind the gummed paper;

the third step: the suction cup 494 adsorbs the gummed paper, the suction cup 494 drives the transmission roller 43 to rotate when the gummed paper is rolled, the transmission roller 43 drives the driven gear 44 to rotate in a gear meshing mode, the driven gear 44 drives the cooling fan blades 46 to rotate, and the cooling fan blades 46 perform fan cooling operation on the gummed paper.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a cooling design transmission device after medical packing gummed paper pressfitting shaping, includes bottom plate (1), elevating gear (2), locking positioner (3), transmission device (4) and coiling mechanism (5), its characterized in that: the automatic winding device is characterized in that supporting plates (11) are symmetrically arranged at the left end and the right end of the bottom plate (1), a flat plate (12) is arranged on each supporting plate (11), a winding device (5) is arranged at the left end of each flat plate (12), a lifting device (2) is arranged between the inner walls of the supporting plates (11), a transmission device (4) is arranged on each lifting device (2), and a locking positioning device (3) is arranged on the outer wall of each supporting plate (11) at the right end; wherein:

the conveying device (4) comprises a lifting plate (41), straight plates (42), conveying rollers (43), driven gears (44), a rotating shaft (45), cooling fan blades (46), an arc-shaped cover plate (47) and a cross rod (48), wherein the lifting plate (41) is installed on the lifting device (2), the straight plates (42) are symmetrically installed at the front end and the rear end of the lifting plate (41), the conveying rollers (43) are installed between the inner walls of the straight plates (42) through bearings, conveying mechanisms (49) are installed on the conveying rollers (43), circular grooves are formed in the conveying rollers (43), gear grooves are formed in the inner walls of the rear ends of the circular grooves along the circumferential direction of the circular grooves, the rotating shaft (45) is installed between the inner walls of the front ends and the rear ends of the circular grooves through bearings, the driven gears (44) meshed with the gear grooves are installed at the rear ends of the rotating shaft (45), and the cooling fan blades (46) are evenly, the conveying roller (43) is uniformly provided with air passing holes from front to back along the circumferential direction, the left end and the right end of the straight plate (42) are symmetrically provided with cross rods (48), and the cross rods (48) are provided with arc-shaped cover plates (47);

the transmission mechanism (49) comprises a bidirectional cylinder (491), a first transmission circular ring (492), a second transmission circular ring (493), a suction cup (494) and an annular rubber sheet (495), transmission roller (43) middle-end fixed mounting has transmission ring (492) No. one, the straight flute has been seted up on transmission ring (492), install two-way cylinder (491) in the straight flute, two-way cylinder (491) output symmetry is installed No. two transmission ring (493) and is installed on transmission roller (43) through sliding fit's mode, evenly install sucking disc (494) along its circumference direction on transmission ring (492) and No. two transmission ring (493), transmission roller (43) are established to annular sheet rubber (495) cover, on annular sheet rubber (495) one end installation number transmission ring, the annular sheet rubber (495) other end is installed on transmission roller (43) inner wall.

2. The medical packaging gummed paper press-forming post-cooling shaping transmission device as claimed in claim 1, wherein: elevating gear (2) including crank (21), circle axle (22), cam (23), dwang (24), lifter (25) and slide bar (26), backup pad (11) inner wall between install circle axle (22) through the bearing, crank (21) are installed to circle axle (22) right-hand member, it is different that cam (23) and adjacent cam (23) installation angle are evenly installed on circle axle (22), the lift annular has been seted up on cam (23), dwang (24) are installed through sliding fit's mode in the lift annular, install lifter (25) on dwang (24), the slide opening has evenly been seted up on dull and stereotyped (12), install slide bar (26) and slide bar (26) on lifter (25) and install in the slide opening through sliding fit's mode, install transmission device (4) on slide bar (26).

3. The medical packaging gummed paper press-forming post-cooling shaping transmission device as claimed in claim 1, wherein: locking positioner (3) including locking wheel (31), chucking pole (32) and chucking spring lever (33), locking wheel (31) fixed mounting lie in on round axle (22) between crank (21) and backup pad (11) outer wall, install chucking pole (32) through round pin axle front and back symmetry on right-hand member backup pad (11) outer wall, be connected through chucking spring lever (33) between chucking pole (32), chucking pole (32) and locking wheel (31) use of mutually supporting.

4. The medical packaging gummed paper press-forming post-cooling shaping transmission device as claimed in claim 1, wherein: coiling mechanism (5) including coiling motor (51), wind-up roll (52) and square plate (53), dull and stereotyped (12) left end installation around the symmetry install square plate (53), wind-up roll (52) are installed through the bearing between square plate (53) inner wall, install on square plate (53) outer wall coiling motor (51) and coiling motor (51) output and connect on wind-up roll (52).

5. The medical packaging gummed paper press-forming post-cooling shaping transmission device as claimed in claim 1, wherein: arc apron (47) from top to bottom each other the interval install on horizontal pole (48), the bilateral symmetry has seted up rectangular groove on arc apron (47), installs supplementary bull stick (471) through the round pin axle between the rectangular inslot wall.

6. The medical packaging gummed paper press-forming post-cooling shaping transmission device as claimed in claim 3, wherein: locking wheel (31) be provided with positive card strip and anti-card strip, form the ring area between positive card strip and the anti-card strip, the ring area cover is established on locking wheel (31), all be provided with the card strip on positive card strip and the anti-card strip, and just the inclination of the card strip on positive card strip and the anti-card strip is opposite.