CN111347485A

CN111347485A - Foxing automatic production equipment

Info

Publication number: CN111347485A
Application number: CN202010263733.XA
Authority: CN
Inventors: 庹明珠
Original assignee: Dongguan Shengtu Printing Equipment Co ltd
Current assignee: Dongguan Shengtu Printing Equipment Co ltd
Priority date: 2020-04-07
Filing date: 2020-04-07
Publication date: 2020-06-30

Abstract

The invention discloses a foxing automated production equipment, which comprises: the surrounding strip conveying mechanism comprises a linear driving roller and an inclined driving roller, the linear driving roller is provided with a first surrounding strip positioning baffle, the inclined driving roller is provided with a second surrounding strip fixing baffle, a surrounding strip pushing hand is arranged on the linear driving roller, and the surrounding strip pushing hand is externally connected with a pushing hand cylinder; the transverse and longitudinal knife cutting mechanism comprises a first circular knife, a second circular knife and a third circular knife, the first circular knife and the second circular knife are arranged on the first sliding shaft body, the third circular knife is arranged on the second sliding shaft body, and a locking handle is further arranged on the first sliding shaft body; an enclosing strip embossing mechanism that flattens includes pressure axis, embossing roller and compression roller, and the pressure axis is located puts driving roller one side to one side, is equipped with a plurality of pinch roller on the compression roller, and the compression roller all installs in the driving roller ejection of compact one end of putting to one side with the embossing roller. The invention gets rid of the traditional method for producing and processing the surrounding strip by manual drawing and molding, realizes automation and greatly improves the industrial capacity.

Description

Foxing automatic production equipment

Technical Field

The invention relates to the field of printed matter packaging, in particular to an automatic production device, and specifically relates to automatic foxing production equipment.

Background

The mode that traditional manual work production was adopted in most the production machine tooling of foxing on the market at present, cooperation beer machine, confirm the foxing size earlier, carry out the drawing again, then make the beer board, process at last to this kind of mode processing foxing cost time is long, and need spend a large amount of human costs, more difficult should diversified processing demand, whole trade productivity inefficiency.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic production device of a surrounding strip without traditional drawing and beer board making.

The technical scheme of the invention is as follows:

an automated foxing production apparatus comprising:

the surrounding strip conveying mechanism comprises a linear driving roller and an inclined driving roller, a first surrounding strip positioning baffle is arranged on one side of the linear driving roller in the feeding direction, a second surrounding strip fixing baffle is arranged on one side of the inclined driving roller close to the linear driving roller, a surrounding strip pushing handle is arranged on the linear driving roller, and a pushing handle cylinder is externally connected with the surrounding strip pushing handle;

the transverse and longitudinal knife cutting mechanism comprises a first circular knife, a second circular knife and a third circular knife, the first circular knife and the second circular knife are mounted on a first sliding shaft body on one side, close to the inclined transmission roller, of the linear transmission roller, the third circular knife is mounted on a second sliding shaft body on one side, close to the discharge port of the inclined transmission roller, and a locking handle is further arranged on the first sliding shaft body;

an enclosing strip embossing mechanism that flattens includes pressure shaft, embossing roller and compression roller, the pressure shaft is located first slip axis body and is close to put driving roller one side to one side, is equipped with a plurality of pinch roller on the compression roller, the compression roller is all installed in putting driving roller ejection of compact one end to one side with the embossing roller to the order installation of embossing roller, third circle sword, compression roller.

In the above scheme, foxing transport mechanism, violently indulge sword cutting mechanism and foxing and flatten the impressed watermark mechanism and all install on a mounting bracket, the mounting bracket divide into first ladder and second ladder, and first ladder is higher than the second ladder, foretell sharp driving roller, first foxing locating plate, first slip axis body and pressure roller all install in on the first ladder, and put driving roller, second foxing fixed stop, third tool bit and impressed watermark roller, pressure roller to one side and all locate on the second ladder.

In the above scheme, install the belt under sharp driving roller and the oblique driving roller, the driving motor is connected to the belt.

In the scheme, the top of the second surrounding strip positioning plate is connected with an adjusting handle, the adjusting handle is slidably mounted on one movable roller, and the position of the second surrounding strip positioning plate is adjusted through the adjusting handle.

In the scheme, the first bearings are installed at two ends of the pressure shaft, the first springs are installed at the upper ends of the first bearings, the first springs are provided with the first locking knobs, and the number of the pressing wheels on the pressure shaft is set to be 4.

In the scheme, the two ends of the compression roller are provided with the second bearings, the upper ends of the second bearings are provided with the second springs, and the second springs are provided with the second locking knobs.

In the above scheme, the compression roller tail end is equipped with the gear, just the block is installed the chain on the gear, the chain is connected with driving motor.

In the scheme, a photoelectric sensor is also arranged at one end of the linear driving roller, which is close to the first surrounding strip positioning baffle,

in the above scheme, the inclined driving roller inclines towards the direction of the linear driving roller.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, mechanical foxing cutting and embossing are realized through the foxing conveying mechanism, the transverse and longitudinal knife cutting mechanism and the foxing flattening embossing mechanism, and automatic foxing production and processing are realized by matching with a foxing pushing hand.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is an overall structural diagram of an automatic foxing production apparatus provided by the present invention.

Fig. 2 is a structural diagram of another view of the automatic foxing production equipment provided by the invention.

The reference numerals are explained below:

1. a mounting frame; 101. a first step; 102. a second step; 2. a linear driving roller; 201. a first foxing positioning baffle; 202. a surrounding strip pushing handle; 203. a push cylinder; 204. a photosensor; 3. obliquely arranging a driving roller; 301. a second surrounding strip positioning baffle; 302. an adjusting handle; 303. a movable roller; 4. a first circular knife; 401. a first sliding shaft body; 402. locking the handle; 5. a second circular knife; 6. a third circular knife; 7. a pressure shaft; 701. a pinch roller; 702. a first bearing; 703. a first locking knob; 8. an embossing roller; 9. a compression roller; 901. a second bearing; 902. a second locking knob; 10. a belt; 11. a first driving device;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

Referring to fig. 1 and 2, the present invention provides an automatic foxing production apparatus, which includes: the surrounding strip conveying mechanism comprises a linear driving roller 2 and an inclined driving roller 3, a first surrounding strip positioning baffle 201 is arranged on one side of the linear driving roller 2 in the feeding direction, a second surrounding strip fixing baffle 301 is arranged on one side of the inclined driving roller 3 close to the linear driving roller 2, a surrounding strip push handle 202 is arranged on the linear driving roller 2, and the surrounding strip push handle 202 is externally connected with a push handle cylinder 203; the two groups of transmission devices are matched with the surrounding strip push hands 202, so that transportation conditions are provided for full-automatic surrounding strip production, the surrounding strips made by the leather shell machine are fed by the linear transmission rollers 2 and are conveyed to the middle parts of the linear transmission rollers 2, or after the limiting of the first surrounding strip fixing baffle plate 201 is avoided from exceeding the range, the surrounding strip push hands 202 push the transverse and longitudinal knife cutting mechanism for cutting processing, then the surrounding strips move to the inclined transmission rollers 3 and are limited by the second surrounding strip fixing baffle plate 301, and finally the surrounding strip flattening embossing mechanism is moved by the inclined transmission rollers 3 to finish the production and processing of the surrounding strips, so that the continuity and the automation efficiency of the production and processing of the surrounding strips are greatly improved;

a transverse and longitudinal knife cutting mechanism, which comprises a first circular knife 4, a second circular knife 5 and a third circular knife 6, wherein the first circular knife 4 and the second circular knife 5 are arranged on a first sliding shaft body 401 at one side of a linear transmission roller 2 close to an inclined transmission roller 3, the third circular knife 6 is arranged on a second sliding shaft body 601 at one side of a discharge port of the inclined transmission roller 3, a locking handle 402 is also arranged on the first sliding shaft body 401, when a surrounding strip is pushed to the positions of the first circular knife 4 and the second circular knife 5 by the linear transmission roller 2 and a surrounding strip pushing hand 202, the first circular knife 4 and the second circular knife 5 transversely cut the surrounding strip, the depth of the circular knife can be adjusted by the locking handle 402 arranged on the first sliding shaft body 401, and the positions of the first circular knife 4 and the second circular knife 5 can be respectively adjusted on the first sliding shaft body 401, so that the invention can change the cutting range in a short time to meet diversified production and processing requirements, the mode of drawing and molding by transmission is not needed, so that the production efficiency is greatly improved;

an enclosing strip embossing mechanism that flattens, include pressure shaft 7, embossing roller 8 and compression roller 9, pressure shaft 7 is located first slip axis body 401 and is close to 3 one sides of oblique driving roller, be equipped with a plurality of pinch roller 701 on the pressure roller 7, compression roller 8 and embossing roller 9 are all installed in 3 ejection of compact one ends of oblique driving roller, with embossing roller 8, third circle sword 6, the order installation of compression roller 9, the enclosing strip is through first slip axis body 401 back, flatten the enclosing strip by a plurality of pinch roller 701 on the pressure shaft 7, send to embossing roller 8 by oblique driving roller 3 afterwards, vertically cut processing by third circle sword 6 again after 8 impressed watermark rollers impressed watermark, flatten etc. to the finished product enclosing strip through compression roller 9 at last.

In the above scheme, foxing transport mechanism, horizontal sword cutting mechanism and foxing impressed watermark mechanism that flattens are all installed on an installation frame 1, installation frame 1 divide into first ladder 101 and second ladder 102, and first ladder 101 is higher than second ladder 102, foretell sharp driving roller 2, first foxing locating plate 201, first slip axis body 401 and pressure roller 7 are all installed on first ladder 101, and put driving roller 3 to one side, second foxing fixed stop 301, third tool bit 6 and impressed watermark roller 8, pressure roller 9 all locates on second ladder 102. The surrounding strip is convenient to convey to the next working position through the uneven double-step mounting platform design.

Among the above-mentioned scheme, install belt 10 under sharp driving roller 2 and the 3 rollers of the driving roller of putting to one side, driving motor 11 is connected to belt 10, thereby drives the motion that the belt realized the driving roller through driving motor, the transportation of the foxing of being convenient for to realize the automated processing of foxing, great improvement the production efficiency of foxing.

In the above scheme, second foxing locating plate 301 top is connected with adjustment handle 302, and adjustment handle 302 slidable mounting is on a movable roller 303, through adjustment handle 302 according to the position in order to adjust second foxing locating plate 301, through the passing through of the position of control second foxing locating plate 301 in order to adapt to different width foxings to reach the purpose that adapts to various production demands.

In the above scheme, first bearing 702 is installed at pressure shaft 7 both ends, and first spring is equipped with to first bearing 702 upper end, is equipped with first locking knob 703 on the first spring, and establishes to 4 in the epaxial pinch roller quantity of pressure, thereby the accessible first locking knob 703 drives first spring and adjusts first bearing 702, according to the pressure size in order to adjust the pressure shaft.

In the above scheme, the two ends of the press roller 9 are provided with the second bearings 901, the upper ends of the second bearings 901 are provided with the second springs, the second springs are provided with the second locking knobs 902, and the pressure can be adjusted to change the embossing depth and the integral flatness of the surrounding strips.

in the scheme, the inclined driving roller 3 inclines towards the linear driving roller 2, and the purpose is to enable the surrounding strip to move along the second surrounding strip positioning baffle 301.

The working principle is as follows: firstly, the second surrounding strip positioning baffle plate 301, the first sliding shaft body 401, the first circular knife 4 and the second circular knife 5 which are nested on the first sliding shaft body 401, the pressure shaft and the pressure roller are respectively adjusted to the position and the pressure degree which are suitable for the production requirement of the product through the adjusting handle 302, the locking handle 402, the first locking knob 703 and the second locking knob 902; then, a power supply is turned on, a surrounding strip is placed into a feeding hole on one side, away from the first surrounding strip positioning baffle plate 201, of the linear transmission roller 2, or the linear transmission roller 2 is directly connected with the feeding hole, the surrounding strip is driven to the tail end by the linear transmission roller 2 until the linear transmission roller contacts the first surrounding strip positioning plate 201, meanwhile, the photoelectric sensor 204 senses the surrounding strip and sends an instruction to the push hand cylinder 203, and the push hand cylinder 203 pushes the surrounding strip push hand 202 to push the surrounding strip to advance; the enclosing strip passes through the lower part of the first sliding shaft body 401 and is transversely cut by the first circular knife 4 and the second circular knife 5; then enters the lower part of the pressure roller, and the pressure shaft 7 assists the surrounding strip to move and fall into the inclined driving roller 3; second foxing positioning baffle 301 prevents that the foxing from falling out the track, puts driving roller 3 to one side and with the foxing to 8 impressed mangles of embossing roller, by the vertical cutting process of third circle sword 6 afterwards, flattens via compression roller 9 at last and sees off to realize the full automatization of foxing production and processing process, improved production efficiency greatly.

While the present invention has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims

1. An foxing automated production equipment, characterized by includes:

2. The automatic foxing production equipment of claim 1, wherein the foxing conveying mechanism, the longitudinal and transverse knife cutting mechanism and the foxing flattening and embossing mechanism are all installed on a mounting frame, the mounting frame is divided into a first step and a second step, the first step is higher than the second step, the linear driving roller, the first foxing positioning plate, the first sliding shaft body and the pressure roller are all installed on the first step, and the inclined driving roller, the second foxing fixing baffle plate, the third knife head, the embossing roller and the pressure roller are all installed on the second step.

3. The automatic foxing production equipment of claim 1, wherein belts are arranged below the linear driving rollers and the inclined driving rollers, and the belts are connected with the driving motor.

4. The automatic foxing production equipment of claim 1, wherein the top of the second foxing positioning plate is connected with an adjusting handle, the adjusting handle is slidably mounted on a movable roller, and the position of the second foxing positioning plate is adjusted by the adjusting handle.

5. The automatic foxing production equipment of claim 1, wherein the two ends of the pressure shaft are provided with first bearings, the upper ends of the first bearings are provided with first springs, the first springs are provided with first locking knobs, and the number of the pressing wheels on the pressure shaft is set to be 4.

6. The automatic foxing production equipment of claim 1, wherein the two ends of the press roll are provided with second bearings, the upper ends of the second bearings are provided with second springs, and the second springs are provided with second locking knobs.

7. The automatic foxing production equipment of claim 1, wherein a gear is arranged at the tail end of the press roll, a chain is clamped on the gear, and the chain is connected with a driving motor.

8. The automatic foxing production equipment of claim 1, wherein a photoelectric sensor is arranged at one end of the linear driving roller, which is close to the first foxing positioning baffle.

9. The automatic foxing production equipment of claim 1, wherein the inclined driving rollers are inclined towards the linear driving rollers.