CN210102088U - M bag packagine machine multistation gyration conveyor - Google Patents

Abstract

M bag packagine machine multistation gyration conveyor, including braced frame, vertical revolving axle and four slewing support, braced frame's top is connected with horizontal mounting plate, vertical revolving axle passes horizontal mounting plate, the coaxial cover in outside of vertical revolving axle is equipped with a vertical sleeve, vertical telescopic lower extreme fixed connection is on horizontal mounting plate, the upper end of vertical revolving axle stretches out vertical telescopic top and a horizontal gyration tray of fixedly connected with, the same and circumference array fixed connection of structure of four slewing support is on horizontal gyration tray, the upper portion of every slewing support all is equipped with an uncoating mechanism, the lower part of every slewing support all is equipped with a mound face mechanism, four mound face mechanisms respectively with four uncoating mechanism one-to-ones from top to bottom, install a face mechanism that unloads that is located mound face mechanism below on the horizontal mounting plate. The utility model relates to a science, rational in infrastructure, cycle gyration, satisfy the packaging process continuous operation, guarantee that the vermicelli packing is neat, degree of automation is high.

Description

M bag packagine machine multistation gyration conveyor

Technical Field

The utility model relates to a vermicelli packaging machinery technical field, specific theory relates to a M bag packagine machine multistation gyration conveyor.

Background

At present, the fine dried noodle packaging mainly adopts flexible packaging materials such as paper, plastic films, composite plastic films and the like, and three main fine dried noodle packaging forms are formed by combining the materials: cylindrical packaging, plastic bag packaging and box packaging. The market share of the cylindrical packaged fine dried noodles is the largest, and the plastic bag package and the box-packaged fine dried noodles are adopted, so that although the market share is reduced in sequence, the price is increased, namely the cylindrical package price is less than the plastic bag package price and less than the box-packaged price, the more exquisite fine dried noodles are packaged, the higher the price is, the more exquisite fine dried noodles can attract consumers, the larger the sales volume is, and the higher profit is obtained. In addition, research and research also find that the plastic bag packaging style is high-grade overall, sanitary and easy to store, so that the consumer has high acceptance of the fine dried noodles packaged by the plastic bag and great purchase willingness. Whereas the plastic bag is typically an M-bag.

The dried noodles have the characteristics that: the dried noodle is a thin and long strip-shaped fragile material with the size of 180-240 mm multiplied by 2mm multiplied by 1 mm.

The characteristics of the M bag are as follows: the M bag is a prefabricated bag with longitudinal seams, two sides of the longitudinal seams are butted with each other, a handle is arranged at one end of the M bag, and the lateral pleats at the two sides of the prefabricated bag are M-shaped when viewed from the bag opening direction, so that the M bag is called, and the bag is made of a PP/PE composite film with the thickness of 0.08 mm.

The packaging process of the M bags of fine dried noodles is complex and has various procedures. The method mainly comprises the following steps: the process comprises the steps of bag taking, bag supplying, bag opening, bag filling, shaping, sealing and the like, and the process needs to transfer the packaging bags to the lower part of the device at the corresponding station in sequence according to the working procedures. Other long-strip-shaped hard materials have similar technical difficulties to M-bag fine dried noodle packaging in the packaging process of M bags.

In order to solve the above problems, people are always seeking an ideal technical solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a design science, rational in infrastructure, cycle gyration, satisfy the packing process continuous operation, guarantee that the vermicelli packing is neat, degree of automation is high M bag packagine machine multistation gyration conveyor.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the M-bag packaging machine multi-station rotary conveying device comprises a supporting frame, a vertical rotary shaft and four rotary supports, wherein the top of the supporting frame is connected with a horizontal mounting plate, the vertical rotary shaft penetrates through the horizontal mounting plate, the lower end of the vertical rotary shaft is positioned below the horizontal mounting plate, the upper end of the vertical rotary shaft is positioned above the horizontal mounting plate, a vertical sleeve is coaxially sleeved outside the vertical rotary shaft, the lower end of the vertical sleeve is fixedly connected onto the horizontal mounting plate, the upper end of the vertical rotary shaft extends out of the top of the vertical sleeve and is fixedly connected with a horizontal rotary tray, the four rotary supports are identical in structure and fixedly connected onto the horizontal rotary tray in a circumferential array manner, the upper part of each rotary support is provided with a bag opening mechanism, the lower part of each rotary support is provided with a bag heading mechanism, and the four bag heading mechanisms respectively, the horizontal mounting plate is provided with a noodle unloading mechanism positioned below the noodle upsetting mechanism.

The rotary support comprises two horizontal connecting plates which are arranged in parallel at intervals, the inner ends of the two horizontal connecting plates are fixedly connected to the outer edge of the circumference of the horizontal rotary tray, the lower surface of each horizontal connecting plate is fixedly connected with a U-shaped plate, and the U-shaped plates and the horizontal connecting plates form a vertical rectangular frame; open bag mechanism includes two and opens the bag cylinder, two open the bag cylinder and correspond fixed connection respectively at two horizontal connecting plate's upper surface, two are opened the bag cylinder and are perpendicular with horizontal connecting plate's length direction, two are opened the bag cylinder and on same straight line and two piston rods that open the bag cylinder set up relatively, every is opened and all installs one on the piston rod of bag cylinder and opens the bag board, open bag board on fixedly connected with a plurality of and open the bag sucking disc, be equipped with the upset backup pad between the lower side plate of two U templates, the lower surface outside edge part of upset backup pad passes through the hinge and is connected with the lower side plate upper surface of two U templates respectively.

The mound face mechanism includes a mound face cylinder, the vertical setting of mound face cylinder, and the cylinder body lower extreme of mound face cylinder is installed perpendicularly at upset backup pad upper surface, and the piston rod of mound face cylinder stretches out the cylinder body upper end of mound face cylinder, and a wrapping bag backup pad of upper end fixedly connected with of the piston rod of mound face cylinder, the inboard marginal middle part an organic whole of upset backup pad is equipped with the roof pressure board.

The face unloading mechanism comprises an L-shaped connecting plate and a face unloading cylinder, a bottom horizontal plate of the L-shaped connecting plate is fixedly connected to the upper surface of a horizontal mounting plate, a cylinder body of the face unloading cylinder is vertically and fixedly connected to an upper vertical plate of the L-shaped connecting plate, and a piston rod of the face unloading cylinder vertically extends out of the upper end of the cylinder body of the face unloading cylinder and is located below the top pressure plate.

The four rotary supports of the utility model have the same structure, the circumference array is fixedly connected on the horizontal rotary tray, the horizontal rotary tray is fixedly connected on the upper end of the vertical rotary shaft, each rotary support is provided with a bag opening mechanism and a heading surface mechanism, the bag opening mechanism comprises two oppositely arranged bag opening cylinders, the piston rod of the bag opening cylinder is fixedly provided with a bag opening plate which is provided with a plurality of bag opening suckers for adsorbing and pulling open the bag mouth of the packaging bag, so that the packaging bag intermittently rotates 90 degrees along with the horizontal rotary tray, the packaging bag is respectively rotated to the blanking filling station, the two side edge shaping stations of the bag mouth, the bag mouth heat-sealing station are respectively rotated to the initial bag supplying station, thus, the periodic rotation is realized, the continuous operation of the packaging process is satisfied, the heading surface cylinder is used for timely vibrating the packaging bag up and down after the packaging bag is filled with fine dried noodles, the noodle mounds are tidy, the situation that part of the noodles are exposed out of the bag opening of the packaging bag is avoided, and the noodle unloading cylinder is used for unloading the packaging bag subjected to heat sealing from the packaging bag supporting plate. The utility model discloses not only be applicable to the vermicelli packing, still be applicable to other rectangular shape stereoplasm material packing.

The utility model relates to a science, rational in infrastructure, cycle gyration, satisfy the packaging process continuous operation, guarantee that the vermicelli packing is neat, degree of automation is high.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a plan view of the present invention.

Fig. 3 is an isometric view of the present invention.

Fig. 4 is a schematic diagram of the right side of the power module of the present invention.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

The direction of fig. 1 toward the viewer is the forward direction, the left side of fig. 1 is the left direction, and the right side of fig. 1 is the right direction.

As shown in fig. 1-4, the multi-station rotary conveying device of the M-bag packing machine comprises a supporting frame 1, a vertical rotary shaft 2 and four rotary supports, wherein the top of the supporting frame 1 is connected with a horizontal mounting plate 3, the vertical rotary shaft 2 penetrates through the horizontal mounting plate 3, the lower end of the vertical rotary shaft 2 is positioned below the horizontal mounting plate 3, the upper end of the vertical rotary shaft 2 is positioned above the horizontal mounting plate 3, a vertical sleeve 4 is coaxially sleeved outside the vertical rotary shaft 2, the lower end of the vertical sleeve 4 is fixedly connected to the horizontal mounting plate 3, the upper end of the vertical rotary shaft 2 extends out of the top of the vertical sleeve 4 and is fixedly connected with a horizontal rotary tray 5, the four rotary supports have the same structure and are fixedly connected to the horizontal rotary tray 5 in a circumferential array manner, the upper part of each rotary support is provided with a bag opening mechanism, and the lower part of, the four noodle heading mechanisms respectively correspond to the four bag opening mechanisms one by one up and down, and the horizontal mounting plate 3 is provided with a noodle unloading mechanism positioned below the noodle heading mechanisms.

The rotary support comprises two horizontal connecting plates 6, the two horizontal connecting plates 6 are arranged in parallel at intervals, the inner ends of the two horizontal connecting plates 6 are fixedly connected to the outer edge of the circumference of the horizontal rotary tray 5, the lower surface of each horizontal connecting plate 6 is fixedly connected with a U-shaped plate 7, and the U-shaped plates 7 and the horizontal connecting plates 6 form a vertical rectangular frame; bag opening mechanism includes two bag cylinders 8 of opening, two bag cylinders 8 of opening correspond fixed connection respectively at two upper surfaces of horizontal connecting plate 6, two bag cylinders 8 of opening are perpendicular with the length direction of horizontal connecting plate 6, two bag cylinders 8 of opening just two piston rods of opening bag cylinders 8 on same straight line set up relatively, every is opened and all installs one on bag cylinder 8's the piston rod and is opened bag board 9, bag sucking disc 10 is opened to fixedly connected with a plurality of on opening bag board 9, be equipped with upset backup pad 11 between two U template 7's the lower side board, upset backup pad 11's lower surface outside edge part passes through the hinge and is connected with the lower side board upper surface of two U template 7 respectively.

The mound face mechanism includes a mound face cylinder 12, and the vertical setting of mound face cylinder 12, the cylinder body lower extreme of mound face cylinder 12 is installed perpendicularly at 11 upper surfaces of upset backup pad, and the cylinder body upper end of mound face cylinder 12 is stretched out to the piston rod of mound face cylinder 12, and a wrapping bag backup pad 13 of the upper end fixedly connected with of the piston rod of mound face cylinder 12, the inboard marginal middle part an organic whole of upset backup pad 11 is equipped with roof pressure board 14.

The noodle unloading mechanism comprises an L-shaped connecting plate 15 and a noodle unloading cylinder 16, a bottom horizontal plate of the L-shaped connecting plate 15 is fixedly connected to the upper surface of the horizontal mounting plate 3, a cylinder body of the noodle unloading cylinder 16 is vertically and fixedly connected to an upper vertical plate of the L-shaped connecting plate 15, and a piston rod of the noodle unloading cylinder 16 vertically extends out of the upper end of the cylinder body of the noodle unloading cylinder 16 and is located below the top pressure plate 14.

A power module is arranged below the horizontal mounting plate 3, the power module comprises a motor 17, a worm and gear speed reducer 18 and a cam divider 19, a power shaft of the motor 17 is in transmission connection with a power input shaft of the worm and gear speed reducer 18, a power output shaft of the worm and gear speed reducer 18 is in transmission connection with a power input shaft of the cam divider 19, the motor 17 and the worm and gear speed reducer 18 are both fixedly connected with the rear side part of the cam divider 19, a horizontal power output shaft 20 is arranged on the front side part of the cam divider 19, a vertical power output shaft 21 is arranged on the top part of the cam divider 19, the front end of the horizontal power output shaft 20 is in transmission connection with a first stepped shaft 23 through a coupling 22, a second stepped shaft 24 and a third stepped shaft 25 are rotatably mounted on a horizontal bottom plate, the second stepped shaft 24 and the third stepped shaft 25 are both parallel to the first stepped shaft 23, the second stepped shaft 24 and the third stepped shaft 25 are respectively, the front end of first step axle 23 passes through sprocket drive mechanism and is connected with the front end of second step axle 24 and the front end transmission of third step axle 25 respectively, interval fixed assembly has integer cam 26 and heat-seal cam 27 on the second step axle 24, fixed assembly has blanking cam 28 on the third step axle 25, all be equipped with cam follower 29 on the last round of face of integer cam 26, heat-seal cam 27 and blanking cam 28, vertical power take-off shaft 21 passes through shaft coupling 22 and is connected with vertical revolving shaft 2 transmission.

The M bag packaging machine has four stations: the bag feeding station, the blanking filling station, the shaping station and the heat sealing station, the shaping cam 26, the heat sealing cam 27 and the blanking cam 28 are linked with corresponding devices of the blanking filling station, the shaping station and the heat sealing station respectively, and the corresponding devices move downwards and act when the packaging bags are at each station.

The utility model discloses a structure of four slewing brackets is the same and circumference array fixed connection is on horizontal gyration tray 5, horizontal gyration tray 5 fixed connection is in the upper end of vertical revolving axle 2, all be equipped with a division bagging-off mechanism and a mound face mechanism on every slewing bracket, division bagging-off mechanism includes two relative division bagging-off cylinders 8 that set up, fixed mounting has division bagging-off board 9 on the piston rod of division bagging-off cylinder 8, be equipped with a plurality of division bagging-off sucking discs 10 on division bagging-off board 9, be used for adsorbing the wrapping bag and pulling open the sack of wrapping bag, make the wrapping bag rotate 90 along with horizontal gyration tray 5 intermittent type, respectively revolve the wrapping bag to the blanking filling station, the shaping station of sack both sides edge, wrapping bag sack heat-sealing station, again revolve to initial bag supply station, so, cycle gyration, satisfy the continuous operation of packing process, mound face cylinder 12 is used for in time vibrating the wrapping bag from top to bottom, the noodle mounds are tidy, so that part of the noodles are prevented from being exposed out of the bag opening of the packaging bag, and the noodle unloading cylinder 16 is used for unloading the packaging bag subjected to heat sealing from the packaging bag supporting plate 13. The utility model discloses not only be applicable to the vermicelli packing, still be applicable to other rectangular shape stereoplasm material packing.

The utility model relates to a science, rational in infrastructure, cycle gyration, satisfy the packaging process continuous operation, guarantee that the vermicelli packing is neat, degree of automation is high.

The above embodiments are only used for illustrating but not limiting the technical solution of the present invention, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that; the present invention may be modified or substituted with equivalents without departing from the spirit and scope of the invention, which should be construed as being limited only by the claims.

Claims (4)

1. M bag packagine machine multistation gyration conveyor, its characterized in that: comprises a supporting framework and a supporting frame, wherein the supporting framework, vertical revolving axle and four slewing bracket, braced frame's top is connected with the horizontal mounting board, vertical revolving axle passes the horizontal mounting board, the lower extreme of vertical revolving axle is located the below of horizontal mounting board, the upper end of vertical revolving axle is located the top of horizontal mounting board, the coaxial cover in outside of vertical revolving axle is equipped with a vertical sleeve, vertical telescopic lower extreme fixed connection is on the horizontal mounting board, the upper end of vertical revolving axle stretches out vertical telescopic top and a horizontal gyration tray of fixedly connected with, the structure of four slewing bracket is the same and circumference array fixed connection is on the horizontal gyration tray, the upper portion of every slewing bracket all is equipped with one and opens bag mechanism, the lower part of every slewing bracket all is equipped with a mound face mechanism, four mound face mechanisms respectively with four and open bag mechanism one-to-ones from top to bottom, install one on the horizontal mounting board and be.
2. 2. The M-bag packing machine multi-station rotary conveying device according to claim 1, characterized in that: the rotary support comprises two horizontal connecting plates which are arranged in parallel at intervals, the inner ends of the two horizontal connecting plates are fixedly connected to the outer edge of the circumference of the horizontal rotary tray, the lower surface of each horizontal connecting plate is fixedly connected with a U-shaped plate, and the U-shaped plates and the horizontal connecting plates form a vertical rectangular frame; open bag mechanism includes two and opens the bag cylinder, two open the bag cylinder and correspond fixed connection respectively at two horizontal connecting plate's upper surface, two are opened the bag cylinder and are perpendicular with horizontal connecting plate's length direction, two are opened the bag cylinder and on same straight line and two piston rods that open the bag cylinder set up relatively, every is opened and all installs one on the piston rod of bag cylinder and opens the bag board, open bag board on fixedly connected with a plurality of and open the bag sucking disc, be equipped with the upset backup pad between the lower side plate of two U templates, the lower surface outside edge part of upset backup pad passes through the hinge and is connected with the lower side plate upper surface of two U templates respectively.
3. 3. The M-bag packing machine multi-station rotary conveying device according to claim 2, characterized in that: the mound face mechanism includes a mound face cylinder, the vertical setting of mound face cylinder, and the cylinder body lower extreme of mound face cylinder is installed perpendicularly at upset backup pad upper surface, and the piston rod of mound face cylinder stretches out the cylinder body upper end of mound face cylinder, and a wrapping bag backup pad of upper end fixedly connected with of the piston rod of mound face cylinder, the inboard marginal middle part an organic whole of upset backup pad is equipped with the roof pressure board.
4. 4. The M-bag packing machine multi-station rotary conveying device according to claim 3, characterized in that: the face unloading mechanism comprises an L-shaped connecting plate and a face unloading cylinder, a bottom horizontal plate of the L-shaped connecting plate is fixedly connected to the upper surface of a horizontal mounting plate, a cylinder body of the face unloading cylinder is vertically and fixedly connected to an upper vertical plate of the L-shaped connecting plate, and a piston rod of the face unloading cylinder vertically extends out of the upper end of the cylinder body of the face unloading cylinder and is located below the top pressure plate.

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