CN214777125U - Full-automatic laminating and bagging machine - Google Patents

Abstract

The application relates to a full-automatic film-laminating and bagging machine, which comprises a machine body and a feeding device arranged on the machine body, wherein the feeding device comprises a material storage component, a bag taking component and a turnover component, and the material storage component comprises a vertically arranged material storage box; the bag taking assembly comprises a horizontal bag taking guide rail and a bag taking cylinder which is slidably arranged on the bag taking guide rail; the turnover assembly comprises a turnover disc and a driving mechanism, the turnover disc is vertically and rotatably installed on the machine body, the driving mechanism drives the turnover disc to rotate, the rotation axis of the turnover disc is parallel to the bag taking guide rail, the bag taking guide rail is fixedly installed on the turnover disc in an eccentric mode, the material storage box is arranged on one side of the axis of the turnover disc, the bag taking guide rail moves to the position which is equal to the height of the axis of the turnover disc, the bag taking guide rail is located on one side, close to the material storage box, of the axis of the turnover disc, and a piston rod of the bag taking air cylinder vertically upwards and is located on the lower side of the material storage box. This application has the height that can set up the material storage box higher, can place more wrapping bags once only, makes the wrapping bag be got the effect that the bag subassembly taken off easily.

Description

Full-automatic laminating and bagging machine

Technical Field

The application relates to the field of facial mask equipment for packing, especially relates to a full-automatic lamination sack filling machine.

Background

With the modern society that men and women pay more attention to care, facial masks are produced and used in large quantities as a daily beauty care product. The mask is usually folded when it is packaged, and then the folded mask is put into a packaging bag. Thereby reducing the occupied space of the mask and being convenient for subsequent transportation and use. During the manufacturing process, in order to reduce contamination, folding and packaging are often performed using automated packaging equipment.

For example, chinese patent publication No. CN208165414U discloses a high-speed facial mask packaging machine, which includes a first folding assembly, a second folding assembly, a first bag-entering assembly, a second bag-entering assembly, a first bag-opening assembly, a second bag-opening assembly, a bag-storing slot for storing facial mask bags, and a bag-taking assembly for taking out facial mask bags from the bag-storing slot. During operation, the packaging bag is moved to the position where the first bag opening assembly and the second bag opening assembly are adjacent through the bag taking assembly, then the packaging bag is adsorbed by the suckers on the first bag opening assembly and the second bag opening assembly, and then the first bag opening assembly and the second bag opening assembly are mutually far away, so that the opening of the packaging bag is opened, and the folded packaging bag can be conveniently placed. The bottom surface in the storage bag groove in this structure is the inclined plane, and the one end of handing over the end in the storage bag bottom surface is adjacent with getting a bag subassembly, and after putting into the wrapping bag in the storage bag groove, still need put into the balancing weight in the storage bag groove, the balancing weight is located the wrapping bag and keeps away from one side of getting a bag subassembly, and the balancing weight closely laminates with the bottom surface in storage bag groove. Through the extrusion of balancing weight, make wrapping bag and store up the side laminating that the bag groove is close to getting the bag subassembly, still seted up on this side and got the bag and lead to the groove, be convenient for get the bag subassembly and take out the bag body.

In view of the above related technologies, the inventor believes that the bag storage groove in the structure is obliquely arranged, and when the bag is taken, the packaging bag needs to be attached to the side surface of the bag storage groove close to the bag taking assembly; because the friction exists between the packing bag more or less and the bottom surface of the bag storage groove, if the packing bag is placed too much, the phenomenon that the packing bag and the bottom surface of the bag storage groove are kept relatively static easily exists, so that the balancing weight cannot stably press down the packing bag, and the packing bag is not easy to take down by the bag taking assembly.

SUMMERY OF THE UTILITY MODEL

In order to improve and placing more wrapping bags, lead to the difficult problem of getting the bag subassembly and take off of wrapping bag, this application provides a full-automatic lamination sack filling machine.

The application provides a full-automatic lamination sack filling machine adopts following technical scheme:

a full-automatic film-laminating and bagging machine comprises a machine body and a feeding device arranged on the machine body, wherein the feeding device comprises a material storage component, a bag taking component and a turnover component, the material storage component comprises a vertically arranged material storage box, a material storage opening is formed in the bottom surface of the material storage box, and the shape of the material storage opening is smaller than the cross section of the material storage box; the bag taking assembly comprises a horizontal bag taking guide rail and a bag taking cylinder which is slidably arranged on the bag taking guide rail, a piston rod of the bag taking cylinder is vertical to the bag taking guide rail, and a bag taking sucker is arranged on the piston rod of the bag taking cylinder; the turnover assembly comprises a turnover disc and a driving mechanism, the turnover disc is vertically and rotatably installed on the machine body, the driving mechanism drives the turnover disc to rotate, the rotation axis of the turnover disc is parallel to the bag taking guide rail, the bag taking guide rail is fixedly installed on the turnover disc in an eccentric mode, the material storage box is arranged on one side of the axis of the turnover disc, the bag taking guide rail moves to the position which is equal to the height of the axis of the turnover disc, the bag taking guide rail is located on one side, close to the material storage box, of the axis of the turnover disc, and a piston rod of the bag taking air cylinder vertically upwards and is located on the lower side of the material storage box.

Through adopting above-mentioned technical scheme, the vertical setting of material storage box, the wrapping bag level stacks in material storage box, and the wrapping bag is under the effect of self gravity, and easier landing is to material storage box's bottom surface department, and later the upset dish rotates, makes and gets a bag guide rail and rotate to the position department that equals with the upset dish axis height to the messenger gets a bag cylinder and is located the downside of material storage box, later gets a bag cylinder's piston rod and upwards releases, gets a bag sucking disc and adsorbs a wrapping bag below. After adsorbing, the tilting pan rotates, makes and gets the bag cylinder and be located the downside of tilting pan, later makes and gets the bag cylinder along getting the bag guide rail and slide, moves the follow-up bag subassembly department of opening that is used for the packing on the organism to can accomplish the packing. It can be higher with the height that stores up the material box setting, can once only place more wrapping bags, makes the wrapping bag easily taken bag subassembly and takes off.

Optionally, a material storage through groove is formed in the vertical side face of the material storage box, the material storage through groove is long in strip shape and is vertically arranged, and the length of the material storage through groove is equal to the height of the material storage box.

Through adopting above-mentioned technical scheme, lead to the groove through setting up the stock, can be more audio-visual the stock of the wrapping bag in the stock box to can lead to the simple adjustment wrapping bag's of groove position through the stock, can be timely restore after the phenomenon that the wrapping bag appears blocking.

Optionally, a balancing weight is placed in the material storage box, the shape of the balancing weight is the same as the shape of the cross section of the material storage box, an indication block is connected to the side face of the balancing weight, and the indication block is arranged in the material storage through groove in a penetrating mode.

Through adopting above-mentioned technical scheme, the wrapping bag can be pushed down to the balancing weight, makes two adjacent wrapping bags can laminate more inseparabler to make the wrapping bag can be taken away by getting that bag subassembly is stable. The instruction block inlays to be established and to be in the logical inslot of material stock, can restrict the position of balancing weight on the one hand, makes the balancing weight remain stable when gliding, and on the other hand can indicate out the surplus of wrapping bag, and the operating personnel of being convenient for observes.

Optionally, the organism on install alarm mechanism, alarm mechanism includes opto-coupler and siren, the opto-coupler is installed on the lateral surface of depositing the magazine, the opto-coupler includes illuminator and photic ware, the illuminator is installed in the one side that the groove was led to the material of depositing, the photic ware is installed in the opposite side that the groove was led to the material of depositing, when the indicator block removed to and the position department between illuminator and the photic ware, the siren sent alarm signal.

Through adopting above-mentioned technical scheme, the siren can be with bee calling organ and pilot lamp, when the balancing weight gliding to being located the height at opto-coupler place, the indicator block is located the position department between illuminator and the photic ware, shelters from the light that the illuminator sent to make the photic ware no longer receive the light source, control siren and send alarm signal. Timely reminds workers to supplement the packaging bags.

Optionally, the driving mechanism includes a driving gear, a driving rack and a driving cylinder, the driving gear is fixedly mounted on one side of the turnover plate far away from the bag taking guide rail, the driving gear and the turnover plate are coaxially arranged, the driving rack is meshed with the driving gear, and the driving cylinder pushes the driving rack to move.

Through adopting above-mentioned technical scheme, drive actuating cylinder and promote drive gear and remove to drive gear and upset dish and rotate, its simple structure, it is easier to operate.

Optionally, the bag taking guide rail is a rodless cylinder, the bag taking cylinder is fixedly mounted on a sliding block on the rodless cylinder, and at least two bag taking suckers are mounted on the bag taking cylinder.

Through adopting above-mentioned technical scheme, get the bag guide rail and set to no pole cylinder, its simple structure, the drive that can be convenient gets bag cylinder round trip movement, and get and install a plurality of bag sucking discs of getting on the bag cylinder, it is more stable when taking out the wrapping bag.

Optionally, the number of the turnover plates is two, the two turnover plates are parallel to each other, and the bag taking guide rail is fixedly installed between the two turnover plates.

Through adopting above-mentioned technical scheme, the upset dish is provided with two, installs the bag guide rail structure of getting between two upset dishes more stable, is difficult for appearing the phenomenon of position dislocation when getting the bag.

Optionally, a synchronizing rod is connected between the turning plate and the other turning plate, and the axis of the synchronizing rod is collinear with the axis of the turning plate.

Through adopting above-mentioned technical scheme, the synchronizing bar connects two turnover plates to make two returning face plates keep in step when the pivoted, the structure is also more stable when the pivoted is got to the bag guide rail that is located between two turnover plates.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the height of the material storage box can be set higher, more packaging bags can be placed at one time, and the packaging bags are easy to take down by the bag taking assembly;

2. the structure is simple, and the operation is easier.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Fig. 2 is a schematic structural diagram of the front side of the feeding device after a part of the machine body is hidden.

Fig. 3 is a schematic structural view of the back side of the feeding device.

Fig. 4 is a schematic structural diagram of the bag taking cylinder conveying the packaging bag to the bag opening assembly.

Description of reference numerals: 1. a body; 11. a feeding device; 2. a stock component; 21. a material storage box; 22. a material storage port; 23. a material storage through groove; 24. a balancing weight; 25. an indication block; 26. an alarm mechanism; 261. an optical coupler; 262. an alarm; 3. a turnover assembly; 31. turning over the turntable; 32. a synchronization lever; 33. a drive mechanism; 331. a drive gear; 332. a drive rack; 333. a driving cylinder; 4. a bag taking assembly; 41. a bag taking guide rail; 42. a bag taking cylinder; 43. a bag taking sucker is taken; 5. a bag opening assembly; 51. a bag opening cylinder; 52. and (5) opening a bag and sucking a disc.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses full-automatic lamination sack filling machine. Referring to fig. 1 and 2, the fully automatic film laminating and bagging machine comprises a machine body 1, and a feeding device 11 is mounted on the machine body 1. The feeding device 11 comprises a material storage assembly 2, an overturning assembly 3, a bag taking assembly 4 and a bag opening assembly 5.

Referring to fig. 2 and 3, the storage assembly 2 includes a storage box 21, an opening of the storage box 21 is vertically upward, a storage port 22 is opened on a bottom surface of the storage box 21, and the size of the storage port 22 is slightly smaller than that of the bottom surface of the storage box 21. A long strip-shaped storage through groove 23 is formed in the side wall of one side of the storage box 21, the storage through groove 23 is vertically arranged, the upper end of the storage through groove 23 coincides with the upper end of the storage box 21, and the lower end of the storage through groove 23 coincides with the bottom surface of the storage box 21. A balancing weight 24 is installed in the material storage box 21, the shape of the balancing weight 24 is the same as that of the material storage box 21, an indicating block 25 is integrally formed on the side surface of the balancing weight 24, and the indicating block 25 is embedded in the material storage through groove 23.

Referring to fig. 1 and 2, an alarm mechanism 26 is further mounted on the body 1, the alarm mechanism 26 includes an optical coupler 261 and an alarm 262, the optical coupler 261 is mounted on an outer side surface of the storage box 21, the optical coupler 261 includes a light emitter and a light receiver, the light emitter is mounted on one side of the storage through groove 23, and the light receiver is mounted on the other side of the storage through groove 23. The light emitter and the light receiver are both installed at the lower end of the storage box 21, and light emitted by the light emitter can be received by the light receiver. When the indicator block 25 slides to a position adjacent to the light emitter and the light receiver, the indicator block 25 blocks the light emitted from the light emitter. So that the light receiver no longer receives the signal emitted by the light emitter. The alarm 262 is a buzzer and an indicator light, and when the light receiver does not receive the signal from the light emitter, the buzzer and the indicator light start to send out an alarm signal.

Referring to fig. 2 and 3, the flipping unit 3 includes two flipping disks 31 parallel to each other, and the flipping disks 31 are rotatably mounted on the body 1. A synchronizing rod 32 is fixedly connected between the two turnover discs 31, and the axis of the synchronizing rod 32 is collinear with the axis of the turnover disc 31, so that the two turnover discs 31 rotate simultaneously. The overturning plate 31 and the synchronous rod 32 are arranged at one side of the material storage box 21 with the material storage through groove 23. A driving mechanism 33 is arranged on one side of one of the turnover discs 31, which is far away from the synchronous rod 32, the driving mechanism 33 comprises a driving gear 331, a driving rack 332 and a driving air cylinder 333, the axis of the driving gear 331 is collinear with the axis of the turnover disc 31, the driving rack 332 is meshed with the driving gear 331, and the driving air cylinder 333 pushes the driving rack 332 to reciprocate, so that the turnover disc 31 is driven to rotate.

Referring to fig. 2 and 3, the bag taking assembly 4 includes a rodless cylinder as a bag taking guide rail 41 and a bag taking cylinder 42 slidably mounted on the bag taking guide rail 41, and the bag taking guide rail 41 is fixedly mounted between the two flipping disks 31 and is located at the edge of the flipping disks 31. The bag taking guide rail 41 is parallel to the synchronizing bar 32. The bag taking cylinder 42 is fixedly installed on the sliding block on the bag taking guide rail 41, when the bag taking guide rail 41 rotates to a position which is equal to the height of the synchronizing rod 32 and is close to one side of the material storage box 21, the piston rod of the bag taking cylinder 42 is vertically upward and is positioned at the lower side of the material storage box 21, and two bag taking suckers 43 are installed at the end of the piston rod of the bag taking cylinder 42.

Referring to fig. 3 and 4, the material storage assembly 2 is installed at one end of the bag taking guide rail 41, the bag opening assembly 5 is installed at the other end of the bag taking guide rail 41, the bag opening assembly 5 includes bag opening cylinders 51, and when the bag taking guide rail 41 is rotated to the lowermost position, the bag opening cylinders 51 are provided one on each side of the bag taking guide rail 41. The piston rod of the bag opening cylinder 51 is horizontal and faces the bag taking guide rail 41, and a bag opening suction cup 52 is fixedly installed at the end of the piston rod of the bag opening cylinder 51.

The implementation principle of the full-automatic laminating and bagging machine in the embodiment of the application is as follows: when the material storage box is used, a pile of packaging bags are placed in the material storage box 21, then the balancing weight 24 is placed on the upper side of the packaging bags, the packaging bags are pressed, and the packaging bags can slide down to the bottom surface of the material storage box 21 more easily under the action of self gravity. Then the driving mechanism 33 drives the turnover disc 31 to rotate, so that the bag taking guide rail 41 rotates to a position equal to the axial height of the turnover disc 31, the bag taking cylinder 42 is positioned at the lower side of the storage box 21, then the piston rod of the bag taking cylinder 42 is pushed upwards, and the bag taking sucker 43 sucks the lowermost packaging bag. After the bag is sucked, the turnover disc 31 rotates to enable the bag taking air cylinder 42 to be located at the lowest side of the turnover disc 31, then the rodless air cylinder serving as the bag taking guide rail 41 pushes the bag taking air cylinder 42 to move to the bag opening assembly 5, the two bag opening air cylinders 51 extend out and suck the packaging bags through the bag opening suction cups 52, then the bag taking suction cups 43 are loosened and move to the position adjacent to the storage box 21 to prepare for taking out the packaging bags again. The storage box 21 can be arranged to be higher in height, more packaging bags can be placed at one time, and the packaging bags can be easily taken down by the bag taking assembly 4.

When the content of the packaging bag in the storage box 21 is low, the height of the balancing weight block 24 is lowered, so that the indicating block 25 is positioned between the light emitter and the light receiver, thereby shielding the light emitted by the light emitter, preventing the light receiver from receiving the light source, and controlling the alarm 262 to send an alarm signal. Timely reminds workers to supplement the packaging bags.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a full-automatic lamination sack filling machine, includes organism (1) and installs loading attachment (11) on organism (1), its characterized in that: the feeding device (11) comprises a material storage component (2), a bag taking component (4) and a turning component (3), the material storage component (2) comprises a vertically arranged material storage box (21), a material storage opening (22) is formed in the bottom surface of the material storage box (21), and the shape of the material storage opening (22) is smaller than the cross section of the material storage box (21); the bag taking assembly (4) comprises a horizontal bag taking guide rail (41) and a bag taking air cylinder (42) which is slidably mounted on the bag taking guide rail (41), a piston rod of the bag taking air cylinder (42) is perpendicular to the bag taking guide rail (41), and a bag taking sucker (43) is mounted on the piston rod of the bag taking air cylinder (42); the overturning assembly (3) comprises an overturning disc (31) and a driving mechanism (33), the overturning disc (31) is vertically and rotatably installed on the machine body (1), the driving mechanism (33) drives the overturning disc (31) to rotate, the rotating axis of the overturning disc (31) is parallel to the bag taking guide rail (41), the bag taking guide rail (41) is eccentrically and fixedly installed on the overturning disc (31), the storage box (21) is arranged on one side of the axis of the overturning disc (31), the bag taking guide rail (41) is moved to be equal to the height of the axis of the overturning disc (31) and the bag taking guide rail (41) is positioned on one side of the axis of the overturning disc (31) close to the storage box (21), and a piston rod of the bag taking cylinder (42) is vertically upwards and positioned on the lower side of the storage box (21).

2. The full-automatic film laminating and bagging machine as claimed in claim 1, wherein: the vertical side of the material storage box (21) is provided with a material storage through groove (23), the material storage through groove (23) is in a long strip shape and is vertically arranged, and the length of the material storage through groove (23) is equal to the height of the material storage box (21).

3. The full-automatic film laminating and bagging machine as claimed in claim 2, wherein: the storage box (21) is internally provided with a balancing weight (24), the shape of the balancing weight (24) is the same as the shape of the cross section of the storage box (21), the side surface of the balancing weight (24) is connected with an indicating block (25), and the indicating block (25) is arranged in the storage through groove (23) in a penetrating way.

4. The full-automatic film laminating and bagging machine as claimed in claim 3, wherein: organism (1) on install alarm mechanism (26), alarm mechanism (26) are including opto-coupler (261) and siren (262), opto-coupler (261) is installed on the lateral surface of depositing material box (21), opto-coupler (261) is including illuminator and photic ware, the one side in material storage logical groove (23) is installed to the illuminator, the opposite side in material storage logical groove (23) is installed to the photic ware, when instruction piece (25) remove to and position department between illuminator and the photic ware, siren (262) send alarm signal.

5. The full-automatic film laminating and bagging machine as claimed in claim 1, wherein: the driving mechanism (33) comprises a driving gear (331), a driving rack (332) and a driving cylinder (333), the driving gear (331) is fixedly installed on one side, away from the bag taking guide rail (41), of the overturning plate (31), the driving gear (331) and the overturning plate (31) are coaxially arranged, the driving rack (332) is meshed with the driving gear (331), and the driving cylinder (333) pushes the driving rack (332) to move.

6. The full-automatic film laminating and bagging machine as claimed in claim 1, wherein: the bag taking guide rail (41) is a rodless cylinder, the bag taking cylinder (42) is fixedly arranged on a sliding block on the rodless cylinder, and at least two bag taking suckers (43) are arranged on the bag taking cylinder (42).

7. The full-automatic film laminating and bagging machine as claimed in claim 1, wherein: the bag taking device is characterized in that the number of the turning discs (31) is two, the two turning discs (31) are parallel to each other, and the bag taking guide rail (41) is fixedly arranged between the two turning discs (31).

8. The fully automatic film laminating and bagging machine according to claim 7, wherein: a synchronizing rod (32) is connected between the overturning disc (31) and the other overturning disc (31), and the axis of the synchronizing rod (32) is collinear with the axis of the overturning disc (31).

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