CN218198957U - Wrapping structure of multi-row high-speed wrapping machine - Google Patents

Abstract

The utility model provides a parcel structure of high-speed wrapping machine of multiseriate, which comprises a support, be formed with a plurality of material ways of carrying along the x axle direction on the support, every the material says that one end downside all is fixed with a paper folding mould, paper folding mould inboard is formed with the folding passageway along the z axle direction, folding passageway upper end is equipped with presses the material module, every folding passageway lower extreme all is equipped with mutually independent liftout module, press the material module with still be equipped with between the liftout module and press from both sides the material module, folding passageway upper end is equipped with along one side of x axle direction and pushes away the paper module, pushes away the material module, the material says that the middle part is equipped with the hot plate, the hot plate upside is equipped with the elasticity clamp plate module. The application wraps up in package structure designs into the structure that many materials were said, once can accomplish the parcel shaping of a plurality of food, wrapping paper simultaneously, and machining efficiency is high.

Description

Wrapping structure of multi-row high-speed wrapping machine

Technical Field

The utility model relates to a food processing technology field, concretely relates to wrap up in package structure of high-speed wrapping machine of multiseriate.

Background

Food packaging is an important link of food processing, after food is packaged, the eating period of the food can be prolonged, and the food protection effect can be improved; in some food packaging processing factories, food is still packaged in a manual wrapping mode, packaging paper or packaging films with corresponding lengths need to be pulled out manually, and food blocks need to be fed and packaged manually, so that the food packaging processing efficiency is low.

In order to solve the problems, some food packaging and processing equipment is also put into food packaging and processing in sequence for use, but some food packaging and processing equipment still needs to manually feed the food when wrapping the food, the equipment only primarily packages the food, after the mechanical packaging operation is completed, the final food packaging and processing still needs to manually fold the packaging paper or the packaging film on the food to complete the final food packaging and the degree of wrapping the food by the packaging paper or the packaging film still has defects, and the quality of the food is easily influenced.

In addition, part food package processing equipment only has a material way, can only carry out the packing of a food simultaneously once, and machining efficiency is low, and above-mentioned problem is awaited for a long time to solve.

SUMMERY OF THE UTILITY MODEL

Technical defect to existence among the background art, the utility model provides a high-speed wrapping machine's of multiseriate wrapping structure has solved above-mentioned technical problem and has satisfied the actual demand, and concrete technical scheme is as follows:

a wrapping structure of a multi-row high-speed wrapping machine comprises a support, wherein a plurality of material channels conveyed along the x-axis direction are formed on the support, a paper folding die is fixed on the lower side of one end of each material channel, a folding channel along the z-axis direction is formed on the inner side of each paper folding die, a material pressing module is arranged at the upper end of each folding channel and comprises a pressing rod, the pressing rod can be inserted into the inner side of each folding channel, an independent material ejecting module is arranged at the lower end of each folding channel, a material clamping module is arranged between each material pressing module and each material ejecting module, a paper pushing module and a material pushing module are arranged on one side of the upper end of each folding channel along the x-axis direction, a heating plate is arranged in the middle of each material channel, and an elastic pressing plate module is arranged on the upper side of each heating plate;

press from both sides the material module include with support upper end rotates first swing arm, second swing arm, the connection of connecting first swing arm along the first bearing at x axle direction both ends, first side briquetting, connection second swing arm along second bearing at x axle direction both ends, second side briquetting, be used for promoting first bearing, second bearing are to opposite direction wobbling picture peg, be equipped with on the first bearing rather than coaxial first extension post, be equipped with on the second bearing rather than coaxial second extension post, first extension post with the second extends and is connected with tension spring between the post, first side briquetting, second side briquetting are located a plurality ofly respectively folding channel upper end is followed one side of y axle direction.

The paper folding die comprises a first folding baffle and a second folding baffle which are arranged along the y-axis direction, wherein the first folding baffle is connected with a first side baffle extending towards the second folding baffle along the two ends of the x-axis direction, the second folding baffle is connected with a second side baffle extending towards the first folding baffle along the two ends of the x-axis direction, guide blocks are arranged at the two ends of the first folding baffle and the second folding baffle along the x-axis direction, the guide blocks are formed with a first guide groove bending towards one side of the second folding baffle, linear second guide grooves are formed between the guide blocks and the second folding baffle, a third guide groove bending towards one side of the first folding baffle is formed between the first side baffle and the second side baffle, and the top ends of the first guide groove and the second guide groove are intersected with the bottom of the third guide groove.

Specifically, the pressing module further comprises a first driving device driven along the z-axis direction and an installation frame connected to the output end of the first driving device, and the pressing rod is fixed to the installation frame.

Specifically, the material ejecting module comprises a second driving device and a supporting plate, the second driving device is driven along the z-axis direction, the supporting plate is connected to the output end of the second driving device, and the supporting plate can be movably arranged on the inner side of the folding channel.

Specifically, the clamping module further comprises a third driving device driven along the y-axis direction, and the inserting plate is connected to an output end of the third driving device.

Specifically, the paper pushing module comprises a fourth driving device driven along the x-axis direction, and a first lower pushing plate and a second lower pushing plate connected to the output end of the fourth driving device, and the first lower pushing plate and the second lower pushing plate respectively move on the inner sides of the corresponding material channels.

Specifically, the corners of the upper ends, close to the material channel side, of the first lower push plate and the second lower push plate are both of an R-angle structure.

Specifically, the material pushing module comprises a fifth driving device driven along the x-axis direction, a first push plate and a second push plate which are connected to the output end of the fifth driving device, the first push plate and the second push plate move correspondingly to the inner side of the material channel, and an avoiding groove for the pressing rod to pass through is formed in one end of the first push plate.

Specifically, the elastic pressing plate module comprises a pressing plate located on the upper side of the heating plate, a top plate located on the upper side of the pressing plate, a T-shaped guide post connected to the upper end of the pressing plate, a compression spring arranged between the pressing plate and the top plate and sleeved on the outer side of the T-shaped guide post, and a guide hole for the T-shaped guide post to move is formed in the top plate.

The utility model has the advantages of that:

1. the wrapping structure is suitable for a multi-row high-speed wrapping machine, is used for folding and wrapping paper on the outer side of food, and is provided with a pressing module, an ejecting module, a paper pushing module, a clamping module and a pushing module, the food and the wrapping paper can be automatically supported by the pressing module and the ejecting module, a paper folding die is additionally arranged, in the process of supporting the strip-shaped food and the wrapping paper, a plurality of front and back sides of the wrapping paper are firstly folded by the paper folding die, then a plurality of left and right sides of the wrapping paper are folded, the plurality of left and right sides of the wrapping paper are pressed by the clamping module, a front cover and a rear cover of the wrapping paper are folded and formed by the paper pushing module, the strip-shaped food and the wrapping paper are pushed to a material channel by the pushing module, the wrapping quality is good, and the reject ratio is low;

2. the structure that designs into many material ways can once accomplish the parcel shaping of a plurality of foods, wrapping paper simultaneously, and machining efficiency is high.

Drawings

Fig. 1 is a perspective view of a multi-row high-speed wrapping machine.

Fig. 2 is an enlarged view of a portion a in fig. 1, and the enlarged portion is the wrapping structure of the present invention.

Fig. 3 is a front view of the strip food wrapping machine.

Fig. 4 is an enlarged view of a portion B of fig. 2, the enlarged portion being a wrapping structure of the present invention.

FIG. 5 is a three-dimensional structure diagram of the support, the paper folding mold, the material clamping module and the heating plate.

FIG. 6 is a left side view of the support, the paper folding die, the clamping module and the heating plate.

FIG. 7 is a top view of the support, paper folding die, material clamping module, and heating plate.

Fig. 8 is a schematic diagram of the food packaging process, the structure is only used for showing the packaging process of the food and the wrapping paper, and the actual processing process is opposite to the illustrated direction, namely, the food is positioned below the wrapping paper.

The reference signs are: the folding mechanism comprises a support 10, a material channel 11, a paper folding die 20, a folding channel 201, a material pressing module 30, a pressure lever 31, an ejection module 40, a material clamping module 50, a paper pushing module 60, a material pushing module 70, a heating plate 80, an elastic pressure plate module 90, a first swing arm 51, a second swing arm 52, a first bearing 53, a first side pressing block 54, a second bearing 55, a second side pressing block 56, an inserting plate 57, a first extending column 58, a second extending column 59, a tension spring 510, a first folding baffle plate 21, a second folding baffle plate 22, a first side baffle plate 23, a second side baffle plate 24, a guide block 25, a first guide groove 202, a second guide groove 203, a third guide groove 204, a first driving device 33, a mounting frame 34, a supporting plate 41, a third driving device 511, a first lower pushing plate 61, a second lower pushing plate 62, a first upper pushing plate 71, a second upper pushing plate 72, an avoiding groove 711, a pressure plate 91, a top plate 92, a T-shaped guide column 93, a compression spring 94, a high-speed wrapping module 3, a multi-row module 2, a food product 4 and a paper feeding module 5.

Detailed Description

The embodiments of the present invention will be described with reference to the accompanying drawings and related examples, but the embodiments of the present invention are not limited to the following examples, and the relevant essential components of the present invention related to the technical field should be regarded as known in the art, and can be known and grasped by those skilled in the art.

Please refer to fig. 1-8.

The embodiment discloses a wrapping structure of a multi-row high-speed wrapping machine, which is suitable for a multi-row high-speed wrapping machine 1 and is used for folding and wrapping paper 5 outside food 4, the multi-row high-speed wrapping machine 1 is provided with a feeding module 3 used for conveying the food 4, a paper feeding module 2 used for conveying the wrapping paper 5, a paper cutting module used for cutting the paper and a wrapping structure used for folding and wrapping the wrapping paper 5 outside the food 4, the feeding module 3 is provided with a plurality of conveying stations, one side of each conveying station along the x-axis direction is provided with a cylinder used for pushing the food 4 to the conveying stations, a corresponding sensor is further arranged, when the food 4 is conveyed to one side of the cylinder by the feeding module 3, the sensor can sense the food 4 in time and feed back a signal to a control system, the cylinder is controlled by the control system to push the food 4 to the paper conveying stations, the paper feeding module 2 is also provided with a plurality of independent paper feeding structures, the paper feeding structures can be respectively arranged above one side of the corresponding conveying stations along the x-axis direction, the paper cutting module is used for cutting the wrapping paper 5 into a certain specification, and the upper end of the food 4 is cut and then tiled.

Wherein, the wrapping structure comprises a support 10, a plurality of material channels 11 which are conveyed along the x-axis direction are formed on the support 10, the material channels 11 are used for conveying food 4 which is wrapped with wrapping paper 5 after being folded, the structure of the material channels 11 is a rectangular groove, the surface of the material channels 11 is smooth and clean, the material channels can be suitable for product conveying in the food processing field after being sterilized, a paper folding die 20 is fixed on the lower side of one end of each material channel 11, a folding channel 201 along the z-axis direction is formed on the inner side of the paper folding die 20, the folding channel 201 is used for conveying the food 4 and the wrapping paper 5, a material pressing module 30 is arranged at the upper end of the folding channel 201, the material pressing module 30 comprises a pressing rod 31, the pressing rod 31 can be inserted into the inner side of the folding channel 201, an independent material ejecting module 40 is arranged at the lower end of each folding channel 201, the food 4 and the wrapping paper 5 are firstly pressed on the upper end of the wrapping paper 4 by the pressing rod 31 in the process of outputting from top to bottom along the folding channel 201, the food 4 is lifted upwards by the material ejecting module 40, the material ejecting module 40 and the pressure lever 31 are required to be ensured to move synchronously in the process to achieve the effect of preventing the packaging paper 5 from deviating, in the process of lifting the food 4 and the packaging paper 5, a plurality of front and back sides of the packaging paper 5 are firstly folded by the paper folding die 20, a plurality of left and right sides of the packaging paper 5 are then folded, a material clamping module 50 is further arranged between the material pressing module 30 and the material ejecting module 40, when the food 4 and the packaging paper 5 are conveyed to the position of the material clamping module 50, the plurality of front and back sides of the packaging paper 5 are pressed by the material clamping module 50, of course, a sensor for sensing the material can be arranged at the position of the material clamping module 50, a paper pushing module 60 and a material pushing module 70 are arranged at one side of the upper end of the folding channel 201 along the x-axis direction, after the food 4 and the packaging paper 5 are clamped by the material clamping module 50, a material pressing module 30, the material ejecting module 40 is reset, the front cover and the rear cover of the packing paper 5 are folded and formed by the paper pushing module 60, the food 4 and the packing paper 5 are pushed to the material channel 11 by the material pushing module 70, the heating plate 80 is arranged in the middle of the material channel 11, the packing paper 5 can be made of hot melting materials, the packing paper 5 is heated by the heating plate 80, the front cover and the rear cover are bonded together, but in order to prevent the food 4 and the packing paper 5 from being damaged by high temperature, the temperature is not too high, after the hot melting bonding is completed in a heating area, the discharging is carried out along with a production line, in addition, in order to enable the food 4 wrapped with the packing paper 5 to be smoothly conveyed along the conveying line, a certain shape can be kept in the conveying process without loosening, and the elastic pressure plate module 90 is arranged on the upper side of the heating plate 80.

The clamping module 50 comprises a first swing arm 51 rotatably connected with the upper end of the support 10, a second swing arm 52, a first bearing 53 connected with the first swing arm 51 along two ends of the x-axis direction, a first side pressing block 54, a second bearing 55 connected with the second swing arm 52 along two ends of the x-axis direction, a second side pressing block 56, and an inserting plate 57 for pushing the first bearing 53 and the second bearing 55 to swing in opposite directions, wherein the first bearing 53 is provided with a first extending column 58 coaxial with the first bearing 53, the second bearing 55 is provided with a second extending column 59 coaxial with the second bearing, a tension spring 510 is connected between the first extending column 58 and the second extending column 59, the first side pressing block 54 and the second side pressing block 56 are respectively positioned on one side of the upper ends of the plurality of folding channels 201 along the y-axis direction, the clamping module 50 further comprises a third driving device 511 driven along the y-axis direction, the inserting plate 57 is connected to the output end of the third driving device 511, when the food 4 wrapped with the wrapping paper 5 is conveyed to one side of the first side pressing block 54 or the second side pressing block 56, the third driving device 511 drives the inserting plate 57 to move towards one side of the material channel 11, the first bearing 53 and the second bearing 55 are pushed by the inserting plate 57, the first bearing 53 and the second bearing 55 swing in opposite directions, under the swing action of the first swing arm 51 and the second swing arm 52, the first side pressing block 54 and the second side pressing block 56 swing in opposite directions according to the lever principle, so that the food 4 wrapped with the wrapping paper 5 is clamped, the structure is ingenious, and when the food wrapped with the wrapping paper 5 is reset, the inserting plate 57 is driven by the third driving device 511 to be drawn out from between the first bearing 53 and the second bearing 55, one end of the first swing arm 51 and one end of the second swing arm 52 are pulled by the tension spring 510, so that the first side pressing block 54 and the second side pressing block 56 reset.

In a preferred embodiment, the folding die 20 includes a first folding flap 21 and a second folding flap 22 disposed along the y-axis direction, in order to facilitate folding of the left and right sides of the wrapper 5, the bottoms of the first folding flap 21 and the second folding flap 22 are both chamfered, so that during the lifting process of the wrapper 5, the front and rear sides can be folded along the sliding of the two chamfers, both ends of the first folding flap 21 along the x-axis direction are connected with a first side flap 23 extending toward the second folding flap 22, both ends of the second folding flap 22 along the x-axis direction are connected with a second side flap 24 extending toward the first folding flap 21, both ends of the first folding flap 21 and the second folding flap 22 along the x-axis direction are provided with guide blocks 25, the guide blocks 25 and the first folding flap 21, a first side flap 202 bent toward the second folding flap 22 is formed between the first side flap 22, a second guide groove 203 bent toward the second folding flap 22 is formed between the first side flap 25 and the second folding flap 22, a third guide groove 204 is formed between the first side flap 23 and the second side flap 203 along the second side flap 21, and the third guide groove 204 is formed between the front end of the folded wrapper 5 and the left and the rear end of the folded guide groove 204, and the third guide groove 204 of the folded wrapper 5, the folded guide groove are able to be folded.

In a preferred embodiment, the pressing module 30 further includes a first driving device 33 driven along the z-axis direction, and a mounting frame 34 connected to an output end of the first driving device 33, wherein the pressing rods 31 are fixed on the mounting frame 34, and the pressing module 30 is configured to press the packing paper 5 to prevent the packing paper 5 from being misaligned.

In a preferred embodiment, the ejecting module 40 comprises a second driving device driven along the z-axis direction, and a supporting plate 41 connected to the output end of the second driving device, wherein the supporting plate 41 can be moved inside the folding channel 201, and the ejecting module 40 is arranged below the conveying station and is used for lifting the food 4 and the packaging paper 5 upwards.

In a preferred embodiment, the paper pushing module 60 includes a fourth driving device driven along the x-axis direction, and a first lower pushing plate 61 and a second lower pushing plate 62 connected to an output end of the fourth driving device, where the first lower pushing plate 61 and the second lower pushing plate 62 respectively move inside the corresponding material channels 11, and the plurality of material channels 11 respectively fold and form the front and rear covers of the packing paper 5 by the first lower pushing plate 61 and the second lower pushing plate 62.

In order to enable the front and rear covers of the wrapping paper 5 to be folded and formed smoothly, the upper corners of the first and second push plates 61 and 62 on the side of the material path 11 are both in an R-corner structure, and the front and rear covers of the wrapping paper 5 can be folded and formed by sliding along the R-corner surface by using the inclined surface smooth to the R-corner structure.

As a preferred embodiment, the material pushing module 70 includes a fifth driving device driven along the x-axis direction, and a first push plate 71 and a second push plate 72 connected to an output end of the fifth driving device, where the first push plate 71 and the second push plate 72 are respectively movable inside the plurality of material channels 11, an avoiding groove 711 for passing the pressing rod 31 is provided at one end of the first push plate 71, and after folding, the plurality of food 4 of the packaging paper 5 are respectively pushed to the corresponding material channels 11 by the first push plate 71 and the second push plate 72.

In a preferred embodiment, the elastic pressure plate module 90 includes a pressure plate 91 located on the upper side of the heating plate 80, a top plate 92 located on the upper side of the pressure plate 91, a T-shaped guide post 93 connected to the upper end of the pressure plate 91, and a compression spring 94 sleeved outside the T-shaped guide post 93 and disposed between the pressure plate 91 and the top plate 92, wherein the top plate 92 is provided with a guide hole for the T-shaped guide post 93 to move, and the pressure of the pressure plate 91 on the food 4 wrapped by the wrapping paper 5 can keep a certain shape without loosening during the output of the food 4 wrapped by the wrapping paper 5 in the material channel 11.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The wrapping structure of the multi-row high-speed wrapping machine is characterized by comprising a support (10), wherein a plurality of material channels (11) conveyed along the x-axis direction are formed on the support (10), a paper folding die (20) is fixed on the lower side of one end of each material channel (11), a folding channel (201) along the z-axis direction is formed on the inner side of the paper folding die (20), a pressing module (30) is arranged at the upper end of the folding channel (201), the pressing module (30) comprises a pressing rod (31), the pressing rod (31) can be inserted into the inner side of the folding channel (201), an independent ejection module (40) is arranged at the lower end of each folding channel (201), a clamping module (50) is further arranged between the pressing module (30) and the ejection module (40), a paper pushing module (60) and a material pushing module (70) are arranged at one side of the upper end of the folding channel (201) along the x-axis direction, a heating plate (80) is arranged in the middle of the material channels (11), and an elastic pressing plate module (90) is arranged at the upper side of the heating plate (80);

press from both sides material module (50) include with support (10) upper end rotates first swing arm (51), second swing arm (52), the connection of connecting first swing arm (51) along first bearing (53), first side briquetting (54), connection at x axle direction both ends second bearing (55), second side briquetting (56) at x axle direction both ends are followed in second swing arm (52), are used for promoting first bearing (53), second bearing (55) are to opposite direction wobbling picture peg (57), be equipped with on first bearing (53) and extend post (58) rather than coaxial first, be equipped with on second bearing (55) and extend post (59) rather than coaxial second, first extend post (58) with the second extends to be connected with tension spring (510) between post (59), first side briquetting (54), second side briquetting (56) are located a plurality ofly respectively one side of folding passageway (201) upper end along y axle direction.

2. The wrapping structure of multi-column high-speed wrapping machine according to claim 1, wherein the paper folding mold (20) comprises a first folding baffle (21) and a second folding baffle (22) arranged along the y-axis direction, both ends of the first folding baffle (21) along the x-axis direction are connected with a first side baffle (23) extending towards the second folding baffle (22) direction, both ends of the second folding baffle (22) along the x-axis direction are connected with a second side baffle (24) extending towards the first folding baffle (21) direction, both ends of the first folding baffle (21) and the second folding baffle (22) along the x-axis direction are provided with guide blocks (25), the guide blocks (25) and the first folding baffle (21) and the first side baffle (23) are provided with first side baffles (202) bending towards one side of the second folding baffle (22), a second side baffle (203) formed between the guide blocks (25) and the second folding baffle (22) is provided with a linear guide groove (204) and a third side baffle (204) formed between the second side baffle (23) and the second folding baffle (204).

3. The wrapping structure of a multi-row high-speed wrapping machine according to claim 1, wherein said pressing module (30) further comprises a first driving device (33) driven along the z-axis direction, a mounting frame (34) connected to the output end of said first driving device (33), and said pressing rod (31) is fixed on said mounting frame (34).

4. The wrapping structure of multi-row high-speed wrapping machine according to claim 1, wherein said ejector module (40) comprises a second driving device driven along the z-axis direction, a supporting plate (41) connected to the output end of said second driving device, and said supporting plate (41) is movable inside said folding channel (201).

5. The wrapping structure of a multi-row high-speed wrapping machine according to claim 1, wherein the material clamping module (50) further comprises a third driving device (511) driven along the y-axis direction, and the inserting plate (57) is connected to the output end of the third driving device (511).

6. The wrapping structure of a multi-row high-speed wrapping machine according to claim 1, wherein the paper pushing module (60) comprises a fourth driving device driven along the x-axis direction, and a first lower pushing plate (61) and a second lower pushing plate (62) connected to the output end of the fourth driving device, and the first lower pushing plate (61) and the second lower pushing plate (62) respectively move inside the corresponding material channels (11).

7. The wrapping structure of a multi-row high-speed wrapping machine according to claim 6, characterized in that the upper corners of the first lower pushing plate (61) and the second lower pushing plate (62) close to the material channel (11) are both of R-shaped structures.

8. The wrapping structure of a multi-row high-speed wrapping machine according to claim 1, wherein the pushing module (70) comprises a fifth driving device driven along the x-axis direction, and a first push-up plate (71) and a second push-up plate (72) connected to the output end of the fifth driving device, the first push-up plate (71) and the second push-up plate (72) respectively move inside the corresponding material channel (11), and one end of the first push-up plate (71) is provided with an avoiding groove (711) for the pressing rod (31) to pass through.

9. The wrapping structure of multi-row high-speed wrapping machine according to claim 1, wherein said elastic pressing plate module (90) comprises a pressing plate (91) located on the upper side of said heating plate (80), a top plate (92) located on the upper side of said pressing plate (91), a T-shaped guide post (93) connected to the upper end of said pressing plate (91), and a compression spring (94) sleeved on the outer side of said T-shaped guide post (93) and disposed between said pressing plate (91) and said top plate (92), said top plate (92) being provided with a guide hole for the movement of said T-shaped guide post (93).

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