CN220809995U - A wrap up in box machine for wine goods - Google Patents

Abstract

The utility model provides a box wrapping machine for wine products, which comprises a conveying mechanism, a rotating module, a first folding mechanism, a pressing mechanism and a second folding mechanism, wherein the conveying mechanism comprises a conveyor belt extending along a first preset path and an operation area positioned at a preset position of the conveyor belt; the rotary module comprises a rotary shaft positioned at one side of the conveyor belt and a coating die fixedly arranged on the rotary shaft; the first folding mechanism comprises two first folding parts which are oppositely positioned at two sides of the operation area along the extension path of the conveyor belt, and a first driving mechanism for driving the first folding parts to rotate; the compressing mechanism comprises a compressing block which moves along the direction close to or far away from the operation area; the second folding mechanism comprises two second folding parts which are distributed at intervals along the extension path of the conveyor belt. The box wrapping machine for the wine products improves working efficiency.

Description

A wrap up in box machine for wine goods

Technical Field

The utility model belongs to the technical field of wine production, and particularly relates to a box wrapping machine for wine products.

Background

The box wrapping machine is widely applied to the production of various paper boxes (wine boxes, medicine boxes and the like), the box wrapping machine comprises a conveying belt and a plurality of folding parts arranged outside the conveying belt, when a flat paper sheet moves to the middle of the folding parts under the drive of the conveying belt, the conveying belt stops, the folding parts close to the paper sheet, and all parts of the paper sheet are folded according to folds through overturning to form the paper box, and the paper box shown in the attached figure 1 is taken as an example for explanation:

The paper sheet is divided into 5 large sheets (①～⑤ in fig. 1) and 4 small sheets (⑥～⑨ in fig. 1), wherein the inner sides of the large sheets ②～④ are stuck with hard paper shells, after the paper sheet is conveyed to a designated position by a conveyor belt, the large sheets ③ are positioned in the middle, the large sheets ② and ④ are folded upwards by a folding part, then the large sheets ⑤ are folded upwards, the large sheets ① are covered on the large sheets ⑤, meanwhile, the small sheets ⑦～⑨ are folded inwards to form a square cylinder in a surrounding mode, and then the square cylinder is subjected to operations such as glue brushing and bottom sticking.

In the process of folding the paper box, as the inner sides of the large sheets ②～④ are stuck with hard paper shells, the large sheets ① are made of soft materials, the large sheets ① are carried up when the large sheets ② are folded, but the large sheets ① are directly slightly too large when the folded parts at the top are swept due to the fact that the large sheets ① are overturned completely, the large sheets ① are not covered on the large sheets ⑤, defective products are formed, and therefore, the defective products are needed to be trimmed later, and the overall working efficiency is reduced.

Disclosure of utility model

The embodiment of the utility model provides a box wrapping machine for wine products, and aims to solve the technical problems that the existing box folding machine is easy to cause the increase of the defective rate due to the softness of paper sheets and influences the overall working efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme: there is provided a wrapper for a wine product, comprising:

The conveying mechanism comprises a conveying belt extending along a first preset path and an operation area positioned at a preset position of the conveying belt;

The rotating module comprises a rotating shaft positioned at one side of the conveyor belt and a coating die fixedly arranged on the rotating shaft, the rotating shaft is vertically arranged, and the coating die is used for extending into the operation area;

The first folding mechanism comprises two first folding parts which are oppositely positioned at two sides of the operation area along the extending path of the conveyor belt, and a first driving mechanism for driving the first folding parts to rotate, the first folding parts are in a first state parallel to the conveyor belt and a second state perpendicular to the conveyor belt, a deflector rod is arranged at the top of the first folding parts close to the feeding side of the conveyor belt, and when the first folding parts are in the second state, the deflector rod is higher than the coating die;

The pressing mechanism is positioned at one side of the conveyor belt, which is away from the rotating shaft, and comprises a pressing block which moves along the direction close to or away from the operating area;

The second folding mechanism is positioned above the operation area and comprises two second folding parts which are distributed at intervals along the extension path of the conveyor belt, and a second driving mechanism for driving the second folding parts to move oppositely or back to back.

In one possible implementation, a side of the first fold facing the operating region is provided with a cushion.

In one possible implementation, the pressing mechanism further includes:

the pressing support is positioned at one side of the conveyor belt, which is away from the rotating shaft;

The sliding rail is arranged on the compression bracket and is parallel to the extension path of the conveyor belt;

the sliding frame is in sliding fit with the sliding rail;

The compaction block is arranged on the sliding frame.

In one possible implementation manner, the pressing support is provided with a screw rod matched with the sliding frame, and the end part of the screw rod is provided with a rotary hand wheel.

In one possible implementation, the overmold is provided with a plurality of overmolds uniformly about the axis of the rotational axis.

In one possible implementation manner, the second driving mechanism is a motor, and an output shaft of the motor is fixedly arranged on a driving arm perpendicular to the output shaft;

The second folding mechanism further comprises a fixing frame, guide rails which are in one-to-one sliding fit with the two second folding parts are arranged on the fixing frame, a hinge rod is connected between the second folding parts and the driving arms, and two ends of the hinge rod are hinged with the driving arms and the second folding parts respectively.

In one possible implementation, the guide rail corresponding to the second fold near the infeed side is parallel to the extension path of the conveyor belt;

The guide rail corresponding to the second folding part far away from the feeding side is gradually inclined upwards along the direction away from the other second folding part.

In one possible implementation, the second fold includes:

A fixing seat;

the adjusting plate is connected with the fixing seat through a threaded connecting piece, a long round hole matched with the threaded connecting piece is formed in the adjusting plate, and the long round hole extends along the up-down direction;

and the pressing block is fixedly connected with the adjusting plate.

In one possible embodiment, rollers are provided on the press block near the feed side, the axes of the rollers being parallel to the horizontal direction and perpendicular to the path of extension of the conveyor belt.

In one possible embodiment, the pressure piece facing away from the feed side is provided with a bevel facing the other pressure piece.

In the embodiment of the application, compared with the prior art, the box wrapping machine for the wine products is provided with the deflector rod on the first folding part close to the feeding side, namely, when the first folding part pushes the large piece ② to the cocked state, the deflector rod can block the large piece ① along with the first folding part, so that the large piece ① is prevented from being turned over due to the fact that the mass is too light, the large piece ① is ensured to be basically vertical, the second folding part is convenient to push the large piece ① to be paved on the large piece ⑤, the time for manually stopping and trimming is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic plan view of a sheet of paper used in an embodiment of the present utility model;

Fig. 2 is a schematic diagram of a front view structure of a box wrapping machine (hidden pressing mechanism) for wine products according to an embodiment of the present utility model;

Fig. 3 is a schematic top view of a box-wrapping machine for wine products according to an embodiment of the present utility model (with the second folding mechanism hidden).

Reference numerals illustrate:

10-a conveying mechanism;

20-rotating the module; 21-a rotation axis; 22-overmolding;

30-a first folding mechanism; 31-a first fold; 32-a deflector rod; 33-soft cushion;

40-a compressing mechanism; 41-a compaction block; 42-compacting the bracket; 43-slide rail; 44-a carriage; 45-screw rod; 46, rotating a hand wheel;

50-a second folding mechanism; 51-a second fold; 511-a holder; 512-adjusting plate; 513-briquetting; 514-a roller; 515-inclined press surface; 516-oblong holes; 52-driving arm; 53-hinge lever; 54-fixing frame; 55-guide rail.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 2 to 3, a box-wrapping machine for wine products according to the present utility model will now be described. The box wrapping machine for wine products comprises a conveying mechanism 10, a rotating module 20, a first folding mechanism 30, a pressing mechanism 40 and a second folding mechanism 50, wherein the conveying mechanism 10 comprises a conveyor belt extending along a first preset path and an operation area positioned at a preset position of the conveyor belt; the rotary module 20 comprises a rotary shaft 21 positioned at one side of the conveyor belt and a coating die 22 fixedly arranged on the rotary shaft 21, the rotary shaft 21 is vertically arranged, and the coating die 22 is used for extending into the operation area; the first folding mechanism 30 comprises two first folding parts 31 which are oppositely positioned at two sides of the operation area along the extending path of the conveyor belt, and a first driving mechanism for driving the first folding parts 31 to rotate, wherein the first folding parts 31 are in a first state parallel to the conveyor belt and a second state perpendicular to the conveyor belt, a deflector rod 32 is arranged at the top of the first folding parts 31 close to the feeding side of the conveyor belt, and when the first folding parts 31 are in the second state, the deflector rod 32 is higher than the coating die 22; the pressing mechanism 40 is positioned on the side of the conveyor belt away from the rotating shaft 21, and the pressing mechanism 40 comprises a pressing block 41 which moves along the direction close to or away from the operating area; the second folding mechanism 50 is located above the operation area, and the second folding mechanism 50 includes two second folding portions 51 that are spaced apart along the extending path of the conveyor belt, and a second driving mechanism that drives the second folding portions 51 to move toward or away from each other.

It will be readily appreciated that although the lever 32 is higher than the overmold 22 when the first fold 31 is raised, proper control of the length of the second fold 51 does not cause interference between the lever 32 and the second fold 51. The first folding portion 31 mainly switches between the first state and the second state by rotation, so that the first driving mechanism can be a motor, and an output shaft of the motor rotates to drive the first folding portion 31 to rotate; the second folding portion 51 mainly performs position switching by sliding, so the second driving mechanism may be a cylinder or a linear module; the pressing block 41 mainly realizes position switching by sliding, so a cylinder or a linear module for driving the pressing block 41 to reciprocate can be arranged in the pressing mechanism 40.

It should be noted that, the shift lever 32 is disposed at the top of the first folding portion 31, where the top is the top of the first folding portion 31 when in the second state, and when the first folding portion 31 is in the first state, the shift lever 32 is actually located at the side of the first folding portion 31 near the feeding side.

The box wrapping machine for wine products provided by the embodiment has the following specific working process: the paper sheets (refer to fig. 1) are put into a conveyor belt, the conveyor belt stops after conveying the paper sheets to an operation area, at this time, the first folding mechanism 30 is started first, the two first folding parts 31 are rotated and erected to enable the large sheet ② and the large sheet ④ to be vertically attached to the coating die 22, then the two second folding parts 51 are mutually close, the second folding part 51 on the large sheet ⑤ is firstly contacted with the large sheet ⑤ to enable the large sheet ⑤ to be pressed on the top of the coating die 22, then the second folding part 51 on the large sheet ① is used for enabling the large sheet ① to be laid on the large sheet ⑤, the pressing block 41 on the pressing mechanism 40 is moved towards the operation area while the second folding mechanism 50 is operated to enable the small sheet ⑧ and the small sheet ⑨ to be folded and attached to the coating die 22, and subsequent operations such as gluing, bottom sealing and the like can be performed after the step is completed.

Compared with the prior art, the box wrapping machine for wine products is provided with the deflector rod 32 on the first folding part 31 close to the feeding side, namely, when the first folding part 31 pushes the large piece ② to the erected state, the deflector rod 32 can block the large piece ① along with the first folding part 31 (actually, the large piece ① is stirred by contacting with the small piece ⑥ beside the large piece ①), so that the large piece ① is prevented from being turned over due to the fact that the mass is too light, the large piece ① is ensured to be basically vertical, the large piece ① is conveniently pushed by the second folding part 51 to be paved on the large piece ⑤, the time for manually stopping machine to repair is shortened, and the working efficiency is improved.

In some embodiments, a modified implementation of the first folded portion 31 may adopt a structure as shown in fig. 1. Referring to fig. 1, a side of the first folded portion 31 facing the operation region is provided with a cushion 33. Alternatively, the cushion 33 may be a rubber cushion, a cloth cushion, or the like, and by providing the cushion 33, the first folded portion 31 may be abutted against the cushion 33 on the paper sheet when in the second state, thereby avoiding leaving an indentation on the outer package and improving the appearance quality.

In some embodiments, a modified implementation of the pressing mechanism 40 may adopt a structure as shown in fig. 3. Referring to fig. 3, the pressing mechanism 40 further includes a pressing bracket 42, a sliding rail 43, and a sliding frame 44, where the pressing bracket 42 is located at a side of the conveyor belt facing away from the rotation shaft 21; the sliding rail 43 is arranged on the pressing support 42, and the sliding rail 43 is parallel to the extension path of the conveyor belt; the sliding frame 44 is in sliding fit with the sliding rail 43; the pressing block 41 is provided on the carriage 44. The pressing block 41 is disposed on the carriage 44 and can move close to the operation area, and by adjusting the entire carriage 44 along the sliding rail 43, the position of the pressing block 41 can be adjusted to correspond to the position of the operation area (actually, to ensure that the pressing block 41 corresponds to the small chip), and the carriage 44 can be adjusted to be recalibrated after a period of use, so as to ensure the working quality.

In some embodiments, a modified implementation of the compression bracket 42 described above may employ the structure shown in fig. 3. Referring to fig. 3, a screw 45 is provided on the pressing bracket 42 to be engaged with the carriage 44, and a rotary hand wheel 46 is provided at an end of the screw 45. The screw rod 45 is driven to rotate by rotating the rotating hand wheel 46, the screw rod 45 rotates to drive the sliding frame 44 to axially move along the screw rod 45, and meanwhile the sliding frame slides on the sliding rail 43, so that the position of the pressing block 41 is adjusted. The device has the advantages of simple structure, convenient operation and labor intensity reduction.

Specifically, since two actual compression blocks 41 are provided, two sliding frames 44 can be separately provided, one compression block 41 is provided on one sliding frame 44, and a screw 45 and a rotary hand wheel 46 are provided on both sides of the compression bracket 42, respectively adjusting the two sliding frames 44, and separately adjusting one compression block 41.

In some embodiments, a modified implementation of the rotating module 20 may adopt the structure shown in fig. 3. Referring to fig. 3, the overmold 22 is uniformly provided in plurality around the axial direction of the rotational shaft 21. Taking the case where 4 overmolds 22 are provided as an example, since one overmold 22 is switched every 90 ° rotation of the rotary shaft 21, the folding of 4 cartons can be completed by one rotation of the rotary shaft 21, and the overall working efficiency can be improved by providing an appropriate number of overmolds 22 in order to match the working rates of the first folding portion 31 and the second folding portion 51.

In some embodiments, a modified implementation of the second folding mechanism 50 may adopt a structure as shown in fig. 2. Referring to fig. 2, the second driving mechanism is a motor, and an output shaft of the motor is fixedly arranged on a driving arm 52 perpendicular to the output shaft; the second folding mechanism 50 further comprises a fixing frame 54, a guide rail 55 which is in one-to-one sliding fit with the two second folding parts 51 is arranged on the fixing frame 54, a hinge rod 53 is connected between the second folding parts 51 and the driving arm 52, and two ends of the hinge rod 53 are hinged with the driving arm 52 and the second folding parts 51 respectively. The motor drives the driving arm 52 to rotate forward and reversely, the second folding portion 51 is pulled to slide back and forth along the guide rail 55, the guide rail 55 is matched with the motor to drive the second folding portion 51, the moving process of the second folding portion 51 is stabilized, and paper jam during paper folding is avoided.

In some embodiments, a specific implementation of the guide rail 55 may be configured as shown in fig. 2. Referring to fig. 2, the corresponding guide rail 55 of the second fold 51 near the infeed side is parallel to the path of extension of the conveyor belt; the corresponding guide rail 55 of the second fold 51 facing away from the feed side is inclined gradually upwards in a direction facing away from the other second fold 51. After the first folding portion 31 is folded, the large sheet ① and the large sheet ⑤ protrude out of the top surface of the overmold 22, and the second folding portion 51 far away from the feeding side moves toward the other second folding portion 51 to flatten the large sheet ⑤, in this process, because the large sheet ⑤ has a hard paper shell thereon, the second folding portion 51 moves along the extending path of the inclined guide rail 55, so as to avoid the large sheet ⑤ that is directly vertical and vertically from striking out a trace, and improve the bonding tightness of the large sheet ① and the large sheet ⑤.

In some embodiments, a specific implementation of the second folded portion 51 may adopt a structure as shown in fig. 2. Referring to fig. 2, the second folding portion 51 includes a fixing seat 511, an adjusting plate 512 and a pressing block 513, the adjusting plate 512 is connected with the fixing seat 511 through a threaded connector, a slotted hole 516 matched with the threaded connector is formed in the adjusting plate 512, and the slotted hole 516 extends along the up-down direction; the press block 513 is fixedly connected to the adjustment plate 512. The oblong holes 516 on the adjusting plate 512 adjust the adjusting plate 512 along the up-down direction, and the height change of the adjusting plate 512 drives the height change of the pressing block 513 to adapt to the height of the coating die 22, so that the adjustment is convenient.

In some embodiments, a modified implementation of the above-described briquette 513 may employ a structure as shown in fig. 2. Referring to fig. 2, a roller 514 is provided on the pressing block 513 near the feeding side, and an axial direction of the roller 514 is parallel to the horizontal direction and perpendicular to the extending path of the conveyor belt. The overmold 22 rotates from a side near the discharge side of the belt into the operating zone and then out of the operating zone toward the side of the feed side, and during rotation can pass the bottom of the rollers 514, the rollers 514 rotating to smooth the entire large sheet ①.

In some embodiments, a modified implementation of the above-described briquette 513 may employ a structure as shown in fig. 2. Referring to fig. 2, a pressing block 513 remote from the feed side is provided with an inclined pressing surface 515 facing the other pressing block 513. After the pressing blocks 513 far away from the feeding side are pressed on the large sheet ⑤, the pressing blocks 513 close to the feeding side move towards the inclined pressing surface 515, the roller 514 and the coating die 22 are in line contact, the inclined pressing surface 515 can avoid the outer arc surface of the roller 514, so that the minimum distance between the two pressing blocks 513 can be reduced, and the flatness between the large sheet ① and the large sheet ⑤ can be improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A box-wrapping machine for wine products, comprising:

The conveying mechanism comprises a conveying belt extending along a first preset path and an operation area positioned at a preset position of the conveying belt;

The rotating module comprises a rotating shaft positioned at one side of the conveyor belt and a coating die fixedly arranged on the rotating shaft, the rotating shaft is vertically arranged, and the coating die is used for extending into the operation area;

The first folding mechanism comprises two first folding parts which are oppositely positioned at two sides of the operation area along the extending path of the conveyor belt, and a first driving mechanism for driving the first folding parts to rotate, the first folding parts are in a first state parallel to the conveyor belt and a second state perpendicular to the conveyor belt, a deflector rod is arranged at the top of the first folding parts close to the feeding side of the conveyor belt, and when the first folding parts are in the second state, the deflector rod is higher than the coating die;

The pressing mechanism is positioned at one side of the conveyor belt, which is away from the rotating shaft, and comprises a pressing block which moves along the direction close to or away from the operating area;

The second folding mechanism is positioned above the operation area and comprises two second folding parts which are distributed at intervals along the extension path of the conveyor belt, and a second driving mechanism for driving the second folding parts to move oppositely or back to back.

2. A wrapper for wine products according to claim 1, wherein a side of the first fold facing the operating zone is padded.

3. The cartoning machine for wine products of claim 1, wherein the compacting mechanism further comprises:

the pressing support is positioned at one side of the conveyor belt, which is away from the rotating shaft;

The sliding rail is arranged on the compression bracket and is parallel to the extension path of the conveyor belt;

the sliding frame is in sliding fit with the sliding rail;

The compaction block is arranged on the sliding frame.

4. A wrapping machine for wine products according to claim 3, wherein the compacting support is provided with a screw rod cooperating with the carriage, the end of the screw rod being provided with a rotating hand wheel.

5. A wrapping machine for wine products according to claim 1, wherein said overmold is uniformly provided in plurality about the axis of said rotation axis.

6. The box-wrapping machine for wine products according to claim 1, characterized in that said second driving mechanism is a motor, the output shaft of which is fixed to a driving arm perpendicular to said output shaft;

The second folding mechanism further comprises a fixing frame, guide rails which are in one-to-one sliding fit with the two second folding parts are arranged on the fixing frame, a hinge rod is connected between the second folding parts and the driving arms, and two ends of the hinge rod are hinged with the driving arms and the second folding parts respectively.

7. A wrapping machine for wine products according to claim 6, wherein said guide rail corresponding to said second fold close to the feeding side is parallel to the extension path of said conveyor belt;

The guide rail corresponding to the second folding part far away from the feeding side is gradually inclined upwards along the direction away from the other second folding part.

8. A wrapper for wine products according to claim 1, wherein the second fold comprises:

A fixing seat;

the adjusting plate is connected with the fixing seat through a threaded connecting piece, a long round hole matched with the threaded connecting piece is formed in the adjusting plate, and the long round hole extends along the up-down direction;

and the pressing block is fixedly connected with the adjusting plate.

9. A wrapping machine for wine products according to claim 8 wherein said press block adjacent the feed side is provided with rollers having their axes parallel to the horizontal and perpendicular to the path of extension of said conveyor belt.

10. A wrapping machine for wine products according to claim 9 wherein said briquette remote from the feed side is provided with a sloping press face towards the other said briquette.