CN221070242U - Automatic bag rolling mechanism for fruit net bags - Google Patents

Abstract

The utility model relates to the technical field of net bag winding mechanisms, in particular to an automatic fruit net bag winding mechanism, which comprises a base, wherein a supporting frame is arranged on the base in a sliding and translation manner, a winding disc assembly is arranged on the supporting frame through a main shaft, the distance between positioning pin bushings at two sides is changed through the cooperation of quick release pins and different positioning pin holes on the main shaft, a baffle frame fixing plate support is arranged on a flower disc in an annular array manner, and one end, far away from the flower disc, of each baffle frame fixing plate support is connected through an outer ring wrapping edge; according to the utility model, the space between the winding disc assemblies can be correspondingly adjusted according to the width of the packaging bag, so that the material rolls with different widths can be effectively wound and clamped, meanwhile, the support frame for mounting the material rolls can linearly slide and translate according to the winding and unwinding requirements, in the process, the main shaft is driven by the variable-frequency gear motor to perform unwinding operation, the automation level of the device is improved, and the industrialized bagging requirements of fruits are met.

Description

Automatic bag rolling mechanism for fruit net bags

Technical Field

The utility model relates to the technical field of net bag winding mechanisms, in particular to an automatic net bag winding mechanism for fruit.

Background

The utility model provides a fixed winding mechanism is used in fruit wrapping bag processing that publication No. CN112478862A among the prior art, put the drive seat including the left of built-in vertical drive motor, right side's support frame and set up the roll of bag section of thick bamboo between left side's drive seat and right side's support frame, the device is through being provided with a roll of bag section of thick bamboo between left side's drive seat and right side's support frame, set up the side direction receiving groove of built-in upset gag lever post on the annular side direction baffle at roll of bag section of thick bamboo both ends, through the external screw thread assembly pole that has vertical limit bracket on the internal screw thread spacing hole internal thread connection top in upset gag lever post bottom.

However, the fixed winding mechanism for processing the fruit packaging bag still has obvious defects in the using process: above-mentioned fruit wrapping bag winding mechanism's a bag section of thick bamboo width can't adjust, leads to the wrapping bag of different width can't carry out the adaptation, and then has restricted this fruit wrapping bag's range of application, and the rolling dish of above-mentioned device can't carry out adaptability fine setting according to the packing position of material book in the receive and releases the book in-process in addition, and can't independently unreel at receive and release the book in-process.

Disclosure of utility model

The utility model aims to provide an automatic fruit mesh bag rolling mechanism for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The automatic fruit net bag rolling mechanism comprises a base, wherein a supporting frame is arranged on the base in a sliding and translation mode, a rolling disc assembly is arranged on the supporting frame through a main shaft, and the rolling disc assembly synchronously performs circular motion in the main shaft rotating process;

The winding disc assembly comprises a pair of locating pin bushings sleeved on a main shaft, the locating pin bushings are matched with locating pin holes formed in the main shaft through quick-release pins, the locating pin holes are arranged on the main shaft at equal intervals, the spacing between the locating pin bushings at two sides is changed through the matching of the quick-release pins and different locating pin holes on the main shaft, a disc chuck is fixedly arranged at the outer sides of the locating pin bushings at two sides, a baffle frame fixing plate support is arranged on the disc chuck in an annular array manner, and one ends, far away from the disc chuck, of the adjacent baffle frame fixing plate supports are connected through outer ring wrapping edges;

and a bag rolling space is formed on the main shaft between the rolling disc assemblies at two sides, and the rolling and unreeling operation of the continuous bag body is performed through the circular motion of the main shaft.

Preferably, the base comprises a pair of square tubes which are arranged in parallel, a guide rail arranged on the square tubes, and a support plate I and a support plate II arranged on two sides of the square tubes.

Preferably, the support frame comprises sliding frames arranged in a sliding manner on two sides and a support portal frame for connecting the sliding frames with the sliding frames, and the sliding frames on two sides are matched with guide rails arranged on the same side through installed cam followers.

Preferably, the step motor is installed on the backup pad I, step motor passes through hold-in range drive driving pulley rotation, driving pulley fixed mounting is on the driving shaft, driving shaft both sides still fixed mounting has driving translation band pulley, both sides driving translation band pulley is connected with the driven translation band pulley of installing on the driven shaft through sliding hold-in range respectively, driven shaft axle center fixed mounting is on the backup pad II, both sides the equal fixed mounting of carriage bottom has hold-in range splint, both sides the hold-in range splint is fixed the slip hold-in range of both sides respectively, the slip hold-in range drives the support frame and carries out straight reciprocating motion in the motion in-process.

Preferably, the support frame is kept away from rolling dish subassembly one side fixed mounting and is had the motor cabinet, fixed mounting has variable frequency gear motor on the motor cabinet, variable frequency gear motor passes through shaft coupling and main shaft fixed connection, through variable frequency gear motor's rotation drives the main shaft rotation.

Preferably, slot type photoelectric sensors are further arranged on two sides of the base, and the movement of the supporting frame is positioned through the slot type photoelectric sensors.

Preferably, flexible limiting blocks are arranged at two ends of the guide rail at two sides and used for limiting the displacement range of the cam follower.

Preferably, the flower discs on the two sides are symmetrically provided with wire through grooves along the axis.

Preferably, the cam follower is further provided with an external thread bearing, and the outer ring of the external thread bearing is tightly attached to the guide rail, so that the support frame is ensured not to deviate in the uniform linear motion process.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the space between the winding disc assemblies can be correspondingly adjusted according to the width of the packaging bag, so that the material rolls with different widths can be effectively wound and clamped, meanwhile, the support frame for mounting the material rolls can linearly slide and translate according to the winding and unwinding requirements, in the process, the main shaft is driven by the variable-frequency gear motor to perform unwinding operation, the automation level of the device is improved, and the industrialized bagging requirements of fruits are met.

Drawings

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a schematic top view of the overall structure of the present utility model;

FIG. 3 is a schematic view of a supporting frame and a connecting structure thereof according to the present utility model;

FIG. 4 is a side view of the overall structure of the present utility model;

FIG. 5 is a schematic view of the overall structure of the take-up reel assembly of the present utility model;

FIG. 6 is an enlarged view of the area A of the present utility model;

Fig. 7 is an enlarged view of the B region of the present utility model.

In the figure: 1a base, 2 a supporting frame, 3 a main shaft, 4 a positioning pin bushing, 5 a quick-release pin, 6 a positioning pin hole, 7a flower disc, 8 a baffle frame fixing plate support, 9 an outer ring edge, 10 a square tube, 11a guide rail, 12 a supporting plate I, 13 a supporting plate II, 14 a sliding frame, 15 a supporting portal frame, 16 a cam follower, 17 a stepping motor, 18 a synchronous belt, 19 a driving belt pulley, 20 a driving shaft, 21 a driving translation belt pulley, 22 a sliding synchronous belt, 23 a driven shaft, 24 a driven translation belt pulley, 25 a synchronous belt clamping plate, 26 a motor seat, 27 a variable frequency speed reducing motor, 28 a groove type photoelectric sensor, 29 a flexible limiting block, 30 a wire through groove and 31 an external thread bearing.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, the present utility model provides a technical solution:

Examples:

The automatic fruit mesh bag rolling mechanism comprises a base 1, wherein a supporting frame 2 is arranged on the base 1 in a sliding and translation mode, a rolling disc assembly is arranged on the supporting frame 2 through a main shaft 3, and the rolling disc assembly synchronously performs circular motion in the rotating process of the main shaft 3;

The rolling disc assembly comprises a pair of positioning pin bushings 4 sleeved on a main shaft 3, the positioning pin bushings 4 are matched with positioning pin holes 6 formed in the main shaft 3 through quick-release pins 5, the positioning pin holes 6 are arranged on the main shaft 3 at equal intervals, the distance between the positioning pin bushings 4 at two sides is changed through the matching of the quick-release pins 5 and different positioning pin holes 6 on the main shaft 3, a flower disc 7 is fixedly arranged on the outer sides of the positioning pin bushings 4 at two sides, baffle frame fixing plate supports 8 are annularly arranged on the flower disc 7 in an array manner, and one ends, far away from the flower disc 7, of adjacent baffle frame fixing plate supports 8 are connected through an outer ring wrapping 9;

A bag rolling space is formed on the main shaft 3 between the rolling disc assemblies at two sides, and the rolling and unreeling operation of the continuous bag body is carried out through the circular motion of the main shaft 3.

In this embodiment, the base 1 is used as a carrying mechanism of various parts, on which a support frame 2 is provided in a sliding and translating manner, and the existing sliding and translating mechanism is common, such as a screw rod sliding and translating mechanism, a pneumatic sliding and translating mechanism, a hydraulic sliding and translating mechanism and the like, by providing the above mechanism on the base 1 to drive the support frame 2 to perform translational sliding, the winding disc assembly is mounted on the support frame 2, the support frame 2 drives the winding disc assembly to slide in the translational sliding process, and further drives the material belt wound on the winding disc assembly to perform translational sliding, and since the unwinding position of the material belt needs to be finely adjusted according to the product to be ensured in the automatic unwinding and packaging process, the winding disc assembly can be ensured to be in an optimal position through the operation of the above translational sliding device, so that bagging operation is facilitated, the winding disc component synchronously rotates in the rotating process of the main shaft 3 to realize winding and unwinding operation without manual pulling and unwinding, meanwhile, as the bag body widths required by different fruit bagging are different, in order to ensure that the device can adapt to the bagging of different fruits, the winding disc component is arranged on the main shaft 3 with adjustable spacing, when the required bag body width is larger, the spacing between the positioning pin bushings 4 on two sides is increased by adjustment, otherwise, the spacing between the positioning pin bushings 4 is reduced, the positioning pin bushings 4 are matched through the main shaft 3 and the positioning pin holes 6 formed by the positioning pin bushings 4, the positioning pin bushings 4 are fixed on the main shaft 3 by inserting and fixing the positioning pin holes 6 of the positioning pin bushings 3 through quick-release pins 5, and as the main shaft 3 is also provided with a plurality of positioning pin holes 6 which are arranged at equal intervals, the positioning pin holes 6 on the positioning pin bushings 4 are matched with the different positioning pin holes 6 on the main shaft 3 in an inserting way, the distance between the positioning pin bushings 4 on two sides can be adjusted, the width of the material roll can be adjusted adaptively through the mode, a bag rolling space is formed on the main shaft 3 between the rolling disc assemblies on two sides, rolling and unrolling operation of continuous bag bodies is carried out through circular motion of the main shaft 3, further, the base 1 comprises a pair of square tubes 10 which are arranged in parallel, guide rails 11 which are arranged on the square tubes 10, support plates I12 and II 13 which are arranged on two sides of the square tubes 10, the support frame 2 comprises sliding frames 14 which are arranged in a translational sliding mode on two sides and support door frames 15 which are connected with the sliding frames, the sliding frames 14 on two sides are matched with the guide rails 11 which are arranged on the same side through cam followers 16 which are arranged, and the connection relation of the base 1, the support frame 2 and the rolling disc assemblies is shown in detail in the drawing.

The stepping motor 17 is installed on the supporting plate I12, the stepping motor 17 drives the driving belt pulley 19 to rotate through the synchronous belt 18, the driving belt pulley 19 is fixedly installed on the driving shaft 20, driving translation belt pulleys 21 are fixedly installed on two sides of the driving shaft 20, the driving translation belt pulleys 21 on two sides are respectively connected with driven translation belt pulleys 24 installed on the driven shaft 23 through sliding synchronous belts 22, the axes of the driven shaft 23 are fixedly installed on the supporting plate II 13, synchronous belt clamping plates 25 are fixedly installed at the bottoms of the sliding frames 14 on two sides, the synchronous belt clamping plates 25 on two sides respectively clamp and fix the sliding synchronous belts 22 on two sides, and the sliding synchronous belts 22 drive the supporting frame 2 to conduct linear reciprocating motion in the moving process.

In this embodiment, the translational sliding driving mechanism of the support frame 2 is a stepping motor 17, the synchronous belt 18 is driven to rotate by the rotation of the stepping motor 17, the synchronous belt 18 rotates to drive the driving pulley 19 to rotate, the driving pulley 19 rotates to drive the driving shaft 20 to rotate, a pair of sliding synchronous belts 22, a driven translational pulley 24 and a driving translational pulley 21 which connect the driving pulley 20 and the driven pulley are arranged in parallel between the driving shaft 20 and the driven pulley 23, the sliding synchronous belt 22 is driven to reciprocate in the rotation process of the driving shaft 20, the sliding synchronous belt 22 is fixedly clamped by a synchronous belt clamping plate 25 arranged at the bottom of the sliding frame 14, the translational sliding of the sliding synchronous belt 22 drives the sliding frame 14 to perform translational motion so as to drive the whole support frame 2 to perform translational sliding, in order to position the movement of the support frame 2, a groove type photoelectric sensor 28 is further arranged at two sides of the base 1, in order to prevent the support frame 2 from being separated from the guide rail 11 in the sliding translational process, and flexible limiting blocks 29 are arranged at two ends of the guide rail 11 at two sides so as to limit the displacement range of the cam follower 16.

One side of the support frame 2, which is far away from the winding disc assembly, is fixedly provided with a motor seat 26, a variable frequency gear motor 27 is fixedly arranged on the motor seat 26, the variable frequency gear motor 27 is fixedly connected with the main shaft 3 through a coupler, and the main shaft 3 is driven to rotate through the rotation of the variable frequency gear motor 27.

In this embodiment, the rotation driving mechanism of the main shaft 3 is a variable frequency gear motor 27, the winding disc assembly is driven to rotate through the rotation of the variable frequency gear motor 27, meanwhile, as the winding disc assembly needs to be subjected to unreeling speed adjustment according to the bagging speed, the rotation speed of the main shaft 3 can be adjusted through adjusting the variable frequency gear motor 27, and the unreeling speed of the winding disc assembly is adjusted.

The wire penetrating grooves 30 are also formed in the flower discs 7 on the two sides along the axis symmetrically, and the wire penetrating grooves 30 are arranged to facilitate the pre-setting of the binding wires to bind the material rolls, so that the finished material rolls cannot be scattered in an idle state, and the tightening operation of the material rolls is ensured.

The cam follower 16 is also provided with an external thread bearing 31, and the outer ring of the external thread bearing 31 is tightly attached to the guide rail 11, so that the support frame 2 is ensured not to deviate in the uniform linear motion process.

In this embodiment, the external thread bearing 31 is sleeved outside the cam follower 16, so that the outer ring of the external thread bearing 31 is tightly attached to the guide rail 11, and the support frame 2 does not shake on the guide rail 11, so that the stability of the support frame 2 in the translational sliding process is ensured.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an automatic bag mechanism of rolling up of fruit pocket, includes base, its characterized in that: the base is provided with a support frame in a sliding translation manner, the support frame is provided with a winding disc assembly through a main shaft, and the winding disc assembly synchronously performs circular motion in the rotation process of the main shaft;

The winding disc assembly comprises a pair of locating pin bushings sleeved on a main shaft, the locating pin bushings are matched with locating pin holes formed in the main shaft through quick-release pins, the locating pin holes are arranged on the main shaft at equal intervals, the spacing between the locating pin bushings at two sides is changed through the matching of the quick-release pins and different locating pin holes on the main shaft, a disc chuck is fixedly arranged at the outer sides of the locating pin bushings at two sides, a baffle frame fixing plate support is arranged on the disc chuck in an annular array manner, and one ends, far away from the disc chuck, of the adjacent baffle frame fixing plate supports are connected through outer ring wrapping edges;

and a bag rolling space is formed on the main shaft between the rolling disc assemblies at two sides, and the rolling and unreeling operation of the continuous bag body is performed through the circular motion of the main shaft.

2. An automatic fruit mesh bag rolling mechanism according to claim 1, wherein: the base comprises a pair of square tubes which are arranged in parallel, a guide rail arranged on the square tubes, and a support plate I and a support plate II arranged on two sides of the square tubes.

3. An automatic fruit mesh bag rolling mechanism according to claim 2, wherein: the support frame includes both sides translation slip setting's carriage and carries out the support portal that connects the two, both sides the carriage passes through the cam follower cooperation that installs and the guide rail that the homonymy set up.

4. An automatic fruit mesh bag rolling mechanism according to claim 3, wherein: the support plate I is provided with a stepping motor, the stepping motor drives a driving belt pulley to rotate through a synchronous belt, the driving belt pulley is fixedly arranged on a driving shaft, driving translation belt pulleys are fixedly arranged on two sides of the driving shaft, the driving translation belt pulleys on two sides are respectively connected with a driven translation belt pulley arranged on a driven shaft through a sliding synchronous belt, the axis of the driven shaft is fixedly arranged on a support plate II, synchronous belt clamping plates are fixedly arranged at the bottoms of the sliding frames on two sides, the synchronous belt clamping plates on two sides respectively clamp and fix the sliding synchronous belts on two sides, and the sliding synchronous belts drive a support frame to conduct linear reciprocating motion in the moving process.

5. An automatic fruit mesh bag rolling mechanism according to claim 1, wherein: the support frame is kept away from rolling dish subassembly one side fixed mounting and is had the motor cabinet, fixed mounting has variable frequency gear motor on the motor cabinet, variable frequency gear motor passes through shaft coupling and main shaft fixed connection, through variable frequency gear motor's rotation drives the main shaft rotation.

6. An automatic fruit mesh bag rolling mechanism according to claim 1, wherein: the base both sides still are provided with slot type photoelectric sensor, pass through slot type photoelectric sensor is fixed a position the motion of support frame.

7. An automatic fruit mesh bag rolling mechanism according to claim 3, wherein: flexible limiting blocks are arranged at two ends of the guide rail at two sides and used for limiting the displacement range of the cam follower.

8. An automatic fruit mesh bag rolling mechanism according to claim 1, wherein: and wire through grooves are symmetrically formed in the flower discs on two sides along the axis.

9. An automatic fruit mesh bag rolling mechanism according to claim 3, wherein: and the cam follower is also provided with an external thread bearing, and the outer ring of the external thread bearing is tightly attached to the guide rail, so that the support frame is ensured not to deviate in the uniform linear motion process.