CN220343601U - Convenient and efficient string device - Google Patents

Abstract

The utility model discloses a convenient and efficient stringing device, which comprises a material arranging mechanism, a material pressing mechanism and a cross-connection mechanism, wherein the material arranging mechanism comprises a transmission belt and a plurality of material arranging moulds, the material pressing mechanism is arranged on a transmission path of the transmission belt and comprises a telescopic material pressing component, the material pressing component is provided with a pressing structure, the pressing structure is used for containing materials protruding from the material arranging moulds, when the material pressing component moves towards the direction of the transmission belt, the pressing structure is abutted with the materials on the material arranging moulds, the materials are pressed on the material arranging moulds, and the cross-connection mechanism can stretch a label body into the material arranging moulds along a cross-connection groove. Compared with the prior art, the convenient and efficient string device provided by the embodiment of the utility model not only can reduce the influence on the appearance of the balls in the pressing process through the pressing structure, but also can enable the balls to be restrained between the accommodating groove and the pressing structure in the pressing process, so that the balls are better fixed, and the movement is avoided.

Description

Convenient and efficient string device

Technical Field

The utility model relates to a stringing device, in particular to a convenient and efficient stringing device.

Background

In the reprocessing and reproduction of foods, there is a product made of a string of pellets, which is usually made by manually stringing, i.e., the pellets are sequentially connected in series to a tag body while holding the tag body. However, the manual stringing has the problems of low efficiency and inconsistent finished products. In the processing factory, a large number of balls are required for reprocessing food, the manual string speed cannot be matched with the manufacturing speed of the processing factory, and when the balls are manually string, the distance between the balls, the positions of the label body and the balls are not consistent, the balls formed in the subsequent processing cannot be unified, and the appearance of the finished product is poor.

Disclosure of Invention

The utility model mainly aims to provide a convenient and efficient stringing device which is used for solving the problems.

In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model comprises the following steps:

the embodiment of the utility model provides a convenient and efficient string device, which comprises: the material arranging mechanism comprises a transmission belt and a plurality of material arranging moulds, wherein the material arranging moulds are provided with accommodating grooves for accommodating materials and penetrating grooves for accommodating a label body, the accommodating grooves are sequentially arranged along a line, the accommodating grooves are communicated through the penetrating grooves, the penetrating grooves form an opening for the label body to stretch into, the external environment of the material arranging moulds is communicated with the penetrating grooves through the opening, the material arranging moulds are arranged on the transmission belt along the length direction of the transmission belt, and the transmission belt can drive the transmission belt to drive the label body along a designated direction under an external force;

the material pressing mechanism is arranged on the transmission path of the transmission belt, the material pressing mechanism comprises a telescopic material pressing component, a pressing structure is arranged on the material pressing component, the pressing structure is at least used for containing materials protruding from the material arranging die, and when the material pressing component moves towards the direction of the transmission belt, the pressing structure is abutted with the materials on the material arranging die to press the materials on the material arranging die;

and the cross-over mechanism is arranged opposite to the material pressing mechanism, and when the material pressing mechanism presses the materials on the material arranging die, the cross-over mechanism can stretch a label body into the material arranging die along the cross-over groove, so that a plurality of materials on the material arranging die are cross-over into strings.

Compared with the prior art, the convenient and efficient string device provided by the embodiment of the utility model not only can reduce the influence on the appearance of the balls in the pressing process through the pressing structure, but also can enable the balls to be restrained between the accommodating groove and the pressing structure in the pressing process, so that the balls are better fixed, and the movement is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a convenient and efficient stringing device according to the present utility model;

FIG. 2 is a schematic structural view of a cross-connect mechanism and a pressing mechanism in a convenient and efficient stringing device;

FIG. 3 is a schematic structural view of a monolith mechanism in a convenient and efficient stringing device;

FIG. 4 is a schematic diagram of a monolith mold in a convenient and efficient stringing device according to the present utility model;

reference numerals illustrate: 11. a transmission belt; 12. a monolith mold; 121. a receiving groove; 122. a through slot; 13. discharging a hopper; 14. a feeding roller; 21. a pressing member; 211. a pressing structure; 31. a label holding roller; 311. a pushing stick groove; 32. a pushing mechanism; 4. a label supply mechanism; 41. a receiving bin; 42. a label supply roller; 421. a label feeding groove.

Detailed Description

In view of the shortcomings in the prior art, the inventor of the present utility model has long studied and practiced in a large number of ways to propose the technical scheme of the present utility model. The technical scheme, the implementation process, the principle and the like are further explained as follows.

The embodiment of the utility model provides a convenient and efficient string device, which comprises:

the material arranging mechanism comprises a transmission belt and a plurality of material arranging moulds, wherein the material arranging moulds are provided with accommodating grooves for accommodating materials and penetrating grooves for accommodating a label body, the accommodating grooves are sequentially arranged along a line, the accommodating grooves are communicated through the penetrating grooves, the penetrating grooves form an opening for the label body to stretch into, the external environment of the material arranging moulds is communicated with the penetrating grooves through the opening, the material arranging moulds are arranged on the transmission belt along the length direction of the transmission belt, and the transmission belt can drive the transmission belt to drive the label body along a designated direction under an external force;

the material pressing mechanism is arranged on the transmission path of the transmission belt, the material pressing mechanism comprises a telescopic material pressing component, a pressing structure is arranged on the material pressing component, the pressing structure is at least used for containing materials protruding from the material arranging die, and when the material pressing component moves towards the direction of the transmission belt, the pressing structure is abutted with the materials on the material arranging die to press the materials on the material arranging die;

and the cross-over mechanism is arranged opposite to the material pressing mechanism, and when the material pressing mechanism presses the materials on the material arranging die, the cross-over mechanism can stretch a label body into the material arranging die along the cross-over groove, so that a plurality of materials on the material arranging die are cross-over into strings.

In some more specific embodiments, the longitudinal section of the receiving groove is a regular shape or an irregular shape, and the regular shape is a rectangle or an arc.

In some more specific embodiments, the longitudinal cross-section of the press-fit structure is a regular shape or an irregular shape, the regular shape being rectangular, arcuate.

In some more specific embodiments, the material arranging mechanism further comprises a discharging hopper, the discharging hopper and the material pressing mechanism are sequentially arranged along the transmission direction of the transmission belt, the discharging hopper is provided with a containing cavity, the containing cavity is used for containing materials, and the containing cavity is arranged on the transmission path of the transmission belt.

The material arranging mechanism further comprises a material feeding roller, the material feeding roller is arranged in the accommodating cavity, a material arranging space is formed by enclosing between the material feeding roller and the material arranging die, and when the material arranging die on the driving belt passes through the material arranging space, the material feeding roller can supply materials into the accommodating groove.

In some more specific embodiments, the feed roll is provided with a plurality of protrusions, at least a portion of which are capable of abutting material in the monolith space when the feed roll is rotated.

In some more specific embodiments, the protrusions include a first protrusion having a tip that deflects in the same direction as the direction of rotation of the feed roll and a second protrusion having a tip that deflects in a direction opposite to the direction of rotation of the feed roll.

In some more specific embodiments, the protrusions form different rows in the circumferential direction of the feeding roller, and the protrusions in any two adjacent rows are arranged in a staggered manner in the axial direction of the feeding roller.

In some more specific embodiments, the feed roller is oriented opposite to the direction of travel of the belt.

In some more specific embodiments, the cross-connection mechanism comprises a label holding roller and a pushing mechanism, a label pushing groove for holding a label body is formed in the label holding roller, the label holding roller can rotate along a designated direction and provide the label body in the label pushing groove to a pushing station of the pushing mechanism, the pushing mechanism can reciprocate between the pushing station and the resetting station, when the pushing mechanism moves towards the resetting station, the pushing mechanism can be abutted with the label body in the label pushing groove, and the pusher label body stretches into the monolith mold from the cross-connection groove, so that a plurality of materials on the monolith mold are cross-connected into a string.

In some more specific embodiments, the convenient and efficient stringing device further comprises: the label supplying mechanism comprises a containing bin and a label supplying roller, the containing bin is used for containing label bodies arranged along a specified direction, at least part of the label supplying roller is movably arranged in the containing bin, and the label supplying roller can rotate under the driving of an external force to enable the label bodies in the containing bin to be provided in a label pushing groove of the label containing roller.

In some more specific embodiments, the rotation direction of the label supply roller is crossed with the axis direction of the label body in the containing bin.

In some more specific embodiments, the direction of rotation of the label supply roller is the same as the direction of rotation of the label receiving roller.

In some more specific embodiments, the label supply roller is provided with a label supply groove, the label supply groove is provided with an opening on the label supply roller, the opening is used for the label body to enter the label supply groove, and the label supply groove is used for accommodating a label body.

The technical scheme, implementation process and principle of the technical scheme are further explained below with reference to the attached drawings and specific embodiments, and unless specifically explained, all of the flowering branch pills, chicken pills, fish tofu, telescopic motors and the like adopted in the embodiment of the utility model are known to those skilled in the art and are commercially available, and specific structures and models of the flowering branch pills, the chicken pills, the fish tofu, the telescopic motors and the like are not limited.

Examples

Referring to fig. 1-2, the monolith mechanism includes a driving belt 11 and a plurality of monolith molds 12, wherein a receiving slot 121 for receiving a material and a through slot 122 for receiving a label body are provided on the monolith molds 12, the plurality of receiving slots 121 are sequentially provided along a line, and the plurality of receiving slots 121 are communicated through the through slot 122, the through slot 122 forms an opening for the label body to extend into on the monolith molds 12, the external environment of the monolith molds 12 is communicated with the through slot 122 through the opening, the plurality of monolith molds 12 are provided on the driving belt 11 along the length direction of the driving belt 11, and the driving belt 11 can drive in a designated direction under an external force;

the material pressing mechanism is arranged on the transmission path of the transmission belt 11, the material pressing mechanism comprises a telescopic material pressing member 21, a pressing structure 211 is arranged on the material pressing member 21, the pressing structure 211 is at least used for containing materials protruding from the material arranging die 12, and when the material pressing member 21 moves towards the direction of the transmission belt 11, the pressing structure 211 is abutted with the materials on the material arranging die 12 to press the materials on the material arranging die 12;

and the cross-over mechanism is arranged opposite to the material pressing mechanism, and when the material pressing mechanism presses the materials on the material arranging die 12, the cross-over mechanism can stretch a label body into the material arranging die 12 along the cross-over groove 122, so that a plurality of materials on the material arranging die 12 are cross-connected into strings.

Specifically, the material may be balls, such as spherical balls or cubic balls or balls with other irregular shapes, and when the convenient and efficient string-making device provided by the utility model works, balls can be placed in the accommodating groove 121 of the monolith mold 12, the plurality of monolith molds 12 are sequentially arranged on the driving belt 11, and the balls can be placed protruding from the monolith molds 12. When the driving belt 11 carries the balls to the pressing mechanism, the protruding parts of the balls are opposite to the pressing members 21, the pressing members 21 in the pressing mechanism can press towards one side of the balls, and the pressing structures 211 on the pressing members 21 are contacted with the protruding parts of the balls. The cross-over mechanism extends a label from the cross-over slot 122 into the monolith mold 12 to cross-over a plurality of materials on the monolith mold 12 into a string.

More specifically, the accommodating grooves 121 are disposed on the monolith mold 12 at equal intervals, the pressing structure 211 may be a groove structure similar to the outer contour of the balls, the groove structure is disposed on the pressing member at equal intervals, and the interval between any two adjacent accommodating grooves 121 is the same as the interval between the groove structures. So that when pressing the balls, the balls are distributed at equal intervals, and the balls can be better fixed, so that the play is avoided, and the string making work is facilitated. Meanwhile, in the prior art, the appearance of the balls can be influenced when the balls are pressed, and the appearance of the balls can be reserved to the greatest extent through the pressing structure matched with the accommodating groove.

In a preferred embodiment, the longitudinal sections of the receiving groove 121 and the through-connection groove 122 may be regular or irregular, and the regular shape may be rectangular or arc-shaped. Specifically, as shown in fig. 4, the accommodating groove 121 is formed by recessing the outer surface of the monolithic mold 12, and is shaped like a part of a sphere, and its longitudinal section is arc-shaped, so that common flower-branch pellets, chicken balls, etc. can be placed in the accommodating groove 121, and of course, the accommodating groove 121 may also be a part of a cube, its longitudinal section is rectangular, and fish bean curd, etc. can be placed in the accommodating groove 121 to form rectangular pellets. More specifically, the accommodating groove 121 may be used for accommodating other materials to be strung, and the specific shape thereof may be set according to actual requirements, which will not be described herein.

In the convenient and efficient string device in this embodiment, the accommodating groove 121 with the outline similar to that of the material to be pressed is arranged on the pressing member 21, so that the balls can be pressed in the material arranging die 12 more stably, and the ball strings formed by the cross-connection of the balls are more regular and have better appearance.

Further, the material arranging mechanism further comprises a material discharging hopper 13, the material discharging hopper 13 and the material pressing mechanism are sequentially arranged along the transmission direction of the transmission belt 11, the material discharging hopper 13 is provided with a containing cavity, the containing cavity is used for containing materials, and the containing cavity is arranged on the transmission path of the transmission belt 11; the material arranging mechanism further comprises a material feeding roller 14, the material feeding roller 14 is arranged in the accommodating cavity, a material arranging space is formed by enclosing the material feeding roller 14 and the material arranging die 12, and when the material arranging die 12 on the driving belt 11 passes through the material arranging space, the material feeding roller 14 can supply materials into the accommodating groove 121. As will be appreciated, referring to fig. 1 and 3, balls may be placed in the hopper 13, and the receiving groove 121 of the monolith mold 12 on the conveyor belt may be gradually filled with balls in the hopper 13 as the conveyor belt is driven from the bottom of the hopper 13 to the feed roller 14, and the balls may be more closely fitted to the receiving groove 121 with rotation of the feed roller 14 as the monolith mold 12 carries the balls into the monolith space. If no pellets were previously in the receiving tank 121, the pellets may also be driven into the receiving tank 121 by rotation of the feed roll 14.

More specifically, the convenient and efficient stringing device provided by the utility model can provide balls for the monolith mold 12 by arranging the feeding roller 14, and has better working efficiency compared with the mode of manually providing balls for the monolith mold 12.

Further, to increase the filling rate of the balls into the accommodating groove 121, the included angle between the surface of the conveyor belt and the horizontal plane can be as small as possible when the conveyor belt travels to the feeding roller 14 through the discharging hopper 13, which can be understood as reducing the gradient of the conveyor belt, so that the balls can enter the accommodating groove 121 by means of self weight.

In a preferred embodiment, the feed roller 14 is provided with a plurality of protrusions, at least part of which can abut against the material in the monolith space when the feed roller 14 rotates. The protrusions may abut the balls to increase friction with the balls, facilitating entry of the balls into the receiving groove 121.

Specifically, the protrusions include a first protrusion having a tip end deflected in the same direction as the rotation direction of the feed roller 14, and a second protrusion having a tip end deflected in the opposite direction to the rotation direction of the feed roller 14. As shown in fig. 3, the feeding roller 14 may be divided into a first protrusion and a second protrusion according to different directions of the deflection of the tip of the protrusion, the first protrusion and the second protrusion are disposed in a staggered manner, and the outer surface of a part of balls may be too smooth.

Specifically, the protrusions form different rows in the circumferential direction of the feeding roller 14, and the protrusions in any two adjacent rows are arranged in a staggered manner in the axial direction of the feeding roller 14; the direction of the feeding roller 14 is opposite to the transmission direction of the transmission belt 11. The feed roller 14 may rotate opposite the belt 11 to squeeze the balls therebetween.

More specifically, the cross-connection mechanism includes a label holding roller 31 and a pushing mechanism 32, a label pushing slot 311 for holding a label body is provided on the label holding roller 31, the label holding roller 31 can rotate along a designated direction and provide the label body in the label pushing slot 311 to a pushing station of the pushing mechanism 32, the pushing mechanism 32 can reciprocate between the pushing station and the reset station, when the pushing mechanism 32 moves towards the reset station, the pushing mechanism 32 can be abutted with the label body in the label pushing slot 311, and the pusher label body stretches into the monolithic die 12 from the cross-connection slot 122, so that a plurality of materials on the monolithic die 12 can be cross-connected into a string.

More specifically, a convenient and efficient string device further includes a label feeding mechanism 4, the label feeding mechanism 4 includes a holding bin 41 and a label feeding roller 42, the holding bin 41 is used for holding label bodies arranged along a specified direction, at least part of the label feeding roller 42 is movably arranged in the holding bin 41, and the label feeding roller 42 can rotate under the driving of an external force to provide label bodies in the holding bin 41 in the label pushing groove 311 of the label holding roller 31.

Specifically, the rotation direction of the label supply roller 42 is crossed with the axis direction of the label body in the accommodating bin 41, and the rotation direction of the label supply roller 42 is the same as the rotation direction of the label containing roller 31. The label feeding roller 42 is provided with a label feeding groove 421, the label feeding groove 421 is formed with an opening on the label feeding roller 42, the opening is used for the label to enter the label feeding groove 421, and the label feeding groove 421 is used for accommodating a label.

It can be understood that, as shown in fig. 2, the label body may be disposed vertically to the label supplying roller 42, an opening for the label body to roll off is disposed on the side of the accommodating bin 41 facing the label supplying roller 42, along with the rotation of the label supplying roller 42, the label body may enter the opening of the label supplying roller 42 and enter the label supplying slot 421, the label supplying roller 42 is disposed opposite to the label supplying roller 31, when the label body carried on the label supplying roller 42 rotates to a proper position, the label body falls from the label supplying slot 421 or slides into the label pushing slot 311, along with the movement of the pushing mechanism 32 facing the material pressing mechanism, the pushing mechanism 32 pierces the label body onto the ball which is pressed and fixed, and the pushing mechanism 32 pushes back to the initial position to wait for pushing the next label body after the string making work. In this embodiment, a convenient and efficient stringing device is provided with the label supply roller 42 and the label containing roller 31, so that the label body required for stringing can be quickly connected with the balls in a penetrating way, and the working efficiency is faster.

Further, the cross-connection mechanism further comprises a guide member, the pushing mechanism 32 is movably arranged on the guide member, the guide member is used for guiding the reciprocating traveling direction of the pushing mechanism 32, and the pushing mechanism 32 can be driven by a telescopic motor to reciprocate so that the label body can cross-connect along a uniform direction, and the finished product effect of the ball string is further improved.

It should be understood that the above embodiments are merely for illustrating the technical concept and features of the present utility model, and are intended to enable those skilled in the art to understand the present utility model and implement the same according to the present utility model without limiting the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims (10)

1. A convenient and efficient stringing device, comprising:

the material arranging mechanism comprises a transmission belt (11) and a plurality of material arranging moulds (12), wherein the material arranging moulds (12) are provided with a containing groove (121) for containing materials and a through-connection groove (122) for containing a label body, the containing grooves (121) are sequentially arranged along a line, the containing grooves (121) are communicated through the through-connection groove (122), the through-connection groove (122) forms an opening for the label body to extend into on the material arranging moulds (12), the external environment of the material arranging moulds (12) is communicated with the through-connection groove (122) through the opening, the material arranging moulds (12) are arranged on the transmission belt (11) along the length direction of the transmission belt (11), and the transmission belt (11) can drive to drive in a designated direction under an external force;

the material pressing mechanism is arranged on a transmission path of the transmission belt (11), the material pressing mechanism comprises a telescopic material pressing component (21), a pressing structure (211) is arranged on the material pressing component (21), the pressing structure (211) is at least used for containing materials protruding from the material arranging die (12), and when the material pressing component (21) moves towards the direction of the transmission belt (11), the pressing structure (211) is abutted with the materials on the material arranging die (12) to press the materials on the material arranging die (12);

and the cross-over mechanism is arranged opposite to the material pressing mechanism, and when the material pressing mechanism presses the materials on the material arranging die (12), the cross-over mechanism can stretch a label body into the material arranging die (12) along the cross-over groove (122), so that a plurality of materials on the material arranging die (12) are cross-connected into a string.

2. The convenient and efficient stringing device according to claim 1, wherein:

the longitudinal section of the accommodating groove (121) and/or the pressing structure (211) is in a regular shape or an irregular shape, and the regular shape is in a rectangular shape or an arc shape.

3. The convenient and efficient stringing device according to claim 1, wherein:

the material arranging mechanism further comprises a material discharging hopper (13), the material discharging hopper (13) and the material pressing mechanism are sequentially arranged along the transmission direction of the transmission belt (11), the material discharging hopper (13) is provided with a containing cavity, the containing cavity is used for containing materials, and the containing cavity is arranged on the transmission path of the transmission belt (11);

the material arranging mechanism further comprises a material feeding roller (14), wherein the material feeding roller (14) is arranged in the accommodating cavity, a material arranging space is formed by enclosing between the material feeding roller (14) and the material arranging die (12), and when the material arranging die (12) on the transmission belt (11) passes through the material arranging space, the material feeding roller (14) can supply materials into the accommodating groove (121).

4. A convenient and efficient stringing device according to claim 3, wherein:

the feeding roller (14) is provided with a plurality of protrusions, and when the feeding roller (14) rotates, at least part of the protrusions can be abutted with materials in the material arranging space.

5. The convenient and efficient stringing device of claim 4, wherein:

the protrusions include a first protrusion having a tip end deflected in the same direction as the rotational direction of the feed roller (14) and a second protrusion having a tip end deflected in the opposite direction to the rotational direction of the feed roller (14).

6. The convenient and efficient stringing device of claim 4, wherein:

the protrusions form different rows in the circumferential direction of the feeding roller (14), and the protrusions in any two adjacent rows are staggered in the axial direction of the feeding roller (14);

and/or the direction of the feeding roller (14) is opposite to the transmission direction of the transmission belt (11).

7. The convenient and efficient stringing device according to claim 1, wherein:

the cross-connection mechanism comprises a label containing roller (31) and a pushing mechanism (32), a label pushing groove (311) for containing a label body is formed in the label containing roller (31), the label containing roller (31) can rotate in a specified direction, the label body in the label pushing groove (311) is provided to a pushing station of the pushing mechanism (32), the pushing mechanism (32) can reciprocate between the pushing station and the resetting station, when the pushing mechanism (32) moves towards the resetting station, the pushing mechanism (32) can be abutted with the label body in the label pushing groove (311), and the pusher label body stretches into the material arranging die (12) from the cross-connection groove (122), so that a plurality of materials on the material arranging die (12) can be cross-connected into a string.

8. The easy and efficient stringing apparatus of claim 7, further comprising:

the label feeding mechanism (4), the label feeding mechanism (4) comprises a containing bin (41) and a label feeding roller (42), the containing bin (41) is used for containing label bodies arranged along a specified direction, at least part of the label feeding roller (42) is movably arranged in the containing bin (41), and the label feeding roller (42) can rotate under the driving of an external force to enable the label bodies in the containing bin (41) to be provided in a label pushing groove (311) of the label containing roller (31).

9. The easy and efficient stringing device of claim 8, wherein:

the rotation direction of the label supply roller (42) is crossed with the axis direction of the label body in the accommodating bin (41);

and/or the rotation direction of the label supply roller (42) is the same as the rotation direction of the label containing roller (31).

10. The easy and efficient stringing device of claim 8, wherein:

the utility model discloses a label feeding roller, including a label feeding roller (42), a label feeding groove (421) is arranged on the label feeding roller (42), an opening is formed on the label feeding groove (421), the opening is used for a label body to enter the label feeding groove (421), and the label feeding groove (421) is used for accommodating a label body.