阅读说明：本技术 棒糖生产线夹紧机构 (Clamping mechanism of lollipop production line ) 是由 韩松俊 房晓丹 房世宽 于 2020-12-30 设计创作，主要内容包括：本发明公开了一种棒糖生产线夹紧机构,包括送料平台和压带,送料平台上放置糖块,所述压带处于送料平台上方,所述压带为一皮带轮,且该皮带轮的运动方向与送料平台的运动方向、移动速度均相同。本发明通过压筋和凸筋同时作用于糖块的上下表面,使得尺寸小于糖盒的糖块不能在糖盒内部向外侧移动,同时,由于压带和送料平台同速运动,保证了糖块不会卡在压带端部,从而保证不同尺寸的棒糖和棒糖都能顺利完成插棒操作。(The invention discloses a clamping mechanism of a lollipop production line, which comprises a feeding platform and a press belt, wherein a candy block is placed on the feeding platform, the press belt is positioned above the feeding platform, the press belt is a belt pulley, and the movement direction of the belt pulley is the same as the movement direction and the movement speed of the feeding platform. The invention simultaneously acts on the upper surface and the lower surface of the candy through the ribbing and the convex ribs, so that the candy with the size smaller than that of the candy box can not move outwards in the candy box, and meanwhile, the press belt and the feeding platform move at the same speed, so that the candy can not be clamped at the end part of the press belt, and the lollipops and lollipops with different sizes can smoothly complete the stick inserting operation.)

1. The utility model provides a lolly production line clamping mechanism which characterized in that: the sugar candy pressing device comprises a feeding platform and a pressing belt, wherein a sugar block is placed on the feeding platform, the pressing belt is located above the feeding platform, the pressing belt is a belt pulley, and the movement direction of the belt pulley is the same as that of the feeding platform and the movement speed of the belt pulley is the same as that of the feeding platform.

2. The lollipop production line clamping mechanism of claim 1, wherein: the sugar box is placed on the feeding platform, and the sugar blocks are placed in the sugar box.

3. The lollipop production line clamping mechanism of claim 2, wherein: the bottom surface of the interior of the candy box is provided with at least one convex rib, and the peripheral surface of the press belt is provided with at least one circle of pressing ribs.

4. A lollipop production line clamping mechanism according to claim 3, characterized in that: the inside bottom surface of candy box is provided with many protruding muscle, protruding muscle evenly distributed is in the bottom surface of candy box, it has many ribbings to distribute on the outer peripheral face of belt pulley, ribbings evenly distributed is on the outer peripheral face of belt pulley.

5. The lollipop production line clamping mechanism of claim 2, wherein: the ribbing is made of nylon.

Technical Field

The invention relates to a clamping mechanism of a lollipop production line, and belongs to the technical field of candy processing.

Background

Lollipop, this is a kind of candy food that is deeply loved by masses of people, in the in-process of making the cotton candy, need insert the cotton candy that corresponds with the sugar stick, through mechanical device to the lollipop excellent in-process, because the lollipop is lighter, the stick candy takes place the displacement along with the sugar stick when the sugar stick is inserted at the excellent in-process of stick insertion, causes sometimes the sugar stick to be difficult to insert.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a clamping mechanism for a lollipop production line, which ensures that a candy stick can be inserted into the lollipop.

The technical solution of the invention is as follows: the utility model provides a lolly production line clamping mechanism, includes feeding platform and presses the area, places the sugar piece on the feeding platform, press the area and be in feeding platform top, press the area and be a belt pulley, and the direction of motion of this belt pulley is the same with feeding platform's direction of motion, translation rate homogeneous phase.

Further, above-mentioned lollipop production line clamping mechanism, wherein: the sugar box is placed on the feeding platform, and the sugar blocks are placed in the sugar box.

Further, above-mentioned lollipop production line clamping mechanism, wherein: the bottom surface of the interior of the candy box is provided with at least one convex rib, and the peripheral surface of the press belt is provided with at least one circle of pressing ribs.

Further, above-mentioned lollipop production line clamping mechanism, wherein: the inside bottom surface of candy box is provided with many protruding muscle, protruding muscle evenly distributed is in the bottom surface of candy box, it has many ribbings to distribute on the outer peripheral face of belt pulley, ribbings evenly distributed is on the outer peripheral face of belt pulley.

Further, above-mentioned lollipop production line clamping mechanism, wherein: the ribbing is made of nylon.

The prominent substantive features and the remarkable technical progress of the invention are mainly reflected in that: the invention simultaneously acts on the upper surface and the lower surface of the candy through the ribbing and the convex ribs, so that the candy with the size smaller than that of the candy box can not move outwards in the candy box, and meanwhile, the press belt and the feeding platform move at the same speed, so that the candy can not be clamped at the end part of the press belt, and the lollipops and lollipops with different sizes can smoothly complete the stick inserting operation.

Drawings

FIG. 1 is a schematic view of the structure of a lollipop production line;

FIG. 2 is a schematic structural diagram of a quick-insertion mechanism;

FIG. 3 is a schematic view of the runner structure;

FIG. 4 is a schematic view of a movable push rod structure;

FIG. 5 is a schematic view of a cam configuration;

FIG. 6 is a schematic view of the clamping mechanism;

in the figure: 1. a rotating wheel; 11. a movable groove; 12. transversely sewing; 2. a movable push rod; 21. a stress block; 211. a second force point; 22. a first force-bearing point; 23. a shaft body; 24. pushing the needle; 3. a first cam 31, a convex surface; 32. a second cam; 4. pressing the belt; 5. a candy box; 6. a sugar block; 7. a feeding platform; 8. a hopper; 9. a force application mechanism; 10. a sugar stick.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

As shown in fig. 1 to 6, the lollipop production line comprises a rotating wheel 1, a movable push rod 2, a first cam 3, a second cam 32 and a press belt 4, wherein a hopper 8 for placing a candy stick 10 is installed on the circumferential surface of the rotating wheel 1, a plurality of transverse seams 12 are formed on the circumferential surface of the rotating wheel 1, the transverse seams 12 of the rotating wheel 1 can correspond to the discharge hole of the hopper 8 in the rotating process, the candy stick 10 can fall into the transverse seams 12, a plurality of movable grooves 11 penetrating through the rotating wheel 1 are formed at the edge of the rotating wheel 1, each movable groove 11 is communicated with each transverse seam 12, the movable push rod 2 capable of moving left and right along the movable groove 11 is arranged at one side of the rotating wheel 1, the movable push rod 2 is consistent with the movable grooves 11 in number, the front end of the movable push rod 2 is inserted into the movable groove 11, a first stress point 22 is formed at the rear end of the movable push rod 2, a stress block 21 extending perpendicular to the movable push rod 2 is arranged at the rear end, the side, away from the first stress point 22 of the movable push rod 2, of the stress block 21 is provided with a second stress point 211, a rotatable first cam 3 and a rotatable second cam 32 are further arranged, the first cam 3 is movably acted on the first stress point 22 of the movable push rod 2, the second cam 32 is movably acted on the second stress point 211 of the movable push rod 2, the other side of the rotating wheel 1 is provided with a feeding platform 7 of a cotton candy production line, a candy block 6 is placed on the feeding platform 7, and the press belt 4 is arranged above the feeding platform 7. When the transverse seam 12 with the sugar sticks 10 rotates to the highest point along with the rotating wheel 1, the side face of the sugar block 6 and the transverse seam 12 just form a state to be inserted, at the moment, the first stress point 22 of the movable push rod 2 moves towards the sugar block 6 quickly under the action of the convex surface 31 of the upper first cam 3, then the sugar sticks 10 are pushed by the movable push rod 2, so that the sugar sticks 10 are inserted into the sugar block 6 quickly, then the movable push rod 2 completing the stick inserting process rotates to the lower side along with the rotating wheel 1 and moves in the opposite direction under the action of the convex surface of the second cam 4, resetting is carried out, the sufficient position for discharging the sugar sticks 10 in the feeding hopper 8 is vacated, and then stick inserting operation is carried out again.

As shown in fig. 1 and 4, a roller is disposed at the rear end of the shaft 23 of the movable push rod 2, the roller is a first force-bearing point 22, a push pin 24 is disposed at the front end of the shaft 23, and a convex point is disposed on a surface of the force-bearing block 21 away from the first force-bearing point 22, the convex point is a second force-bearing point, which may be a roller.

As shown in fig. 1 and 5, the convex surfaces 31 of the first cam 3 and the second cam 32 are arc-shaped convex surfaces which are gradually thickened, the convex surface 31 of the first cam 3 faces the first force bearing point 21, the convex surface 31 of the second cam 32 faces the second force bearing point 221, the non-convex surfaces of the first cam 3 and the second cam 32 are both connected with a force application mechanism 9, and the force application mechanism 9 is a motor.

As shown in fig. 1 and 6, a candy box 5 is placed on the feeding platform 7, the candy block 6 is placed in the candy box 5, the press belt 4 is a belt pulley, and the moving direction and the moving speed of the belt pulley are the same as those of the feeding platform 7. Preferably, the inside bottom surface of candy box 5 sets up an at least protruding muscle, be equipped with at least round ribbing on the outer peripheral face of press belt, the preferred nylon material of ribbing, the inside bottom surface of candy box 5 is provided with many protruding muscle, protruding muscle evenly distributed in the bottom surface of candy box 5, it has many ribbing to distribute on the outer peripheral face of belt pulley, ribbing evenly distributed is on the outer peripheral face of belt pulley.

Preferably, the hopper 8 is in a cone shape with a wide top and a narrow bottom, the discharge port of the hopper 8 is in a strip shape, the size of the discharge port of the hopper is matched with that of the sugar sticks, and the sugar sticks fall into the transverse slot 12 from the discharge port 8 one by one.

The working principle of the invention is as follows: the candy sticks 10 are put into the hopper 8 from the top, automatically arranged in order in the hopper 8, and automatically discharged one by one through the strip-shaped discharge port below the hopper, so that each candy stick automatically falls into the transverse seam 12 of the rotating wheel 1 and then falls into the movable groove 11, the first cam 3 and the rotating wheel 1 rotate reversely, when the transverse seam 12 filled with the candy sticks 10 rotates to the highest point, the candy sticks 6 in the candy box 5 just form a waiting state with the transverse seam 12, at the moment, the first stress point 21 of the movable push rod 2 displaces along the convex surface 31 of the first cam 3 and gradually moves towards the candy sticks 10 so as to quickly move towards the candy sticks 6, and then the candy sticks 10 are quickly inserted into the candy sticks 6 by pushing the candy sticks 24, when the candy sticks 6 are inserted into the candy sticks 10, the pressing ribs of the press belt 4 and the inner ribs of the candy box 5 simultaneously act on the upper and lower surfaces of the candy sticks 6, so that the candy sticks 6 with the size smaller than the candy boxes 5 cannot move towards the outside in the candy boxes, thereby guarantee that the lollipop of not unidimensional can both accomplish the rod inserting operation smoothly and accomplish the rod inserting action, then rotate at runner 1, this activity push rod 2 removes at second cam 4 position, moves to opposite direction under the effect of second cam 4's convex surface 31 to reset, vacate enough positions feeding fill 8 interior sugar stick 10 ejection of compact, and then carry out the rod inserting operation once more.

The cotton candy inserting device can automatically complete inserting actions on cotton candies, is completely automatic in the whole process, does not need manual participation, greatly improves the working efficiency and the production safety, ensures that the cotton candies are clamped in the inserting actions through the combined action of the candy box 5 and the pressing belt 4, and avoids the situation that the cotton candies are difficult to insert due to position deviation. When the candy 6 is inserted into the candy stick 10, the ribbing and the convex ribs act on the upper surface and the lower surface of the candy 6 at the same time, so that the candy 6 with the size smaller than the candy box can not move towards the outside in the candy box, and the candy 6 can not be clamped at the end part of the pressing belt due to the same-speed movement of the pressing belt 4 and the feeding platform, thereby ensuring that the lollipops with different sizes and the lollipops can smoothly complete the stick inserting operation.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.