CN217487533U - Continuous holding and shaping device for walking stick candy - Google Patents

Abstract

The utility model discloses a continuous centre gripping calibrator of walking stick sugar, including the design support, it has the design switching dish to rotate the supporting on the design support, it decides the claw to be provided with a plurality of designs along the circumference equipartition on the design switching dish, the design is decided the claw and is stretched out to the outside along the axial of design switching dish, it has a plurality of designs to move the claw still to follow circumference swing support on this design switching dish, the design moves the claw and decides the claw one-to-one with the design, still install the design cam disc on the design support, this design cam disc and the coaxial setting of design switching dish, be equipped with a plurality of gyro wheels on the design switching dish, the outer peripheral face of this gyro wheel is laminated with the cam surface of design cam disc mutually, the gyro wheel moves the claw one-to-one with the design, the supporting axle of gyro wheel moves the claw with the design of correspondence and links firmly on same pivot. Adopt the utility model discloses a walking stick sugar centre gripping calibrator in succession can be to the resilience at the crooked position of shaping back walking stick sugar and stereotype the processing, and can realize automatic continuous production.

Description

Continuous holding and shaping device for walking stick candy

Technical Field

The utility model relates to a food machinery especially relates to a setting device in walking stick sugar production facility.

Background

The candy is a special candy shaped like a crutch, and a long strip-shaped and unhardened bar-shaped candy is bent by a forming device in the production process, so that one end of the bar-shaped candy forms a hook to form the candy. After the stick-shaped candy is formed by bending, since the candy is not yet hardened, springback of the bent portion may occur during the conveying process after the bending, and the candy cannot be formed into an ideal crutch shape. Therefore, the formed crutch candy needs to be subjected to shaping treatment again to ensure that the candy keeps an ideal shape after being cooled and hardened, but at present, no ideal shaping treatment device which can adapt to automatic continuous production exists.

SUMMERY OF THE UTILITY MODEL

The above-mentioned not enough to prior art exists, the utility model aims to solve the technical problem that a continuous centre gripping calibrator of walking stick sugar is provided, it can be to the resilience at the crooked position of shaping back walking stick sugar and stereotype the processing, and can realize automatic continuous production.

In order to solve the technical problem, the utility model discloses a continuous centre gripping calibrator of walking stick sugar, including the design support it has the design switching dish to rotate the supporting on the design support, is provided with a plurality of design stationary dogs along the circumference equipartition on the design switching dish, and the design stationary dog stretches out to the outside along the axial of design switching dish, still has a plurality of designs to move the claw along circumference swing supporting on this design switching dish, and the design moves the claw and decides the claw one-to-one with the design still install the design cam disc on the design support, this design cam disc and the coaxial setting of design switching dish are equipped with a plurality of gyro wheels on the design switching dish, and the outer peripheral face of this gyro wheel is laminated with the cam surface of design cam disc mutually, and the gyro wheel moves the claw one-to-one with the design, and the supporting axle of gyro wheel moves the claw with the design of correspondence and links firmly on same balance staff.

After the technical scheme is adopted, the shaping movable claws which are supported on the shaping adapter disc in a swinging mode can swing relative to the shaping adapter disc at the position where the curvature of the surface of the cam is changed on the shaping cam disc through the contact of the roller and the shaping cam disc fixedly connected on the shaping support, so that each shaping movable claw can swing back and forth relative to the corresponding shaping fixed claw at the position, when a crutch candy to be shaped is conveyed to enter between the corresponding shaping movable claw and the shaping fixed claw, the shaping movable claws swing towards the direction of the shaping fixed claw along with the change of the curvature of the surface of the cam on the shaping cam disc, so that the bent part of the crutch candy which generates resilience is clamped to an ideal position, the shaping fixed claws and the shaping movable claws form clamping shaping of the crutch candy to be shaped on one hand, and rotate along with the shaping adapter disc on the other hand, the crutch candy in the shaping process is pushed and output towards the tangential direction of the rotation of the shaping fixed claws, and then the shaping movable claw swings reversely to open the shaped crutch candy along with the change of the curvature of the surface of the cam on the shaping cam disc, and the shaped crutch candy is pushed out of a shaping position, so that shaping treatment aiming at the resilience of the bent part of the shaped crutch candy is completed.

After the last crutch candy is shaped, the shaping adapter plate just rotates one station, namely, the position between the next shaping movable claw and the corresponding shaping fixed claw is at the input position of the crutch candy to be shaped, the next crutch candy is conveyed between the shaping movable claw and the corresponding shaping fixed claw, and then the shaping action is repeated, so that along with the rotation of the shaping adapter plate and the corresponding input of the crutch candy to be shaped, the shaping of the crutch candy is finished one by one, the shaped crutch candy is output one by one, and the automatic continuous production of the crutch candy can be smoothly realized.

In a preferred embodiment of the present invention, the cam surface of the shaped cam disc includes a base cylinder surface, and a shaped concave arc surface is provided on the base cylinder surface, and the shaped concave arc surface is located at a lower portion of the shaped cam disc. By adopting the embodiment, when the roller rolls on the base cylindrical surface, the radial position between the roller and the shaping cam disk cannot be changed, the shaping movable claws cannot move, when the roller reaches the shaping concave cambered surface, the corresponding shaping movable claws can swing correspondingly, and when the roller moves from the base cylindrical surface to the bottom of the shaping concave cambered surface, the corresponding shaping movable claws can swing towards the corresponding shaping fixed claws, and when the roller moves from the bottom of the shaping concave cambered surface to the base cylindrical surface, the corresponding shaping movable claws can swing reversely, so that the action of clamping and shaping is realized; the shaping concave cambered surface is positioned at the lower part of the shaping cam disc, so that the input and the output of the shaped crutch sugar to be shaped can be conveniently realized.

The utility model discloses a another preferred embodiment be equipped with the balanced concave cambered surface on the face of cylinder, when a gyro wheel was located the lift section of the concave cambered surface of design, another gyro wheel was located the section of falling the journey of the concave cambered surface of balance. By adopting the embodiment, the two rollers respectively corresponding to the shaping concave cambered surface and the balancing concave cambered surface drive the corresponding shaping movable claws to swing in opposite directions, so that the impact generated by the action of a single shaping movable claw in the shaping process of the crutch candy can be eliminated, and the device can stably run.

In another preferred embodiment of the present invention, the minimum distance between the fixed jaw and the fixed jaw corresponds to the width of the crutch candy hook. By adopting the embodiment, the ideal shaping effect of the shaping action can be realized.

The utility model discloses further preferred embodiment, the gyro wheel passes through the spring and laminates mutually with the cam surface of design cam disc. By adopting the embodiment, the joint effect of the roller and the surface of the shaping cam disc can be ensured without causing false operation of the shaping movable claw.

In another preferred embodiment of the present invention, the sizing cam disc is located inside the sizing adapter disc. Adopt this embodiment, the design switching dish outside is design work area, and design switching dish inboard is the transmission region, and the subregion is reasonable, excellent in use effect.

The utility model discloses still a further preferred embodiment the outside of design switching dish is equipped with walking stick candy design input conveyer belt, and the crotch position orientation design switching dish of walking stick candy is gone up to the design input conveyer belt of walking stick candy. By adopting the embodiment, the continuous input of the crutch candy to be shaped can be ensured, and the bending part of the crutch candy to be shaped is ensured to be positioned at the action part of the shaping fixed claw and the shaping movable claw on the shaping switching disk.

The utility model discloses further preferred embodiment the rotation tangential of the claw is decided in the design on the switching dish of design is equipped with design output conveyer belt. By adopting the implementation mode, the shaped crutch candy can be conveyed to the shaped output conveying belt along with the rotation of the shaped switching disk, and the shaping and the output of the crutch candy can be continuously realized.

The utility model discloses another further preferred embodiment, design output conveyer belt is the plate link chain conveyer belt, is equipped with the concave groove corresponding with the walking stick sugar shape on the link joint of this plate link chain conveyer belt. By adopting the implementation mode, the shaped crutch candy falls into the concave groove on the chain plate and is fully cooled in the concave groove along with the output process, so that the rebound deformation which possibly occurs again is avoided, and the shape stability of the crutch candy after shaping is finally kept.

Drawings

The following describes the continuous cane sugar clamping and shaping device in detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic top view of a cane sugar continuous clamping and shaping device according to an embodiment of the present invention;

FIG. 2 is a left side view of the structure shown in FIG. 1;

FIG. 3 is a schematic structural view of the modular adapter plate and its associated components of the configuration of FIG. 1;

figure 4 is a schematic diagram of the configuration of the shaped cam plate of the configuration of figure 1.

In the figure: 1-shaping support, 2-shaping fixed claw, 3-shaping adapter plate, 4-shaping cam disc, 5-roller, 6-pendulum shaft, 7-shaping movable claw, 8-shaping input conveyer belt, 9-shaping output conveyer belt, 10-chain plate, 11-concave groove, 12-spring, 13-base cylindrical surface, 14-shaping concave cambered surface and 15-balance concave cambered surface.

Detailed Description

In the continuous holding calibrator for crutch sugar shown in fig. 1 and fig. 2, the shaping support 1 is a support frame of the whole calibrator, the shaping adapter plate 3 is supported on the shaping support 1 in a rotating manner, see fig. 3, a plurality of shaping fixed claws 2 are uniformly distributed on the shaping adapter plate 3 along the circumferential direction, the shaping fixed claws 2 are rectangular columnar bodies, the shaping fixed claws 2 extend outwards along the axial direction of the shaping adapter plate 3, a plurality of shaping movable claws 7 are supported on the shaping adapter plate 3 in a swinging manner along the circumferential direction, swing arms mounted on the shaping movable claws 7 of the rectangular columnar bodies extend outwards along the axial direction of the shaping adapter plate 3, the swing arms are fixedly connected to swing shafts 6, the swing shafts 6 are supported on the shaping adapter plate 3 through bearings in a rotating manner, and the shaping movable claws 7 are in one-to-one correspondence with the shaping fixed claws 2.

The shaping switching disc 3 is provided with a plurality of rollers 5, the rollers 5 correspond to the shaping moving claws 7 one by one, a supporting shaft of each roller 5 is fixedly connected to the same swing shaft 6 through a swing arm and the corresponding shaping moving claw 7, the rollers 5 are arranged on the inner side of the shaping switching disc 3, and the rollers 5 can simply and directly adopt a rolling bearing. The shaping support 1 is fixedly provided with a shaping cam disc 4, the shaping cam disc 4 is positioned on the inner side of the shaping adapter disc 3, the shaping cam disc 4 and the shaping adapter disc 3 are coaxially arranged, referring to fig. 4, the cam surface of the shaping cam disc 4 comprises a base cylindrical surface 13, a shaping concave cambered surface 14 is arranged on the base cylindrical surface 13, the shaping concave cambered surface 14 is positioned on the lower part of the shaping cam disc 4, the outer peripheral surface of a roller 5 is attached to the cam surface of the shaping cam disc 4, the roller 5 is preferably attached to the cam surface of the shaping cam disc 4 through a spring 12, the spring 12 is a tension spring, one end of the spring is connected to a supporting shaft of the roller 5, the other end of the spring is connected to the shaping adapter disc 3, the roller 5 is pressed to the cam surface of the shaping cam disc 4 through the spring 12, the base cylindrical surface 13 is also provided with a balance concave cambered surface 15, when the roller 5 is positioned on the lift section of the shaping concave cambered surface 14, the other roller 5 is positioned at the descending section of the balance concave cambered surface 15.

A crutch sugar shaping input conveyer belt 8 is arranged at the outer side of the shaping adapter plate 3, the shaping input conveyer belt 8 is a flat belt conveyer belt, crutch sugar to be shaped is conveyed to the position between the shaping fixed claw 2 and the shaping movable claw 7 along the axial direction of the shaping adapter plate 3 through the shaping input conveyer belt 8 to carry out shaping operation, the crutch sugar hook parts to be shaped are arranged on the shaping input conveyer belt 8 towards the shaping adapter plate 3 at intervals, the crutch sugar to be shaped is conveyed to the position between the shaping fixed claw 2 and the shaping movable claw 7 at the lowest part on the shaping adapter plate 3 one by one along with the continuous operation of the shaping input conveyer belt 8 and the rotation of the shaping adapter plate 3, as shown in figure 3, the roller 5 corresponding to the shaping movable claw 7 at the lowest part is positioned at the shaping concave cambered surface 14 part and falls into the bottom of the shaping cambered surface 14 under the action of a spring 12, the swinging shaft 6 swings with the swinging shaft to drive the shaping movable claw 7 to swing towards the shaping fixed claw 2, when the roller 5 is positioned at the bottommost part of the shaping concave cambered surface 14, the distance between the shaping movable claw 7 and the shaping fixed claw 2 is the minimum, and the minimum distance between the shaping movable claw 7 and the shaping fixed claw 2 corresponds to the width of the hook part of the shaped crutch candy, so that the crutch candy in the crutch candy is clamped and shaped.

The shaping output conveyer belt 9 is tangentially arranged on the shaping switching disc 3 for the rotation of the shaping claw 2, the shaping output conveyer belt 9 is a plate chain conveyer belt, and a concave groove 11 corresponding to the shape of the crutch sugar is arranged on a chain plate 10 of the plate chain conveyer belt. The upper conveyor belt edge of the shaping input conveyor belt 8 is located above the upper surface of the shaping output conveyor belt 9 and is adjacent to the link plate 10.

The clamped and shaped crutch candy is pushed onto the shaped output conveyer belt 9 along with the rotation of the shaped adapter plate 3, at the moment, the roller 5 is also moved out upwards from the bottommost part of the shaped concave cambered surface 14, correspondingly, the shaped movable claw 7 swings reversely to loosen the clamped crutch candy, the crutch candy falls into the concave groove 11 on the chain plate 10 after the shaping is finished and is output to the next station along with the shaped output conveyer belt 9, and the crutch candy is completely cooled in the output process to keep an ideal shape.

When the crutch candy clamped and shaped by the shaping movable claws 7 and the shaping fixed claws 2 is pushed onto the shaping output conveyer belt 9 along with the rotation of the shaping adapter plate 3, the adjacent shaping movable claws 7 and the shaping movable claws 2 rotate to the lowest position of the shaping adapter plate 3, the next crutch candy to be shaped is simultaneously conveyed by the shaping input conveyer belt 8 to enter between the shaping movable claws 7 and the shaping fixed claws 2, the corresponding shaping operation is repeated, and the operation is continued, so that the shaping treatment of the crutch candy can be automatically and continuously carried out.

The above description has been presented only for the purpose of illustrating certain preferred embodiments of the invention, and it is not to be taken as a limitation on the invention, as many modifications and variations are possible. Any improvement and change made on the basis of the basic principle of the present invention should be considered as falling within the protection scope of the present invention.

Claims (9)

1. The utility model provides a walking stick sugar is centre gripping calibrator in succession, includes design support (1), its characterized in that: a shaping adapter plate (3) is rotatably supported on the shaping support (1), a plurality of shaping fixed claws (2) are uniformly distributed on the shaping adapter plate (3) along the circumferential direction, the shaping fixed claws (2) extend outwards along the axial direction of the shaping adapter plate (3), a plurality of shaping movable claws (7) are supported on the shaping switching disc (3) in a swinging way along the circumferential direction, the shaping movable claws (7) are in one-to-one correspondence with the shaping fixed claws (2), a shaping cam disc (4) is also arranged on the shaping support (1), the shaping cam disc (4) and the shaping switching disc (3) are coaxially arranged, a plurality of rollers (5) are arranged on the shaping switching disc (3), the peripheral surface of the roller (5) is attached to the cam surface of the shaping cam disc (4), the rollers (5) correspond to the shaping movable claws (7) one by one, and the supporting shafts of the rollers (5) and the corresponding shaping movable claws (7) are fixedly connected to the same swing shaft (6).

2. The crutch candy continuous gripping calibrator of claim 1, wherein: the cam surface of the shaping cam disc (4) comprises a base cylindrical surface (13), a shaping concave cambered surface (14) is arranged on the base cylindrical surface (13), and the shaping concave cambered surface (14) is positioned at the lower part of the shaping cam disc (4).

3. The crutch candy continuous gripping calibrator of claim 2, wherein: and a balance concave cambered surface (15) is arranged on the base cylindrical surface (13), and when one roller (5) is positioned in the lift section of the shaping concave cambered surface (14), the other roller (5) is positioned in the descending section of the balance concave cambered surface (15).

4. The crutch candy continuous gripping calibrator of claim 1, wherein: the minimum distance between the shaping movable claw (7) and the shaping fixed claw (2) corresponds to the width of the crutch candy hook.

5. The crutch candy continuous gripping calibrator of claim 1, wherein: the roller (5) is attached to the cam surface of the shaped cam disc (4) through a spring (12).

6. The crutch candy continuous gripping calibrator of claim 1, wherein: the shaping cam disc (4) is positioned on the inner side of the shaping adapter disc (3).

7. The crutch candy continuous gripping calibrator of claim 1, wherein: the outer side of the shaping adapter plate (3) is provided with a crutch candy shaping input conveyer belt (8), and the hook part of the crutch candy on the crutch candy shaping input conveyer belt (8) faces the shaping adapter plate (3).

8. The crutch candy continuous gripping calibrator of claim 1, wherein: and a shaping output conveying belt (9) is arranged on the shaping switching disc (3) in the rotating tangential direction of the shaping claw (2).

9. The crutch candy continuous gripping calibrator of claim 8, wherein: the shaping output conveyer belt (9) is a plate chain conveyer belt, and a chain plate (10) of the plate chain conveyer belt is provided with a concave groove (11) corresponding to the shape of the crutch sugar.

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