CN212116930U

CN212116930U - Single-channel sugar rolling mechanism

Info

Publication number: CN212116930U
Application number: CN202020765460.4U
Authority: CN
Inventors: 郑国彬
Original assignee: Shanghai Xiaoteng Automation Equipment Co ltd
Current assignee: Shanghai Xiaoteng Automation Equipment Co ltd
Priority date: 2020-05-11
Filing date: 2020-05-11
Publication date: 2020-12-11
Anticipated expiration: 2030-05-11

Abstract

The utility model provides a single channel sugar rolling mechanism, includes sugar strip conveyer belt and automatic sugar rolling device, the sugar strip conveyer belt have along the length direction of sugar strip to the single transfer passage of this sugar strip of automatic sugar rolling device horizontal transport, automatic sugar rolling device includes: a receiving plate movable and for receiving the candy bars at a front side of the front end of the conveying channel, the receiving plate being initially located at the front side of the front end of the conveying channel; the clamping head can rotate up and down and stretch out and draw back left and right and is used for clamping the sugar strips to wind, the clamping head is positioned on the front side of the bearing plate, and a clamping opening which is just used for the front ends of the sugar strips to extend in front and back and to withdraw left and right is formed in the clamping head. The utility model discloses can be automatically with the lapping of coiling of sugar strip, it is efficient, safety and sanitation.

Description

Single-channel sugar rolling mechanism

Technical Field

The utility model relates to an automatic roll up sugared technical field, especially relate to a single channel roll up sugared mechanism.

Background

There is a gum roll, such as chewing gum and bubble gum, in the market, which is very popular with consumers.

The production process of the sugar strip roll product generally comprises the steps of firstly making the product into sugar strips with equal length through a sugar cutting machine, then rolling the sugar strips into a roll shape, and at present, the sugar strip roll is basically finished manually, so that the efficiency is low, and the sugar strip roll is unsafe and sanitary.

SUMMERY OF THE UTILITY MODEL

Based on this, to the above-mentioned technical problem, provide a single channel sugar rolling mechanism.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a single channel sugar rolling mechanism, includes sugar strip conveyer belt and automatic sugar rolling device, the sugar strip conveyer belt have along the length direction of sugar strip to the single transfer passage of this sugar strip of automatic sugar rolling device horizontal transport, automatic sugar rolling device includes:

a receiving plate movable and for receiving the candy bars at a front side of the front end of the conveying channel, the receiving plate being initially located at the front side of the front end of the conveying channel;

the clamping head can rotate up and down and stretch out and draw back left and right and is used for clamping the sugar strips to wind, the clamping head is positioned on the front side of the bearing plate, and a clamping opening which is just used for the front ends of the sugar strips to extend in front and back and to withdraw left and right is formed in the clamping head.

This scheme still includes:

the damping wheel can lift and rotate up and down to press the sugar strips downwards at the front end of the conveying channel, and the damping wheel is arranged above the front end of the conveying channel;

the pressing and rolling spring piece is used for restraining the candy strip in the circumferential direction during the process that the sugar strip is wound by the clamping head;

the riveting needle can be lifted to rivet the tail section and the inner layer section of the sugar strip wound into the sugar roll, and the riveting needle is positioned above the chuck.

This scheme still includes the frame, the frame includes supporting baseplate, support curb plate and limiting plate, it is fixed in to support the curb plate on the supporting baseplate, the limiting plate parallel bit in support the left side of curb plate, and through first about telescoping device with it is fixed to support the curb plate.

The damping wheel rotates up and down and is fixed at the lower end of a supporting rod, the supporting rod slides up and down and is fixed on a supporting block, the supporting block is fixed at the top of the supporting side plate, and the upper end of the supporting rod is connected with a first lifting device.

First elevating gear is including being used for detect the light eye of sugar strip, be used for detect the light eye detect behind the sugar strip lifting the nonoculture cylinder of bracing piece and be used for manual assembly extremely on the bracing piece so that this bracing piece descends the balancing weight of oppression sugar strip, it is located to detect the light eye the rear side of damping wheel, its through the stationary blade with it is fixed to support the curb plate, the nonoculture cylinder is fixed in on the supporting shoe, it through the driving plate with the bracing piece is connected.

The bearing plate is fixed on the left side surface of the supporting side plate in a vertically-overturning manner through a left horizontal rotating shaft and a right horizontal rotating shaft, the rotating shaft is arranged on the right side surface of the supporting side plate and connected with a connecting rod, the connecting rod is hinged with a front-back inclined telescopic device, and the telescopic device is fixed on the right side surface of the supporting side plate.

The chuck includes two book sugar needles of upper and lower interval arrangement, forms the mouth presss from both sides, two book sugar needles are fixed in on the primary shaft, the primary shaft passes support the curb plate to through the bearing with support the curb plate and rotate and connect, the primary shaft penetrate the secondary shaft, and through the spline groove with splined connection in the secondary shaft, the spline with spline groove side to side sliding fit, the secondary shaft is connected with the upper and lower rotating device, the upper and lower rotating device is fixed in on the supporting baseplate, the primary shaft passes through the bearing and is connected with the driving plate rotation, the driving plate is connected with the telescoping device about the second.

The riveting needle is fixed on a second lifting device, and the second lifting device is fixed on the left side face of the supporting side plate.

The candy bar conveyer belt is provided with a single conveying channel.

The utility model discloses can be automatically with the lapping of coiling of sugar strip, it is efficient, safety and sanitation.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic perspective view of the automatic candy rolling device of the present invention;

FIG. 3 is a schematic structural view of the receiving plate of the present invention;

FIG. 4 is a schematic view of the connection relationship between the retractable device and the receiving plate of the present invention;

FIG. 5 is a schematic view of the connection between the up-down rotating device and the first shaft according to the present invention;

fig. 6 is a schematic view of the connection relationship between the second left and right telescoping devices and the first shaft of the present invention;

fig. 7 is a schematic structural diagram of the first shaft of the present invention.

Detailed Description

As shown in FIG. 1, a single-channel sugar rolling mechanism comprises a sugar strip conveyer belt 1100 and an automatic sugar rolling device 1200.

The candy bar conveyor 1100 has a single conveying channel 1110 that horizontally conveys the candy bars along their length to the automatic candy bar rolling device 1200.

As shown in fig. 3, the automatic candy rolling device 1200 includes a receiving plate 1210 and a cartridge 1220.

The take-up plate 1210 is movable and is adapted to take up the sticks of candy on the front side of the front end of the transport channel 1110, the take-up plate 1210 being initially located on the front side of the front end of the transport channel 1110.

As shown in fig. 3, the chuck 1220 is rotatable up and down and retractable left and right for clamping the candy bars for winding, and the chuck 1220 is located at the front side of the receiving plate 1210 and has a grip opening a for allowing the front end of the candy bars to be inserted forward and backward and to be withdrawn left and right.

During operation, the conveying channel 1110 horizontally conveys the candy bars from the candy cutting machine to the automatic candy rolling device 1200 along the length direction of the candy bars, the candy bars stretch into the clamping opening A from front to back through the bearing plate 1210, at the moment, the bearing plate 1210 leaves from the initial position to avoid interference with the candy bar winding, the clamping head 1220 automatically rotates up and down to wind the candy bars to form a candy roll, after the whole candy bars are wound into a roll, the clamping head 1220 contracts to enable the core part (the front end of the candy bars) of the candy roll to retreat from the clamping opening A, the candy roll loses the support of the clamping head 1220, and the candy rolling is finished by dropping and discharging. After completion, the take-up plate 1210 returns to the initial position to take up the next candy bar.

Preferably, as shown in fig. 2, the utility model further comprises a damping wheel 1230 and a rolling spring 1240, wherein the damping wheel 1230 can be lifted and passively rotate up and down for pressing the candy strip downwards at the front end of the conveying channel 1110, and the damping wheel 1230 is arranged above the front end of the conveying channel 1110.

The crimp spring 1240 serves to circumferentially constrain the candy bar during its wrapping by the collet 1220.

In operation, the damping wheel 1230 is raised to allow the candy bars to pass through, and is lowered a distance to apply a pressing force to the candy bars, the lowering distance is adjusted, the pressing force to the candy bars can be adjusted, and the tightness of the wound candy rolls can be adjusted by matching with the circumferential constraint of the roll pressing spring pieces 1240.

At present, for preventing the mutual adhesion of sugar strip after the lapping, can adhere to the husky sugar powder on the sugar strip in advance, this sugar strip that leads to after the lapping can scatter once more because of lacking viscidity, adopts artifical some glue (edible glue) adhesion at present, and is very troublesome to the point glues and arouses the secondary adhesion easily (the excessive glue of system is glued to the point). Based on this, as shown in fig. 2-4, the utility model discloses still set up riveting needle 1250, riveting needle 1250 liftable rivet with inlayer section in order to convolute into the candy strip tail section that the sugar was rolled up, and riveting needle 1250 is located the top of chuck 1220, and is safe convenient, and the sugar is rolled up and is difficult to scatter.

After the chuck 1220 is coiled, the tail section of the candy strip is just positioned below the riveting needle 1250, and at the moment, the riveting needle 1250 descends to rivet the tail section of the candy strip and the inner layer section, so that the loose roll can be prevented, and the secondary adhesion can be avoided.

In this embodiment, as shown in fig. 2-5, the present invention further provides a frame 1260, wherein the frame 1260 comprises a supporting bottom plate 1261, a supporting side plate 1262 and a limiting plate 1263, the supporting side plate 1262 is fixed on the supporting bottom plate 1261, the limiting plate 1263 is parallel to the left side of the supporting side plate 1262, and is fixed with the supporting side plate 1262 through a first left-right telescopic device 1264.

Wherein, telescoping device 1264 can adopt the cylinder about first, and support curb plate 1262 and limiting plate 1263 cooperation can be spacing to the sugar strip when coiling, avoids coiling conical.

In this embodiment, as shown in fig. 4, the receiving plate 1210 is fixed to the left side surface of the supporting side plate 1262 by vertically turning the supporting plate through a horizontal rotating shaft 1211, the rotating shaft 1211 is connected to one end of the connecting rod 1212 at the right side surface of the supporting side plate 1262, the other end of the connecting rod 1212 is hinged to a telescopic device 1213 inclined upward in the front-rear direction, and the telescopic device 1213 is fixed to the right side surface of the supporting side plate 1262.

After the candy bars extend into the clamping opening A from front to back, the bearing plate 1210 overturns downwards to leave the initial position, so that interference with the coiling of the candy bars is avoided.

The telescopic device 1213 may be an air cylinder, and the piston push-pull connecting rod 1212 of the air cylinder may drive the receiving plate 1210 to turn over up and down.

In this embodiment, as shown in fig. 5 to 7, the cartridge 1220 includes two sugar-curling needles 1221 arranged at an upper and lower interval, a clamping opening a is formed between the two sugar-curling needles 1221, the two sugar-curling needles 1221 are fixed on a first shaft 1222 and are parallel to the first shaft 1222, the first shaft 1222 penetrates through the support side plate 1262 from left to right and is rotatably connected with the support side plate 1262 through a bearing, the first shaft 1222 penetrates through a second shaft 1223, the center lines of the two shafts are coincident, and is connected with a spline in the second shaft 1223 through a spline groove 1222a, the spline is in sliding fit with the spline groove 1222a from left to right, the second shaft 1223 is connected with an up-down rotating device 1224, the up-down rotating device 1224 is fixed on the support base plate 1261, the first shaft 1222 is rotatably connected with a driving plate 1225 through a bearing, and the driving.

The actuator plate 1225 is a sliding fit with guide posts 1225a, and the guide posts 1225a are secured to the support side plates 1262.

The up-down rotating device 1224 drives the two sugar-rolling needles 1221 to rotate up and down through the second shaft 1223 and the first shaft 1222 so as to realize the up-down rotation of the chuck, and the second left-right telescopic device 1226 drives the first shaft 1222 to slide left and right in the second shaft 1223 through the transmission plate 1225 so as to realize the contraction of the chuck, so that the sugar-rolling needles 1221 leave the sugar roll.

The up-down rotating device 1224 can adopt a motor, the motor is fixed on the support base plate 1261 through a motor support plate 1224a, a bearing seat 1224b is formed on the motor support plate 1224a, the second shaft 1223 is rotatably connected with the bearing seat 1224b through a bearing, and a main shaft of the motor is connected with the second shaft 1223 through a coupling 1224 c.

The second left-right expansion device 1226 may be an air cylinder fixed to the support side plate 1262.

In this embodiment, as shown in fig. 2, the damping wheel 1230 is vertically rotatably fixed to the lower end of the supporting rod 1231, the supporting rod 1231 is vertically slidably fixed to the supporting block 1232, the supporting block 1232 is fixed to the top of the supporting side plate 1262, and the upper end of the supporting rod 1231 is connected to the first lifting device 1233.

The supporting block 1232 has a sliding hole for the supporting rod 1231 to pass through, a sliding slot is provided in the sliding hole, and a sliding seat matched with the sliding slot is provided on the circumferential surface of the supporting rod 1231.

Specifically, the first lifting device 1233 includes a detection eye 1233a for detecting the sugar strip above the front end of the conveying passage 1110, a single-acting cylinder 1233b for lifting the support rod 1231 after the detection eye 1233a detects the sugar strip, and a weight 1233c for manually assembling to the support rod 1231 to make the support rod 1231 descend to press the sugar strip, the detection eye 1233a is located at the rear side of the damping wheel 1230 and is fixed to the support side plate 1262 by a fixing piece 1233d, and the single-acting cylinder 1233b is fixed to the support block 1232 and is connected to the support rod 1231 by a transmission piece 1233 e.

The single-acting cylinder 1233b can only drive the damping wheel 1230 to rise, and then need be with the help of balancing weight 1233c when descending, and the balancing weight or a plurality of balancing weights of different weights assembled on the bracing piece 1231 can adjust the oppression power of the damping wheel 1230 to the sugar strip, and the balancing weight 1233c is the annular, can overlap the balancing weight 1233c on the bracing piece 1231 to be supported by the transmission piece 1233 e.

In this embodiment, as shown in fig. 2 to 5, the riveting pin 1250 is fixed to the second elevating device 1251, and the second elevating device 1251 is fixed to the left side surface of the support side plate 1262.

However, those skilled in the art should realize that the above embodiments are only used for illustrating the present invention and not used as a limitation of the present invention, and that the changes and modifications to the above embodiments are within the scope of the appended claims as long as they are within the true spirit of the present invention.

Claims

1. The utility model provides a single channel sugar mechanism of rolling up, its characterized in that includes sugar strip conveyer belt and automatic sugar device of rolling up, the sugar strip conveyer belt have along the length direction of sugar strip to the single transfer passage of this sugar strip of automatic sugar device horizontal transport, automatic sugar device of rolling up includes:

2. The single-channel sugar rolling mechanism of claim 1, further comprising:

3. The single-channel sugar rolling mechanism according to claim 2, further comprising a frame, wherein the frame comprises a supporting bottom plate, a supporting side plate and a limiting plate, the supporting side plate is fixed on the supporting bottom plate, the limiting plate is located on the left side of the supporting side plate in parallel, and is fixed with the supporting side plate through a first left-right telescopic device.

4. The single-channel sugar rolling mechanism of claim 3, wherein the damping wheel is fixed to the lower end of a support rod in a vertical rotating manner, the support rod is fixed to a support block in a vertical sliding manner, the support block is fixed to the top of the support side plate, and the upper end of the support rod is connected to the first lifting device.

5. The single-channel sugar rolling mechanism according to claim 4, wherein the first lifting device comprises a detection eye for detecting the sugar strips above the front end of the conveying channel, a single-acting cylinder for lifting the supporting rod after the detection eye detects the sugar strips, and a counterweight block manually assembled on the supporting rod to enable the supporting rod to descend to press the sugar strips, the detection eye is located at the rear side of the damping wheel and fixed with the supporting side plate through a fixing plate, and the single-acting cylinder is fixed on the supporting block and connected with the supporting rod through a transmission plate.

6. The single-channel sugar rolling mechanism according to claim 3 or 5, wherein the receiving plate is fixed on the left side surface of the supporting side plate in a vertically-reversed manner through a left horizontal rotating shaft and a right horizontal rotating shaft, the rotating shaft is connected with a connecting rod on the right side surface of the supporting side plate, the connecting rod is hinged with a telescopic device which is inclined forwards and backwards, and the telescopic device is fixed on the right side surface of the supporting side plate.

7. The single-channel sugar rolling mechanism according to claim 6, wherein the chuck comprises two sugar rolling needles arranged at an upper and lower interval to form the nip, the two sugar rolling needles are fixed on a first shaft, the first shaft penetrates through the supporting side plate and is rotationally connected with the supporting side plate through a bearing, the first shaft penetrates through a second shaft and is connected with a spline in the second shaft through a spline groove, the spline is in sliding fit with the spline groove in a left and right direction, the second shaft is connected with an up-down rotating device, the up-down rotating device is fixed on the supporting bottom plate, the first shaft is rotationally connected with a transmission plate through a bearing, and the transmission plate is connected with a second left-right telescopic device.

8. The single-channel sugar rolling mechanism of claim 7, wherein the riveting needle is fixed on a second lifting device, and the second lifting device is fixed on the left side surface of the supporting side plate.