CN219249124U - Automatic lollipop placing machine - Google Patents

Abstract

The utility model relates to an automatic lollipop discharging machine relates to the field of candy production equipment, and it includes the workstation, set up the conveyer belt that is used for conveying mould on the workstation and set up the discharging rod subassembly in the conveyer belt top, the discharging rod subassembly includes the material platform, the feed roller and drive material roller pivoted driving piece, the feed bin has been seted up to the material platform upside, the mounting hole with the feed bin intercommunication has been seted up to the lower extreme of feed bin on the material platform, the axis level of mounting hole sets up, the material roller inserts and locates in the mounting hole and with mounting hole normal running fit, the silo that holds the bar has been seted up along length direction on the lateral wall of material roller, the discharge gate of intercommunication mounting hole has been seted up to the lower extreme of material platform. This application is through seting up the silo on the material roller, at normal during operation, rotates through the drive material roller, and the bar can fall in the silo, and the material roller can be with bar one by one export from the discharge gate, and when the conveyer belt drove the mould motion, the bar just falls in the inslot that is used for holding the bar on the mould, simple structure, practicality.

Description

Automatic lollipop placing machine

Technical Field

The application relates to the field of candy production equipment, in particular to an automatic lollipop discharging machine.

Background

The bar candy is a candy which is loved by adults and children, the shape of the candy is poured into a mould in the production process of the conventional bar candy, then the bar is inserted into the mould through a rod inserting machine, the end part of the bar is inserted into the candy, and the bar candy is formed after the candy is cooled.

In the related art, the bar sugar rod inserting machine comprises a rod arranging mechanism and a rod inserting mechanism, wherein the rod arranging mechanism comprises a hopper, a carding plate, a groove plate and a carding cylinder, the carding plate is positioned below the hopper, a carding groove is formed in the carding plate, the groove plate is positioned on one side, away from the hopper, of the carding plate, and a trough is formed in one side, close to the carding plate, of the groove plate. The rod inserting mechanism comprises a push rod and an inserting cylinder, wherein the push rod is slidably inserted into the trough, and the inserting cylinder drives the push rod to slide in the trough. When the device is used, the carding cylinder drives the carding plate to move, so that the carding groove moves below the hopper, bars are enabled to fall into the groove from the hopper through the carding groove, and then the carding cylinder drives the carding plate to seal a discharge hole of the hopper; the inserting cylinder drives the ejector rod to move, and bars in the trough are inserted into the candy mould to complete the rod inserting.

In practical use, it has been found that the factory needs to produce hundreds of thousands of bar sugar per day, the carding cylinder and the inserting cylinder may reciprocate tens of thousands or even hundreds of thousands of times per day, the service life of the cylinder is limited, and thus, the service life of the cylinder can be greatly shortened by high-strength operation, and further, the service life of the whole structure is reduced.

Disclosure of Invention

In order to improve holistic life, this application provides an automatic lollipop putting machine.

The application provides an automatic lollipop putting machine adopts following technical scheme:

the utility model provides an automatic lollipop discharging machine, is in including workstation, setting be used for conveying the conveyer belt of mould and setting on the workstation put the stick subassembly in the conveyer belt top, put the stick subassembly including material platform, material roller and drive material roller pivoted driving piece, the feed bin has been seted up to the material bench side, on the material platform in the lower extreme of feed bin seted up with the mounting hole of feed bin intercommunication, the axis level of mounting hole sets up, the material roller insert locate in the mounting hole and with mounting hole normal running fit, the silo that holds the bar has been seted up along length direction on the lateral wall of material roller, the intercommunication has been seted up to the lower extreme of material platform the discharge gate of mounting hole.

By adopting the technical scheme, the material roller is arranged, the material roller is provided with the trough, during production, the bar is placed in the bin parallel to the length direction of the material roller, the driving piece drives the material roller to rotate, the bar can enter the trough in the rotation process of the material roller, and the bar can fall into the trough for placing the bar on the die from the discharge hole under the driving of the material roller; the driving piece and the conveyor belt are controlled in a linkage way, and when the conveyor belt drives a die to the position below the discharge hole, a bar just falls down from the discharge hole; the application of the cylinder is cancelled in the integral structure, the bar stock can be automatically output only by rotating the material roller, and the rotating friction of the material roller can be reduced to be very small through the bearing, so that the integral service life can be effectively prolonged.

Optionally, the material bench is fixed with the stock guide on the feed bin inner wall, the one end of stock guide is fixed in on the lateral wall of feed bin one side of keeping away from the bar ejection of compact, the other end downward sloping of stock guide just is located the top of material roller, the lower extreme of stock guide with clearance between the material roller is less than the bar diameter.

By adopting the technical scheme, as the side surface of the material roller is arc-shaped, two lowest points are formed below the material bin, one of the lowest points is positioned on one side of the surface of the material roller, which rotates downwards to drive the bar to discharge, and when the bar is positioned on the side, the bar can smoothly enter the material groove to be output by the material roller; the other lowest point is positioned on one side of the upward rotation of the surface of the material roller, and when the bar falls on the side, the bar cannot be carried out by the material roller because the surface of the material roller is circular; the guide plate is arranged, so that bars can be completely dropped on one side of the surface of the material roller for downward rotation discharging, and the material roller is convenient for bringing the bars out.

Optionally, the trough is uniformly distributed with a plurality of channels along the circumferential direction of the material roller.

Through adopting above-mentioned technical scheme, when the material roller rotated the round, can take out many bars, effectively improved the work efficiency of material roller.

Optionally, the axis direction of mounting hole is perpendicular to the direction of transportation of conveyer belt, the feed bin is followed the axis direction of mounting hole distributes and has a plurality ofly, the discharge gate corresponds the feed bin has seted up the multichannel.

Through adopting above-mentioned technical scheme, offer a plurality of with the feed bin along the axial direction of mounting hole, when production, can set up the mould according to the position of feed bin, can export many bars simultaneously through a material roller, can effectively improve production efficiency.

Optionally, the feed bin with the material roller distributes along being parallel to the direction of transportation of conveyer belt has a plurality ofly, the discharge gate has seted up the multichannel correspondingly.

Through adopting above-mentioned technical scheme, when the mold processing, can be with the more inseparable of die cavity setting of lollipop, when putting the stick, can place the bar through a plurality of feed bins and material roller to the die cavity interval of mold, can effectively improve the production efficiency of lollipop.

Optionally, the driving piece sets up to the motor, the output of driving piece is fixed with drive sprocket, the tip coaxial fixed with of material roller drives sprocket, drive sprocket with be connected with the drive chain between the drive sprocket.

Through adopting above-mentioned technical scheme, set up the driving piece into the motor, carry out the transmission through drive sprocket, drive chain, can improve the control accuracy of material roller.

Optionally, a pressing chain is arranged above the conveyor belt on the workbench, the pressing chain is positioned on one side of the material table facing the advancing direction of the conveyor belt, one end of the pressing chain is suspended above the conveyor belt, and the other end of the pressing chain is erected on the die.

Through adopting above-mentioned technical scheme, set up the compression chain in the top of conveyer belt, after putting the bar in the mould, the conveyer belt can drive the bar and slide the compression chain downside, and the compression chain can compress tightly the bar all the time in the groove that the bar was placed to the mould, when injecting syrup in the mould die cavity, can effectively prevent that the bar from taking place to warp.

Optionally, be fixed with horizontal regulation pole in the top of conveyer belt on the workstation, the length direction of regulation pole is perpendicular to the direction of delivery of conveyer belt, the slip cap is equipped with the adjusting collar on the regulation pole, the adjusting collar support the fastening through the bolt and be fixed in on the regulation pole, the tip of compressing tightly the chain is fixed in on the adjusting collar.

By adopting the technical scheme, the position of the pressing chain can be adjusted according to the position of the bar on the die in the production process, so that the pressing chain is always pressed on the bar; when the position of the compression chain needs to be adjusted, the compression chain can be driven to move by sliding along the adjusting rod only by unscrewing the bolt on the adjusting sleeve, and the structure is simple and the adjustment is convenient.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up the material roller and setting up the silo on the material roller, during production, put the bar in parallel with the length direction of material roller in the feed bin, rethread driving piece drive material roller rotates, in the material roller rotation process, the bar can get into the silo, the bar can fall on the mould from the discharge gate in the inslot that is used for placing the bar under the drive of material roller, control driving piece and conveyer belt linkage, when a mould arrives the discharge gate below is driven to the conveyer belt, the bar just falls down in discharge gate department, the application of cylinder has been cancelled in the overall structure, only need through the rotation of material roller alright automatic output bar, the rotation friction of material roller can fall very little through the bearing, and then can effectively improve holistic life;

2. because the side of the material roller is arc-shaped, two lowest points are formed below the material bin, one of the lowest points is positioned on one side of the surface of the material roller, which rotates downwards to drive the bar to be discharged, when the bar is positioned on the side, the bar can smoothly enter the trough to be discharged outwards by the material roller, and the other lowest point is positioned on one side of the surface of the material roller, which rotates upwards, when the bar falls on the side, the bar cannot be taken out by the material roller because the surface of the material roller is circular, and the material guide plate is arranged, so that the bar can be completely fallen on one side of the surface of the material roller, which rotates downwards to be discharged, and the bar can be conveniently taken out by the material roller;

3. through setting up the compression chain in the top of conveyer belt, put the bar in the mould after, the conveyer belt can drive the bar and slide the compression chain downside, and the compression chain can compress tightly the bar all the time in the groove that the bar was placed to the mould, when injecting syrup in the mould die cavity, can effectively prevent that the bar from taking place to warp.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view showing the structure of a material guiding plate according to an embodiment of the present application;

fig. 3 is an enlarged view of the area a in fig. 1.

Reference numerals: 1. a work table; 2. a rod placing component; 21. a material platform; 211. a storage bin; 212. a mounting hole; 213. a discharge port; 22. a material roller; 221. a trough; 23. a driving member; 24. a drive sprocket; 25. a drive sprocket; 26. a drive chain; 27. a material guide plate; 31. compacting the chain; 32. an adjusting rod; 33. an adjusting sleeve; 4. a mold; 41. a guide groove; 5. a conveyor belt.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses automatic lollipop discharging machine, refer to fig. 1, including workstation 1, along workstation 1 length direction install the conveyer belt 5 on workstation 1 and set up put the lollipop subassembly 2 in workstation 1 top. In the production process, the lollipop die 4 is arranged on the conveyor belt 5, a groove for placing a bar and a groove for pouring syrup are formed in the die 4, the conveyor belt 5 drives the die 4 to move from the lower side of the lollipop placing assembly 2 to the other end of the workbench 1, and in the movement process of the die 4, the lollipop placing assembly 2 can place the bar into the groove corresponding to the die 4.

Referring to fig. 1 and 2, the bar assembly 2 includes a table 21, a roller 22, and a driving member 23, the table 21 is a cube-shaped block, and both ends of the table 21 are erected on the table 1. A bin 211 for placing bars is arranged above the material table 21, and three bins 211 are arranged along the width direction of the workbench 1; a mounting hole 212 communicated with the bin 211 is formed in the lower end of the bin 211 on the material table 21, and the axis of the mounting hole 212 is parallel to the arrangement direction of the material table 21; the material roller 22 is inserted into the mounting hole 212 and is in rotary fit with the mounting hole 212, and two ends of the material roller 22 are rotationally fixed on the material table 21 through bearings. Two groups of feed bins 211 and mounting holes 212 are formed along the length direction of the workbench 1, and two feed rollers 22 are correspondingly arranged. A trough 221 is formed in the outer side wall of the material roller 22 along the length direction, the trough depth of the trough 221 is consistent with the diameter of the bar stock, and four troughs are formed in the trough 221 along the circumferential direction of the material roller 22. A discharge hole 213 is vertically and penetratingly formed in the lower end of the material table 21 at a position corresponding to each bin 211, and the discharge hole 213 can only pass through one bar at a time. When the driving piece 23 drives the material roller 22 to rotate, the bar stock enters the material groove 221, and when the material groove 221 filled with the bar stock rotates to the lower side, the bar stock falls into the die 4 from the material outlet 213 under the self gravity.

The driving member 23 is provided as a motor fixed to the table 1, and a driving sprocket 24 is coaxially fixed to a rotation shaft of the motor. The same end of the two material rollers 22 is fixed with a driving chain wheel 25, the height of the driving chain wheel 25 is consistent with that of the driving chain wheel 24, the driving chain wheel 24 and the driving chain wheel 25 are sleeved with a driving chain 26, and when the motor rotates, the two driving chain wheels 25 can drive the two material rollers 22 to synchronously rotate. During normal operation, the driving piece 23 and the conveyor belt 5 are controlled in a linkage manner, when the conveyor belt 5 moves the groove for placing the bar material on the die 4 to the position below the discharge hole 213, the driving piece 23 drives the material roller 22 to drop downwards, and when the bar material falls into the die 4, the conveyor belt 5 drives the die 4 to move continuously, and the reciprocating manner is performed.

A guide plate 27 is fixed on the inner side wall of the bin 211 on the material table 21, one end of the guide plate 27 is fixed on one side wall of the bin 211, which is close to the upward movement of the material roller 22, the other end of the guide plate 27 faces the middle part of the bin 211 and is inclined downwards, and a gap between the lower end of the guide plate 27 and the material roller 22 is smaller than the diameter of a bar stock. When the bar is placed in the bin 211 parallel to the length direction of the material roller 22, the bar is guided to one side of the material roller 22, which moves downwards, by the guide plate 27, so that the bar can smoothly enter the trough 221 and be brought to the discharge hole 213 by the material roller 22.

Referring to fig. 1 and 3, a hold-down chain 31 is provided above the table 1, the hold-down chain 31 being located on the side of the table 21 toward the advancing direction of the conveyor belt 5. An adjusting rod 32 is fixed above the workbench 1, and the axis of the adjusting rod 32 is parallel to the axis of the material roller 22. The adjusting rod 32 is sleeved with an adjusting sleeve 33 in a sliding manner, the adjusting sleeve 33 is a cylindrical sleeve, the adjusting sleeve 33 is fixed on the adjusting rod 32 in a mode of abutting against the adjusting rod 32 through a bolt, and one end of the pressing chain 31 is fixed on the adjusting sleeve 33. In use, the position of the hold down chain 31 can be slidingly adjusted by unscrewing the bolts on the adjustment sleeve 33. Three groups of adjusting sleeves 33 and pressing chains 31 are arranged at positions corresponding to the storage bins 211, guide grooves 41 are formed in the positions corresponding to the pressing chains 31 on the die 4, the guide grooves 41 are parallel to the feeding direction of the conveyor belt 5, the groove depth of the guide grooves 41 is smaller than the diameter of the bar stock, and the pressing chains 31 are in sliding fit with the guide grooves 41.

After the bar falls into the die 4, the conveyor belt 5 continues to drive the die 4 to move, the bar slowly moves to the lower side of the pressing chain 31, and the pressing chain 31 presses the bar on the die 4 along with the continuous movement of the die 4. Be provided with the slip casting device that is used for pouring into syrup to mould 4 in on workstation 1, compress tightly chain 31 unanimously and extend to slip casting device downside, at the in-process that slip casting device pours into syrup into, compress tightly chain 31 can effectively prevent that the bar from taking place to warp, improves lollipop's production quality.

The embodiment of the application discloses an implementation principle of automatic lollipop placing machine is: by arranging the material roller 22 and arranging the material groove 221 on the material roller 22, when the driving piece 23 drives the material roller 22 to rotate, the bar in the stock bin 211 can enter the material groove 221 and is brought into the mounting hole 212 by the material roller 22, and when the bar is driven to the lower part of the material roller 22, the bar falls into the die 4 from the discharge hole 213 under the action of self gravity. When each material roller 22 rotates once, twelve bars can be filled, the structure is simple, the production efficiency is high, the motion friction between the parts is small, and the service life of the whole machine can be effectively prolonged.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An automatic lollipop placing machine is characterized in that: including workstation (1), setting are in conveyer belt (5) and setting that are used for conveying mould (4) on workstation (1) put stick subassembly (2) of conveyer belt (5) top, put stick subassembly (2) including workstation (21), material roller (22) and drive material roller (22) pivoted driving piece (23), feed bin (211) have been seted up to material bench (21) upside, on material bench (21) in mounting hole (212) with feed bin (211) intercommunication are seted up to the lower extreme of feed bin (211), the axis level of mounting hole (212) sets up, material roller (22) insert locate in mounting hole (212) and with mounting hole (212) normal running fit, material roller (22) are gone up along length direction on the lateral wall and are seted up material groove (221) of holding, feed bin (21) lower extreme has been seted up intercommunication discharge gate (213) of mounting hole (212).

2. An automatic lollipop placing machine according to claim 1, characterized in that: the feeding device is characterized in that a material guide plate (27) is fixed on the inner wall of the bin (211) on the material table (21), one end of the material guide plate (27) is fixed on the side wall of the bin (211) far away from the discharging side of the bar, the other end of the material guide plate (27) is inclined downwards and located above the material roller (22), and the gap between the lower end of the material guide plate (27) and the material roller (22) is smaller than the diameter of the bar.

3. An automatic lollipop placing machine according to claim 1, characterized in that: the feed grooves (221) are uniformly distributed along the circumferential direction of the feed roller (22).

4. An automatic lollipop placing machine according to claim 2, characterized in that: the axis direction of the mounting hole (212) is perpendicular to the transportation direction of the conveyor belt (5), a plurality of bins (211) are distributed along the axis direction of the mounting hole (212), and a plurality of discharge holes (213) are formed corresponding to the bins (211).

5. An automatic lollipop placing machine according to claim 4, wherein: the feed bin (211) and the material roller (22) are distributed in a plurality along the transportation direction parallel to the conveyor belt (5), and the discharge holes (213) are correspondingly provided with a plurality of channels.

6. An automatic lollipop placing machine according to claim 1, characterized in that: the driving piece (23) is arranged as a motor, a driving sprocket (24) is fixed at the output end of the driving piece (23), a driving sprocket (25) is coaxially fixed at the end part of the material roller (22), and a driving chain (26) is connected between the driving sprocket (24) and the driving sprocket (25).

7. An automatic lollipop placing machine according to claim 1, characterized in that: the workbench (1) is provided with a pressing chain (31) above the conveyor belt (5), the pressing chain (31) is located on one side of the material table (21) facing the advancing direction of the conveyor belt (5), one end of the pressing chain (31) is suspended above the conveyor belt (5), and the other end of the pressing chain is erected on the die (4).

8. An automatic lollipop placing machine according to claim 7, characterized in that: the workbench (1) is fixed with a horizontal adjusting rod (32) above the conveyor belt (5), the length direction of the adjusting rod (32) is perpendicular to the conveying direction of the conveyor belt (5), an adjusting sleeve (33) is sleeved on the adjusting rod (32) in a sliding mode, the adjusting sleeve (33) is fixedly arranged on the adjusting rod (32) in a propping mode through bolts, and the end portion of the pressing chain (31) is fixed on the adjusting sleeve (33).

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