CN219193357U - Lollipop oblique line stick placing machine - Google Patents

Abstract

The utility model relates to a lollipop slash put excellent machine relates to the field of candy production facility, and it includes the support body and establishes the blowing subassembly that is used for placing the stick body to the mould in on the support body, and the blowing subassembly is including going up and down the lift seat that sets up on the support body, the driving piece of drive lift seat and the blowing groove of setting on the lift seat, and the lift seat level sets up, and the blowing groove corresponds the die cavity of mould and is provided with a plurality ofly, and the angle of blowing groove is unanimous with mould die cavity angle, still is provided with the carding subassembly that is used for carding the stick body on the support body and is used for pushing the pushing away the material subassembly of blowing groove with the stick body that has combed. This application is through setting up the elevating platform and setting up the blowing groove on the elevating platform, when using, through lowering the elevating platform, makes the blowing groove paste on the die cavity of mould, then pushes the stick body into the blowing groove through pushing away the material subassembly, and the stick body freely falls into in the mould in the blowing groove, has the accurate effect of blowing.

Description

Lollipop oblique line stick placing machine

Technical Field

The application relates to the field of candy production equipment, in particular to a lollipop oblique line stick placing machine.

Background

Lollipops are candies which are liked by most people, and generally comprise a lollipop body and a sugar body, wherein the sugar body is poured and fixed at one end of the lollipop body, and when the lollipop is eaten, one end of the lollipop body can be put into an inlet by holding the lollipop body by hands, so that the lollipop is attractive and attractive.

In the related art, lollipops are generally produced using a candy machine including a conveyor chain provided on a table, a plurality of molds fixed on the conveyor chain, a lollipop placing machine for placing a stick body into the molds, and a slip casting machine for injecting syrup into the molds. During production, the mould needs to move along with the conveying chain, and the conveying chain needs to rotate along with the conveying chain after the conveying chain moves to the head mould, so that the mould is generally set to be a narrower rectangular block, cavities of lollipops are formed along the length direction of the mould, and the cavities of two or three lollipops can be generally arranged on the same mould, so that the production efficiency is lower.

In order to improve the production efficiency, the die cavity of the lollipop is obliquely arranged on the die, and the lollipop bodies are erected on the adjacent dies, so that the interval between the adjacent lollipops can be shortened, and the number of single-time formed lollipops of a single die is increased. When producing lollipops, a lollipop body is placed in a cavity through a lollipop placing machine, and then the lollipop body is conveyed to a grouting machine through a conveying chain to be injected with syrup. However, the conventional rod placing machine can only place rods in cavities formed along the length direction of the die, and can not directly place rods in obliquely formed cavities. To this end, the inventors provide a lollipop diagonal stick feeder.

Disclosure of Invention

For the convenience is put the stick to the mould die cavity of slope arrangement, this application provides a lollipop slash and is put excellent machine, has the accurate effect of barred body blanking.

The lollipop oblique line stick placing machine adopts the following technical scheme:

the utility model provides a lollipop slash put excellent machine, includes the support body and sets up be used for placing the blowing subassembly of stick body to the mould in on the support body, the blowing subassembly is including going up and down to set up lifting seat on the support body, drive lifting seat's driving piece and setting are in the blowing groove on the lifting seat, lifting seat level sets up, the die cavity that the blowing groove corresponds the mould is provided with a plurality ofly, the angle of blowing groove is unanimous with mould die cavity angle, still be provided with on the support body and be used for carding the subassembly of stick body and be used for pushing in the stick body that will comb the pushing subassembly of blowing groove.

By adopting the technical scheme, the lifting seat is arranged, the discharging groove with the consistent angle of the die cavity is arranged on the lifting seat, in the production process, the transmission chain drives the die to move below the lifting seat and then stop, the driving piece drives the lifting seat to descend, the lower end of the discharging groove is enabled to be abutted against the die, then the bar bodies which are tidy to be carded by the carding assembly are pushed into the discharging groove through the pushing assembly, the bar bodies automatically fall in the discharging groove and fall into the die cavity of the die, and the accuracy of placing the bar bodies into the die can be effectively improved; after a bar body falls into the die, the driving piece drives the lifting seat to move upwards, the conveying belt drives the die to move and moves the next die without the bar body below the lifting seat, and then the bar is placed by repeating the actions, so that the automatic degree is high, and the production efficiency is improved.

Optionally, the blowing subassembly is still including setting up the frid on the elevating socket, the frid corresponds the blowing groove is provided with a plurality ofly, the blowing groove runs through and sets up on the frid, the tip of frid rotates to be fixed in on the elevating socket.

Through adopting above-mentioned technical scheme, rotate on the elevating seat and set up the frid to offer the blowing groove on the frid, when putting the stick to different moulds, can be applicable to most moulds through rotating the frid and adjust the angle of blowing groove in a certain limit, facilitate the use.

Optionally, the blowing subassembly still includes the regulating plate, the regulating plate is located the frid is kept away from the one end of lifting seat, a plurality of the frid keep away from the one end of lifting seat all rotate set up in on the regulating plate.

Through adopting above-mentioned technical scheme, set up the regulating plate, the angle that places the silo is being adjusted to needs makes, can be through removing the regulating plate to one side, and the regulating plate can drive a plurality of frids simultaneously and rotate, realizes adjusting a plurality of places the silo simultaneously, conveniently adjusts.

Optionally, the carding assembly includes feed bin, broach and connects the material base, the discharge gate of feed bin is located the below, the broach is vertical to be fixed the discharge gate department of feed bin, the broach has a plurality ofly along horizontal straight line direction evenly distributed, adjacent form the blanking groove that supplies single stick body to pass through between the broach, connect the material base to be located the lower extreme of broach, connect the material base to go up to correspond connect the position of blanking groove to seted up.

Through adopting above-mentioned technical scheme, set up the broach in the discharge gate department of feed bin, when using, the stick body is placed in the feed bin, and the stick body can fall into in the blanking groove under self gravity, and the stick body can be arranged in the blanking groove in proper order, and the stick body of blanking groove lower extreme can be arranged in connecing the silo, realizes the carding to the stick body, simple structure, practicality.

Optionally, the top of broach is provided with the direction oblique angle to the stick body direction, connect to be connected with the vibrator on the material base.

By adopting the technical scheme, the guide bevel angle is arranged at the tooth top end of the comb, so that the rod body can be guided, and the rod body can conveniently enter the blanking groove; connect the vibrator on receiving the material base, during normal operating, the vibrator can produce certain vibrations to feed bin, broach and receiving the material base, can shake the whereabouts with the stick body.

Optionally, the pushing component comprises ejector pins and a pushing cylinder, the ejector pins are arranged corresponding to the number of the receiving grooves, the ejector pins are slidably inserted into the receiving grooves, and the pushing cylinder is located at one end of the receiving grooves and used for driving the ejector pins to slide in the receiving grooves.

Through adopting above-mentioned technical scheme, set up thimble and pushing cylinder, in production process, drive the thimble through pushing cylinder and reciprocate in receiving the silo and slide, when needs carry the barred body to the blanking inslot, push the barred body that the thimble will connect in the silo into the blowing inslot through pushing cylinder promotion thimble, realize the ejection of compact of barred body.

Optionally, the pushing component further comprises conveying hoses, the conveying hoses are arranged corresponding to the number of the receiving grooves, and two ends of each conveying hose are respectively communicated with the receiving grooves and the discharging grooves.

Through adopting above-mentioned technical scheme, set up conveying hose, in discharging the inslot from blanking groove conveyer belt through conveying hose with the barred body, because the lift seat need reciprocate at the during operation, conveying hose can produce elastic deformation and follow the elevating platform and remove, facilitate the use.

Optionally, one side that the material receiving base is close to the pushing cylinder is fixed with the deflector, correspond on the deflector the guiding hole has been seted up in the position of thimble run through, the thimble slide insert in the guiding hole, the drive end of pushing cylinder is fixed with the connecting plate, many the tip of thimble all is fixed in on the connecting plate.

By adopting the technical scheme, the guide plate is provided with the guide holes, and the thimble is guided through the guide holes, so that the thimble is prevented from being askew; the ends of the ejector pins are fixed on the connecting plate, and the plurality of ejector pins are driven to move through the connecting plate, so that the number of pushing cylinders can be effectively reduced, and the control is convenient.

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

1. the lifting seat is arranged on the frame body, the material discharging groove with the consistent angle of the die cavity is arranged on the lifting seat, the driving chain drives the die to move below the lifting seat and then stop in the production process, the driving part drives the lifting seat to descend, the lower end of the material discharging groove is abutted against the die, the rod bodies which are tidy after being combed by the carding component are pushed into the material discharging groove through the pushing component, the rod bodies automatically fall down in the material discharging groove and fall into the die cavity of the die, the accuracy of the rod bodies in the die can be effectively improved, after the rod bodies fall into the die, the driving part drives the lifting seat to move upwards, the conveying chain drives the die to move and moves the die which is not filled with the rod bodies to the lower part of the lifting seat, and then the actions are repeated for rod discharging, so that the automation degree is high, and the production efficiency is improved;

2. the groove plate is rotatably arranged on the lifting seat, the discharging groove is arranged on the groove plate, and when rods are discharged to different dies, the angle of the discharging groove can be adjusted within a certain range by rotating the groove plate, so that the device is suitable for most dies and is convenient to use;

3. through setting up the regulating plate, the angle that places the silo is being adjusted to needs makes, can be through removing the regulating plate to one side, and the regulating plate can drive a plurality of frids simultaneously and rotate, realizes adjusting a plurality of charging spouts simultaneously, conveniently adjusts.

Drawings

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

FIG. 2 is an enlarged view of area A of FIG. 1;

FIG. 3 is a schematic view of an embodiment of the present application highlighting the construction of the comb assembly and the pushing assembly;

fig. 4 is a schematic view showing the structure of a guide plate according to an embodiment of the present application.

Reference numerals: 1. a frame body; 11. a fixing plate; 12. a mounting plate; 2. a discharging assembly; 21. a lifting seat; 22. a trough plate; 221. a discharge groove; 23. an adjusting plate; 24. a driving member; 3. a carding assembly; 31. a storage bin; 32. comb teeth; 321. a guiding bevel; 33. a material receiving base; 331. a receiving groove; 34. a material dropping groove; 35. a vibrator; 4. a pushing component; 41. a thimble; 42. a conveying hose; 43. a pushing cylinder; 44. a guide plate; 441. a guide hole; 45. and (5) connecting a plate.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses lollipop slash put excellent machine, refer to fig. 1, including support body 1, be provided with blowing subassembly 2, carding unit 3 and pushing component 4 on support body 1. The support body 1 is the frame that the polylith plate body spliced becomes, and support body 1 installs the upside at the candy machine during the use, and the conveying chain of candy machine drives the mould and removes from support body 1 below, and carding assembly 3 is neatly combed the stick body, and pushing assembly 4 pushes into blowing subassembly 2 with the stick body that has combed, puts into the mould with the stick body through blowing subassembly 2, accomplishes the stick operation of putting.

Referring to fig. 1 and 2, the discharging assembly 2 includes a lifting seat 21, a chute plate 22, an adjusting plate 23, and a driving member 24. A rectangular fixing plate 11 is horizontally fixed at one end of the frame body 1, two driving pieces 24 are provided, two driving pieces 24 are respectively and vertically fixed at two ends of the fixing plate 11, and piston rods of the driving pieces 24 face downwards. The lifting seat 21 is a horizontal rectangular plate body, the lifting seat 21 is arranged below the fixed plate 11 in a lifting manner and is parallel to the length direction of the fixed plate 11, and a piston rod of the driving piece 24 penetrates through the fixed plate 11 and is connected with the lifting seat 21. The frid 22 is the rectangular board of level, and the one end of frid 22 passes through the bolt fastening in the downside of elevating seat 21, and frid 22 has a plurality ofly along the length direction evenly distributed of elevating seat 21, and frid 22 corresponds mould die cavity quantity setting. A discharge groove 221 is vertically penetrated on the groove plate 22, and the discharge grooves 221 are in one-to-one correspondence with the cavities of the die. The regulating plate 23 is a horizontal rectangular plate body, the regulating plate 23 is positioned at one end of the groove plate 22 far away from the lifting seat 21, and one ends of the groove plates 22 close to the regulating plate 23 are all fixed at the lower side of the regulating plate 23 through bolts.

When the mold is used, the angle of the discharge groove 221 is adjusted according to the oblique angle of the mold cavity, so that the discharge groove 221 corresponds to the mold cavity of the mold one by one. During adjustment, all the groove plates 22 can be rotated by unscrewing the bolts at the two ends of the groove plates 22 and then moving the adjusting plate 23 to one side, and after the angle of the discharge groove 221 is adjusted, the bolts at the two ends of the groove plates 22 are screwed.

Referring to fig. 1 and 3, the carding assembly 3 includes a hopper 31, comb teeth 32 and a receiving base 33. A horizontal mounting plate 12 is fixed at one end of the frame body 1 far away from the fixing plate 11, a receiving base 33 is fixed at the upper side of the mounting plate 12, and a storage bin 31 is fixed at one side of the receiving base 33 far away from the mounting plate 12. The bin 31 is of a bucket-shaped structure formed by splicing transparent plate bodies, so that workers can observe the number of rod bodies in the bin 31 conveniently; the discharge hole of the stock bin 31 is positioned at the lower side, and the comb teeth 32 are vertically fixed at the discharge hole of the trough; the comb teeth 32 are uniformly distributed in the bin 31 along the length direction of the mounting plate 12, and blanking grooves 34 for the bar bodies to pass through are formed between adjacent comb teeth 32. A receiving trough 331 is arranged on the receiving base 33 corresponding to the blanking trough 34, and the receiving trough 331 is communicated with the blanking trough 34. A guiding bevel 321 is processed at the top end of the comb teeth 32, so that the rod body can conveniently slide into the blanking groove 34. The mounting plate 12 is also provided with a vibrator 35, and after the rod body is placed in the storage bin 31, the vibrator 35 can vibrate the storage bin 31 and the comb teeth 32, so that the rod body is automatically arranged and falls into the blanking groove 34.

The number of the receiving grooves 331 and the blanking grooves 34 corresponds to the number of the discharging grooves 221 one by one.

Referring to fig. 2 and 3, the pushing assembly 4 includes a plurality of ejector pins 41, a conveying hose 42 and pushing cylinders 43, the ejector pins 41 are provided corresponding to the number of the receiving slots 331, and the ejector pins 41 are slidably inserted into the receiving slots 331. The conveying hose 42 is fixed on one side of the material receiving base 33, which is close to the fixed plate 11, through a pipe joint, and the conveying hose 42 is communicated with the material receiving groove 331; one end of the conveying hose 42, which is far away from the receiving base 33, is connected to the trough plate 22 through a pipe joint, and the conveying hose 42 is communicated with the discharge trough 221. A pushing cylinder 43 is fixed on the mounting plate 12 at a side of the receiving base 33 away from the conveying hose 42, and the pushing cylinder 43 is used for driving the thimble 41 to slide in the receiving groove 331.

In the production process, after the rod bodies fall into the receiving groove 331, the ejector pins 41 are driven to slide to one side of the conveying hose 42 through the pushing cylinder 43, the rod bodies are pushed into the conveying hose 42, one rod body is propped against one rod body in the conveying hose 42, one rod body is pushed into the conveying hose 42 each time, one rod body enters the discharging groove 221 from the conveying hose 42, and the rod bodies fall into the die from the discharging groove 221.

Referring to fig. 3 and 4, a guide plate 44 is fixed at one end of the receiving base 33 away from the conveying hose 42, a guide hole 441 is formed in the guide plate 44 corresponding to the receiving groove 331, and the thimble 41 is slidably inserted into the guide hole 441. A connecting plate 45 is fixed on a piston rod of the pushing cylinder 43, and the ends of the plurality of ejector pins 41 are fixed on the connecting plate 45. When the pushing cylinder 43 is extended or shortened, the connecting plate 45 can drive the plurality of ejector pins 41 to move together.

The embodiment of the application discloses a lollipop oblique line put stick machine's implementation principle does: through rotating a plurality of frids 22 of setting up on lifting seat 21, when corresponding the unable mould, can carry out the angle modulation through rotating frid 22 in certain within range, make the die cavity that the blowing groove 221 can aim at the mould, help improving holistic suitability, the convenience is put the stick to the mould. In the production process, when the die moves below the lifting seat 21 and stops, the driving piece 24 drives the lifting seat 21 to descend so that the discharging groove 221 is aligned with the die cavity, and then the bar body is pushed into the discharging groove 221 through the pushing component 4 and automatically falls into the die cavity in the discharging groove 221; then lifting seat 21 moves upwards, and the mould continues to move, and when the next mould moves to lifting seat 21 and then stops, then repeats the above-mentioned action, and overall structure degree of automation is high, helps improving production efficiency.

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. A lollipop oblique line stick placing machine which is characterized in that: including support body (1) and setting be used for placing blowing subassembly (2) of stick body in to the mould on support body (1), blowing subassembly (2) are in including going up and down setting lifting seat (21) on support body (1), drive driving piece (24) and setting that lifting seat (21) are in blowing groove (221) on lifting seat (21), lifting seat (21) level sets up, blowing groove (221) are provided with a plurality ofly corresponding the die cavity of mould, the angle of blowing groove (221) is unanimous with the die cavity angle, still be provided with on support body (1) and be used for carding subassembly (3) of stick body and be used for pushing into the stick body that will comb pushing away material subassembly (4) of blowing groove (221).

2. A lollipop diagonal stick placing machine according to claim 1, characterized in that: the discharging assembly (2) further comprises a groove plate (22) arranged on the lifting seat (21), the groove plate (22) is arranged in a plurality of grooves (221) corresponding to the discharging grooves, the discharging grooves (221) are formed in the groove plate (22) in a penetrating mode, and the end portions of the groove plate (22) are fixed on the lifting seat (21) in a rotating mode.

3. A lollipop diagonal stick placing machine according to claim 2, characterized in that: the discharging assembly (2) further comprises an adjusting plate (23), the adjusting plate (23) is located at one end of the groove plate (22) away from the lifting seat (21), and one ends of the groove plates (22) away from the lifting seat (21) are all rotatably arranged on the adjusting plate (23).

4. A lollipop diagonal stick placing machine according to claim 1, characterized in that: carding unit (3) are including feed bin (31), broach (32) and connect material base (33), the discharge gate of feed bin (31) is located the below, broach (32) are vertical to be fixed the discharge gate department of feed bin (31), broach (32) are along horizontal straight line direction evenly distributed has a plurality ofly, adjacent form blanking groove (34) that supply single stick body to pass through between broach (32), connect material base (33) to be located the lower extreme of broach (32), connect material base (33) to go up correspond connect silo (331) have been seted up to the position of blanking groove (34).

5. The lollipop diagonal stick placing machine according to claim 4, wherein: the top of broach (32) is provided with direction oblique angle (321) to the stick body direction, connect material base (33) to be connected with vibrator (35).

6. The lollipop diagonal stick placing machine according to claim 4, wherein: the pushing assembly (4) comprises ejector pins (41) and pushing cylinders (43), the ejector pins (41) are arranged corresponding to the receiving grooves (331), the ejector pins (41) are slidably inserted into the receiving grooves (331), and the pushing cylinders (43) are located at one ends of the receiving grooves (331) and used for driving the ejector pins (41) to slide in the receiving grooves (331).

7. The lollipop diagonal stick placing machine according to claim 6, wherein: the pushing assembly (4) further comprises conveying hoses (42), the conveying hoses (42) are arranged corresponding to the receiving grooves (331), and two ends of each conveying hose (42) are respectively communicated with the receiving grooves (331) and the discharging grooves (221).

8. The lollipop diagonal stick placing machine according to claim 6, wherein: one side of receiving base (33) is close to pushing away material cylinder (43) is fixed with deflector (44), correspond on deflector (44) thimble (41)'s position runs through and has seted up guiding hole (441), thimble (41) slide insert in guiding hole (441), pushing away the drive end of material cylinder (43) is fixed with connecting plate (45), many the tip of thimble (41) is all fixed in on connecting plate (45).

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