CN215885051U - A transport mechanism for lollipop production - Google Patents

Abstract

The utility model discloses a transfer mechanism for lollipop production, which comprises an equipment shell and a cooling anti-sticking assembly, wherein the cooling anti-sticking assembly is embedded in the upper wall of the equipment shell and comprises a condensation box, spray heads, condensation pipes, a protective cover, fans and a condenser, the condensation pipes are arranged in the condensation box, the fans and the condenser are sequentially arranged in the protective cover from left to right, the spray heads are distributed at equal intervals, and the spray heads on the left side and the right side are symmetrical about the spray head in the middle. This a transport mechanism for lollipop production compares with current ordinary transport mechanism, can directly fix a position the lollipop, makes the lollipop can be in same angle at transportation process, and other equipment of being convenient for carry out the centre gripping to the lollipop, and equipment uses the spring to prevent to equipment in the lollipop positioning process that equipment from damaging the lollipop extrusion, and equipment also can carry out cooling treatment to the lollipop simultaneously, prevents that the lollipop from melting the adhesion and appearing.

Description

A transport mechanism for lollipop production

Technical Field

The utility model relates to the technical field of lollipop production, in particular to a transfer mechanism for lollipop production.

Background

The lollipop is a candy food deeply accepted by the broad masses of people, is invented by enrik bernet and Fenglia Duosha, which are pioneers of Spanish candy Shandong Zhenbao, and the lollipop needs to be transported by a transport mechanism in the production process, so that the lollipop can be transported to other positions for processing.

The lollipop slightly melts because the external factor of weather can appear, and other equipment are easy to adhere to the machine claw of other equipment when taking the lollipop on the transfer mechanism, and other equipment of being inconvenient for snatch the lollipop, so current transfer mechanism can not be fine satisfy people's user demand, to above-mentioned condition, carries out technical innovation on current transfer mechanism basis.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transfer mechanism for producing lollipops, and aims to solve the problems that in the background technology, the lollipops are slightly melted due to external factors of weather, and when other equipment takes the lollipops on the transfer mechanism, the lollipops are easily adhered to machine claws of other equipment and are inconvenient for other equipment to grab, so that the conventional transfer mechanism cannot well meet the use requirements of people.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a transport mechanism for lollipop production, includes equipment housing and the antiseized subassembly of cooling, the upper wall of equipment housing is inlayed and is had the antiseized subassembly of cooling, the antiseized subassembly of cooling includes condenser box, shower nozzle, condenser pipe, protection casing, fan and condensing engine, and the lower extreme of condenser box installs the shower nozzle, the inside of condenser box is provided with the condenser pipe, and the upper end of condenser box is provided with the protection casing, the inside of protection casing has set gradually fan and condensing engine from a left side to the right side, the shower nozzle equidistance distributes and has threely, and the shower nozzle of the left and right sides is symmetrical about the shower nozzle in the middle.

Preferably, a conveyor is installed at the upper end of the lower wall of the equipment shell, a lollipop body is arranged at the upper end of the conveyor, and positioning assemblies penetrate through the left wall and the right wall of the equipment shell.

Preferably, the positioning assembly comprises a cylinder, a first spring, a first guide rod and a baffle plate, one end, close to the central axis of the equipment shell, of the cylinder is connected with the first spring, the first guide rod is arranged inside the first spring, and the baffle plate is arranged on one side, close to the central axis of the equipment shell, of the first guide rod.

Preferably, the first spring can enable the shielding plate to be elastically connected with the cylinder, and the first guide rod and the shielding plate are welded.

Preferably, locating component still includes second spring, second guide arm, C shape frame, belt and motor, and the below of first spring is provided with the second spring, the inside of second spring is provided with the second guide arm, and one side that the second guide arm is close to equipment casing axis is connected with C shape frame, one side that C shape frame is close to equipment casing axis is provided with the belt, and the lower extreme of C shape frame is connected with the motor.

Preferably, the second guide rod is superposed with the horizontal center line of the second spring, and the C-shaped frame and the second guide rod are welded.

Preferably, the central axis of the conveyor coincides with the central axis of the device housing, and the lollipop body is symmetrical about the central axis of the conveyor.

Compared with the prior art, the utility model has the following beneficial effects: the device can directly position the lollipop, so that the lollipop can be positioned at the same angle in the conveying process, other devices can conveniently clamp the lollipop, the device can prevent the lollipop from being extruded and damaged by the device by using a spring in the positioning process of the lollipop, and meanwhile, the device can also cool the lollipop to prevent the lollipop from being melted and adhered;

1. according to the lollipop positioning device, the C-shaped frame can be driven to be close to the lollipop body through the air cylinder by the equipment through the arrangement of the lollipop body, the air cylinder, the shielding plate, the C-shaped frame, the belt and the belt, the lollipop body is driven to rotate through the motor, meanwhile, the shielding plate can be close to the lollipop body, the rotation of the lollipop body is limited, and therefore the lollipop body cannot rotate continuously after rotating to a fixed angle, and the positioning of the lollipop body is achieved;

2. according to the lollipop with the buffering device, the barrier plate can be buffered through the elastic telescopic structure formed between the first guide rod and the cylinder and between the first spring and the cylinder by virtue of the barrier plate, the lollipop body is prevented from being damaged by the large force generated by the barrier plate due to the pushing of the cylinder, and meanwhile, the belt can be in close contact with the lollipop body by virtue of the elastic telescopic structure formed between the second guide rod and the cylinder and between the second spring and the cylinder by virtue of the C-shaped frame;

3. according to the lollipop cooling device, the lollipop body, the condensing box, the spray head, the condensing pipe, the fan and the condensing machine are arranged, air in the condensing box can be cooled through the condensing machine and the condensing pipe, and then the air in the condensing box is blown out from the spray head through the fan, so that the lollipop body is cooled, the lollipop body is prevented from being melted due to the influence of temperature, and the lollipop body is prevented from being easily adhered to mechanical claws of other devices.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of a three-dimensional enlarged structure of a C-shaped frame according to the present invention;

fig. 3 is a schematic perspective view of the condensation box of the present invention.

In the figure: 1. an equipment housing; 2. a conveyor; 3. a lollipop body; 4. a positioning assembly; 401. a cylinder; 402. a first spring; 403. a second spring; 404. a first guide bar; 405. a shielding plate; 406. a second guide bar; 407. a C-shaped frame; 408. a belt; 409. a motor; 5. cooling the anti-sticking assembly; 501. a condenser tank; 502. a spray head; 503. a condenser tube; 504. a protective cover; 505. a fan; 506. a condenser.

Detailed Description

As shown in fig. 1 to 3, a transfer mechanism for lollipop production comprises an equipment housing 1 and a cooling anti-sticking assembly 5, wherein the cooling anti-sticking assembly 5 is inlaid on the upper wall of the equipment housing 1, the cooling anti-sticking assembly 5 comprises a condensation box 501, a spray nozzle 502, a condensation pipe 503, a protective cover 504, a fan 505 and a condenser 506, the spray nozzle 502 is installed at the lower end of the condensation box 501, the condensation pipe 503 is arranged inside the condensation box 501, the protective cover 504 is arranged at the upper end of the condensation box 501, the fan 505 and the condenser 506 are sequentially arranged inside the protective cover 504 from left to right, the spray nozzles 502 are distributed at equal intervals, and the spray nozzles 502 at the left side and the spray nozzles 502 at the right side are symmetrical with respect to the spray nozzle 502 in the middle;

the specific operation is as follows, the air inside the condensation box 501 can be cooled by the condenser 506 and the condenser 503, the air inside the condensation box 501 is blown out from the spray head 502 by the fan 505, the lollipop body 3 is cooled, the lollipop body 3 is prevented from being melted due to the influence of temperature, the lollipop body 3 is easily adhered to the gripper of other equipment, and the protective cover 504 can shield the fan 505 and the condenser 506.

As shown in fig. 1, a conveyor 2 is mounted at the upper end of the lower wall of an equipment housing 1, a lollipop body 3 is arranged at the upper end of the conveyor 2, positioning assemblies 4 penetrate through the left wall and the right wall of the equipment housing 1, the central axis of the conveyor 2 coincides with the central axis of the equipment housing 1, and the lollipop body 3 is symmetrical about the central axis of the conveyor 2;

equipment shell 1 supports the protection for the major structure of equipment to the inside gas part of equipment, and conveyer 2 can carry lollipop body 3, and the equipment of being convenient for is handled lollipop body 3, and locating component 4 can fix a position lollipop body 3, makes lollipop body 3 all keep same angle after inside passing through of equipment, and other equipment of being convenient for snatch lollipop body 3.

As shown in fig. 1 and 2, the positioning assembly 4 includes a cylinder 401, a first spring 402, a first guide rod 404 and a shielding plate 405, the first spring 402 is connected to one end of the cylinder 401 close to the central axis of the device housing 1, the first guide rod 404 is disposed inside the first spring 402, the shielding plate 405 is disposed on one side of the first guide rod 404 close to the central axis of the device housing 1, the shielding plate 405 and the cylinder 401 can be elastically connected by the first spring 402, the first guide rod 404 and the shielding plate 405 are welded to each other, the positioning assembly 4 further includes a second spring 403, a second guide rod 406, a C-shaped frame 407, a belt 408 and a motor 409, the second spring 403 is disposed below the first spring 402, the second guide rod 406 is disposed inside the second spring 403, the C-shaped frame 407 is connected to one side of the second guide rod 406 close to the central axis of the device housing 1, the belt 408 is disposed on one side of the C-shaped frame 407 close to the central axis of the device housing 1, the lower end of the C-shaped frame 407 is connected with a motor 409, a second guide rod 406 is overlapped with the horizontal center line of the second spring 403, and the C-shaped frame 407 and the second guide rod 406 are welded;

can drive C shape frame 407 and shielding plate 405 through cylinder 401 and be close to lollipop body 3, motor 409 drives belt 408 and then drives lollipop body 3 and rotates, rely on C shape frame 407 to make belt 408 and lollipop body 3 in close contact with through the elastic telescopic structure who constitutes between second guide arm 406 and second spring 403 and the cylinder 401, shielding plate 405 can carry on spacingly to the rotation of lollipop body 3, make lollipop body 3 just can't continue to rotate after rotating fixed angle, realize the location to lollipop body 3, rely on shielding plate 405 through the elastic telescopic structure who constitutes between first guide arm 404 and first spring 402 and the cylinder 401 can cushion shielding plate 405, prevent that cylinder 401 from promoting the great damage lollipop body 3 of power that makes shielding plate 405 produce.

The working principle is as follows: when the transfer mechanism for producing the lollipops is used, firstly, the lollipop body 3 is conveyed through the conveyor 2, the C-shaped frame 407 and the shielding plate 405 are driven to be close to the lollipop body 3 through the air cylinder 401, the belt 408 can be in close contact with a stick at the bottom of the lollipop body 3 by virtue of the C-shaped frame 407 and the elastic telescopic structure formed between the second guide rod 406 and the second spring 403 and the air cylinder 401, the belt 408 is driven by the motor 409 to drive the lollipop body 3 to rotate, meanwhile, the shielding plate 405 is close to the lollipop body 3, the shielding plate 405 can be buffered by virtue of the elastic telescopic structure formed between the first guide rod 404 and the first spring 402 and the air cylinder 401 by virtue of the shielding plate 405, the lollipop body 3 is prevented from being damaged by the large force generated by the shielding plate 405 pushed by the air cylinder 401, the rotation of the lollipop body 3 is limited by the shielding plate 405, so that the lollipop body 3 cannot continuously rotate to position the lollipop body 3 after rotating to a fixed angle, the condenser 506 and the fan 505 are then turned on, the air inside the condenser tank 501 can be cooled by the condenser 506 and the condenser pipe 503, and then the air inside the condenser tank 501 is blown out from the nozzle 502 by the fan 505 to cool the lollipop body 3, thereby preventing the lollipop body 3 from melting.

Claims (7)

1. The utility model provides a transport mechanism for lollipop production, a serial communication port, includes equipment casing (1) and the antiseized subassembly of cooling (5), the upper wall of equipment casing (1) is inlayed and is had the antiseized subassembly of cooling (5), the antiseized subassembly of cooling (5) is including condensation box (501), shower nozzle (502), condenser pipe (503), protection casing (504), fan (505) and condensing engine (506), and shower nozzle (502) are installed to the lower extreme of condensation box (501), the inside of condensation box (501) is provided with condenser pipe (503), and the upper end of condensation box (501) is provided with protection casing (504), the inside of protection casing (504) has set gradually fan (505) and condensing engine (506) from a left side to the right side, shower nozzle (502) distribution has threely, and shower nozzle (502) of the left and right sides are symmetrical about shower nozzle (502) in the middle.

2. The transfer mechanism for lollipop production according to claim 1, characterized in that a conveyor (2) is mounted to the upper end of the lower wall of the device housing (1), and a lollipop body (3) is arranged to the upper end of the conveyor (2), and the positioning assemblies (4) are penetrated through the left and right walls of the device housing (1).

3. The transfer mechanism for lollipop production according to claim 2, characterized in that the positioning assembly (4) comprises a cylinder (401), a first spring (402), a first guide rod (404) and a baffle (405), and the first spring (402) is connected to one end of the cylinder (401) close to the central axis of the device housing (1), the first guide rod (404) is arranged inside the first spring (402), and the baffle (405) is arranged on one side of the first guide rod (404) close to the central axis of the device housing (1).

4. A transfer mechanism for lollipop production according to claim 3, wherein the first spring (402) enables a resilient connection between the shutter (405) and the cylinder (401), and wherein the first guide bar (404) and the shutter (405) are welded.

5. A transfer mechanism for lollipop production according to claim 3, wherein the positioning assembly (4) further comprises a second spring (403), a second guide rod (406), a C-shaped frame (407), a belt (408) and a motor (409), and the second spring (403) is arranged below the first spring (402), the second guide rod (406) is arranged inside the second spring (403), and the C-shaped frame (407) is connected to the side of the second guide rod (406) close to the central axis of the apparatus housing (1), the belt (408) is arranged on the side of the C-shaped frame (407) close to the central axis of the apparatus housing (1), and the motor (409) is connected to the lower end of the C-shaped frame (407).

6. A transfer mechanism for lollipop production according to claim 5, wherein the second guide bar (406) coincides with the horizontal centre line of the second spring (403) and the C-shaped shelf (407) and the second guide bar (406) are welded.

7. A transfer mechanism for lollipop production according to claim 2, characterized in that the centre axis of the conveyor (2) coincides with the centre axis of the device housing (1) and that the lollipop body (3) is symmetrical about the centre axis of the conveyor (2).

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