阅读说明：本技术 用于棒棒糖成型机的顶杆机构及其棒棒糖成型机 (A ejector pin mechanism for lollipop make-up machine and lollipop make-up machine thereof ) 是由 史传明 许刘烽 于 2019-11-04 设计创作，主要内容包括：本发明涉及一种用于棒棒糖成型机的顶杆机构及其棒棒糖成型机,所述顶杆机构包括固定盘以及若干顶杆,所述固定盘为柱状体,其外周面设置有轨道槽,所述固定盘两端分别旋转安装有第一转盘、第二转盘,第一转盘、第二转盘之间设置有若干导柱,导柱两端分别与第一转盘、第二转盘固定连接,所有导柱均匀分布在固定盘外周；任意数量的导柱上套装有一个滑块,滑块与导柱之间滑动配合,所述滑块上旋转安装有滚子,滚子置于轨道槽；所述顶杆与滑块一一对应,顶杆一端与滑块固定连接,另一穿过第二转盘伸出,与第二转盘滑动配合。利用滚子在轨道槽内滚动,驱动顶杆推动糖棒插入成型糖块内。(The invention relates to a mandril mechanism for a lollipop forming machine and the lollipop forming machine, wherein the mandril mechanism comprises a fixed disk and a plurality of mandrils, the fixed disk is a columnar body, the peripheral surface of the fixed disk is provided with a track groove, the two ends of the fixed disk are respectively and rotatably provided with a first rotating disk and a second rotating disk, a plurality of guide posts are arranged between the first rotating disk and the second rotating disk, the two ends of the guide posts are respectively and fixedly connected with the first rotating disk and the second rotating disk, and all the guide posts are uniformly distributed on the periphery of the; a slide block is sleeved on any number of guide posts, the slide block is in sliding fit with the guide posts, a roller is rotatably arranged on the slide block, and the roller is arranged in the track groove; the ejector rods correspond to the sliding blocks one to one, one end of each ejector rod is fixedly connected with the corresponding sliding block, and the other ejector rod penetrates through the second rotary table to extend out and is in sliding fit with the second rotary table. The roller rolls in the track groove to drive the mandril to push the sugar stick to be inserted into the formed sugar block.)

1. The ejector rod mechanism for the lollipop forming machine is characterized by comprising a fixed disk and a plurality of ejector rods, wherein the fixed disk is a cylindrical body, the peripheral surface of the fixed disk is provided with a track groove, two ends of the fixed disk are respectively and rotatably provided with a first rotating disk and a second rotating disk, a plurality of guide pillars are arranged between the first rotating disk and the second rotating disk, two ends of each guide pillar are respectively and fixedly connected with the first rotating disk and the second rotating disk, and all the guide pillars are uniformly distributed on the periphery of the fixed disk; a slide block is sleeved on any number of guide posts, the slide block is in sliding fit with the guide posts, a roller is rotatably arranged on the slide block, and the roller is arranged in the track groove; the ejector rods correspond to the sliding blocks one to one, one end of each ejector rod is fixedly connected with the corresponding sliding block, and the other ejector rod penetrates through the second rotary table to extend out and is in sliding fit with the second rotary table; the first rotary table and the second rotary table rotate synchronously, the guide pillar drives the sliding block to rotate around the fixed disc, the roller is driven to roll along the rail groove, the sliding block is driven to slide along the guide pillar, and the ejector rod is driven to stretch.

2. A lollipop forming machine comprises a rack and a forming die, wherein the forming die comprises a cover plate ring, the cover plate ring is rotatably installed on the rack, a plurality of sugar grooves are formed in the periphery of the cover plate ring, upper cover plates are installed on the sugar grooves in a one-to-one correspondence mode, the upper cover plates are closed, forming cavities are formed between the upper cover plates and the corresponding sugar grooves, a lollipop inserting flange is installed at one end of the cover plate ring, a plurality of lollipop grooves are uniformly formed in the periphery of the lollipop inserting flange, and a plurality of stamping rods are installed at the other; the rod grooves are communicated with the forming cavities in a one-to-one correspondence manner, and the punching rods are in one-to-one correspondence and extend into the forming cavities; the automatic rod inserting machine is characterized in that the rack is also provided with the rod ejecting mechanism as claimed in claim 1, a fixed disc of the rod ejecting mechanism is fixedly connected with the rack, a second rotary disc is fixedly connected with the rod inserting flange, and the rod ejecting rods correspond to the rod inserting grooves one by one and extend into the rod inserting grooves; the rack is also provided with a cam mechanism, the cam mechanism is in driving connection with the punch rod, and the punch rod is driven to punch blocks in the corresponding forming cavity for forming; the forming die rotates to drive the first rotary table and the second rotary table of the ejector rod mechanism to synchronously rotate, and the ejector rod is driven to push the sugar sticks in the corresponding stick grooves to extend into the forming cavity and be inserted into the formed sugar blocks.

3. A lollipop forming machine according to claim 2, wherein the cam mechanism includes a cam and a plurality of rollers; every two punching rods are in a group and are connected with a roller together; the cam is fixedly arranged on the frame, and the roller is connected with the cam in a matching way; the forming die rotates to drive the punching rods to rotate, the roller rotates along with the punching rods, and the roller is matched with the cam to drive the two punching rods connected with the roller to synchronously punch.

Technical Field

The invention relates to the technical field of food processing, in particular to a mandril mechanism for a lollipop forming machine and the lollipop forming machine.

Background

At present, the lollipop forming machine has low use and production efficiency.

The 201410310262.8K-level lollipop automatic molding device can improve the production efficiency though adopting the molding device; however, the cam mechanism is adopted to drive the punch rod to punch and the push rod to push the sugar, but the cam of the cam mechanism is in sliding friction fit, so that the friction resistance is large, and the deformation is easy to generate; in particular, the high speed rotating machines of the present application have an increased probability of deformation.

Disclosure of Invention

In order to solve the problems, the invention provides a mandril mechanism for a lollipop forming machine and the lollipop forming machine.

The technical scheme of the invention is as follows:

a mandril mechanism for a lollipop forming machine comprises a fixed disk and a plurality of mandrils, wherein the fixed disk is a columnar body, the peripheral surface of the fixed disk is provided with a track groove, two ends of the fixed disk are respectively and rotatably provided with a first rotating disk and a second rotating disk, a plurality of guide pillars are arranged between the first rotating disk and the second rotating disk, two ends of each guide pillar are respectively and fixedly connected with the first rotating disk and the second rotating disk, and all the guide pillars are uniformly distributed on the periphery of the fixed disk; a slide block is sleeved on any number of guide posts, the slide block is in sliding fit with the guide posts, a roller is rotatably arranged on the slide block, and the roller is arranged in the track groove; the ejector rods correspond to the sliding blocks one to one, one end of each ejector rod is fixedly connected with the corresponding sliding block, and the other ejector rod penetrates through the second rotary table to extend out and is in sliding fit with the second rotary table; the first rotary table and the second rotary table rotate synchronously, the guide pillar drives the sliding block to rotate around the fixed disc, the roller is driven to roll along the rail groove, the sliding block is driven to slide along the guide pillar, and the ejector rod is driven to stretch.

A lollipop forming machine comprises a rack and a forming die, wherein the forming die comprises a cover plate ring, the cover plate ring is rotatably installed on the rack, a plurality of sugar grooves are formed in the periphery of the cover plate ring, upper cover plates are installed on the sugar grooves in a one-to-one correspondence mode, the upper cover plates are closed, forming cavities are formed between the upper cover plates and the corresponding sugar grooves, a lollipop inserting flange is installed at one end of the cover plate ring, a plurality of lollipop grooves are uniformly formed in the periphery of the lollipop inserting flange, and a plurality of stamping rods are installed at the other; the rod grooves are communicated with the forming cavities in a one-to-one correspondence manner, and the punching rods are in one-to-one correspondence and extend into the forming cavities; the rack is also provided with an ejector rod mechanism as claimed in claim 1, a fixed disc of the ejector rod mechanism is fixedly connected with the rack, a second turntable is fixedly connected with the rod inserting flange, and the ejector rods correspond to the rod inserting grooves one by one and extend into the rod inserting grooves; the rack is also provided with a cam mechanism, the cam mechanism is in driving connection with the punch rod, and the punch rod is driven to punch blocks in the corresponding forming cavity for forming; the forming die rotates to drive the first rotary table and the second rotary table of the ejector rod mechanism to synchronously rotate, and the ejector rod is driven to push the sugar sticks in the corresponding stick grooves to extend into the forming cavity and be inserted into the formed sugar blocks; of course, the machine frame is also provided with a feeding mechanism, a rod conveying hopper and a driving mechanism, the feeding mechanism feeds materials, the rod conveying hopper conveys rods, and the driving mechanism drives the forming die to rotate.

During the use, the raw materials sugar strip that will process is sent to in the forming die through feeding mechanism, along with forming die's rotation, stick in the defeated stick fill falls the stick inslot in the forming die automatically simultaneously, at this moment, the upper cover plate is by lifting up the state to the closure state, cut off the sugar strip, and form the shaping chamber, the jumper bar pressurizes slowly under cam mechanism's effect simultaneously, the sugar piece in the stamping forming intracavity, the sugar piece shaping, the sugar stick in the stick inslot is inserted in the sugar piece under ejector pin mechanism's effect, forming die continues the rotation, when the fashioned lollipop to the lower right side, the upper cover plate will open the jumper bar and return stroke also, at this moment fashioned lollipop will be ejection of compact under the action of gravity, get into the discharge gate position of forming die lower right side, cool off and wait for next process.

The cam mechanism comprises a cam and a plurality of rollers; every two punching rods are in a group and are connected with a roller together; the cam is fixedly arranged on the frame, and the roller is connected with the cam in a matching way; the forming die rotates to drive the punching rods to rotate, the roller rotates along with the punching rods, and the roller is matched with the cam to drive the two punching rods connected with the roller to synchronously punch; every two punching rods are synchronously punched, so that the forming efficiency of the candy is increased, and the production efficiency of the lollipop is improved.

The invention has the advantages that the design is reasonable, the structure is simple, the roller rolls in the track groove, the ejector rod is driven to push the sugar rod to be inserted into the formed sugar block, the friction resistance is small, the deformation is not easy to generate, and the smooth operation is better in the high-speed operation process; a cam mechanism is further designed, and the two punching rods are driven to be punched and formed simultaneously, so that the production efficiency of the lollipop is greatly improved.

Drawings

Fig. 1 is a schematic view of a lollipop forming machine.

Fig. 2 is a schematic structural view of a forming die.

Fig. 3 is a schematic structural view of the ejector mechanism.

Fig. 4 is a schematic sectional structure view of the ejector mechanism.

Fig. 5 is a schematic view of the structure of the fixed disk.

In the figure, a forming die 2 of a frame 1, a cover plate ferrule 2-1, an upper cover plate 2-2, a plunger flange 2-3, a ram 2-4, a push rod mechanism 3, a fixed disk 3-1, a push rod 3-2, a track groove 3-1-1, a first rotary disk 3-3, a second rotary disk 3-4, a guide post 3-5, a slide block 3-6, a roller 3-7, a cam mechanism 4, a roller 4-2, a feeding mechanism 5 and a rod conveying hopper 6 are arranged.

Detailed Description

As shown in fig. 1-5, a lollipop forming machine comprises a frame 1 and a forming mold 2, wherein the forming mold 2 comprises a cover plate ferrule 2-1, the cover plate ferrule 2-1 is rotatably mounted on the frame 1, a plurality of sugar grooves are formed in the periphery of the cover plate ferrule 2-1, upper cover plates 2-2 are correspondingly mounted on the sugar grooves one by one, the upper cover plates 2-2 are closed, and form forming cavities together with the corresponding sugar grooves 2-1-1, a stick inserting flange 2-3 is mounted at one end of the cover plate ferrule 2-1, a plurality of stick grooves are uniformly formed in the periphery of the stick inserting flange 2-3, and a plurality of punching rods 2-4 are mounted at the other end of the cover plate ferrule 2-1; the rod grooves are communicated with the forming cavities in a one-to-one correspondence manner, and the plungers 2 to 4 are in a one-to-one correspondence manner and extend into the forming cavities; the machine frame 1 is also provided with an ejector rod mechanism 3, the ejector rod mechanism 3 comprises a fixed disk 3-1 and a plurality of ejector rods 3-2, the fixed disk 3-1 is a cylindrical body, the peripheral surface of the fixed disk is provided with a track groove 3-1-1, two ends of the fixed disk 3-1 are respectively and rotatably provided with a first rotary disk 3-3 and a second rotary disk 3-4, a plurality of guide pillars 3-5 are arranged between the first rotary disk 3-3 and the second rotary disk 3-4, two ends of the guide pillars 3-5 are respectively and fixedly connected with the first rotary disk 3-1 and the second rotary disk 3-4, and all the guide pillars 3-5 are uniformly distributed on the periphery of the fixed disk 3-1; a sliding block 3-6 is sleeved on the two guide posts 3-5, the sliding block 3-6 is in sliding fit with the guide posts 3-5, a roller 3-7 is rotatably arranged on the sliding block 3-6, and the roller 3-7 is arranged in the track groove 3-1-1; the ejector rods 3-2 correspond to the slide blocks 3-6 one by one, one end of each ejector rod 3-2 is fixedly connected with the slide block 3-6, and the other end of each ejector rod 3-2 penetrates through the second rotary table 3-4 to extend out and is in sliding fit with the second rotary table 3-4; the fixed disc 3-1 is fixedly connected with the rack 1, the second rotary disc 3-4 is fixedly connected with the rod inserting flange 2-3, and the ejector rods 3-2 correspond to the rod grooves 2-3-1 one by one and extend into the rod grooves 2-3-1; the rack 1 is also provided with a cam mechanism 4, and the cam mechanism 4 comprises a cam and a plurality of rollers 4-2; every two punching rods 2-4 are in a group and are connected with a roller 4-2 together; the cam is fixedly arranged on the frame 1, and the roller 4-2 is connected with the cam in a matching way; the forming die 2 rotates to drive the punch rods 2-4 to rotate, and the roller 4-2 rotates along with the punch rods and is matched with the cam to drive the two punch rods 2-4 connected with the cam to synchronously punch; the forming die 2 rotates to drive the first rotary table 3-3 and the second rotary table 3-4 of the ejector rod mechanism 3 to synchronously rotate, the guide pillar 3-5 drives the slide block 3-6 to rotate around the fixed disc 3-1, the roller 3-7 is driven to roll along the track groove 3-1-1, the slide block 3-6 is driven to slide along the guide pillar 3-5, and the ejector rod 3-2 is driven to push the sugar rod in the corresponding rod groove 2-3-1 to extend into the forming cavity and insert into the formed sugar block; of course, the frame 1 is also provided with a feeding mechanism 5, a rod conveying hopper 6 and a driving mechanism 7, the feeding mechanism 5 feeds materials, the rod conveying hopper 6 feeds rods, and the driving mechanism drives the forming die to rotate.

Because of the limited character expression, there exist practically unlimited specific structures, and it will be apparent to those skilled in the art that a number of improvements, decorations, or changes may be made without departing from the principles of the present invention, or the above technical features may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.