CN210782787U - Sugar block stripping driving device - Google Patents
Sugar block stripping driving device Download PDFInfo
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- CN210782787U CN210782787U CN201921373560.6U CN201921373560U CN210782787U CN 210782787 U CN210782787 U CN 210782787U CN 201921373560 U CN201921373560 U CN 201921373560U CN 210782787 U CN210782787 U CN 210782787U
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Abstract
The utility model discloses a sugar block takes off material drive arrangement belongs to sugaring mechanical technical field, has solved the inconvenient problem of taking off the material in the sugar block shaping back on current sugaring machinery, the technical measure who takes: a sugar block stripping driving device is arranged on the back side of a mold and comprises a connecting body, wherein a power mechanism is arranged on the connecting body, and a plurality of through mold cavities are arranged on the mold.
Description
Technical Field
The utility model relates to a drive arrangement that is used for realizing that fashioned sugar piece in sugar piece forming die mould goes up die cavity drops.
Background
Under the prior art condition, most sugar manufacturing machines generally utilize the compression roller to carry out the preforming to the sugar when preparing the sugar piece, then utilize and open the strip device and open the strip to the slice material, utilize the cutter to transversely cut into the sugar piece to the sugar strip at last, the sugar piece is at the cooling design of transportation in-process. The sugar making machine has the advantages of relatively poor structure compactness, large occupied space, relatively complex working procedures and high cost.
Chinese patent document (publication number: CN 206238291U) discloses a black sugar block forming die, which belongs to the field of black sugar block processing equipment, and the structure comprises a bottom frame and a demoulding frame, wherein the bottom frame and a die supporting frame are spliced for use; the chassis comprises a bottom plate, a sliding groove, a fixed template, a connecting block, a pawl and a pressing block, and the demolding frame comprises a side plate, a demolding plate, a partition plate and a rack. The utility model discloses convenient operation can realize the not black sugar piece of equidimension and stereotype, can once only accomplish all black sugar piece drawing of patterns, and the drawing of patterns is efficient, and the black sugar piece after the not fragile shaping of drawing of patterns in-process, finished product are of high quality.
The forming die is internally provided with a plurality of die cavities, materials are filled in the die cavities to form the brown sugar, but when the sugar blocks are subjected to material removal, the sugar blocks are separated by adopting a die-integrated sugar removal mode. Because the viscosity of the sugar material at the initial molding is relatively high, the desugaring rate cannot be well ensured when the mold is used for integrated desugaring, and the auxiliary manual desugaring rate is usually needed, so that the actual working efficiency is relatively low.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the technical problem that needs to solve is: the utility model provides a sugar piece takes off material drive arrangement, this drive arrangement conveniently takes off the material to the sugar piece after the shaping in the mould, is convenient for realize automated production.
For solving the technical problem, the utility model discloses the technical scheme who takes: a sugar block stripping driving device is arranged on the back side of a mold and comprises a connecting body, wherein a power mechanism is arranged on the connecting body, and a plurality of through mold cavities are arranged on the mold.
The coupling body may be a rod-shaped rotating shaft as described below, or may be similar to the shape and structure of the mold and have a size corresponding to the shape and structure of the mold. When the connecting body is a rod-shaped body, the push blocks are arranged in a line along the length direction of the rod-shaped body, and if the mould is continuously produced, the rod-shaped body can perform actions corresponding to the movement of the mould, such as rotation or translation of the rod-shaped body. The mold can also move intermittently, when the sugar block to be pushed out is positioned at the push-out position, the mold stops moving, so that the sugar blocks on the mold are pushed out line by the push block, and then the mold continues to move. If the connecting body corresponds to the size of the mold, the number and the positions of the push blocks correspond to those of the mold cavities on the mold one by one, and all the push blocks push and press the sugar blocks formed on the mold at one time. The power mechanism is preferably an air cylinder, and can also be a hydraulic cylinder, a cam mechanism, a screw rod mechanism or a gear-rack transmission pair, and the power mechanism provides power for the movement of the push block.
Furthermore, all the pushing blocks are arranged on a connecting rod, and the power mechanism is connected to the connecting rod. The connection stability of the push block is good, and the number of the power mechanisms can be effectively reduced.
Furthermore, the push block and the connecting rod are connected into a whole, and the push block is molded at the outer end part of the connecting rod. The push block and the connecting rod are connected into a whole, so that the position of the push block on the connecting rod is convenient to set, and the push block and the connecting rod are convenient to prepare in batches.
Furthermore, the power mechanism is two separated cylinders, and a piston rod in each cylinder is connected and fixed with the connecting rod. All the push blocks are driven to move by the two cylinders, the structure is simple, and the movement of the push blocks is convenient to control.
Further, the connecting body is a rotating shaft, the push block is arranged on the mounting end side of the rotating shaft, the other end side of the rotating shaft is a connecting end side, and the connecting end side is used for being connected with the supporting structure so that the mounting end side of the rotating shaft is in a cantilever shape. Correspondingly, the mould is cylindrical, and the rotating shaft can circumferentially rotate in a reciprocating manner to adapt to the rotation of the cylindrical mould, so that the pushing block can push the sugar block in the mould cavity. The installation end side of the rotating shaft is in a cantilever shape, so that the installation end side of the rotating shaft can be well adapted to the structural characteristics of the cylindrical die, and the sugar block in the die cavity on the die can be conveniently pushed.
Furthermore, the number of the supporting structures is two, and the two supporting structures are arranged in the axial direction of the rotating shaft in a separated mode. The two sets of support structures which are arranged in a separated mode can provide a good support effect for the rotating shaft, so that the stability of the side of the mounting end of the rotating shaft can be guaranteed, and the working requirements of the cylindrical die are well met.
Therefore, the utility model has the advantages that: set up this thrust unit at the dorsal part of mould, power unit through thrust unit drives the ejector pad, and the fashioned sugar piece of mould intracavity in the messenger mould is released the outside, is favorable to realizing taking off of sugar piece, can be favorable to improving the work efficiency of system sugar machinery for the automatic work degree of system sugar machinery is high.
Drawings
Fig. 1 is a front view of the sugar mass stripping driving device.
Fig. 2 is a perspective view of the sugar mass stripping driving device.
Fig. 3 is a relative axial position relationship diagram between the sugar-stripping driving device and the mold.
Detailed Description
The mold 5 related to the sugar-block stripping driving device is cylindrical, and a relative axial position relation diagram between the sugar-block stripping device and the mold is shown in fig. 3, and the sugar-block stripping device is arranged outside the mold 5 for the sake of clarity. A plurality of through cavities 6 are provided in the mold 5, and the cavities 6 are arranged in a row-by-row manner in the axial direction of the mold 5. The sugar mass stripping driving device is used for pushing out the sugar masses in the mold cavity 6 line by line from the back side of the mold 5 so as to strip the sugar masses from the mold 5.
The structure of the sugar-stripping driving device comprises a connecting body which extends into a mould 5. On the coupling body there is a cylinder 2, in correspondence of the number and position of the mould cavities 6 there are several push blocks 4, the cylinder 2 being used to drive these push blocks 4. The push blocks 4 are arranged in a row along the axial direction of the mold 5, and the positions and the number of the push blocks 4 correspond to those of a row of mold cavities 6 on the mold 5 in the axial direction. Under the action of the cylinder 2, the push block 4 pushes out a row of sugar blocks on the mold 5 to the outside of the mold cavity 6, wherein one push block 4 pushes out one sugar block in one mold cavity 6 to the outside of the mold cavity 6.
The push blocks 4 arranged in a row are connected together through a connecting rod 3, a piston rod in the cylinder 2 is fixedly connected with the connecting rod 3, and the cylinder 2 pushes the push blocks 4 through the connecting rod 3. Of course, the push block 4 can also be integrated with the coupling rod 3, and the push block 4 is formed at the outer end of the coupling rod 3. The two cylinders 2 are arranged separately, and piston rods in the cylinders 2 are respectively connected and fixed with two ends of the connecting rod 3.
In order to enable the cylindrical mold 5 to continuously rotate to work, the connecting body is a rotating shaft 1, a transmission mechanism is arranged between the rotating shaft 1 and the mold 5, so that linkage between the rotating shaft 1 and the mold 5 is realized, and when the push block 4 pushes the sugar blocks in the mold cavity 6, the push block 4 and the mold 5 synchronously rotate, so that the push stability of the sugar blocks is good. Otherwise, the mold 5 needs to rotate intermittently, the rotation of the mold 5 needs to be stopped for a certain time after rotating for an angle, and the next rotation is performed after the sugar block is pushed away, which affects the working efficiency of the sugar making machine. The push block 4 is arranged on the installation end side 11 of the rotating shaft 1, the other end side of the rotating shaft 1 is a coupling end side 12, and the coupling end side 12 is used for being coupled with a supporting structure so that the installation end side 11 of the rotating shaft 1 is in a cantilever shape. It is shown that the length of the coupling end side 12 of the rotation shaft 1 is relatively large, which allows a relatively large coupling area between the rotation shaft 1 and the support structure, facilitating the coupling stability of the rotation shaft 1. The two sets of supporting structures are arranged in the axial direction of the rotating shaft 1 in a separated mode. A box body is usually required to be arranged at the upper side part of the sugar making machine so as to seal corresponding devices on the sugar making machine, the supporting structure is a wall body of the box body, and a supporting bearing is required to be arranged between the wall body and the rotating shaft 1 so as to provide a stable supporting function for the rotation of the rotating shaft 1.
Claims (6)
1. A sugar block stripping driving device is arranged on the back side of a mold and comprises a connecting body, wherein a power mechanism is arranged on the connecting body, and a plurality of through mold cavities are arranged on the mold.
2. The sugar mass stripping drive as claimed in claim 1 wherein all of the pushers are mounted on a linkage bar to which the power mechanism is coupled.
3. The sugar mass stripping drive as claimed in claim 2 wherein the push block is integrally connected to the coupling rod, the push block being formed at an outer end of the coupling rod.
4. The sugar mass stripping driving device as claimed in claim 2, wherein the actuating mechanism is two separate cylinders, and a piston rod in each cylinder is connected and fixed with the connecting rod.
5. The sugar mass stripping driving device as claimed in any one of claims 1 to 4, wherein the coupling body is a rotary shaft, the push block is disposed at the mounting end side of the rotary shaft, the other end side of the rotary shaft is a coupling end side, and the coupling end side is used for coupling with the supporting structure to make the mounting end side of the rotary shaft in a cantilever shape.
6. The sugar mass stripping driving device as claimed in claim 5, wherein the number of the supporting structures is two, and the two supporting structures are arranged at intervals in the axial direction of the rotating shaft.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921373560.6U CN210782787U (en) | 2019-08-22 | 2019-08-22 | Sugar block stripping driving device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921373560.6U CN210782787U (en) | 2019-08-22 | 2019-08-22 | Sugar block stripping driving device |
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CN210782787U true CN210782787U (en) | 2020-06-19 |
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CN201921373560.6U Active CN210782787U (en) | 2019-08-22 | 2019-08-22 | Sugar block stripping driving device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115769849A (en) * | 2022-11-27 | 2023-03-10 | 浙江宝刚糖排设备有限公司 | Mold type sugar block forming machine and application thereof |
-
2019
- 2019-08-22 CN CN201921373560.6U patent/CN210782787U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115769849A (en) * | 2022-11-27 | 2023-03-10 | 浙江宝刚糖排设备有限公司 | Mold type sugar block forming machine and application thereof |
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