CN218007949U - Efficient embossing machine capable of continuously embossing - Google Patents

Abstract

The utility model discloses a high-efficient coining mill of knurling in succession, including the board, top-down is equipped with in proper order on the board and unreels subassembly, guide subassembly, knurling subassembly, blanking subassembly. The embossing assembly comprises an embossing die and a movable pressing tool, and an embossing channel for allowing the dough cover to pass through is defined between the embossing die and the movable pressing tool. The embossing die is fixedly arranged on the machine table through the locking piece, and one side of the embossing die, which is close to the movable pressing tool, is provided with a plurality of embossing concave cavities. The movable pressing tool can move towards the direction close to or away from the embossing die under the action of the driving part, and when the movable pressing tool moves towards the direction close to the embossing die, the movable pressing tool can extrude the dough sheet to enter the embossing cavity. The utility model discloses a high-efficient coining mill has improved knurling efficiency, and the safety in utilization is better.

Description

Efficient embossing machine capable of continuously embossing

Technical Field

The utility model relates to a food processing equipment technical field especially relates to a high-efficient coining mill of knurling in succession.

Background

With the improvement of living standard of people, the requirements of people on the appearance and the taste of the food as a fast selling product are higher and higher. The food with beautiful shape can bring new visual enjoyment to people and increase the interest of life. Taking cooked wheaten food as an example, the dough sheets with different shapes can greatly meet the visual enjoyment of people by extruding the dough sheets through an embossing machine.

The existing embossing machine mostly adopts the manual mode of tiling the wrapper on the table board and realizes embossing by pressing the embossing die onto the wrapper through the lifting mechanism driving the embossing die, but the embossing mode has lower efficiency, and in the process of tiling the wrapper on the table board, the embossing die has the potential safety hazard that the embossing die can be accidentally pressed down.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a high-efficient embossing machine capable of continuously embossing, which improves the embossing efficiency and has better use safety.

In order to achieve the above purpose, the utility model discloses a technical scheme is: an efficient embossing machine capable of continuously embossing comprises a machine table, wherein an unwinding assembly, a guiding assembly, an embossing assembly and a blanking assembly are sequentially arranged on the machine table from top to bottom. The embossing assembly comprises an embossing die and a movable pressing tool, and an embossing channel for allowing the dough cover to pass through is defined between the embossing die and the movable pressing tool; the embossing die is fixedly arranged on the machine table through a locking piece, and one side of the embossing die, which is close to the movable pressing tool, is provided with a plurality of embossing concave cavities. The movable pressing tool can move towards the direction close to or away from the embossing die under the action of the driving part, and when the movable pressing tool moves towards the direction close to the embossing die, the movable pressing tool can extrude the dough sheet to enter the embossing concave cavity.

The beneficial effects of the utility model reside in that: firstly, a rolled dough sheet is placed into the unwinding assembly to be unwound, then the unwound dough sheet is sent into the embossing assembly through the guide assembly, and after being embossed by the embossing assembly, a formed dough sheet is collected by the blanking assembly. In the embossing assembly, the movable pressing tool moves towards the embossing die, the dough sheet in the embossing channel can be extruded into the embossing concave cavity to form a dough sheet with a specific shape, and when the movable pressing tool leaves the embossing die, the formed dough sheet can leave the embossing concave cavity due to the traction effect of the dough sheet and fall into the blanking assembly under the action of self weight. The reciprocating motion through the activity tamp has realized the continuous knurling of face skin, and knurling efficiency improves greatly, directly sends into the face skin in the knurling subassembly through unreeling the cooperation of subassembly, guide subassembly moreover, need not manual operation, and then has improved the safety in utilization.

Further, the locking member includes a pair of locking bases fixed to the machine table, and an embossing mold is installed between the pair of locking bases. And one side of each locking base is also provided with a locking screw rod for locking the embossing die. The fixing of the embossing die is realized through the matching of the locking base and the locking screw rod, and the stability of the embossing die in the subsequent embossing process is ensured.

Further, the embossing die comprises a die base, and connecting shafts capable of being inserted into the locking base are integrally arranged at two ends of the die base.

Furthermore, the adjacent two sides of the locking base are respectively provided with a first slot for inserting the connecting shaft and a second slot for inserting the locking screw rod, and the first slot and the second slot are vertically arranged and are communicated with each other. The connecting shafts at the two ends of the die base are inserted into the first slots of the two locking bases respectively, then the locking screws are inserted into the second slots, and the locking screws are abutted to the connecting shafts to limit the connecting shafts, so that the die base is limited.

Further, the movable pressing tool comprises a U-shaped base, and a pressing roller facing the embossing mold is installed in the U-shaped base. One side of the U-shaped base, which is far away from the compression roller, is fixedly connected with a driving piece fixedly connected on the machine table. When the dough cover enters the embossing channel, the dough cover moves downwards more smoothly through the guide of the compression roller; during embossing, the driving piece drives the U-shaped base to move towards the embossing die, and the compression roller drives the dough sheet to move towards the embossing die until the dough sheet is pressed into the embossing concave cavity.

Further, the U-shaped base is provided with a guide rod in a penetrating mode along the moving direction of the U-shaped base, one end of the guide rod is fixedly connected to the machine table, and the other end of the guide rod is fixedly arranged on the die base in a penetrating mode. The new base of U removes spacing through the setting of guide bar, improves its shift position's accuracy.

Further, the guide assembly comprises a pair of guide rollers arranged on the machine table, and a guide channel for allowing the dough sheets to pass is defined between the guide rollers.

Furthermore, the unreeling assembly comprises an unreeling platform which is inclined downwards towards the direction of the guide assembly, and the lowest end of the unreeling platform can be aligned to the guide channel. The unreeling platform is also provided with a supporting frame for supporting the reeling roller, and the reeling roller is used for reeling the dough cover to be embossed.

Further, blanking subassembly is including being located the blanking platform of knurling passageway below, and blanking platform's bilateral symmetry is provided with the backplate.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic structural view of an embossing assembly according to an embodiment of the present invention;

fig. 3 is a schematic sectional view of an embossing assembly according to an embodiment of the present invention;

fig. 4 is a schematic sectional view of another view of the embossing assembly according to the embodiment of the present invention.

In the figure:

1-a machine platform; 2, unwinding a platform; 21-a support frame; 211-legs; 212-a support bracket; 3, rolling; 4-a guide roller; 51-an embossing die; 511-a mold base; 512-embossing cavities; 513-a connecting shaft; 52-a movable presser; 521-U-shaped base; 522-a press roll; 53-locking the base; 533-locking screw; 54-a guide bar; 55-cylinder; 6-a blanking table; 61-shield.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Examples

Referring to the attached drawing 1, the utility model discloses a high-efficient coining mill of seed ability continuous knurling, including board 1, top-down is equipped with in proper order on board 1 and unreels subassembly, guide subassembly, knurling subassembly, blanking subassembly. When the wrapper rolling device is used, firstly, the rolled wrapper is placed into the unwinding assembly to be unwound, then the unwound wrapper is sent into the embossing assembly through the guide assembly, and after being embossed by the embossing assembly, the formed dough sheet is collected by the blanking assembly.

Specifically, referring to fig. 1 and 3, the unwinding assembly includes an unwinding platform 2 inclined downward toward the guiding assembly, and the lowest end of the unwinding platform 2 can be aligned with the guiding assembly. The unreeling platform 2 is further provided with a support frame 21 for supporting the reeling roller 3, the support frame 21 comprises a support leg 211 fixedly connected on the unreeling platform 2, the upper end of the support leg 211 is fixedly connected with a support bracket 212 in a semi-arc structure, and the inner diameter of the support bracket 212 is matched with the reeling roller 3.

In the present embodiment, referring to fig. 1 and 3, the guiding assembly includes a pair of guiding rollers 4 mounted on the machine table 1, and a guiding channel for allowing the dough sheet to pass through is defined between the pair of guiding rollers 4. And the lowest end of the unreeling platform 2 is aligned with the uppermost end of the guide channel, so that the flour wrappers unreeled by the unreeling platform 2 can accurately enter the guide channel.

In the present embodiment, referring to fig. 2-4, the embossing assembly includes an embossing die 51 and a movable presser 52, and an embossing channel for allowing the dough cover to pass through is defined between the embossing die 51 and the movable presser 52. The embossing die 51 includes a die base 511 fixed to the machine 1 by a fastener, and a plurality of embossing cavities 512 are formed on a side of the die base 511 adjacent to the movable presser 52.

The locking member and the mold base are locked together in the following manner: the locking member includes a pair of locking bases 53 symmetrically and fixedly connected to the machine table 1, and a first slot is disposed on one side of each locking base 53 opposite to the corresponding first slot, and a second slot vertically disposed and communicated with the corresponding first slot is disposed on the other side of each locking base 53 adjacent to the corresponding first slot. The inner wall of the second slot is provided with a thread structure which can be matched with the locking screw 533. The connecting shafts 513 capable of being inserted into the first slots 531 are integrally arranged at the two ends of the mold base 511, and when the mold base is locked, the connecting shafts 513 at the two ends of the mold base 511 are respectively inserted into the first slots of the two locking bases 53, then the locking screws 533 are inserted into the second slots, and the locking screws 533 are screwed until the locking screws 533 abut against the connecting shafts 513. The locking base 53 and the locking screw 533 cooperate to fix the embossing mold 51, so as to ensure the stability of the embossing mold 51 during the subsequent embossing process.

The movable presser 52 can move towards or away from the embossing die 51 under the action of the driving member, and when the movable presser 52 moves towards the embossing die 51, the movable presser 52 can press the dough sheet into the embossing cavity 512.

The movable presser 52 includes a U-shaped base 521, and a pressing roller 522 facing the embossing die 51 is installed in the U-shaped base 521. One side of the U-shaped base 521 away from the press roller 522 is fixedly connected to a driving member fixedly connected to the machine table 1. The driving member is used for driving the U-shaped base 521 to move towards or away from the embossing die 51. When the dough sheet enters the embossing channel, the driving part is started to drive the U-shaped base 521 to move towards the direction close to the embossing die 51, and the pressing roller 522 moves along with the U-shaped base and drives the dough sheet to enter the embossing concave cavity 512; the reverse starting driving element drives the U-shaped base 521 to move towards the direction away from the embossing die 51, the press roller 522 leaves the embossing die 51, and at the moment, the formed dough sheet in the embossing cavity 512 can leave the embossing cavity 512 due to the integral pulling action of the dough sheet and fall into the blanking assembly under the self-weight action. When the embossing is not performed, the pressing roller 522 can guide the dough cover to move downwards, so that the dough cover can move more smoothly, and when the embossing is performed, the pressing roller 522 can extrude the dough cover to enter the embossing concave cavity 512, so that the embossing operation is realized.

In order to guide the movement of the U-shaped base 521, a guide rod 54 is disposed along the moving direction of the U-shaped base 521, and the guide rod 54 is inserted into the U-shaped base 521, and one end of the guide rod is fixedly connected to the machine platform 1, and the other end of the guide rod is fixedly inserted into the mold base 511. When the driving member is activated, the U-shaped base 521 can move along the guide bar 54. In this embodiment, the driving member may employ a cylinder 55.

In this embodiment, the blanking assembly includes a blanking table 6 located below the embossing passage, the blanking table 6 is used for receiving the formed dough sheet, and two sides of the blanking table are symmetrically provided with guard plates 61. The blanking subassembly is still including the winding roller group that is used for collecting the face skin waste material, because winding roller group is prior art, no longer specifically gives unnecessary details in this embodiment.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (9)

1. The utility model provides a high-efficient coining mill of ability continuous coining, includes board (1), its characterized in that: the machine table (1) is sequentially provided with an unreeling component, a guide component, an embossing component and a blanking component from top to bottom; the embossing assembly comprises an embossing die (51) and a movable pressing tool (52), wherein an embossing channel for allowing the dough cover to pass through is defined between the embossing die (51) and the movable pressing tool (52); the embossing die (51) is fixedly arranged on the machine table (1) through a locking piece, and a plurality of embossing cavities (512) are formed in one side, close to the movable pressing tool (52), of the embossing die; the movable pressing tool (52) can move towards the direction close to or away from the embossing die (51) under the action of the driving part, and when the movable pressing tool (52) moves towards the direction close to the embossing die (51), the movable pressing tool (52) can extrude a dough sheet into the embossing cavity (512).

2. The high efficiency embossing machine as set forth in claim 1, wherein: the locking piece comprises a pair of locking bases (53) fixedly connected to the machine table (1), and the embossing mold (51) is installed between the pair of locking bases (53); and one side of each locking base (53) is also provided with a locking screw (533) used for locking the embossing die (51).

3. The high efficiency embossing machine as set forth in claim 2, wherein: the embossing die (51) comprises a die base (511), and two ends of the die base (511) are integrally provided with a connecting shaft (513) which can be inserted into the locking base (53).

4. The high efficiency embossing machine according to claim 3, wherein: the adjacent two sides of the locking base (53) are respectively provided with a first slot for inserting the connecting shaft (513) and a second slot for inserting the locking screw (533), and the first slot and the second slot are vertically arranged and are communicated with each other.

5. The high efficiency embossing machine as claimed in claim 3 or 4, characterized in that: the movable pressing tool (52) comprises a U-shaped base (521), and a pressing roller (522) facing the embossing die (51) is mounted in the U-shaped base (521); one side of the U-shaped base (521) far away from the press roller (522) is fixedly connected with the driving piece fixedly connected to the machine table (1).

6. The high efficiency embossing machine as set forth in claim 5, wherein: the U-shaped base (521) is provided with a guide rod (54) in a penetrating manner along the moving direction, one end of the guide rod (54) is fixedly connected to the machine table (1), and the other end of the guide rod is fixedly arranged on the die base (511) in a penetrating manner.

7. The high efficiency embossing machine as set forth in claim 1, wherein: the guide assembly comprises a pair of guide rollers (4) installed on the machine table (1), and a guide channel for flour skin to pass through is defined between the guide rollers (4).

8. The high efficiency embossing machine as set forth in claim 7, wherein: the unwinding assembly comprises an unwinding platform (2) which is inclined downwards towards the direction of the guide assembly, and the lowest end of the unwinding platform (2) can be aligned to the guide channel; the rolling device is characterized in that a support frame (21) used for supporting the rolling roller (3) is further installed on the rolling platform (2), and the rolling roller (3) is used for rolling the wrapper to be embossed.

9. The high efficiency embossing machine as set forth in claim 1, wherein: the blanking assembly comprises a blanking table (6) located below the embossing channel, and guard plates (61) are symmetrically arranged on two sides of the blanking table (6).

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