CN215032837U - Circular mould machine - Google Patents

Abstract

The utility model provides a circular mould machine belongs to mechanical tool technical field. The problems that a circular die machine in the prior art is low in flexibility and stability and the like are solved. The utility model discloses a shell and base, be provided with Y axle direction movable plate group on the base, be provided with pay-off subassembly on the Y axle direction movable plate group, bridge position subassembly, crooked subassembly, pay-off subassembly sets up rotatable coupling with Y axle direction movable plate group, crooked subassembly sets up rotatable coupling with Y axle direction movable plate group, the right side of base is connected with the support column, be provided with straight sword guide roller on the support column, straight sword guide roller and pay-off subassembly, bridge position subassembly, crooked subassembly's pan feeding mouth is in same level, Y axle direction movable plate group's left side still is provided with receipts feed bin and goes out the feed bin. The utility model has the advantages of various functions and the like.

Description

Circular mould machine

Technical Field

The utility model belongs to the mechanical tool field, in particular to circular mould machine.

Background

In the real life, carton and plastic product all are obvious, produce this type of product and need use corresponding mould sword, carry out the cross cutting to the raw materials through the mould sword, technologies such as indentation can realize big batch high-efficient production, the operating speed and the production efficiency that use circular knife circle mould all are higher than the concora crush flat die, and in the aspect of the cross cutting quality, because of circular knife circle mould is line contact, operating pressure is little, product shaping stability is higher relatively, and produce this type of mould sword and just need use dedicated mould sword processing machine to cut the shaping processing to the steel cutter.

The circular die machine in the prior art can only process straight cutters, and has the defects of large diameter, high processing difficulty, low flexibility and low stability of circular arc cutters.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bridge position subassembly for circular mould machine to the above-mentioned problem that exists among the prior art.

The utility model discloses an aim at accessible is realized by following technical scheme: the utility model provides a circular mould machine, its characterized in that, includes shell and base, the base on be provided with Y axle direction movable plate group, Y axle direction movable plate group on be provided with feeding subassembly, bridge position subassembly, crooked subassembly, feeding subassembly with Y axle direction movable plate group set up to rotatable coupling, crooked subassembly with Y axle direction movable plate group set up to rotatable coupling, the right side of base be connected with the support column, the support column on be provided with straight sword guide roller, straight sword guide roller with feeding subassembly, bridge position subassembly, crooked subassembly's pan feeding mouth be in same level, the left side of Y axle direction movable plate group still be provided with and receive feed bin and go out the feed bin.

The utility model discloses a theory of operation: the material is sent into a circular molding machine from a straight knife guide roller, processed by a feeding assembly, a bridge position assembly and a bending assembly, and finally falls into a receiving bin after the processing of the bending assembly is finished; the circular molding machine can switch modes, after the modes are switched, the feeding assembly and the bending assembly rotate towards the direction of the bridge position assembly, and the feeding ports of the three assemblies form a closed circular ring for manufacturing.

In the above circular molding machine, the Y-axis direction moving plate group is provided as a Y-axis direction moving bottom plate, a slide rail, and a Y-axis direction moving top plate.

In the circular die machine, the bottom of the feeding component is connected with a feeding component rotating motor, the bottom of the bending component is provided with a bending component rotating motor, and the Y-axis direction moving plate group is matched with the feeding component rotating motor and the bending component rotating motor.

In the circular die machine, the feeding assembly comprises a feeding base, a feeding mechanism, a pressing device, a control mechanism and a stabilizing mechanism, the feeding base is fixedly connected with the feeding mechanism, the feeding assembly comprises a guide device and a conveying device, the pressing device is used for pressing the blade, the control mechanism comprises a feeding control device and an adjusting device, the adjusting device is used for adjusting the trend of the blade in the feeding process, the stabilizing mechanism comprises a blade protecting device and a feeding stabilizing device, the blade protecting device is used for protecting the blade in the conveying process, and the feeding stabilizing device is used for stabilizing the blade protecting device in the conveying process.

In foretell circular mould machine, the bridge position subassembly include the bridge position base, the base on be provided with bridge position mechanism, position adjustment mechanism and protection machanism, bridge position mechanism include bridge position power device, power briquetting and bridge position mould, bridge position power device make the motion of power briquetting, the bridge position mould include mould and lower mould, last mould pass through elastic component with the lower mould and be connected, position adjustment mechanism include mould adjusting device and protection machanism position adjustment device, mould adjusting device control the motion of bridge position mould, protection machanism position adjustment device control protection machanism displacement, the bridge position subassembly still be provided with drive mechanism and lead screw adjusting device.

In the circular die machine, the bending assembly comprises a bending base and a working area, a bending base sliding rail is arranged on the base and connected with a sliding block, the sliding block is connected with a supporting block, the supporting block is connected with a supporting plate, the working area is arranged on the supporting plate, a belt pulley area and a pressing cutter area are arranged on the supporting plate, the belt pulley area is connected with a bending motor, the pressing cutter area is connected with a breaking area, and a switching cylinder is further connected to the rear portion of the base.

In the circular die machine, the dividing area is provided with a bending module and a dividing module, the bending module comprises a bending inner die, a bending outer die and a bending knife edge, and the dividing module is provided with a shearing knife edge.

In the circular die machine, the switching cylinder is connected with a connecting rod, the connecting rod penetrates through the switching cylinder, the connecting rod is connected with the supporting block, and the switching cylinder controls the working area to move by controlling the connecting rod to move.

In foretell circular mould machine, blade protection device be provided with two arm lock, conveyor be provided with pay-off main wheel and pay-off auxiliary wheel, two arm lock set up in pay-off main wheel and pay-off auxiliary wheel both sides, two arm lock bottoms all be provided with back guarded sword gyro wheel, the arm lock tip on all be provided with the slide opening, the slide opening all be provided with preceding guarded sword gyro wheel, the slide opening on be provided with the slip rocking arm, slip rocking arm control preceding guarded sword gyro wheel along slide opening reciprocating motion.

In the circular die machine, the bridge die is slidably arranged with the base through a chute, the die adjusting device is provided with a die adjusting motor, and the die adjusting motor controls the bridge die to reciprocate through the transmission mechanism and the screw rod adjusting device.

The utility model has the characteristics of high quality.

Drawings

Fig. 1 is a schematic diagram of the components of the present invention.

Fig. 2 is a schematic view of the bridge site assembly of the present invention.

Fig. 3 is a schematic view of the feeding assembly of the present invention.

Fig. 4 is a schematic view of a bending assembly of the present invention.

In the figure, 1, a housing; 2. a base; 3. a Y-axis direction moving plate group; 6. a feeding assembly; 7. a bridge site assembly; 8. a bending assembly; 9. a support pillar; 10. a straight knife guide roller; 11. a material receiving bin; 12. moving the bottom plate in the Y-axis direction; 13. a slide rail; 14. moving the top plate in the Y-axis direction; 15. a feeding component rotating motor; 16. a bending member rotating motor; 17. a feeding base; 28. a bridge site base; 32. a bridge position power device; 33. power briquetting; 34. a bridge position die; 35. an upper die; 36. a lower die; 37. an elastic component; 40. bending the base; 41. a working area; 42. bending the base slide rail; 43. a slider; 44. a support block; 45. a support plate; 46. A pulley area; 47. a cutter pressing area; 48. bending the motor; 49. dividing the region; 50. switching the air cylinder; 51. a bending module; 52. a breaking module; 53. bending the inner die; 54. bending the outer die; 55. bending a knife edge; 56. cutting off a knife edge; 57. a connecting rod; 58. clamping arms; 59. a main feeding wheel; 60. a feeding auxiliary wheel; 61. a rear guard roller; 62. a slide hole; 63. a front guard roller; 64. a sliding rocker arm; 65. a chute; 67. a mold adjustment motor; 68. a transmission mechanism; 69. a screw rod adjusting device; 70. and a discharging bin.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-4, the circular molding machine includes a housing 1 and a base 2, a Y-axis direction moving plate group 3 is disposed on the base 2, a feeding assembly 6, a bridge position assembly 7 and a bending assembly 8 are disposed on the Y-axis direction moving plate group 3, the feeding assembly 6 and the Y-axis direction moving plate group 3 are rotatably connected, the bending assembly 8 and the Y-axis direction moving plate group 3 are rotatably connected, a support column 9 is connected to the right side of the base 2, a straight knife guide roller 10 is disposed on the support column 9, the straight knife guide roller 10, the feeding assembly 6, the bridge position assembly 7 and a feeding port of the bending assembly 8 are at the same horizontal height, a material receiving bin 11 and a material discharging bin 70 are further disposed on the left side of the Y-axis direction moving plate group 3, the base is disposed inside the housing 1, the Y-axis direction moving plate group 3 is disposed on the base, the Y-axis direction moving plate group 3 is a moving plate group covering the base, can slide movable plate group adjustment movable plate group through slide rail 13 and organize the position of the work part on the group, the order that the material got into is for going into straight sword guide roller 10 earlier, straight sword guide roller 10 props up the material, then get into feeding mechanism's pan feeding mouth, at the pan feeding mouth that gets into bridge position subassembly 7, the pan feeding mouth of reentrant crooked subassembly 8, three subassembly is processed the material at this in-process, and accomplish final processing in crooked subassembly 8, the material that processes is stored in collecting bin 11, again from a feed bin 70 delivery.

In more detail, the Y-axis direction moving plate group 3 is provided with a Y-axis direction moving bottom plate 12, a slide rail 13, and a Y-axis direction moving top plate 14, the bottom plate of the Y-axis direction moving plate group 3 is fixed, and the top plate is moved in the width direction of the bottom plate by the slide rail 13 to adjust the position of the component on the top plate, thereby adjusting the operating state.

In more detail, the bottom of the feeding assembly 6 is connected with a feeding assembly rotating motor 15, the bottom of the bending assembly 8 is provided with a bending assembly rotating motor 16, the Y-axis direction moving plate group 3 is matched with the feeding assembly rotating motor 15 and the bending assembly rotating motor 16, and the feeding assembly rotating motor 15 and the bending assembly rotating motor 16 control the rotation of the feeding assembly 6 and the bending assembly 8 so as to adjust the working states of the three assemblies.

In further detail, the feeding assembly 6 comprises a feeding base 17, a feeding mechanism, a pressing device, a control mechanism and a stabilizing mechanism, the feeding base 17 is fixedly connected with the feeding mechanism, the feeding mechanism comprises a guiding device and a conveying device, the pressing device is used for pressing the blade, the control mechanism comprises a feeding control device and an adjusting device, the adjusting device is used for adjusting the trend of the blade in the feeding process, the stabilizing mechanism comprises a blade protecting device and a feeding stabilizing device, the blade protecting device is used for protecting the blade in the conveying process, the feeding stabilizing device is used for stabilizing the blade protecting device in the conveying process, and falling or displacement of materials caused by unstable fixation of the feeding assembly 6 during feeding is avoided.

In further detail, the bridge position assembly 7 comprises a bridge position base 28, a bridge position mechanism, a position adjusting mechanism and a protecting mechanism are arranged on the base, the bridge position mechanism comprises a bridge position power device 32, a power pressing block 33 and a bridge position mold 34, the bridge position power device 32 enables the power pressing block 33 to move, the bridge position mold 34 comprises an upper mold 35 and a lower mold 36, the upper mold 35 is connected with the lower mold 36 through an elastic assembly 37, the position adjusting mechanism comprises a mold adjusting device and a protecting mechanism position adjusting device, the mold adjusting device controls the bridge position mold 34 to move, the protecting mechanism position adjusting device controls the protecting mechanism to move, and the bridge position assembly 7 is further provided with a transmission mechanism 68 and a lead screw adjusting device 69.

In more detail, the bending assembly 8 comprises a bending base 40 and a working area 41, a sliding rail 13 of the bending base 40 is arranged on the base, a sliding block 43 is connected to the sliding rail 13 of the bending base 40, the sliding block 43 is connected with a supporting block 44, the supporting block 44 is connected with a supporting plate 45, the working area 41 is arranged on the supporting plate 45, a belt pulley area 46 and a pressing cutter area 47 are arranged on the supporting plate 45, the belt pulley area 46 is connected with a bending motor 48, the pressing cutter area 47 is connected with a breaking area 49, a switching cylinder 50 is further connected to the rear portion of the base, the base is used for installing all working devices, and the working area 41 formed by the supporting block 44 can move on the bottom plate through the sliding block 43, so that the purposes of bending and cutting can be achieved.

In more detail, the dividing area 49 is provided with a bending module 51 and a dividing module 52, the bending module 51 comprises a bending inner die 53, a bending outer die 54 and a bending knife edge 55, the dividing module 52 is provided with a shearing knife edge 56, the bending inner die 53 is provided with symmetrical openings, and when the bending inner die 53 rotates, materials are pressed by a pressing knife block, so that the materials are bent.

In more detail, the switching cylinder 50 is connected with a connecting rod 57, the connecting rod 57 penetrates through the switching cylinder 50, the connecting rod 57 is connected with the supporting block 44, the switching cylinder 50 controls the working area 41 to move by controlling the movement of the connecting rod 57, the switching cylinder 50 switches the working state, and the connecting rod 57 is connected with the supporting block 44 to control the working area 41 to move forwards and backwards, so that the bending knife edge 55 and the shearing knife edge 56 are switched.

In more detail, the blade protecting device is provided with two clamping arms 58, the conveying device is provided with a feeding main wheel 59 and a feeding auxiliary wheel 60, the control device controls the clamping arms 58, the two clamping arms 58 are arranged at two sides of the feeding main wheel 59 and the feeding auxiliary wheel 60, the bottoms of the two clamping arms 58 are respectively provided with a rear cutter protecting roller 61, the end parts of the clamping arms 58 are respectively provided with a sliding hole 62, the sliding holes 62 are respectively provided with a front cutter protecting roller 63, the sliding holes 62 are provided with a sliding rocker arm 64, the sliding rocker arms 64 control the front cutter protecting rollers 63 to reciprocate along the sliding holes 62, the front guard roller 63 and the rear guard roller 61 are matched to limit the track of the blade within an expected track, so that the blade is prevented from being undesirably displaced in the conveying process, the sliding rocker arm 64 can adjust the position of the front guard roller 63 to adapt to different production conditions, the rear guard roller 61 realizes reciprocating movement through the clamping arm 58 to realize handling of blades of various specifications.

In a further elaboration, the bridge position mold 34 is slidably arranged with the base through the sliding groove 65, the mold adjusting device is provided with a mold adjusting motor 67, the mold adjusting motor 67 controls the bridge position mold 34 to reciprocate through a transmission mechanism 68 and a screw rod adjusting device 69, the mold adjusting motor 67 can accurately control the bridge position mold 34 to move to positions required by different production requirements, and various processing requirements are well met.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although a large number of terms are used here more, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a circular mould machine which characterized in that: comprises a shell (1) and a base (2), wherein the base (2) is provided with a Y-axis direction moving plate group (3), the Y-axis direction moving plate group (3) is provided with a feeding component (6), a bridge position component (7) and a bending component (8), the feeding component (6) is rotatably connected with the Y-axis direction moving plate group (3), the bending component (8) is rotatably connected with the Y-axis direction moving plate group (3), a supporting column (9) is connected to the right side of the base (2), a straight knife guide roller (10) is arranged on the supporting column (9), the straight knife guide roller (10) and the feeding ports of the feeding component (6), the bridge position component (7) and the bending component (8) are positioned at the same horizontal height, the left side of the Y-axis direction moving plate group (3) is also provided with a material receiving bin (11) and a material discharging bin (70).

2. The circular die machine according to claim 1, wherein: the Y-axis direction moving plate group (3) is provided with a Y-axis direction moving bottom plate (12), a slide rail (13) and a Y-axis direction moving top plate (14).

3. The circular die machine according to claim 1, wherein: the feeding assembly rotating motor (15) is connected to the bottom of the feeding assembly (6), the bending assembly rotating motor (16) is arranged at the bottom of the bending assembly (8), and the Y-axis direction moving plate group (3) is matched with the feeding assembly rotating motor (15) and the bending assembly rotating motor (16).

4. The circular die machine according to claim 1, wherein: the feeding assembly (6) comprises a feeding base (17), a feeding mechanism, a pressing device, a control mechanism and a stabilizing mechanism, the feeding base (17) is fixedly connected with the feeding mechanism, the feeding mechanism comprises a guide device and a conveying device, the pressing device is used for pressing the blade, the control mechanism comprises a feeding control device and an adjusting device, the adjusting device is used for adjusting the trend of the blade in the feeding process, the stabilizing mechanism comprises a blade protecting device and a feeding stabilizing device, the blade protecting device is used for protecting the blade in the conveying process, and the feeding stabilizing device is used for stabilizing the blade protecting device in the conveying process.

5. The circular die machine according to claim 1, wherein: the bridge position component (7) comprises a bridge position base (28), a bridge position mechanism, a position adjusting mechanism and a protection mechanism are arranged on the base, the bridge position mechanism comprises a bridge position power device (32), a power pressing block (33) and a bridge position die (34), the bridge position power device (32) enables the power pressing block (33) to move, the bridge position die (34) comprises an upper die (35) and a lower die (36), the upper die (35) is connected with the lower die (36) through an elastic component (37), the position adjusting mechanism comprises a die adjusting device and a protecting mechanism position adjusting device, the die adjusting device controls the movement of the bridge position die (34), the protection mechanism position adjusting device controls the displacement of the protection mechanism, and the bridge position assembly (7) is further provided with a transmission mechanism (68) and a screw rod adjusting device (69).

6. The circular die machine according to claim 1, wherein: the bending component (8) comprises a bending base (40) and a working area (41), a bending base sliding rail (42) is arranged on the base, a sliding block (43) is arranged on the bending base sliding rail (42) in a connected mode, the sliding block (43) is connected with a supporting block (44), the supporting block (44) is connected with a supporting plate (45), the working area (41) is arranged on the supporting plate (45), a belt pulley area (46) and a cutter pressing area (47) are arranged on the supporting plate (45), the belt pulley area (46) is connected with a bending motor (48), the cutter pressing area (47) is connected with a breaking area (49), and a switching cylinder (50) is further connected to the rear portion of the base.

7. The circular die machine according to claim 6, wherein: the dividing area (49) is provided with a bending module (51) and a dividing module (52), the bending module (51) comprises a bending inner die (53), a bending outer die (54) and a bending knife edge (55), and the dividing module (52) is provided with a shearing knife edge (56).

8. The circular die machine according to claim 6, wherein: the switching cylinder (50) is connected with a connecting rod (57), the connecting rod (57) penetrates through the switching cylinder (50), the connecting rod (57) is connected with the supporting block (44), and the switching cylinder (50) controls the movement of the working area (41) by controlling the movement of the connecting rod (57).

9. The circular die machine according to claim 4, wherein: blade protection device be provided with two arm lock (58), conveyor be provided with pay-off main wheel (59) and pay-off pinion (60), two arm lock (58) set up in pay-off main wheel (59) and pay-off pinion (60) both sides, two arm lock (58) bottom all be provided with back guarded sword gyro wheel (61), arm lock (58) tip on all be provided with slide opening (62), slide opening (62) all be provided with preceding guarded sword gyro wheel (63), slide opening (62) on be provided with slip rocking arm (64), slip rocking arm (64) control preceding guarded sword gyro wheel (63) follow slide opening (62) reciprocating motion.

10. The circular die machine according to claim 5, wherein: the bridge die (34) is slidably arranged with the base through a sliding groove (65), the die adjusting device is provided with a die adjusting motor (67), and the die adjusting motor (67) controls the bridge die (34) to reciprocate through the transmission mechanism (68) and the screw rod adjusting device (69).

Images