CN222828167U - A petal shaping device for artificial flower production - Google Patents

Abstract

The utility model relates to the technical field of artificial flower production, and specifically to a petal shaping device for artificial flower production, comprising a bottom plate, a shaping mold assembly is arranged near the center position of the top of the bottom plate, the bottom plate and the shaping mold assembly are detachably connected through a first connecting assembly, a pressing mold assembly is arranged above the shaping mold assembly, and the pressing mold assembly and the shaping mold assembly are arranged in correspondence with each other up and down, guide columns are symmetrically arranged on both sides of the shaping mold assembly at the top of the bottom plate, the top of the guide column is fixedly connected with the same top plate, a moving plate is slidably arranged between the two guide columns, the moving plate and the pressing mold assembly are detachably connected through a second connecting assembly, and driving devices for driving the moving plate to move up and down are symmetrically arranged at the positions on both sides between the top plate and the moving plate; the utility model has reasonable structural design and convenient operation, and can quickly replace molds according to different petal shape requirements, so that petals of different shapes can be pressed and shaped.

Description

Petal shaping device for artificial flower production

Technical Field

The utility model relates to the technical field of artificial flower manufacturing, in particular to a petal shaping device for artificial flower manufacturing.

Background

The artificial flowers are artificial flowers made of materials such as silk, crepe paper, polyester, plastics, crystal and the like, and dried flowers baked from fresh flowers, and are commonly called artificial flowers in the industry. As the name implies, the artificial flower takes fresh flowers as the blue book and is imitated by cloth, yarn, silk, plastics and other raw materials. Today, the more refined the process of the artificial flowers, the more spurious. In addition to various flowers, there are also varieties of simulated leaves, simulated branches, simulated weeds, simulated trees, simulated plants, etc. in the market.

Through retrieving the petal suppression device that bulletin number is CN 218571483U's a kind was used for emulation flower preparation, the mount pad bottom surface is provided with the mounting panel, and the mounting panel bottom surface is provided with embossing mold utensil, and balanced base top surface is provided with the workstation, and the workstation top surface is provided with the shaping platform, and the branch side is provided with electronic push pedal, and electronic push pedal side is provided with L template, and L template bottom surface is provided with the scraper. This a petal suppression device for emulation flower preparation drives the embossing mold that the cooperation slider drove the mounting panel bottom surface through reciprocating screw and aims at the shaping platform and compress, and the scraper of L template bottom surface aligns the shaping platform side and adjusts to branch inboard after fixing a position simultaneously to make reciprocating screw drive embossing mold carry out vertical reciprocate and aim at the lamella groove and carry out accurate suppression, and when the shaping platform rotates, the scraper shovels fashioned emulation flower petal to the workstation top surface, and the workman carries out unification and collects, thereby improves workman's work efficiency.

However, the device has some defects in the using process, and the pressing die and the forming table in the device are fixedly arranged and can only press and shape one type of petals, but cannot press and shape petals with different shapes.

Disclosure of utility model

The utility model aims to solve the main technical problem of providing the petal shaping device for the artificial flower production, which has reasonable structural design and convenient operation, and can be used for rapidly replacing a die according to the shape requirements of petals of different shapes, so that petals of different shapes can be pressed and shaped.

In order to solve the technical problems, the utility model provides the following technical scheme:

The utility model provides a petal setting device for artificial flower preparation, which comprises a base plate, the bottom plate top is close to central point department and is provided with the design mould subassembly, can dismantle the connection through first coupling assembling between bottom plate and the design mould subassembly, the top of design mould subassembly is provided with the compacting tool set spare, and compacting tool set spare and design mould subassembly are corresponding the setting from top to bottom, the bottom plate top is located design mould subassembly bilateral symmetry and is provided with the guide post, the same roof of top fixedly connected with of guide post, slide is provided with the movable plate between two guide posts, can dismantle the connection through the second coupling assembling between movable plate and the compacting tool set spare, both sides position department symmetry between roof and the movable plate is provided with the drive arrangement of drive movable plate reciprocates.

The following is a further optimization of the above technical solution according to the present utility model:

The shaping die assembly comprises a shaping module, wherein a plurality of shaping dies are uniformly and fixedly arranged at the top of the shaping module, the pressing die assembly comprises a pressing module, a plurality of pressing dies are uniformly and fixedly arranged at the bottom of the pressing module, and the pressing dies correspond to the shaping dies one by one.

It is further optimized that the positioning rods are fixedly connected to the bottom of the shaping module and the four corners of the top of the pressing module, and positioning grooves matched with the positioning rods are formed in the top of the bottom plate and the bottom of the moving plate.

Further optimized is that the first connecting component comprises two grooves symmetrically arranged at the top of the shaping module, a plurality of jacks are arranged on the inner walls of the two grooves, which are far away from each other, clamping plates are movably arranged in the two grooves, a plurality of inserted bars are arranged on the side walls of the two clamping plates, which are far away from each other, and the inserted bars are matched with the jacks.

Further optimized is that the top of the bottom plate is provided with a movable groove, a first driving assembly for driving the two clamping plates to be close to or far away from each other is arranged in the movable groove, the first driving assembly comprises a double-head threaded rod which is rotatably arranged in the movable groove, the rotation directions of the two ends of the double-head threaded rod are opposite, and one end of the double-head threaded rod penetrates through the bottom plate to extend to the outer side of the bottom plate and is fixedly connected with a handle.

Further preferably, the double-head threaded rod is symmetrically and threadedly connected with two driving blocks, the top ends of the two driving blocks are respectively and fixedly connected with corresponding clamping plates, the bottom of the movable groove is provided with a guide groove along the length of the movable groove, the guide groove is symmetrically and slidingly connected with two guide blocks, and the top of the guide block is fixedly connected with the corresponding driving block.

Further optimized is that the second connecting component comprises a mounting block fixedly mounted at the top of the pressing die component, a mounting groove is formed in the center of the moving plate, the top end of the mounting block penetrates through the mounting groove to extend to the upper side of the mounting block, and a plurality of clamping holes are symmetrically formed in two opposite side walls of the mounting block.

Further optimized is that the two sides of the movable plate, which are positioned on the mounting block, are symmetrically provided with pressing plates, clamping rods are fixedly connected to the side walls of the two pressing plates, which are close to each other, and the clamping rods are matched with the clamping holes.

Further optimized is that the top of the movable plate is symmetrically provided with second driving components for driving the corresponding pressing plates to approach or separate from the mounting blocks, the second driving components comprise supporting plates fixedly mounted on the top of the movable plate, driving screws are sleeved on the supporting plates in a threaded manner, one ends of the driving screws are rotationally connected with the corresponding pressing plates, and the other ends of the driving screws are fixedly connected with knobs.

The utility model is convenient to replace the shaping die assembly and the pressing die assembly by arranging the first connecting assembly and the second connecting assembly so as to adapt to the demands of different petal shapes, meets diversified orders of customers, enhances the competitiveness of enterprises, can be easily disassembled for maintenance or replacement when the die is worn or damaged, saves time and labor cost, is beneficial to inspection and maintenance, prolongs the service life of the die and reduces maintenance cost.

The utility model has reasonable structural design and convenient operation, and can quickly replace the mould according to the shape requirements of different petals, thereby being capable of pressing and shaping petals with different shapes.

The utility model will be further described with reference to the drawings and examples.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is a structural exploded view of the shaping mold assembly and the base plate according to an embodiment of the present utility model;

Fig. 3 is a structural exploded view of the compression molding assembly and the movable plate according to an embodiment of the present utility model.

In the figure, the bottom plate, the 2-shaping mould component, the 21-shaping mould, the 22-shaping mould, the 3-first connecting component, the 31-groove, the 32-jack, the 33-clamping plate, the 34-inserting rod, the 35-movable groove, the 36-first driving component, the 361-double-head screw rod, the 362-handle, the 363-driving block, the 364-guiding groove, the 365-guiding block, the 4-pressing mould component, the 41-pressing mould, the 42-pressing mould, the 5-guiding column, the 6-top plate, the 7-moving plate, the 8-second connecting component, the 81-mounting block, the 82-mounting groove, the 83-clamping hole, the 84-clamping plate, the 85-clamping rod, the 86-second driving component, the 861-supporting plate, the 862-driving screw rod, the 863-knob, the 9-driving device, the 10-positioning rod and the 11-positioning groove are arranged.

Detailed Description

Referring to fig. 1-3, a petal shaping device for artificial flower production comprises a bottom plate 1, wherein a shaping mold assembly 2 is arranged at the top of the bottom plate 1 near the center, the bottom plate 1 and the shaping mold assembly 2 are detachably connected through a first connecting assembly 3, a pressing mold assembly 4 is arranged above the shaping mold assembly 2, the pressing mold assembly 4 and the shaping mold assembly 2 are correspondingly arranged up and down, guide posts 5 are symmetrically arranged at the top of the bottom plate 1 and positioned at the two sides of the shaping mold assembly 2, the top of the guide posts 5 is fixedly connected with a same top plate 6, a movable plate 7 is slidably arranged between the two guide posts 5, the movable plate 7 and the pressing mold assembly 4 are detachably connected through a second connecting assembly 8, and driving devices 9 for driving the movable plate 7 to move up and down are symmetrically arranged at the two side positions between the top plate 6 and the movable plate 7.

The design is that the first connecting component 3 and the second connecting component 8 are arranged, so that the setting die component 2 and the pressing die component 4 are convenient to replace to meet the requirements of different petal shapes, various orders of customers are met, the competitiveness of enterprises is enhanced, the die can be easily disassembled for maintenance or replacement when worn or damaged, the time and labor cost are saved, the service life of the die is prolonged, and the maintenance cost is reduced.

Secondly, the bilateral symmetry guide posts 5 provide stable guide for the movable plate 7, ensure that the shaping die assembly 2 and the pressing die assembly 4 are aligned accurately, reduce stamping errors, and improve petal quality and consistency.

Then, the driving assembly directly drives the movable plate 7 to enable the movement of the pressing die assembly 4 to be quicker and more stable, time waste is reduced, and the quick die replacement also enables production to be switched quickly, so that the device is suitable for different production tasks.

Finally, the guide post 5 and the top plate 6 are designed to reasonably utilize space, realize the efficient petal stamping function in a small space, meet the requirements of limited enterprises in a production field, and improve the space utilization rate.

The shaping die assembly 2 comprises a shaping module 21, and a plurality of shaping dies 22 are uniformly and fixedly arranged on the top of the shaping module 21.

The pressing mold assembly 4 comprises a pressing module 41, a plurality of pressing molds 42 are uniformly and fixedly arranged at the bottom of the pressing module 41, and the pressing molds 42 are in one-to-one correspondence with the shaping molds 22.

By means of the design, a plurality of dies are uniformly distributed, a plurality of products can be operated at the same time, production efficiency is improved, and large-scale production requirements are met.

Secondly, the one-to-one correspondence ensures that each product is processed under the same condition, ensures the consistency of the size, shape and performance of the product, and improves the quality stability.

Furthermore, a plurality of dies are integrated on the module, so that the space utilization is optimized, the production field is tidier and orderly, and the operation and management are convenient.

Finally, the one-to-one correspondence design can lead the processing stress of the product to be even, improve the processing precision, reduce the error and lead the product quality to be more reliable.

The bottom of the shaping module 21 and four corners of the top of the pressing module 41 are fixedly connected with positioning rods 10, and positioning grooves 11 matched with the positioning rods 10 are formed in the top of the bottom plate 1 and the bottom of the moving plate 7.

By means of the design, firstly, the positioning rods 10 are arranged at the four corners of the shaping module 21 and the pressing module 41, and the matched positioning grooves 11 are formed in the bottom plate 1 and the moving plate 7, so that accurate alignment of the upper module and the lower module is achieved, the processing precision of products is improved, and errors are reduced.

And secondly, extra support and stability are provided for the die assembly, so that the die is prevented from shifting, shaking or tilting in the pressing process, the stable operation of the die is ensured, the product quality is improved, and the service life of the die is prolonged.

Furthermore, the die is more convenient and quick to install and detach, complex adjustment and calibration are not needed, the production efficiency is improved, and the operation time and the labor cost are reduced.

Finally, the production safety is improved, the die is ensured not to accidentally move or fall off in the working process, the safety risk of operators is reduced, and meanwhile, the damage to products or equipment failure caused by the misplacement of the die is avoided.

The first connecting assembly 3 comprises two grooves 31 symmetrically formed at the top of the shaping module 21, and a plurality of jacks 32 are formed on the inner walls of the two grooves 31 far away from each other.

Clamping plates 33 are movably arranged in the two grooves 31, a plurality of inserting rods 34 are arranged on the side walls, away from each other, of the two clamping plates 33, and the inserting rods 34 are matched with the inserting holes 32.

The top of the bottom plate 1 is provided with a movable groove 35, and a first driving component 36 for driving the two clamping plates 33 to approach or separate from each other is arranged in the movable groove 35.

The first driving assembly 36 includes a double-ended threaded rod 361 rotatably disposed in the movable slot 35, and two ends of the double-ended threaded rod 361 are opposite in rotation direction, and one end of the double-ended threaded rod 361 extends through the base plate 1 to the outer side thereof and is fixedly connected with a handle 362.

Two driving blocks 363 are symmetrically and threadedly connected to the double-ended threaded rod 361, and the top ends of the two driving blocks 363 are fixedly connected with the corresponding clamping plates 33 respectively.

A guide slot 364 is formed at the bottom of the movable slot 35 along the length thereof, two guide blocks 365 are symmetrically and slidably connected in the guide slot 364, and the top of each guide block 365 is fixedly connected with a corresponding driving block 363.

When the shaping module 21 and the bottom plate 1 are required to be connected and fixed, the double-end threaded rod 361 is rotated by the handle 362, and as the two ends of the double-end threaded rod 361 are rotated oppositely, two driving blocks 363 which are symmetrically connected with the double-end threaded rod 361 are in linear motion far away from each other along the double-end threaded rod 361 under the limiting action of the guide blocks 365 and the guide grooves 364 along the rotation, the movement of the driving blocks 363 drives the clamping plate 33 fixedly connected with the driving blocks 363 to move in the groove 31, so that the inserting rod 34 on the clamping plate 33 is gradually inserted into the inserting hole 32 on the side wall of the groove 31, and after the inserting rod 34 is completely inserted into the inserting hole 32, the firm connection between the shaping module 21 and the bottom plate 1 is realized.

When the handle 362 is required to be disassembled, the driving block 363 drives the clamping plates 33 to move close to each other, and the inserting rod 34 is pulled out of the inserting hole 32, so that the connection between the shaping module 21 and the bottom plate 1 is released.

In this design, first, the inserted link 34 cooperates with the jack 32 to make the connection between the shaping module 21 and the bottom plate 1 firm, and can bear external force, so as to ensure stable and safe production.

And secondly, the clamping plate 33 can be controlled to move by rotating the handle 362, so that the operation is convenient and efficient, the connection and disassembly efficiency is improved, and the time and labor cost are saved.

Furthermore, guide slot 364 and guide block 365 ensure accurate alignment, improving product machining accuracy and reducing errors.

In addition, the design adaptability is strong, the inserting rod 34, the inserting hole 32, the double-head threaded rod 361 and the like can be adjusted according to requirements, different connection strength requirements are met, finally, maintenance and replacement are convenient, the rotating handle 362 can be easily detached, maintenance cost and downtime are reduced, independent parts are convenient to replace independently when faults occur, and equipment reliability is improved.

The second connecting assembly 8 comprises a mounting block 81 fixedly mounted at the top of the pressing die assembly 4, a mounting groove 82 is formed in the center of the moving plate 7, the top end of the mounting block 81 penetrates through the mounting groove 82 to extend to the upper side of the mounting block, and a plurality of clamping holes 83 are symmetrically formed in two opposite side walls of the mounting block 81.

The movable plate 7 is provided with pressing plates 84 symmetrically on two sides of the mounting block 81, clamping rods 85 are fixedly connected to side walls of the two pressing plates 84, which are close to each other, and the clamping rods 85 are matched with the clamping holes 83.

The top of the moving plate 7 is symmetrically provided with second driving components 86 which drive the corresponding pressing plate 84 to approach or separate from the mounting block 81 at two sides of the mounting block 81.

The second driving assembly 86 comprises a supporting plate 861 fixedly installed on the top of the movable plate 7, a driving screw 862 is sleeved on the supporting plate 861 in a threaded manner, one end of the driving screw 862 is rotationally connected with the corresponding pressing plate 84, and the other end of the driving screw 862 is fixedly connected with a knob 863.

When it is necessary to connect and fix the pressing die assembly 4 to the moving plate 7, the top end of the mounting block 81 is first passed through the mounting slot 82 at the center of the moving plate 7, and the locking hole 83 of the mounting block 81 is located at a position where it can be inserted by the locking rod 85.

Then the driving screw 862 is driven to rotate by rotating the knob 863, and as the driving screw 862 is sleeved with the supporting plate 861 in a threaded manner, one end of the driving screw 862 is rotationally connected with the pressing plate 84, along with the rotation of the driving screw 862, the pressing plate 84 is pushed by the driving screw 862 to approach the mounting block 81, so that the clamping rod 85 on the pressing plate 84 gradually approaches the clamping hole 83 on the mounting block 81, and after the clamping rod 85 is completely inserted into the clamping hole 83, the two pressing plates 84 tightly fix the mounting block 81 through the matching of the clamping rod 85 and the clamping hole 83, so that the pressing die assembly 4 is firmly connected with the movable plate 7.

When the disassembly is required, the knob 863 is reversely rotated, and the driving screw 862 drives the pressing plate 84 to be far away from the mounting block 81, so that the clamping rod 85 is pulled out from the clamping hole 83, and the connection between the pressing die assembly 4 and the moving plate 7 is released.

In this design, first, the clamping holes 83 of the mounting block 81 are matched with the clamping rods 85 of the pressing plate 84, the plurality of clamping holes 83 increase the connection stability, can bear pressure and impact force, and ensure stable and safe production.

Secondly, rotate knob 863 can operate, and is simple swift, improves and connects and dismantle efficiency, saves time human cost.

The driving device 9 may be an electric telescopic rod, a telescopic cylinder, a hydraulic telescopic cylinder, or the like, and in this embodiment, the driving device 9 is a hydraulic telescopic cylinder.

When the fixing device is used, firstly, the corresponding fixing die assembly 2 and the corresponding pressing die assembly 4 are installed according to the shape of petals to be pressed, firstly, the locating rod 10 at the bottom of the fixing module 21 is aligned with the locating groove 11 on the bottom plate 1, accurate alignment is ensured, the locating rod 10 is inserted into the corresponding locating groove 11, at the moment, the fixing module 21 is installed at the accurate position on the bottom plate 1, then, the handle 362 is rotated, the double-end threaded rod 361 is rotated, the driving block 363 is driven to move under the limitation of the guide block 365 and the guide groove 364, and then the inserting rod 34 on the clamping plate 33 is inserted into the inserting hole 32 on the side wall of the groove 31, so that firm connection between the fixing module 21 and the bottom plate 1 is realized.

Then, the mounting block 81 at the top of the pressing die assembly 4 is aligned with the mounting groove 82 at the center of the moving plate 7, the top end of the mounting block 81 passes through the mounting groove 82, meanwhile, the positioning rod 10 is inserted into the corresponding positioning groove 11, then, the driving screw 862 is driven to rotate by rotating the knob 863, the pressing plate 84 is pushed to approach the mounting block 81, and the clamping rod 85 on the pressing plate 84 is inserted into the clamping hole 83 on the side wall of the mounting block 81, so that firm connection between the pressing die assembly 4 and the moving plate 7 is realized.

Then, the petals to be pressed and shaped are placed on the shaping die 22, after the petals are placed, a driving assembly on the top plate 6 is started, the driving assembly pushes the moving plate 7 to move up and down along the guide post 5, when the moving plate 7 moves downwards, the pressing die assembly 4 is driven to approach the shaping die assembly 2, and the petals placed in the shaping die 22 are pressed due to the fact that the pressing dies 42 are in one-to-one correspondence with the shaping die 22.

Alterations, modifications, substitutions and variations of the embodiments herein will be apparent to those of ordinary skill in the art in light of the teachings of the present utility model without departing from the spirit and principles of the utility model.

Claims (9)

1. The petal shaping device for the artificial flower production comprises a bottom plate (1), wherein a shaping die assembly (2) is arranged at the top of the bottom plate (1) close to the center, and is characterized in that the bottom plate (1) is detachably connected with the shaping die assembly (2) through a first connecting assembly (3), a pressing die assembly (4) is arranged above the shaping die assembly (2), the pressing die assembly (4) and the shaping die assembly (2) are correspondingly arranged up and down, guide posts (5) are symmetrically arranged on two sides of the shaping die assembly (2) at the top of the bottom plate (1), the same top plate (6) is fixedly connected to the top of the guide posts (5), a movable plate (7) is slidably arranged between the two guide posts (5), the movable plate (7) is detachably connected with the pressing die assembly (4) through a second connecting assembly (8), and driving devices (9) for driving the movable plate (7) to move up and down are symmetrically arranged on two sides of the top plate (6) and the movable plate (7).

2. The petal setting device for artificial flower production according to claim 1, wherein the setting die assembly (2) comprises a setting die (21), a plurality of setting dies (22) are uniformly and fixedly arranged at the top of the setting die (21), the pressing die assembly (4) comprises a pressing die (41), a plurality of pressing dies (42) are uniformly and fixedly arranged at the bottom of the pressing die (41), and the pressing dies (42) are in one-to-one correspondence with the setting dies (22).

3. The petal setting device for artificial flower production according to claim 2, wherein the setting module (21) is fixedly connected with positioning rods (10) at the bottom and four corners of the top of the pressing module (41), and positioning grooves (11) matched with the positioning rods (10) are formed in the top of the bottom plate (1) and the bottom of the moving plate (7).

4. The petal setting device for artificial flower production according to claim 3, wherein the first connecting component (3) comprises two grooves (31) symmetrically formed in the top of the setting module (21), a plurality of jacks (32) are formed in the inner walls, far away from each other, of the two grooves (31), clamping plates (33) are movably arranged in the two grooves (31), a plurality of inserting rods (34) are arranged on the side walls, far away from each other, of the two clamping plates (33), and the inserting rods (34) are matched with the jacks (32).

5. The petal setting device for artificial flower production according to claim 4, wherein the top of the base plate (1) is provided with a movable groove (35), a first driving component (36) for driving the two clamping plates (33) to be close to or far away from each other is arranged in the movable groove (35), the first driving component (36) comprises a double-end threaded rod (361) rotatably arranged in the movable groove (35), the rotation directions of the two ends of the double-end threaded rod (361) are opposite, and one end of the double-end threaded rod (361) penetrates through the base plate (1) to extend to the outer side of the base plate and is fixedly connected with a handle (362).

6. The petal setting device for artificial flower production according to claim 5, wherein two driving blocks (363) are symmetrically and threadedly connected to the double-headed threaded rod (361), the top ends of the two driving blocks (363) are fixedly connected with corresponding clamping plates (33) respectively, a guide groove (364) is formed in the bottom of the movable groove (35) along the length of the movable groove, two guide blocks (365) are symmetrically and slidingly connected in the guide groove (364), and the top of each guide block (365) is fixedly connected with the corresponding driving block (363).

7. The petal setting device for artificial flower production according to claim 1, wherein the second connecting component (8) comprises a mounting block (81) fixedly mounted at the top of the pressing die component (4), a mounting groove (82) is formed in the center of the moving plate (7), the top end of the mounting block (81) penetrates through the mounting groove (82) to extend to the upper side of the mounting block, and a plurality of clamping holes (83) are symmetrically formed in two opposite side walls of the mounting block (81).

8. The petal setting device for artificial flower production according to claim 7, wherein the movable plate (7) is symmetrically provided with pressing plates (84) at two sides of the mounting block (81), clamping rods (85) are fixedly connected to side walls of the two pressing plates (84) which are close to each other, and the clamping rods (85) are matched with the clamping holes (83).

9. The petal setting device for artificial flower production according to claim 8, wherein the top of the movable plate (7) is symmetrically provided with second driving components (86) for driving the corresponding pressing plate (84) to be close to or far away from the mounting block (81) on two sides of the mounting block (81), the second driving components (86) comprise supporting plates (861) fixedly arranged on the top of the movable plate (7), driving screws (862) are sleeved on the supporting plates (861) in a threaded manner, one ends of the driving screws (862) are rotationally connected with the corresponding pressing plate (84), and the other ends of the driving screws (862) are fixedly connected with knobs (863).