CN216861048U - Improve knurling equipment of knurling precision - Google Patents

Abstract

The utility model belongs to the technical field of the technique of knurling equipment and specifically relates to an improve knurling equipment of knurling precision is related to, including support frame, removal frame, impression device and transmission device, transmission device includes sliding guide, slider, driving piece, dwang, connecting piece, slide bar, is used for placing the surface fabric place the platform and be used for installing the mounting panel of driving piece, the beneficial effect of this application: the support frame installation removes frame and impression device, removes frame installation transmission device, and the surface fabric is put and is being placed the bench, places the platform and is provided with at least two, and when one of them placed the platform and transmit and carry out the impression under the impression device, the staff places the surface fabric of treating the knurling on remaining placing the bench, makes the staff have more sufficient time to place the surface fabric to reach the operation degree of difficulty that reduces embossing equipment, improve the effect of embossing equipment.

Description

Improve knurling equipment of knurling precision

Technical Field

The application relates to the technical field of embossing equipment, in particular to embossing equipment for improving embossing precision.

Background

In order to improve the aesthetic property of the product, patterns are left on the product fabric, and the fabric made of leather, plastic, etc. is usually embossed by an embossing method, so that the product fabric is embossed with patterns.

When the impression of a surface fabric was accomplished to current knurling equipment, the staff need be close to the position that equipment carried out the knurling, and the surface fabric of accomplishing is taken out to the manual, places the surface fabric of treating the impression, carries out the knurling of next round again, in order to improve the efficiency of knurling, needs the staff to improve the speed of getting the put surface fabric, and this kind of operation mode makes the surface fabric place on inaccurate position easily to influence the finished product effect of surface fabric, above-mentioned problem remains to be solved.

SUMMERY OF THE UTILITY MODEL

In order to make the accurate putting of surface fabric on the knurling position, improve the knurling effect of knurling equipment, this application provides an improve knurling equipment of knurling precision, adopts following technical scheme:

the utility model provides an improve embossing equipment of knurling precision, includes the support frame, removes frame, impression device and transmission, remove frame and impression device and all install in the support frame, transmission is provided with two sets ofly at least, transmission includes sliding guide, slider, driving piece, dwang, connecting piece, slide bar, is used for placing the platform of placing of surface fabric and the mounting panel that is used for installing the driving piece, sliding guide and mounting panel are all installed in removing the frame, wherein a set of transmission's driving piece is installed in the mounting panel, the output fixed connection of dwang and driving piece, dwang and connecting piece rotate to be connected, connecting piece sliding connection is in the slide bar, the slide bar is installed in placing the platform, the slider with place a fixed connection, slider and sliding guide slide connect.

By adopting the scheme, the support frame is used for installing the movable frame and the imprinting device, the movable frame is used for installing the sliding guide rail and the installation plate, the driving piece drives the rotating rod to rotate, the rotating rod is rotatably connected with the connecting piece, the connecting piece is slidably connected with the sliding rod, the sliding piece arranged on the installation table slides on the sliding guide rail, so that the installation table moves on the movable frame along the length direction of the sliding guide rail, a worker places fabrics to be embossed on the surface of one placing table, one placing table is driven to the lower part of the imprinting device to carry out embossing, when one placing table is transmitted to the imprinting device to carry out embossing operation, the worker places the fabrics on the other placing table, after the embossing of the fabrics of one placing table is finished, the placing table which finishes the embossing operation is transmitted to the initial position, and the other placing table is transmitted to the imprinting device to carry out the embossing operation, make the knurling operation incessant to reach and make the surface fabric put on accurate knurling position, reduce the operation degree of difficulty of knurling equipment, improve the knurling effect of knurling equipment.

Preferably, the movable frame is provided with an embossing part and at least two discharging parts, the embossing device is installed above the embossing part, and the conveying device is installed on the discharging parts.

Through adopting above-mentioned scheme, the staff places the surface fabric of treating the knurling to the platform of placing that is in blowing portion, places the platform and is driven to the impression portion and carry out the knurling operation back, and the staff places the surface fabric to the platform of placing in another blowing portion, waits for the transmission next time, plays the effect that reduces the time of changing the surface fabric, and makes the staff have more sufficient time to place the surface fabric, reaches the effect that reduces the operation degree of difficulty of knurling equipment.

Preferably, the coining device includes knurling subassembly, lift cylinder and a plurality of guide bar, the lift cylinder is installed in the support frame, the output and the knurling subassembly of lift cylinder are connected, guide bar and knurling subassembly fixed connection, guide bar and support frame sliding connection.

Through adopting above-mentioned scheme, the lift cylinder is used for driving the knurling subassembly and goes up and down, and the guide bar is used for leading when going up and down for the knurling subassembly, and the messenger knurling subassembly drops to attached surface at the surface of surface fabric when carrying out the knurling operation, reaches better knurling effect.

Preferably, the embossing assembly comprises a patterned platen.

By adopting the scheme, the embossing plate with the patterns needing embossing is installed, the embossing plate is driven to descend until the embossing plate is attached to the surface of the fabric for embossing, and the effect of pressing the required patterns is achieved.

Preferably, the embossing assembly further comprises a conductive plate, the conductive plate is mounted above the embossing plate, and the conductive plate is connected with the output end of the lifting cylinder.

By adopting the scheme, the conductive plate is used for transmitting high-frequency waves to the stamping plate, so that when the stamping plate carries out embossing on the fabric, the patterns on the stamping plate are pressed on the fabric, and the effect of embossing the patterns is achieved.

Preferably, one side of the placing table close to the pressing plate is provided with a soft cushion used for matching with the pressing plate.

Through adopting above-mentioned scheme, when the platen when knurling to the surface fabric, the cushion is placed in the below of surface fabric, has sufficient deformation space when making the surface fabric impression go out the line of patterns, plays the effect that improves the knurling effect of knurling equipment.

Preferably, the soft pad is provided with anti-skid grains.

Through adopting above-mentioned scheme, when the surface fabric was placed and is carried out the transmission on the cushion, the surface fabric skew that produces because of sliding when the antiskid line is used for reducing the transmission reaches the effect that the surface fabric steadily transmits to the stamp position.

Preferably, the driving member is a motor.

Through adopting above-mentioned scheme, adopt motor drive's mode drive to place the platform and remove, reach the effect that improves the transmission precision.

In summary, the present application includes at least one of the following beneficial technical effects:

the support frame is provided with a movable frame and an embossing device which play a supporting role, the movable frame is provided with a sliding guide rail and a mounting plate and is provided with at least two groups of transmission devices, a driving piece of the driving device is arranged on the mounting plate and is used for driving a rotating rod to rotate, a connecting piece which is connected with the rotating rod in a rotating way slides on the sliding rod which is arranged on a placing table, a sliding piece which is connected with the placing table is connected with the sliding guide rail in a sliding way, so that the placing table moves along the direction of the sliding guide rail, when one placing table moves to the lower part of the embossing device for embossing, a worker places fabrics to be embossed on the other placing table, after the embossing operation of one placing table is completed, the other placing table which is provided with fabrics is transmitted to the embossing device for embossing, so that the worker has more sufficient time for placing the fabrics and can accurately place the fabrics at the embossing position, the operation difficulty of the embossing equipment is reduced, and the embossing effect of the embossing equipment is improved.

Drawings

Fig. 1 is a schematic structural diagram of an embossing apparatus for improving embossing accuracy according to an embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of an end of a moving rack and a transmission device according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of the movable frame and the supporting frame according to the embodiment of the present application.

Fig. 4 is a schematic structural diagram of the moving rack and the transmission device according to the embodiment of the present application.

Fig. 5 is a schematic structural view of the placing table and the soft cushion according to the embodiment of the application.

Description of reference numerals: 1. a support frame; 2. a movable frame; 21. a platen; 22. a discharging part; 3. an imprint device; 31. a lifting cylinder; 32. a guide bar; 33. a platen; 34. a conductive plate; 4. a transmission device; 41. a sliding guide rail; 42. a slider; 43. mounting a plate; 44. a drive member; 45. rotating the rod; 46. a connecting member; 47. a slide bar; 48. a placing table; 481. a soft cushion.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses embossing equipment for improving embossing precision, referring to fig. 1 and fig. 2, the embossing equipment comprises a support frame 1, an embossing device 3 is installed on the support frame 1, the support frame 1 is connected with a moving frame 2, a transmission device 4 is installed on the moving frame 2, at least two groups of transmission devices 4 are arranged, each transmission device 4 comprises a sliding guide rail 41 and a mounting plate 43, the sliding guide rails 41 and the mounting plates 43 are installed on the moving frame 2, sliding parts 42 are connected on the sliding guide rails 41 in a sliding mode, a placing table 48 is fixedly connected with the sliding parts 42, driving parts 44 are installed on the mounting plates 43, the output ends of the driving parts 44 are connected with rotating rods 45, the rotating rods 45 are rotatably connected with connecting parts 46, the connecting parts 46 are slidably connected with sliding rods 47, the rotating rods 47 are installed at the bottoms of the placing tables 48, and the effect that the driving parts 44 drive the placing tables 48 to move along the length direction of the sliding guide rails 41 is achieved, when one of the placing tables 48 transfers the material to the lower side of the embossing device 3 for embossing, the worker places the material to be embossed on the other placing table 48, and when the embossing of the material on the previous placing table 48 is completed, the other placing table 48 is transferred to the lower side of the embossing device 3 for embossing.

Specifically, as one of the embodiments, the transfer devices 4 are provided in two sets, two slide rails 41 and two slide members 42 are provided on each set of the transfer devices 4, and the placing table 48 is slid along the slide rails 41 by the slide members 42.

Referring to fig. 3 and 4, the transfer device 4 is installed at both ends of the moving frame 2, both ends of the moving frame 2 are provided as the discharging parts 22, the imprinting device 3 is installed above between the discharging parts 22, and the imprinting part 21 is located below the imprinting device 3. When the conveying device 4 is on the discharging part 22, the worker places the fabric to be embossed on one of the placing tables 48, the driving member 44 on the corresponding side is rotated by the rotating rod 45, the rotating rod 45 drives the connecting member 46 to rotate, and the connecting member 46 slides on the sliding rod 47, so that the placing table 48 moves to the embossing part 21 under the embossing device 3 along the direction of the sliding guide rail 41.

In one embodiment, the drive member 44 is driven by a motor.

The imprinting device 3 comprises a lifting cylinder 31, the lifting cylinder 31 is installed on the support frame 1, an output end of the lifting cylinder 31 penetrates through the top end of the support frame 1 and then is connected with an embossing assembly, the upper portion of the embossing assembly is connected with a plurality of guide rods 32, as one of the implementation modes, the embossing assembly is provided with two guide rods 32, and the guide rods 32 are slidably connected to the support frame 1.

The embossing assembly is provided with a conductive plate 34 and a stamping plate 33 with patterns, the conductive plate 34 is installed above the stamping plate 33, the conductive plate 34 transmits high-frequency waves to the stamping plate 33, and when the stamping plate 33 with the patterns presses the surface of the fabric, the fabric is shaped by the high-frequency waves, so that the fabric is embossed with the patterns.

The side of the placing table 48 close to the platen 33 is provided with a soft pad 481 used in cooperation with the platen 33, and when the platen 33 presses the fabric for embossing, the soft pad 481 provides a space for the fabric to generate patterns, so that the embossing effect of the fabric is better.

Referring to fig. 5, the soft pad 481 is provided with anti-slip lines on one side close to the platen 33, and when the fabric is transported by the translation of the placing table 48, the anti-slip lines play a role in increasing the friction force between the soft pad 481 and the fabric, so that the fabric does not shift relative to the placing table 48 in the transferring process, and therefore the fabric is transported to a set printing position, and the embossing effect of the embossing device is improved.

As another embodiment, in order to effectively avoid the damage of the fabric caused by high-frequency waves to equipment during the embossing operation, the bottom and the surface of the fabric are both covered with a layer of insulating material, and the insulating material is insulating paper.

When the fabric on one of the placing tables 48 is embossed, the driving member 44 corresponding to the placing table 48 which is embossed drives the placing table 48 to move horizontally from the embossing part 21 to the discharging part 22, meanwhile, the driving member 44 corresponding to the other group of the conveying devices 4 drives the rotating rod 45 corresponding to the other group of the conveying devices 4 to rotate, the rotating rod 45 slides on the sliding rod 47 through the connecting member 46, so that the placing table 48 is driven to slide on the sliding guide rail 41 through the connecting sliding member 42, the fabric to be embossed is placed on the placing table 48 of the other group of the conveying devices 4, the placing table 48 is conveyed to the embossing part 21 from the discharging part 22 at the other end, and the embossing device 3 embosses the fabric. When one placing platform 48 is conveyed to the emptying part 22 and the other placing platform 48 is conveyed into the embossing part 21, after the working personnel take out the fabric which is embossed on the emptying part 22, the fabric which needs embossing is replaced and placed, and the next time of conveying to the embossing part 21 for embossing is waited.

The principle of the embodiment of the application is as follows: the support frame 1 is provided with a moving frame 2 and an impression device 3, at least two groups of transmission devices 4 are arranged on the moving frame 2, each transmission device 4 comprises a mounting plate 43 and a sliding guide rail 41, a driving part 44 is arranged on the mounting plate 43, the driving part 44 drives a rotating rod 45 to rotate, the rotating rod 45 is connected with a connecting part 46 through rotation, the connecting part 46 is driven to slide on a sliding rod 47 connected with a placing table 48, thereby driving the placing table 48 to slide along the longitudinal direction of the slide rail 41 via the connected slide member 42, one of the placing tables 48 transfers the placed material to be embossed to the lower side of the embossing device 3, and at the same time, the worker places the material to be embossed to the other placing table 48 to wait for embossing, when the embossing of the fabric on the placing table 48 being embossed is completed, the placing table 48 transfers the fabric to the discharge section 22, and the other placing table 48 transfers the fabric to the embossing section 21 for embossing.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The embossing equipment for improving the embossing precision is characterized by comprising a support frame (1), a moving frame (2), an embossing device (3) and a transmission device (4), wherein the moving frame (2) and the embossing device (3) are installed on the support frame (1), at least two groups of transmission devices (4) are arranged, each transmission device (4) comprises a sliding guide rail (41), a sliding part (42), a driving part (44), a rotating rod (45), a connecting part (46), a sliding rod (47), a placing table (48) for placing fabrics and a mounting plate (43) for installing the driving part (44), the sliding guide rails (41) and the mounting plates (43) are installed on the moving frame (2), the driving parts (44) of one group of transmission devices (4) are installed on the mounting plates (43), and the output ends of the rotating rods (45) and the driving parts (44) are fixedly connected, dwang (45) and connecting piece (46) rotate to be connected, connecting piece (46) sliding connection is in slide bar (47), slide bar (47) are installed and are being placed platform (48), slider (42) and placing platform (48) fixed connection, slider (42) and sliding guide (41) slide and connect.

2. Embossing apparatus for improving embossing accuracy according to claim 1, characterized in that the moving frame (2) is provided with an embossing part (21) and at least two emptying parts (22), the embossing device (3) is mounted above the embossing part (21), and the transport device (4) is mounted at the emptying parts (22).

3. The embossing equipment for improving embossing precision as claimed in claim 1, characterized in that the imprinting device (3) comprises an embossing assembly, a lifting cylinder (31) and a plurality of guide rods (32), the lifting cylinder (31) is mounted on the supporting frame (1), the output end of the lifting cylinder (31) is connected with the embossing assembly, the guide rods (32) are fixedly connected with the embossing assembly, and the guide rods (32) are slidably connected with the supporting frame (1).

4. An embossing apparatus for improving embossing accuracy as claimed in claim 3, characterized in that the embossing assembly comprises a patterned embossing plate (33).

5. An embossing apparatus for improving embossing accuracy as claimed in claim 4, wherein the embossing assembly further comprises a conductive plate (34), the conductive plate (34) is installed above the embossing plate (33), and the conductive plate (34) is connected with an output end of the lifting cylinder (31).

6. An embossing apparatus for improving embossing accuracy as claimed in claim 5, characterized in that a side of the placing table (48) close to the platen (33) is provided with a cushion (481) for use with the platen (33).

7. An embossing apparatus to improve the embossing accuracy as claimed in claim 6, characterized in that said cushion (481) is provided with anti-slip threads.

8. Embossing apparatus for improving the embossing accuracy as claimed in claim 1, characterized in that said driving member (44) is a motor.

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