CN213383678U - Impression jig - Google Patents

Abstract

The utility model is suitable for an impression technical field especially relates to an impression tool, including the base, still include: the metal printing mechanism comprises a first supporting plate and a metal printing fixing frame; the first supporting plate is used for placing an article to be imprinted; the metal seal fixing frame is used for clamping a metal seal; the control mechanism comprises a driving rod and a first transmission component thereof; the X-axis positioning mechanism is used for positioning the position of the metal seal on the X axis and comprises a first sliding module and a first pushing assembly which are arranged on the base; the Y-axis positioning mechanism is used for positioning the position of the metal seal on the Y axis and comprises a group of connecting rod assemblies and a second pushing assembly; the Z-axis positioning mechanism is used for positioning the position of the metal seal on the Z axis and comprises a first support frame and a second transmission assembly. Therefore, the utility model discloses guarantee the impression tool and press the precision of the position of degree of depth and impression characters.

Description

Impression jig

Technical Field

The utility model relates to an impression technical field especially relates to an impression tool.

Background

Imprinting processes are commonly used in conventional manufacturing as well as in the light industry. The stamping is a forming method that the plate material is placed between an upper die and a lower die, the thickness of the material is changed under the action of pressure, and the extruded material is filled in the convex and concave parts of the die cavity with the fluctuant fine grains, so that the fluctuant bulges, characters or patterns are formed on the surface of the workpiece. Such as coins, medallions, etc., are formed by pressing.

As shown in fig. 1, conventionally, stamping needs to be carried out by holding a steel stamp 1 to press an article 2 to be stamped, and the pressing manner is difficult to ensure the pressing depth and the position of stamped characters, and has great diversity.

In view of the above, it is obvious that the prior art has inconvenience and disadvantages in practical use, so that improvement is needed.

SUMMERY OF THE UTILITY MODEL

To address the above-mentioned drawbacks, an object of the present invention is to provide an impression tool (100) to ensure the precision of the position of the impression tool pressing depth and the impression text.

In order to achieve the above object, the present invention provides an impression jig (100), including a base (10), further including:

the metal printing mechanism (20) comprises a first supporting plate (21) and a metal printing fixing frame (22); the first supporting plate (21) is fixed on the base (10) and used for placing an article (101) to be stamped; the metal seal fixing frame (22) is arranged above the first supporting plate (21) and used for clamping a metal seal (102);

the control mechanism (30) comprises a driving rod (31) for controlling the movement of the X-axis positioning mechanism (40) on the X axis, the movement of the Y-axis positioning mechanism (50) on the Y axis and the movement of the Z-axis positioning mechanism (60) on the Z axis and a first transmission component (300) thereof;

the X-axis positioning mechanism (40) is used for positioning the position of the metal seal (102) on the X axis and comprises a first sliding module (41) arranged on the base (10) and a first pushing assembly (42) arranged on the right side of the first supporting plate (21), the left side of the first sliding module (41) is in transmission connection with the first transmission assembly (300), a first groove (11) is formed in the base (10), the first supporting plate (21) is covered on the first groove (11), the middle of the first sliding module (41) is adapted to the first groove (11), and the right side of the first sliding module (41) is connected with the first pushing assembly (42);

the Y-axis positioning mechanism (50) is used for positioning the position of the metal print (102) on the Y axis and comprises a group of connecting rod assemblies (51) and a second pushing assembly (52), the head ends of the group of connecting rod assemblies (51) are connected with the driving rod (31), the tail ends of the group of connecting rod assemblies are connected with the second pushing assembly (52), and the second pushing assembly (52) is arranged at the rear part of the first supporting plate (21);

z axial positioning mechanism (60), location metal seal (102) is in the epaxial position of Z, including first support frame (61) and second transmission assembly (600), first support frame (61) with second transmission assembly (600) all set up in the left side of first backup pad (21), second transmission assembly (600) with first transmission assembly (300) transmission is connected, the left side of metal seal mount (22) is fixed in first support frame (61) with second transmission assembly (600).

According to the stamping jig (100), the first transmission assembly (300) comprises a gear (32) and a cam (33), and the driving rod (31), the gear (32) and the cam (33) are arranged on the same central shaft (35); the second transmission assembly (600) comprises a rack (62) and a first sliding rail (611) which are arranged in parallel, the rack (62) is arranged at the left side of the first supporting plate (21), and the first sliding rail (611) is arranged at the right side of the first supporting frame (61); the left side part of the first sliding module (41) is in rolling connection with the cam (33).

According to the embossing fixture (100), the handling mechanism (30) further comprises: the second support frame (34) is arranged in parallel with the first support frame (61); one end of a central shaft (35) of the driving rod (31), the gear (32) and the cam (33) is fixed on the first support frame (61), and the other end of the central shaft is fixed on the second support frame (34); the top of the second support frame (34) is provided with a transverse sliding rod (341).

According to the stamping jig (100), a bracket part (411) is arranged on the left side of the first sliding module (41), a roller (412) is installed on the bracket part (411), and the roller (412) is in rolling connection with the cam (33); the first pushing assembly (42) comprises a first pushing fixed block (421) and a first floating pushing block (422); the first pushing fixed block (421) is fixed on the right side of the first sliding module (41), and the first floating push block (422) is installed on the upper portion of the first pushing fixed block (421).

According to the stamping jig (100), two transverse first through holes are formed in the upper portion of the first pushing fixing block (421), the first floating push block (422) comprises a first floating push block (4221) and a second floating push block (4222) which are respectively arranged on the left side and the right side of the first through hole, and the first floating push block (4221) and the second floating push block (4222) are connected through a first connecting rod (4223) penetrating through the first through hole; the first link (4223) is sleeved with a first spring (4224).

According to the embossing jig (100), the Y-axis positioning mechanism (50) further comprises: a second support plate (53), a second pushing fixed block (521), a second floating push block (522) and a third support plate (54); the second supporting plate (53) is arranged at the rear part of the second supporting frame (34); the second pushing fixing block (521) is arranged at the rear part of the first supporting plate (21); the second floating push block (522) is arranged at the front part of the second push fixing block (521); the third supporting plate (54) is arranged on the right side of the second pushing fixing block (521);

the group of connecting rod assemblies (51) comprises a first connecting rod (511), a second connecting rod (512), a third connecting rod (513), a fourth connecting rod (514) and a fifth connecting rod (515); the head end of the first connecting rod (511) is connected with the driving rod (31), the head end of the first connecting rod is sleeved on the sliding rod (341), the tail end of the first connecting rod is connected with the head end of the second connecting rod (512), and the tail end of the second connecting rod (512) is sleeved on the first rotating shaft (5121) on the second supporting plate (53); the head end of the third connecting rod (513) is rotatably connected with the head end of the second connecting rod (512); the tail ends of the third connecting rod (513), the fourth connecting rod (514) and the fifth connecting rod (515) are sleeved on a second rotating shaft (527); the head end of the fourth connecting rod (514) is sleeved on a third rotating shaft (526) arranged on the second pushing fixed block (521); the head end of the fifth connecting rod (515) is sleeved on a fourth rotating shaft (541) on the third supporting plate (54).

According to the stamping jig (100), a first sliding groove (311) is formed in the driving rod (31), and a first inserting rod (5111) matched with the first sliding groove (311) is arranged at the head end of the first connecting rod (511); a second sliding groove (5122) is formed in the second connecting rod (512), and a second inserting rod (5112) matched with the second sliding groove (5122) is arranged at the tail end of the first connecting rod (511).

According to the stamping jig (100), the second pushing fixed block (521) is L-shaped, two second through holes are formed in the left side of the second pushing fixed block (521), two third through holes (5211) are correspondingly formed in the second floating push block (522), a group of first push rods (5212) penetrate through the second through holes and the third through holes (5211), and third springs (525) are sleeved on the first push rods (5212); second recess (523) have been seted up to the left side that the second promoted fixed block (521), be provided with first ejector pad subassembly (524) in second recess (523), first ejector pad subassembly (524) including set up in two ejector pads (5241, 5242) of second recess (523) front end and rear end, be provided with a set of second connecting rod between two ejector pads (5241, 5242) the cover is equipped with a set of third spring (525) on the second connecting rod, second axis of rotation (527) set up in the top of ejector pad (5241) of second recess (523) rear end.

According to the stamping jig (100), the metal stamping fixing frame (22) is square, and the front end of the metal stamping fixing frame is provided with an opening; the metal seal fixing frame (22) is provided with a fixing plate, one side of the fixing plate (221) is used for fixing the metal seal (102), and the other side of the fixing plate (221) is used for fixing the rack (62) and the first slide way (222) matched with the first slide rail (611).

According to the stamping jig (100), the metal stamping mechanism (20) further comprises a limiting piece (23) arranged on the first supporting plate (21), and the limiting piece (23) limits the movement of the article to be stamped (101).

According to the stamping jig (100), the limiting piece (23) is an L-shaped retaining wall arranged at the front end of the first supporting plate (21); the driving rod (31), the gear (32), the cam (33) and the central shaft (35) rotate in a limiting mode through a key (36).

The utility model discloses a set up impression tool (100) to including metal seal mechanism (20), control mechanism (30) and X, Y, Z epaxial three ascending positioning mechanism (40, 50, 60) of side, each motion forms the orbit through the design, makes and treats impression article and realize location and impression action under the drive rod drives, rotates the linkage of action completion all directions promptly through drive rod (31) of controlling mechanism (30). Namely, the positioning mechanisms (40, 50 and 60) in three directions of an X, Y, Z axis move along an axis X, Y, Z to position a metal print (102) in the metal printing mechanism (20) and the position of an article to be stamped (101) in three directions of a X, Y, Z axis, so that the stamping position and the stamping depth can be regulated, and the single impression depth and the single impression position on the article to be stamped are ensured to be the same. Therefore, the problems that the traditional stamping mode cannot be accurately positioned and the pressing operability is high are solved. And the operation efficiency is high, and the first stamping and the positioning in all directions can be completed by one action realized through the linkage of the mechanism. The metal seal mounting position is convenient to detach, different characters or pictures can be replaced according to requirements, and the universality is high. In addition, the shape and the size of the steel seal can be changed according to the stamping position, the depth, the pattern and the characters.

Drawings

FIG. 1 is a schematic structural diagram of an imprint jig provided in the prior art;

fig. 2 is a schematic structural view of an embossing jig provided in an embodiment of the present invention;

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

fig. 4 is a schematic structural diagram of an embossing jig according to an embodiment of the present invention;

fig. 5 is an installation schematic view of an operating mechanism of the impression jig according to an embodiment of the present invention;

fig. 6 is an enlarged view of fig. 5 at a.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be appreciated that references in the specification to "one embodiment," "an example embodiment," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not intended to refer to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Where certain terms are used in the specification and following claims to refer to particular components or features, those skilled in the art will understand that various terms or numbers may be used by a skilled user or manufacturer to refer to the same component or feature. This specification and the claims that follow do not intend to distinguish between components or features that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. In addition, the term "connected" is intended to encompass any direct or indirect electrical connection. Indirect electrical connection means include connection by other means.

It should be noted that, in the description of the present invention, the terms "lateral", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for the convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 2 to 6, in an embodiment of the present invention, an imprinting jig 100 is provided, which includes a base 10, and further includes:

the metal printing mechanism 20 comprises a first supporting plate 21 and a metal printing fixing frame 22; the first supporting plate 21 is fixed on the base 10 and used for placing an article 101 to be imprinted; the metal seal fixing frame 22 is arranged above the first supporting plate 21 and used for clamping the metal seal 102; the metal printing mechanism 20 is mainly used for fixing a metal seal 102 and an article 101 to be printed, wherein the article 101 to be printed is vertically arranged below the metal seal 102, and the metal seal 102 can be a steel seal or a copper seal.

The control mechanism 30 comprises a driving rod 31 and a first transmission component 300 thereof, wherein the driving rod controls the movement of the X-axis positioning mechanism 40 on the X axis, the movement of the Y-axis positioning mechanism 50 on the Y axis and the movement of the Z-axis positioning mechanism 60 on the Z axis; the control mechanism 30 controls the whole stamping jig 100, and the control driving rod 31 respectively drives the X-axis positioning mechanism 40, the Y-axis positioning mechanism 50 and the Z-axis positioning mechanism 60 to position the metal stamping mechanism 20 on the X-axis, the Y-axis and the Z-axis, so as to control the stamping precision and depth during stamping.

The X-axis positioning mechanism 40 is used for positioning the position of the metal seal 102 on the X axis, and includes a first sliding module 41 disposed on the base 10 and a first pushing assembly 42 disposed on the right side of the first supporting plate 21, the left side of the first sliding module 41 is in transmission connection with the first transmission assembly 300, the base 10 is provided with a first groove 11, the first supporting plate 21 is covered on the first groove 11, the middle of the first sliding module 41 is adapted to the first groove 11, and the right side of the first sliding module 41 is connected with the first pushing assembly 42;

the Y-axis positioning mechanism 50 is used for positioning the position of the metal seal 102 on the Y axis and comprises a group of connecting rod assemblies 51 and a second pushing assembly 52, the head ends of the group of connecting rod assemblies 51 are connected with the active rod 31, the tail ends of the group of connecting rod assemblies are connected with the second pushing assembly 52, and the second pushing assembly 52 is arranged at the rear part of the first supporting plate 21;

the Z-axis positioning mechanism 60 is used for positioning the position of the metal seal 102 on the Z axis and comprises a first support frame 61 and a second transmission assembly 600, the first support frame 61 and the second transmission assembly 600 are arranged on the left side of the first support plate 21, the second transmission assembly 600 is in transmission connection with the first transmission assembly 300, and the left side of the metal seal fixing frame 22 is fixed on the first support frame 61 and the second transmission assembly 600.

In this embodiment, since the stamping jig 100 is provided to include the metal printing mechanism 20, the manipulating mechanism 30 and the positioning mechanisms 40, 50 and 60 in the three directions of the X, Y, Z axis, the manipulating mechanism 30 manipulates the movements of the positioning mechanisms 40, 50 and 60 in the three directions of the X, Y, Z axis on the X, Y, Z axis to position the metal print 102 in the metal printing mechanism 20 and the position of the article to be stamped 101 in the three directions of the X, Y, Z axis, thereby solving the problems that the conventional stamping method cannot be accurately positioned and the pressing operability is large. Wherein, a rod of the control active rod 31 drives the positioning and stamping jig of the three positioning mechanisms, so that the stamping position and the stamping depth can be ensured while the stamping function is realized.

In an embodiment of the present invention, the first transmission assembly 300 includes a gear 32 and a cam 33, and the driving rod 31, the gear 32 and the cam 33 are installed on the same central shaft 35; the second transmission assembly 600 comprises a rack 62 and a first sliding rail 611 arranged in parallel, wherein the rack 62 is arranged at the left side of the first support plate 21, and the first sliding rail 611 is arranged at the right side of the first support frame 61; the left side of the first sliding module 41 is in rolling connection with the cam 33.

The manipulation mechanism 30 further includes: the second support frame 34 is arranged in parallel with the first support frame 61; one end of the central shaft 35 of the driving rod 31, the gear 32 and the cam 33 is fixed on the first support frame 61, and the other end is fixed on the second support frame 34; the top of the second support frame 34 is provided with a transverse sliding rod 341.

A bracket part 411 is arranged on the left side of the first sliding module 41, a roller 412 is arranged on the bracket part 411, and the roller 412 is in rolling connection with the cam 33; the first pushing assembly 42 comprises a first pushing fixing block 421 and a first floating pushing block 422; the first fixed pushing block 421 is fixed to the right side of the first sliding module 41, and the first floating pushing block 422 is installed on the upper portion of the first fixed pushing block 421. In addition, the metal printing mechanism 20 further includes a limiting member 23 disposed on the first supporting plate 21, and the limiting member 23 limits the movement of the article 101 to be imprinted.

In operation, when the driving lever 31 is manually rotated, the gear 32 and the cam 33 are driven to rotate. When the driving lever 31 is moved clockwise, the movement process in the X-axis direction is as follows:

as shown in fig. 2, in the X-axis direction, the cam 33 contacts the roller 412, and the cam 33 rotates to drive the first pushing fixed block 421 of the first pushing assembly 42 to move to the left in the X-axis direction, so that the first pushing fixed block 421 and the first floating pushing block 422 move to the left on the first pushing fixed block, and push the article 101 to be stamped in the X-axis direction tightly, and the limiting member 23 is abutted to realize the positioning in the X-axis direction. The limiting member 23 is an L-shaped retaining wall disposed at the front end of the first supporting plate 21; the X direction of the article to be imprinted 101 is pushed tightly, and the L platform retaining wall is tightly leaned on the side to be positioned in the X axis direction. And the driving rod 31, the gear 32 and the cam 33 are limited in rotation with the central shaft 35 through a key 36.

Preferably, two transverse first through holes are formed in the upper portion of the first fixed push block 421, the first floating push block 422 includes a first floating sub push block 4221 and a second floating sub push block 4222 respectively disposed at the left and right sides of the first through hole, and the first floating sub push block 4221 and the second floating sub push block 4222 are connected by two first connecting rods 4223 penetrating through the first through holes; the first link 4223 is sleeved with a first spring 4224. Thus, the first push fixing block 421 has a structure of pushing the metal printing mechanism 20 left and right on the X axis to manipulate the compression and tension of the movement of the metal print 102 and the article to be stamped 101.

Referring to fig. 2 to 6, in an embodiment of the present invention, the Y-axis positioning mechanism 50 further includes: the second support plate 53, the second push fixing block 521, the second floating push block 522 and the third support plate 54; the second supporting plate 53 is disposed at the rear of the second supporting frame 34; the second push fixing block 521 is disposed at the rear of the first support plate 21; the second floating push block 522 is mounted at the front part of the second push fixing block 521; the third supporting plate 54 is disposed at the right side of the second push fixing block 521;

the set of connecting rod assemblies 51 comprises a first connecting rod 511, a second connecting rod 512, a third connecting rod 513, a fourth connecting rod 514 and a fifth connecting rod 515; the head end of the first connecting rod 511 is connected to the driving rod 31, the head end of the first connecting rod 511 is sleeved on the sliding rod 341, the tail end of the first connecting rod is connected to the head end of the second connecting rod 512, and the tail end of the second connecting rod 512 is sleeved on the first rotating shaft 5121 of the second supporting plate 53; the head end of the third connecting rod 513 is rotatably connected with the head end of the second connecting rod 512; the tail ends of the third connecting rod 513, the fourth connecting rod 514 and the fifth connecting rod 515 are all sleeved on a second rotating shaft 527; the head end of the fourth connecting rod 514 is sleeved on the third rotating shaft 526 arranged on the second pushing fixed block 521; the head end of the fifth connecting rod 515 is sleeved on the fourth rotating shaft 541 on the third supporting plate 54.

A first sliding groove 311 is formed in the driving rod 31, and a first inserting rod 5111 matched with the first sliding groove 311 is arranged at the head end of the first connecting rod 511; a second sliding groove 5122 is formed in the second connecting rod 512, and a second inserting rod 5112 matched with the second sliding groove 5122 is arranged at the tail end of the first connecting rod 511.

The second pushing fixed block 521 is L-shaped, two second through holes are formed in the left side of the second pushing fixed block 521, two third through holes 5211 are correspondingly formed in the second floating push block 522, a group of first push rods 5212 penetrate through the second through holes and the third through holes 5211, and a third spring 525 is sleeved on the first push rods 5212; a second groove 523 is formed in the left side of the second pushing fixing block 521, a first pushing block component 524 is arranged in the second groove 523, the first pushing block component 524 comprises two pushing blocks 5241 and 5242 arranged at the front end and the rear end of the second groove 523, a group of second connecting rods are arranged between the two pushing blocks 5241 and 5242, a group of third springs 525 which are not marked in a space limitation manner are sleeved on the second connecting rods, the arrangement position of the second connecting rods can be understood, and a second rotating shaft 527 is arranged at the top end of the pushing block 5241 arranged at the rear end of the second groove 523.

When the driving lever 31 is rotated, the gear 32 and the cam 33 are rotated. When the driving lever 31 is moved clockwise, the movement process in the Y-axis direction is as follows:

in the Y-axis direction, the clockwise rotation of the active lever 31 drives the one set of link rod assemblies 51 to move to the right in the X-direction on the track thereof. Specifically, the first connecting rod 511 is driven to move to the right side in the X direction on the track, the first connecting rod 511 leans against the rotating shaft at the upper end thereof, that is, the first rotating shaft 5121 drives the second connecting rod 512 to rotate around the fixed position of the base fixed second supporting plate 53, the third connecting rod 513 is driven to move one end of the third connecting rod 513 according to the specified track to rotate around the rotating shaft at the end of the second connecting rod 512, the other end is fixed with the end of the fifth connecting rod 515, the other end of the fifth connecting rod 515 rotates around the fixed rotating shaft of the base, that is, the third connecting rod 513 rotates around the fourth rotating shaft 541 on the third supporting plate 54 to move along the specific track with the fourth connecting rod 514 intermediate shaft of the fifth connecting rod 515, the fourth connecting rod 514 drives the pushing blocks 5241 and 5242 at the front end and the rear end in the first pushing block assembly 524 to move along the Y direction in the second groove 523, and when the second floating pushing block 522 is moved to contact, and the side-leaning positioning in the Y-axis direction is realized by leaning against the L-shaped platform retaining wall.

Referring to fig. 2 to 6, in an embodiment of the present invention, the metal print fixing frame 22 is square and has an opening at its front end; the metal seal fixing frame 22 has a fixing plate, one side of the fixing plate 221 fixes the metal seal 102, and the other side of the fixing plate 221 fixes the rack 62 and the first sliding rail 222 adapted to the first sliding rail 611.

When the driving lever 31 is rotated, the gear 32 and the cam 33 are rotated. When the driving lever 31 is moved clockwise, the movement process in the Z-axis direction is as follows:

in the Z-axis direction, the gear 32 rotates to drive the rack 62 to move downward, and the rack 62 and the first slide rail 611 are linked to realize the Z-axis direction movement. Driving the metal seal fixing frame 22 and the metal seal 102; the downward stamping action is completed by the downward movement of the two pieces together to the designated position.

In summary, the stamping jig 100 is configured to include the metal printing mechanism 20, the control mechanism 30, and the positioning mechanisms 40, 50, and 60 in three directions of the X, Y, Z axis, and the movement of each movement mechanism forms a track through design, so that the object to be stamped is positioned and stamped under the driving of the driving rod, and the driving rod 31 of the control mechanism 30 rotates to complete the linkage in each direction. That is, the positioning mechanisms 40, 50 and 60 in three directions of the axis X, Y, Z are moved along the axis X, Y, Z to position the metal stamp 102 and the object to be stamped 101 in the metal printing mechanism 20 in three directions of the axis X, Y, Z, so that the stamping position and the stamping depth can be regulated, and the single impression depth on the object to be stamped can be ensured to be the same as the positions. Therefore, the problems that the traditional stamping mode cannot be accurately positioned and the pressing operability is high are solved. And the operation efficiency is high, and the first stamping and the positioning in all directions can be completed by one action realized through the linkage of the mechanism. The metal seal mounting position is convenient to detach, different characters or pictures can be replaced according to requirements, and the universality is high. In addition, the shape and the size of the steel seal can be changed according to the stamping position, the depth, the pattern and the characters.

Naturally, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and it is intended that all such changes and modifications be considered as within the scope of the appended claims.

Claims (11)

1. An embossing jig (100) comprising a base (10), characterized by further comprising:

the metal printing mechanism (20) comprises a first supporting plate (21) and a metal printing fixing frame (22); the first supporting plate (21) is fixed on the base (10) and used for placing an article (101) to be stamped; the metal seal fixing frame (22) is arranged above the first supporting plate (21) and used for clamping a metal seal (102);

the control mechanism (30) comprises a driving rod (31) for controlling the movement of the X-axis positioning mechanism (40) on the X axis, the movement of the Y-axis positioning mechanism (50) on the Y axis and the movement of the Z-axis positioning mechanism (60) on the Z axis and a first transmission component (300) thereof;

the X-axis positioning mechanism (40) is used for positioning the position of the metal seal (102) on the X axis and comprises a first sliding module (41) arranged on the base (10) and a first pushing assembly (42) arranged on the right side of the first supporting plate (21), the left side of the first sliding module (41) is in transmission connection with the first transmission assembly (300), a first groove (11) is formed in the base (10), the first supporting plate (21) is covered on the first groove (11), the middle of the first sliding module (41) is adapted to the first groove (11), and the right side of the first sliding module (41) is connected with the first pushing assembly (42);

the Y-axis positioning mechanism (50) is used for positioning the position of the metal print (102) on the Y axis and comprises a group of connecting rod assemblies (51) and a second pushing assembly (52), the head ends of the group of connecting rod assemblies (51) are connected with the driving rod (31), the tail ends of the group of connecting rod assemblies are connected with the second pushing assembly (52), and the second pushing assembly (52) is arranged at the rear part of the first supporting plate (21);

z axial positioning mechanism (60), location metal seal (102) is in the epaxial position of Z, including first support frame (61) and second transmission assembly (600), first support frame (61) with second transmission assembly (600) all set up in the left side of first backup pad (21), second transmission assembly (600) with first transmission assembly (300) transmission is connected, the left side of metal seal mount (22) is fixed in first support frame (61) with second transmission assembly (600).

2. The embossing tool (100) according to claim 1, wherein the first transmission assembly (300) comprises a gear (32) and a cam (33), the driving rod (31), the gear (32) and the cam (33) being mounted on a same central shaft (35); the second transmission assembly (600) comprises a rack (62) and a first sliding rail (611) which are arranged in parallel, the rack (62) is arranged at the left side of the first supporting plate (21), and the first sliding rail (611) is arranged at the right side of the first supporting frame (61); the left side part of the first sliding module (41) is in rolling connection with the cam (33).

3. The embossing fixture (100) according to claim 2, characterized in that the handling mechanism (30) further comprises: the second support frame (34) is arranged in parallel with the first support frame (61); one end of a central shaft (35) of the driving rod (31), the gear (32) and the cam (33) is fixed on the first support frame (61), and the other end of the central shaft is fixed on the second support frame (34); the top of the second support frame (34) is provided with a transverse sliding rod (341).

4. The embossing jig (100) according to claim 2, characterized in that a bracket portion (411) is arranged at the left side of the first sliding module (41), a roller (412) is mounted on the bracket portion (411), and the roller (412) is in rolling connection with the cam (33); the first pushing assembly (42) comprises a first pushing fixed block (421) and a first floating pushing block (422); the first pushing fixed block (421) is fixed on the right side of the first sliding module (41), and the first floating push block (422) is installed on the upper portion of the first pushing fixed block (421).

5. The embossing jig (100) according to claim 4, wherein the upper portion of the first fixed pushing block (421) is provided with two transverse first through holes, the first floating pushing block (422) comprises a first floating pushing block (4221) and a second floating pushing block (4222) which are respectively arranged at the left side and the right side of the first through hole, and the first floating pushing block (4221) and the second floating pushing block (4222) are connected through two first connecting rods (4223) which penetrate through the first through holes; the first link (4223) is sleeved with a first spring (4224).

6. The embossing jig (100) of claim 3, wherein the Y-axis positioning mechanism (50) further comprises: a second support plate (53), a second pushing fixed block (521), a second floating push block (522) and a third support plate (54); the second supporting plate (53) is arranged at the rear part of the second supporting frame (34); the second pushing fixing block (521) is arranged at the rear part of the first supporting plate (21); the second floating push block (522) is arranged at the front part of the second push fixing block (521); the third supporting plate (54) is arranged on the right side of the second pushing fixing block (521);

the group of connecting rod assemblies (51) comprises a first connecting rod (511), a second connecting rod (512), a third connecting rod (513), a fourth connecting rod (514) and a fifth connecting rod (515); the head end of the first connecting rod (511) is connected with the driving rod (31), the head end of the first connecting rod is sleeved on the sliding rod (341), the tail end of the first connecting rod is connected with the head end of the second connecting rod (512), and the tail end of the second connecting rod (512) is sleeved on the first rotating shaft (5121) on the second supporting plate (53); the head end of the third connecting rod (513) is rotatably connected with the head end of the second connecting rod (512); the tail ends of the third connecting rod (513), the fourth connecting rod (514) and the fifth connecting rod (515) are sleeved on a second rotating shaft (527); the head end of the fourth connecting rod (514) is sleeved on a third rotating shaft (526) arranged on the second pushing fixed block (521); the head end of the fifth connecting rod (515) is sleeved on a fourth rotating shaft (541) on the third supporting plate (54).

7. The embossing jig (100) according to claim 6, wherein the driving rod (31) is provided with a first sliding slot (311), and the head end of the first connecting rod (511) is provided with a first inserting rod (5111) matched with the first sliding slot (311); a second sliding groove (5122) is formed in the second connecting rod (512), and a second inserting rod (5112) matched with the second sliding groove (5122) is arranged at the tail end of the first connecting rod (511).

8. The embossing jig (100) according to claim 6, wherein the second pushing fixing block (521) is L-shaped, two second through holes are formed in the left side of the second pushing fixing block (521), two third through holes (5211) are correspondingly formed in the second floating pushing block (522), a group of first push rods (5212) penetrate through the second through holes and the third through holes (5211), and third springs (525) are sleeved on the first push rods (5212); second recess (523) have been seted up to the left side that the second promoted fixed block (521), be provided with first ejector pad subassembly (524) in second recess (523), first ejector pad subassembly (524) including set up in two ejector pads (5241, 5242) of second recess (523) front end and rear end, be provided with a set of second connecting rod between two ejector pads (5241, 5242) the cover is equipped with a set of third spring (525) on the second connecting rod, second axis of rotation (527) set up in the top of ejector pad (5241) of second recess (523) rear end.

9. The embossing jig (100) according to claim 3, wherein the metal print holder (22) is square and has an opening at a front end thereof; the metal seal fixing frame (22) is provided with a fixing plate, one side of the fixing plate (221) is used for fixing the metal seal (102), and the other side of the fixing plate (221) is used for fixing the rack (62) and the first slide way (222) matched with the first slide rail (611).

10. The embossing tool (100) according to claim 2, wherein the metal printing mechanism (20) further comprises a stopper (23) disposed on the first support plate (21), the stopper (23) limiting the movement of the article (101) to be embossed.

11. The embossing jig (100) according to claim 10, wherein the stopper (23) is an L-shaped retaining wall provided at the front end of the first supporting plate (21); the driving rod (31), the gear (32), the cam (33) and the central shaft (35) rotate in a limiting mode through a key (36).

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