CN112497342A

CN112497342A - Diversified adjustable steel mould

Info

Publication number: CN112497342A
Application number: CN202011391869.5A
Authority: CN
Inventors: 季良; 葛巍; 钟新强
Original assignee: SHANGHAI TOBACCO PACKAGE PRINTING CO Ltd; Shanghai Tobacco Group Co Ltd
Current assignee: SHANGHAI TOBACCO PACKAGE PRINTING CO Ltd; Shanghai Tobacco Group Co Ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-16

Abstract

The invention provides a multi-direction adjustable steel die which comprises a fixed bottom plate, a first module plate fixed on the fixed bottom plate, second module plates distributed on the left side and the right side of the first module plate, a third module plate distributed on the upper side of the first module plate, and fourth module plates distributed on the left side and the right side of the third module plate, wherein the second module plate is installed on the fixed bottom plate in a manner of moving left and right, the third module plate is installed on the fixed bottom plate in a manner of moving up and down, and the fourth module plate is installed on the fixed bottom plate in a manner of moving left and right and moving up and down; all fixed mounting has a template support frame on first module board, second module board, third module board and the fourth module board, all is fixed with the cutter on every template support frame. The multi-directional adjustable steel die has five adjustable areas, realizes multi-directional adjustment of the steel die, can be well suitable for the forming process of printed products with inconsistent expansion and contraction rates and high controllability difficulty, and meets the requirements of the subsequent die cutting processing process after printing.

Description

Diversified adjustable steel mould

Technical Field

The invention relates to the technical field of die cutting processing after printing, in particular to a multi-azimuth adjustable steel die.

Background

Printing is a technique of transferring ink to the surface of a material such as paper, fabric, plastic, or leather by performing processes such as plate making, inking, and pressing on an original such as characters, pictures, photographs, or forgery prevention, and thereby mass-transferring the content of the original. With the higher and higher requirements on the technology and quality of the die cutting processing technology after printing, the printing technology is diversified, and the customers have multiple requirements on the types of printing materials for printing production, so that the market is continuously developed and the requirements of the customers in the market are better met.

However, in the production and printing process, aiming at the repeated multi-color overprinting of different printing processes and different printing production equipment, and the characteristics of the printing materials are inconsistent, the expansion and contraction rates of the printed products are inconsistent, and the controllability difficulty is increased accordingly. When the printed product is placed on a steel die to be cut, the traditional steel film structure can not meet the requirements of customers far.

Disclosure of Invention

In view of the above disadvantages of the prior art, the present invention provides a multi-directional adjustable steel mold, which can adapt to printed products with inconsistent expansion and contraction rates and high controllability difficulty.

In order to achieve the purpose, the invention provides a multi-direction adjustable steel die, which comprises a fixed bottom plate, a first module plate fixed on the fixed bottom plate, a second module plate distributed on the left side and the right side of the first module plate, a third module plate distributed on the upper side of the first module plate, and a fourth module plate distributed on the left side and the right side of the third module plate, wherein the second module plate is installed on the fixed bottom plate in a manner of moving left and right, the third module plate is installed on the fixed bottom plate in a manner of moving up and down, and the fourth module plate is installed on the fixed bottom plate in a manner of moving left and right and moving up and down; and the first module plate, the second module plate, the third module plate and the fourth module plate are all fixedly provided with a template support frame, and each template support frame is fixedly provided with a cutter.

Furthermore, the second module plate is arranged on the fixed bottom plate in a manner of moving left and right through at least one group of first adjusting components; first adjusting part is including offering the first open slot on the second module board, controlling and extending and be fixed in PMKD's first regulation guide arm and two threaded connection at the first swivel nut of adjusting the guide arm periphery, the second module board can control the ground cover and establish on first regulation guide arm, and two first swivel nuts all are located first open slot, two first swivel nuts respectively with the left cell wall and the right cell wall butt of first open slot.

Further, the third module board is movably mounted on the fixed bottom board up and down through at least one group of second adjusting components; the second adjusting component comprises a second open slot arranged on the third module plate, a second adjusting guide rod extending up and down and fixed on the fixed bottom plate, and two second rotating nuts in the periphery of the second adjusting guide rod in threaded connection, the third module plate can be sleeved on the second adjusting guide rod in a vertically movable mode, the two second rotating nuts are located in the second open slot, and the two second rotating nuts are respectively abutted to the upper slot wall and the lower slot wall of the second open slot.

Further, the fourth module plate is installed on the fixed bottom plate in a manner that the fourth module plate can move left and right through at least one group of third adjusting components and is installed on the fixed bottom plate in a manner that the fourth module plate can move up and down through at least one group of fourth adjusting components;

the third adjusting component comprises a third opening groove formed in the fourth module plate, a first kidney-shaped groove formed in the fourth module plate and communicated with the third opening groove, a third adjusting guide rod extending left and right and fixed on the fixed bottom plate, and two third rotating nuts in threaded connection with the periphery of the third adjusting guide rod, the section of the first kidney-shaped groove extends up and down, the third adjusting guide rod can penetrate through the first kidney-shaped groove in a relatively movable manner, the two third rotating nuts are both positioned in the third opening groove, and the two third rotating nuts are respectively abutted to the left groove wall and the right groove wall of the third opening groove;

fourth adjusting part is including offering the fourth open groove on the fourth module board, offering the second kidney slot that just communicates with fourth open groove at the fourth module board, extending from top to bottom and being fixed in PMKD's fourth regulation guide arm and two threaded connection fourth swivel nut in the fourth regulation guide arm periphery, extend about the cross-section of second kidney slot, the fourth is adjusted the guide arm and is worn to establish in the second kidney slot with relative movement ground, and two fourth swivel nuts all are located the fourth open groove, two fourth swivel nuts respectively with the last cell wall in fourth open groove and lower cell wall butt.

Furthermore, a sunken armrest part is arranged on the fixed bottom plate.

Furthermore, a balance bar is fixedly arranged on the fixed bottom plate.

Furthermore, a positioning hole groove is formed in the fixed bottom plate.

Furthermore, the material of the template support frame is an alloy steel plate.

Furthermore, an installation groove is formed in the template support frame, and the cutter is fixedly embedded in the installation groove.

As mentioned above, the multi-direction adjustable steel die provided by the invention has the following beneficial effects:

in the multidirectional adjustable steel die, the two second module plates, the third module plate and the four fourth module plates form five adjustable areas, and the five adjustable areas are annularly distributed on the periphery of the first module plate, so that the multidirectional adjustment of the steel die is realized, the multidirectional adjustable steel die can be better suitable for a forming process of printed products with inconsistent expansion and contraction rates and high controllability difficulty, and the requirement of a post-printing die-cutting machining process is met.

Drawings

FIG. 1 is the structure schematic diagram of diversified adjustable steel mould in this application.

Fig. 2 is a schematic diagram of the multi-azimuth adjustable steel die used in the post-printing die cutting process of the cigarette case.

Fig. 3 is a schematic structural diagram of a first adjustment assembly in the present application.

Fig. 4 is a schematic structural diagram of a second adjustment assembly of the present application.

Fig. 5 is a schematic structural diagram of a third adjustment assembly of the present application.

Fig. 6 is a schematic structural diagram of a fourth adjustment assembly in the present application.

Description of the element reference numerals

10 fixed base plate

11 armrest part

12 balance bar

13 positioning hole groove

21 first module board

22 second module board

23 third module board

24 fourth module board

30 formwork support

40 first adjustment Assembly

41 first open slot

42 first adjusting guide rod

43 first swivel nut

44 first rib part

50 second adjustment assembly

51 second open slot

52 second adjustment guide

53 second swivel nut

54 second rib part

60 third adjustment assembly

61 third opening groove

62 third adjusting guide rod

63 third swivel nut

64 third rib part

70 fourth adjustment Assembly

71 fourth open groove

72 fourth adjusting guide rod

73 fourth swivel nut

74 fourth rib part

80 spring cushion

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

It should be understood that the structures, proportions, and dimensions shown in the drawings and described herein are for illustrative purposes only and are not intended to limit the scope of the present invention, which is defined by the claims, but rather by the claims. In addition, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description only and are not intended to limit the scope of the present invention, and changes or modifications of the relative relationship thereof may be made without substantial technical changes and modifications.

The application provides a diversified adjustable steel mould for the processing of printing back end cross cutting makes the product shaping after the printing. Namely: and placing the printed product on a multi-azimuth adjustable steel die, and pressing the printed product and the multi-azimuth adjustable steel die mutually to finish cutting the printed product.

As shown in fig. 1 and fig. 2, the multi-directional adjustable steel mold according to the present invention includes a fixed base plate 10, a first module plate 21 fixed on the fixed base plate 10, second module plates 22 distributed on left and right sides of the first module plate 21, a third module plate 23 distributed on an upper side of the first module plate 21, and fourth module plates 24 distributed on left and right sides of the third module plate 23, wherein the two fourth module plates 24 are also distributed on upper sides of the two second module plates 22. The second module plate 22 is installed to the fixed base plate 10 to be movable left and right, the third module plate 23 is installed to the fixed base plate 10 to be movable up and down, and the fourth module plate 24 is installed to the fixed base plate 10 to be movable left and right and to be movable up and down. The first module board 21, the second module board 22, the third module board 23, and the fourth module board 24 are all disposed on the same surface of the fixed base plate 10; for convenience of description, a surface of the fixed base plate 10 provided with the first module plate 21, the second module plate 22, the third module plate 23, and the fourth module plate 24 is defined as a front surface. A template support 30 is fixedly mounted on the front surface of each of the first module plate 21, the second module plate 22, the third module plate 23 and the fourth module plate 24, and a cutter is fixed on the front surface of each template support 30. Therefore, the first module plate 21, the second module plate 22, the third module plate 23 and the fourth module plate 24 form six cutting areas of the multi-directional adjustable steel die.

When the multi-azimuth adjustable steel die is used, the multi-azimuth adjustable steel die is installed at the designated position of printing equipment, and a printed product is conveyed to the multi-azimuth adjustable steel die and cut by a cutter on the multi-azimuth adjustable steel die, so that printing and forming are realized. In particular, in the diversified adjustable steel mould that this application relates to, first module board 21 is fixed structure, two bilateral symmetry's second module board 22 is the portable structure of controlling, a third module board 23 is the portable structure of going up and down, two bilateral symmetry's fourth module board 24 is for controlling and the portable structure of going up and down, so two second module boards 22, a third module board 23, and two fourth module boards 24 constitute five adjustable regions, five adjustable regions encircle the periphery at first module board 21, make the position of five template support frames 30 of installing the cutter on the steel mould can carry out random adjustment according to the deformation of product after the printing, realize diversified adjustable of many local degrees. With the different regulation in five adjustable regions, cutting range is great, can make the position of cutter accurate to the position of cutting on the product after the printing, makes the shaping process that diversified adjustable steel mould can be applicable to the product after the printing that the expansion ratio is inconsistent, the controllability degree of difficulty is big betterly finally, satisfies the requirement of the follow-up cross cutting processing technology of printing from this.

In one embodiment, the multi-direction adjustable steel die is used for the post-printing die cutting processing of the cigarette case; at this time, as shown in fig. 1 and fig. 2, the cutter in the area of the first module board 21 can cut 3 cigarette cases, the cutter in the area of the second module board 22 can cut 3 cigarette cases, the cutter in the area of the third module board 23 can cut 2 cigarette cases, and the cutter in the area of the fourth module board 24 can cut 2 cigarette cases, so that the printed product can be cut by the multi-directional adjustable steel die at one time, and 15 cigarette cases can be cut. According to the deformation condition of the printed product, the positions of the two second module plates 22, the third module plate 23 and the two fourth module plates 24 on the multi-direction adjustable steel die are adjusted, the positions of the cutters in the five adjustable areas can be adjusted, and therefore the cutting precision of the cigarette case is improved.

Further, as shown in fig. 1 and 2, the fixing base plate 10 is a rectangular plate-shaped structure, the middle position of the upper end of the front side surface of the fixing base plate 10 is provided with a recessed armrest part 11, and the armrest part 11 can also penetrate through the fixing base plate 10 from front to back, so that the operation during the disassembly and assembly of the multi-directional adjustable steel die is facilitated, and the convenience during the grabbing replacement of the multi-directional adjustable steel die is improved. The middle position department of PMKD 10 front side lower extreme has seted up locating hole groove 13, and this locating hole groove 13 is the quadrangle design, can conveniently stably install diversified adjustable steel mould in lithography apparatus.

Further, as shown in fig. 1 and 2, three balance bars 12 extending left and right are fixedly disposed on the front side of the fixed base plate 10, wherein two of the balance bars 12 are disposed on the left and right sides of the armrest portion 11, the other balance bar 12 is disposed on the lower side of the armrest portion 11, but the three balance bars 12 are disposed on the upper sides of the six cutting areas. Therefore, when cutting the cigarette case, diversified adjustable steel mould can the pressurized in the cutting area, and this pressure can be balanced to two balancing strip 12, can avoid diversified adjustable steel mould to take place the phenomenon of perk, and the stability when increasing diversified adjustable steel mould from this and using makes the overall stability of the whole space of a whole page increase substantially.

Preferably, the material of the template support frame 30 is a 3 mm alloy steel plate, so that the structural strength of the template support frame 30 is improved, the fatigue strength of the template support frame 30 in the production process can be greatly reduced, the service life of the multi-directional adjustable steel die is prolonged, the maintenance cost is reduced, and the cost of processing and printing is saved. In addition, the connection mode of the template support frame 30 and the cutter is as follows: the template support frame 30 is provided with an installation groove, and the cutter is fixedly embedded in the installation groove. In addition, each template support frame 30 is provided with a swingable space with 10 degrees on both sides, namely the template support frame 30 is of a swingable structure relative to the first module plate 21, the second module plate 22, the third module plate 23 and the fourth module plate 24, and an adjustable gap obtained after the template support frame 30 finely adjusts the swing angle of 0.1 degree is 1 mm, so that the flatness and the fastness of the printing surface are increased, the printing surface is adjusted more flexibly, the space can be saved, and the change requirement of the printing surface diagram is met better.

Further, as shown in fig. 1 and 2, the second module plate 22 is mounted to the fixed base plate 10 to be movable left and right by three sets of first adjustment assemblies 40, two sets of first adjustment assemblies 40 are distributed on the outer end side of the second module plate 22 away from the first template, and one set of first adjustment assemblies 40 is distributed on the inner end side of the second module plate 22 close to the first template. As shown in fig. 1, 2 and 3, each set of first adjusting components 40 includes a first opening groove 41 formed on the second module board 22, a first adjusting guide rod 42 extending left and right and fixed to the fixed base board 10, and two first rotating nuts 43 screwed on the periphery of the first adjusting guide rod 42, the second module board 22 is sleeved on the first adjusting guide rod 42 in a manner of being capable of moving left and right, the two first rotating nuts 43 are located in the first opening groove 41, the two first rotating nuts 43 are respectively abutted against the left groove wall and the right groove wall of the first opening groove 41, and the first opening groove 41 is a recessed structure on the second module board 22. When the second module plate 22 needs to be adjusted leftward, the first rotating nut 43 on the right side in the first adjusting assembly 40 is unscrewed, the first rotating nut 43 on the left side in the first adjusting assembly 40 is rotated, the first rotating nut 43 moves leftward when rotating, and the second module plate 22 is driven to move leftward together by the abutting of the first rotating nut 43 and the left groove wall of the first open groove 41; after the adjustment is completed, the first swivel nut 43 in the first adjustment assembly 40 is tightened. Similarly, when the second module board 22 needs to be adjusted to the right, the first rotating nut 43 on the left side of the first adjusting component 40 is loosened, and the first rotating nut 43 on the right side of the first adjusting component 40 is rotated. Preferably, the second module board 22 is provided with a first rib portion 44 extending up and down in the first opening groove 41, the first adjusting guide rod 42 is sleeved with spring pads 80 distributed on the left and right sides of the first rib portion 44, and the spring pads 80 act on the first rotating nut 43.

Further, as shown in fig. 1 and 2, the third module board 23 is movably installed to the fixed base plate 10 up and down by three sets of second adjusting members 50, two sets of second adjusting members 50 are distributed at an upper end of the third module board 23, and one set of second adjusting members 50 is distributed at a lower end of the third module board 23. As shown in fig. 1, 2 and 4, each set of second adjusting components 50 includes a second opening groove 51 formed in the third module plate 23, a second adjusting guide rod 52 extending up and down and fixed to the fixed base plate 10, and two second rotating nuts 53 screwed on the periphery of the second adjusting guide rod 52, the third module plate 23 is sleeved on the second adjusting guide rod 52 in a vertically movable manner, the two second rotating nuts 53 are both located in the second opening groove 51, the two second rotating nuts 53 are respectively abutted against the upper groove wall and the lower groove wall of the second opening groove 51, and the second opening groove 51 is a recessed structure on the third module plate 23. When the third module plate 23 needs to be adjusted upwards, the second rotating nut 53 on the lower side of the second adjusting component 50 is loosened, the second rotating nut 53 on the upper side of the second adjusting component 50 is rotated, the second rotating nut 53 moves upwards when rotating, and the third module plate 23 is driven to move upwards together by the abutting of the second rotating nut 53 and the upper groove wall of the second opening groove 51; after the adjustment is completed, the second swivel nut 53 in the second adjustment assembly 50 is tightened. Similarly, when the third module plate 23 needs to be adjusted downward, the second rotating nut 53 on the upper side of the second adjusting assembly 50 is loosened, and the second rotating nut 53 on the lower side of the second adjusting assembly 50 is rotated. Preferably, the third module plate 23 is provided with a second rib portion 54 extending left and right in the second opening groove 51, the second adjusting guide rod 52 is sleeved with spring pads 80 distributed on the upper and lower sides of the second rib portion 54, and the spring pads 80 act on the second rotating nut 53.

Further, as shown in fig. 1 and 2, the fourth module plate 24 is mounted to the fixed base plate 10 to be movable left and right by three sets of third adjusting assemblies 60, and is mounted to the fixed base plate 10 to be movable up and down by three sets of fourth adjusting assemblies 70; two sets of third adjusting components 60 are distributed on the outer end side of the fourth module plate 24 far away from the third template, and one set of third adjusting components 60 is distributed on the inner end side of the fourth module plate 24 close to the third template; two sets of fourth adjustment assemblies 70 are distributed on the upper end of the fourth modular plate 24 and one set of fourth adjustment assemblies 70 is distributed on the lower end of the fourth modular plate 24. As shown in fig. 1, 2 and 5, each set of third adjusting components 60 includes a third opening groove 61 formed on the fourth module plate 24, a first kidney-shaped groove formed on the fourth module plate 24 and communicated with the third opening groove 61, a third adjusting guide rod 62 extending left and right and fixed to the fixed base plate 10, and two third rotating nuts 63 screwed to the outer periphery of the third adjusting guide rod 62, the cross section of the first kidney-shaped groove extends up and down, the third adjusting guide rod 62 is relatively movably inserted into the first kidney-shaped groove, both the two third rotating nuts 63 are located in the third opening groove 61, and the two third rotating nuts 63 are respectively abutted against the left and right groove walls of the third opening groove 61. As shown in fig. 1, 2 and 6, each set of fourth adjusting components 70 includes a fourth opening groove 71 formed on the fourth module plate 24, a second kidney-shaped groove formed on the fourth module plate 24 and communicated with the fourth opening groove 71, a fourth adjusting guide rod 72 extending up and down and fixed to the fixed base plate 10, and two fourth rotating nuts 73 screwed on the periphery of the fourth adjusting guide rod 72, the cross section of the second kidney-shaped groove extends left and right, the fourth adjusting guide rod 72 is movably inserted in the second kidney-shaped groove, both the fourth rotating nuts 73 are located in the fourth opening groove 71, and the fourth rotating nuts 73 are respectively abutted to the upper groove wall and the lower groove wall of the fourth opening groove 71.

When the fourth module plate 24 needs to be adjusted leftward, the third rotating nut 63 on the right side in the third adjusting assembly 60 is unscrewed, the third rotating nut 63 on the left side in the third adjusting assembly 60 is rotated, the third rotating nut 63 moves leftward when rotated, and the fourth module plate 24 is driven to move leftward together by the abutting of the third rotating nut 63 and the left groove wall of the third opening groove 61; after the adjustment is completed, the third swivel nut 63 in the third adjustment assembly 60 is tightened. Similarly, when the fourth module plate 24 needs to be adjusted to the right, the third rotating nut 63 on the left side in the third adjusting assembly 60 is loosened, and the third rotating nut 63 on the right side in the third adjusting assembly 60 is rotated. When the fourth module plate 24 is adjusted in a left-right movement, the second kidney-shaped slot of the fourth adjustment assembly 70 slides in a left-right direction relative to the fourth adjustment guide rod 72, thereby avoiding interference. When the fourth module plate 24 needs to be adjusted upwards, the fourth rotating nut 73 on the lower side in the fourth adjusting assembly 70 is loosened, the fourth rotating nut 73 on the upper side in the fourth adjusting assembly 70 is rotated, the fourth rotating nut 73 moves upwards when rotating, and the fourth module plate 24 is driven to move upwards together by the abutting of the fourth rotating nut 73 and the upper groove wall of the fourth open groove 71; after the adjustment is completed, the fourth swivel nut 73 in the fourth adjustment assembly 70 may be tightened. Similarly, when the fourth module plate 24 needs to be adjusted downward, the fourth rotating nut 73 on the upper side of the fourth adjusting assembly 70 is loosened, and the fourth rotating nut 73 on the lower side of the fourth adjusting assembly 70 is rotated. When the fourth module plate 24 is adjusted by moving up and down, the first kidney slot of the third adjustment assembly 60 slides up and down relative to the third adjustment guide rod 62, thereby avoiding interference. Preferably, the fourth module plate 24 is provided with a third bead portion 64 extending vertically in the third open groove 61 and a fourth bead portion 74 extending horizontally in the fourth open groove 71; the third adjusting guide rod 62 is sleeved with spring pads 80 which are distributed on the left side and the right side of the third rib part 64, and the spring pads 80 act on the third rotating nut 63; the fourth adjusting guide rod 72 is sleeved with spring pads 80 which are distributed on the upper side and the lower side of the fourth rib part 74, and the spring pads 80 act on the fourth rotating nut 73.

In conclusion, the present invention effectively overcomes various disadvantages of the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. The utility model provides a diversified adjustable steel mould which characterized in that: the device comprises a fixed bottom plate (10), a first module plate (21) fixed on the fixed bottom plate (10), a second module plate (22) distributed on the left side and the right side of the first module plate (21), a third module plate (23) distributed on the upper side of the first module plate (21), and a fourth module plate (24) distributed on the left side and the right side of the third module plate (23), wherein the second module plate (22) is installed on the fixed bottom plate (10) in a manner of moving left and right, the third module plate (23) is installed on the fixed bottom plate (10) in a manner of moving up and down, and the fourth module plate (24) is installed on the fixed bottom plate (10) in a manner of moving left and right and moving up and down; the first module plate (21), the second module plate (22), the third module plate (23) and the fourth module plate (24) are all fixedly provided with a template support frame (30), and each template support frame (30) is fixed with a cutter.

2. The adjustable multi-azimuth steel form of claim 1, wherein: the second module plate (22) is installed on the fixed bottom plate (10) in a manner of moving left and right through at least one group of first adjusting components (40); first adjusting part (40) including set up first open slot (41) on second module board (22), control the extension and be fixed in first regulation guide arm (42) of PMKD (10) and two threaded connection at first swivel nut (43) of adjusting guide arm (42) periphery, second module board (22) can remove the ground cover and establish on first regulation guide arm (42) about, and two first swivel nut (43) all are located first open slot (41), two first swivel nut (43) respectively with the left cell wall and the right cell wall butt of first open slot (41).

3. The adjustable multi-azimuth steel form of claim 1, wherein: the third module board (23) is movably mounted on the fixed bottom board (10) up and down through at least one group of second adjusting components (50); second adjusting part (50) are including offering second open slot (51) on third module board (23), extending from top to bottom and being fixed in second regulation guide arm (52) of PMKD (10) and two threaded connection second swivel nut (53) in second regulation guide arm (52) periphery, third module board (23) can overlap on second regulation guide arm (52) with reciprocating, and two second swivel nut (53) all are located second open slot (51), two second swivel nut (53) respectively with the last cell wall and the lower cell wall butt of second open slot (51).

4. The adjustable multi-azimuth steel form of claim 1, wherein: the fourth module plate (24) is installed on the fixed bottom plate (10) in a manner that the fourth module plate can move left and right through at least one group of third adjusting components (60) and is installed on the fixed bottom plate (10) in a manner that the fourth module plate can move up and down through at least one group of fourth adjusting components (70);

the third adjusting component (60) comprises a third opening groove (61) formed in the fourth module plate (24), a first kidney-shaped groove formed in the fourth module plate (24) and communicated with the third opening groove (61), a third adjusting guide rod (62) extending left and right and fixed on the fixed bottom plate (10), and two third rotating nuts (63) in threaded connection with the periphery of the third adjusting guide rod (62), the section of the first kidney-shaped groove extends up and down, the third adjusting guide rod (62) can be movably arranged in the first kidney-shaped groove in a penetrating mode, the two third rotating nuts (63) are located in the third opening groove (61), and the two third rotating nuts (63) are respectively abutted to the left groove wall and the right groove wall of the third opening groove (61);

fourth adjusting part (70) including offer fourth open groove (71) on fourth module board (24), offer fourth module board (24) and with the second kidney slot of fourth open groove (71) intercommunication, extend from top to bottom and be fixed in fourth regulation guide arm (72) of PMKD (10) and two threaded connection adjust fourth swivel nut (73) of guide arm (72) periphery at the fourth, extend about the cross-section of second kidney slot, fourth regulation guide arm (72) are worn to establish in the second kidney slot with relative movement, and two fourth swivel nut (73) all are located fourth open groove (71), two fourth swivel nut (73) respectively with the last cell wall and the lower cell wall butt of fourth open groove (71).

5. The adjustable multi-azimuth steel form of claim 1, wherein: the fixed bottom plate (10) is provided with a sunken armrest part (11).

6. The adjustable multi-azimuth steel form of claim 1, wherein: and a balance bar (12) is fixedly arranged on the fixed bottom plate (10).

7. The adjustable multi-azimuth steel form of claim 1, wherein: the fixed bottom plate (10) is provided with a positioning hole groove (13).

8. The adjustable multi-azimuth steel form of claim 1, wherein: the template support frame (30) is made of an alloy steel plate.

9. The adjustable multi-azimuth steel form of claim 1, wherein: the template support frame (30) is provided with an installation groove, and the cutter is fixedly embedded in the installation groove.