CN212887878U - Printing cutting machine that can high-efficient location - Google Patents

Abstract

The utility model discloses a printing cutting machine that can high-efficient location, including organism, guiding mechanism, adjustment mechanism and straining device all set up the top right side position at the organism, handstand T type spout has been seted up to the up end of organism, guiding mechanism is including two stands, two spacing dishes of cavity and cavity guide roll, adjustment mechanism is including two telescope tubes, two T type telescopic links, two first bevel gears, two second bevel gears, transfer line and carousel, straining device is including two T type sliding columns and two ballast plates. The utility model relates to a printing cutting machine that can high-efficient location is convenient for carry out quick altitude mixture control location operation to printing cutting machine carries out accurate cutting, simple and practical.

Description

Printing cutting machine that can high-efficient location

Technical Field

The utility model relates to a relevant technical field in printing cutting machine location specifically is a printing cutting machine that can high-efficient location.

Background

The printing and splitting machine is a mechanical device for splitting wide paper, mica tapes or films into a plurality of narrow materials, and is commonly used for paper making machinery, wire and cable mica tapes and printing and packaging machinery; the slitting machine mainly applies to: cutting non-woven fabrics, mica tapes, paper, insulating materials and various film materials, and is particularly suitable for cutting narrow tapes; but the printing and splitting machine is not convenient for carry out high-efficient location operation, leads to the operation of cutting comparatively loaded down with trivial details, and can't guarantee the precision of cutting, can't reach anticipated finished product size requirement, so design production here can the high-efficient printing and splitting machine who fixes a position to in order to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a printing cutting machine that can high-efficient location to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides a printing cutting machine that can high-efficient location, includes organism, guiding mechanism, adjustment mechanism and straining device all set up the top right side position at the organism, handstand T type spout has been seted up to the up end of organism, guiding mechanism is including two stands, two spacing dishes of cavity and cavity guide roll, adjustment mechanism is including two telescope tubes, two T type telescopic links, two first bevel gears, two second bevel gears, transfer line and carousel, straining device is including two T type sliding columns and two ballast plates.

Preferably, four corner positions of the bottom end surface of the machine body are provided with feet.

Preferably, the two upright posts of the guide mechanism are distributed front and back and are vertically welded on the front side and the back side of the right side of the upper end face of the machine body, the lowest points of the radial side walls of the two hollow limiting discs are respectively welded on the top end faces of the two upright posts, and the front end and the back end of the hollow guide roller are respectively connected with the opposite side walls of the two hollow limiting discs in a rotating mode.

Preferably, the transmission rod of the adjusting mechanism is rotatably penetrated through the hollow guide roller, two axial ends of the transmission rod are respectively rotatably inserted into the inner cavities of the hollow limiting discs, the front end of the transmission rod is rotatably penetrated through the front hollow limiting disc through an extension rod and is connected with the rotary disc, two first bevel gears are respectively fixedly sleeved at two axial ends of the transmission rod and are respectively positioned in the inner cavities of the two hollow limiting discs, the radial side walls of the two hollow limiting discs are respectively provided with a hinge notch, the right end faces of the two telescopic sleeves are respectively hinged in the hinge notch inner cavities of the two hollow limiting discs through a pin shaft, the two first bevel gears are respectively and vertically distributed with the two second bevel gears and are mutually and rotatably meshed, the two second bevel gears are respectively positioned in the inner cavities of the two hollow limiting discs and are respectively and fixedly sleeved with the pin shafts at the hinge positions of the two telescopic sleeves, every T type telescopic link cup joints with every telescopic internal chamber slip respectively, and is connected with the spring between every T type telescopic link and every telescopic internal chamber.

Preferably, a crank is arranged at the edge of the front end face of the rotating disc.

Preferably, every the most advanced of T type telescopic link is articulated with the right-hand member face top of every T type slip post respectively, every the bottom of T type slip post and the handstand T type spout inner chamber slip joint of organism, two distribute around the root T type slip post, and two ballast plates are articulated with two T type slip post opposite side wall top positions respectively, every ballast plate's most advanced all rotates and is equipped with the pivot, every the middle section position of pivot distributes and rotates and is equipped with the first guide roller that can center on the rotation of pivot axial direction and can center on the second guide roller of the rotation of pivot radial direction, every first guide roller is located the top position of every second guide roller, and mutually perpendicular distributes.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model relates to a printing cutting machine that can high-efficient location is convenient for carry out quick altitude mixture control location operation to printing cutting machine carries out accurate cutting, simple and practical.

2. The utility model discloses, through adjusting the clearance size between two ballast plates to satisfy treating of different width and cut the thing, application scope is wide, simple and practical.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a partial top view structural section view of an adjusting mechanism according to an embodiment of the present invention;

fig. 3 is an enlarged view of a structure at a position in fig. 1 according to an embodiment of the present invention.

In the figure: 1. a body; 11. an inverted T-shaped chute; 2. a guide mechanism; 21. a hollow limiting disc; 22. a hollow guide roll; 23. a column; 3. an adjustment mechanism; 31. a telescopic sleeve; 32. a T-shaped telescopic rod; 33. a spring; 34. a second bevel gear; 35. a first bevel gear; 36. a transmission rod; 37. a turntable; 38. a crank; 4. a tensioning mechanism; 41. a T-shaped sliding column; 42. a weight plate; 43. a rotating shaft; 44. a first guide roller; 45. and a second guide roller.

Detailed Description

In order to facilitate the use, the embodiment of the utility model provides a printing cutting machine that can high-efficient location. The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-3, the embodiment provides a printing splitting machine capable of positioning efficiently, which includes a machine body 1, a guide mechanism 2, an adjusting mechanism 3, and a tensioning mechanism 4, wherein the guide mechanism 2, the adjusting mechanism 3, and the tensioning mechanism 4 are all disposed at a right side position of a top end of the machine body 1, an inverted T-shaped chute 11 is disposed on an upper end surface of the machine body 1, the guide mechanism 2 includes two upright posts 23, two hollow limiting discs 21, and a hollow guide roller 22, the adjusting mechanism 3 includes two telescopic sleeves 31, two T-shaped telescopic rods 32, two first bevel gears 35, two second bevel gears 34, a transmission rod 36, and a turntable 37, and the tensioning mechanism 4 includes two T-shaped sliding posts 41 and two weight plates 42.

Four corner positions of the bottom end surface of the machine body 1 are provided with feet, and the whole machine body 1 is supported by the feet.

Two upright posts 23 of the guide mechanism 2 are distributed front and back and are vertically welded on the front and back sides of the right side of the upper end face of the machine body 1, the lowest points of the radial side walls of the two hollow limiting discs 21 are respectively welded on the top end faces of the two upright posts 23, and the front and back ends of the hollow guide roller 22 are respectively connected with the opposite side walls of the two hollow limiting discs 21 in a rotating mode.

A transmission rod 36 of the adjusting mechanism 3 rotatably penetrates through the hollow guide roller 22, axial two ends of the transmission rod 36 are respectively rotatably inserted into the inner cavity of the hollow limiting disc 21, the front end of the transmission rod 36 rotatably penetrates through the front hollow limiting disc 21 through an extension rod and is connected with the rotary disc 37, two first bevel gears 35 are respectively fixedly sleeved at the axial two ends of the transmission rod 36 and are respectively positioned in the inner cavities of the two hollow limiting discs 21, the radial side walls of the two hollow limiting discs 21 are respectively provided with a hinge notch, the right end faces of the two telescopic sleeves 31 are respectively hinged in the inner cavities of the hinge notches of the two hollow limiting discs 21 through pin shafts, the two first bevel gears 35 are respectively and vertically distributed with the two second bevel gears 34 and are mutually and rotatably engaged, the two second bevel gears 34 are respectively positioned in the inner cavities of the two hollow limiting discs 21 and are respectively and fixedly sleeved with the pin shafts at the hinge positions, each T-shaped telescopic rod 32 is respectively sleeved with the inner cavity of each telescopic sleeve 31 in a sliding mode, and a spring 33 is connected between each T-shaped telescopic rod 32 and the inner cavity of each telescopic sleeve 31.

The tip of each T-shaped telescopic rod 32 is hinged to the top end of the right end face of each T-shaped sliding column 41, the bottom end of each T-shaped sliding column 41 is slidably clamped with the inner cavity of the inverted T-shaped sliding chute 11 of the machine body 1, the two T-shaped sliding columns 41 are distributed in the front and back direction, the two weight plates 42 are hinged to the top ends of the opposite side walls of the two T-shaped sliding columns 41, the tip of each weight plate 42 is rotatably provided with a rotating shaft 43, the middle section of each rotating shaft 43 is rotatably provided with a first guide roller 44 capable of rotating around the axial direction of the rotating shaft 43 and a second guide roller 45 capable of rotating around the radial direction of the rotating shaft 43, and each first guide roller 44 is located above each second guide roller 45 and is vertically distributed.

In the embodiment, when in use, an object to be cut is wound under the two weight plates 42, is wound with the highest point of the radial side wall of the hollow guide roller 22 of the guide mechanism 2 and is wound with the external winding roller, and the adjusting mechanism 3 is rapidly adjusted according to cutting requirements, namely, the rotating disc 37 is rotated by bare hands, so that the transmission rod 36 can be driven to rotate, the two first bevel gears 35 of the transmission rod 36 respectively drive the two second bevel gears 34 to synchronously rotate, the two first bevel gears 35 are symmetrically distributed front and back, so the two first bevel gears 35 respectively drive the two second bevel gears 34 to relatively rotate, the two telescopic sleeves 31 are relatively adjusted, the T-shaped sliding column 41 can be relatively adjusted along the inner cavity of the inverted T-shaped sliding groove 11 by the two T-shaped telescopic rods 32, the gap between the two weight plates 42 is reduced, and thus the object to be cut can be ensured not deviate in the conveying process, the accurate positioning and conveying are realized, the first guide roller 44 and the second guide roller 45 which are vertically distributed are in rolling fit with the upper end and the side edge of the object to be cut, so that the object to be cut is rolled and pressed downwards, the tensioning operation of the object to be cut is realized, and the device is simple and practical;

the gap between the two weight plates 42 is adjusted so as to meet the requirements of objects to be cut with different widths, and the device is wide in application range, simple and practical.

Example 2

Referring to fig. 1-3, a further improvement is made on the basis of embodiment 1:

wherein, the edge position of the front end face of the turntable 37 is provided with a crank 38, and the auxiliary rotation of the turntable 37 is facilitated by the arrangement of the crank 38.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a printing cutting machine that can high-efficient location, includes organism (1), guiding mechanism (2), adjustment mechanism (3) and straining device (4), its characterized in that: guiding mechanism (2), adjustment mechanism (3) and straining device (4) all set up the top right side position at organism (1), inverted T type spout (11) have been seted up to the up end of organism (1), guiding mechanism (2) are including two stand (23), two spacing dishes of cavity (21) and hollow guide roll (22), adjustment mechanism (3) are including two telescope tubes (31), two T type telescopic links (32), two first bevel gears (35), two second bevel gears (34), transfer line (36) and carousel (37), straining device (4) are including two T type sliding columns (41) and two ballast plates (42).

2. A printing and slitting machine capable of achieving efficient positioning according to claim 1, wherein: four corner positions of the bottom end face of the machine body (1) are provided with bottom feet.

3. A printing and slitting machine capable of achieving efficient positioning according to claim 1, wherein: two upright posts (23) of the guide mechanism (2) are distributed front and back and are vertically welded on the front side and the back side of the right side of the upper end face of the machine body (1), the lowest points of the radial side walls of the two hollow limiting discs (21) are respectively welded on the top end faces of the two upright posts (23), and the front end and the back end of the hollow guide roller (22) are respectively connected with the opposite side walls of the two hollow limiting discs (21) in a rotating mode.

4. A printing and slitting machine capable of achieving efficient positioning according to claim 1, wherein: the transmission rod (36) of the adjusting mechanism (3) is rotatably penetrated through the hollow guide roller (22), the two axial ends of the transmission rod (36) are rotatably inserted into the inner cavity of the hollow limiting disc (21) respectively, the front end of the transmission rod (36) is rotatably penetrated through the hollow limiting disc (21) at the front side through the extension rod and is connected with the turntable (37), the two first bevel gears (35) are fixedly sleeved at the two axial ends of the transmission rod (36) respectively and are positioned in the inner cavities of the two hollow limiting discs (21) respectively, the radial side walls of the two hollow limiting discs (21) are respectively provided with a hinge notch, the right end faces of the two telescopic sleeves (31) are respectively hinged in the hinge notch inner cavities of the two hollow limiting discs (21) through pin shafts, the two first bevel gears (35) are respectively and mutually and vertically distributed with the two second bevel gears (34) and are mutually and rotatably meshed, the two second bevel gears (34) are respectively positioned in the inner cavities of the two hollow limiting discs (21) and are respectively fixedly sleeved with the hinge pins at the hinged positions of the two telescopic sleeves (31), each T-shaped telescopic rod (32) is respectively sleeved with the inner cavity of each telescopic sleeve (31) in a sliding mode, and a spring (33) is connected between each T-shaped telescopic rod (32) and the inner cavity of each telescopic sleeve (31).

5. A printing and slitting machine capable of achieving efficient positioning according to claim 1, wherein: and a crank (38) is arranged at the edge of the front end face of the turntable (37).

6. A printing and slitting machine capable of achieving efficient positioning according to claim 1, wherein: the tip of each T-shaped telescopic rod (32) is hinged with the top end of the right end face of each T-shaped sliding column (41), the bottom end of each T-shaped sliding column (41) is in sliding clamping connection with the inner cavity of an inverted T-shaped sliding groove (11) of the machine body (1), the two T-shaped sliding columns (41) are distributed front and back, and the two weight plates (42) are respectively hinged with the top ends of the opposite side walls of the two T-shaped sliding columns (41), the tip end of each weight plate (42) is rotatably provided with a rotating shaft (43), the middle section position of each rotating shaft (43) is rotatably provided with a first guide roller (44) capable of rotating around the axial direction of the rotating shaft (43) and a second guide roller (45) capable of rotating around the radial direction of the rotating shaft (43), and each first guide roller (44) is positioned above each second guide roller (45) and is vertically distributed.

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