CN218748135U

CN218748135U - Automatic cutter arranging system structure

Info

Publication number: CN218748135U
Application number: CN202221051592.6U
Authority: CN
Inventors: 卢翠庭
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-05
Filing date: 2022-05-05
Publication date: 2023-03-28
Anticipated expiration: 2032-05-05

Abstract

The utility model discloses an automatic gang tool system architecture, include: a plurality of row cutter assemblies which are in a linear array and extend to the horizontal direction for sliding arrangement; the moving mechanism comprises a movable plate which is driven to keep reciprocating movement in the horizontal direction, a synchronizing mechanism is arranged on the movable plate, the synchronizing mechanism comprises a telescopic column which is driven to move in the vertical direction, the telescopic column is driven to be inserted into the cutter arranging assembly in an inserting mode, so that the movable plate can move the cutter arranging assembly one by one, and the distance between the cutter arranging assemblies can be adjusted. The utility model discloses an automatic row's sword system architecture that provides has realized the automatic technical purpose to a plurality of row's sword subassembly interval adjustment, compares manual operation, and the accuracy nature of whole accent sword, work efficiency compare personnel and have all obtained very big promotion, have satisfied the demand of the high production rhythm down accent sword of assembly line.

Description

Automatic cutter arranging system structure

Technical Field

The utility model relates to a panty-shape diapers trousers core production facility technical field relates to an automatic row sword system architecture particularly.

Background

The diaper core and the toilet paper of the paper diaper are required to be divided according to the rules after the production is finished.

According to patent No. CN201310346136.3, publication (publication) date: 2015-04-01, discloses a toilet paper roll cutting machine. The cutting saw comprises a rack, a cutting saw fixedly arranged on one side of the rack and a workbench arranged on the rack, wherein a sliding rail and a swing motor are arranged on the upper end surface of the rack, a sliding sleeve and a deflector rod are fixedly arranged on the lower end surface of the workbench, and the sliding sleeve is slidably sleeved on the sliding rail; an eccentric wheel disc is fixedly installed on a rotating shaft of the swing motor, an annular sliding groove is formed in the upper surface of the eccentric wheel disc, and the shifting rod is inserted into the sliding groove. The toilet paper roll cutting machine workbench moves linearly, automatic feeding and cutting are achieved, production efficiency is high, product quality is good, the installation position of the servo motor is fixed, cable faults can be avoided, and service life is prolonged.

The adjustment of the tool in the prior art comprising the above patent is mainly manual adjustment, the working efficiency is low, and the production efficiency is seriously influenced under the flow line operation.

Disclosure of Invention

The utility model aims at providing an automatic gang tool system architecture for solve above-mentioned problem.

In order to achieve the above object, the present invention provides the following technical solutions: an automatic gang tool system structure, comprising:

a plurality of row cutter assemblies which are in a linear array and extend to the horizontal direction for sliding arrangement;

the moving mechanism comprises a movable plate which is driven to keep reciprocating movement in the horizontal direction, a synchronizing mechanism is arranged on the movable plate, the synchronizing mechanism comprises a telescopic column which is driven to move in the vertical direction, the telescopic column is driven to be inserted into the cutter arranging assembly in an inserting mode, so that the movable plate can move the cutter arranging assembly one by one, and the distance between the cutter arranging assemblies can be adjusted.

Preferably, the cutting device further comprises a rack, a supporting plate is arranged on the rack, sliding rails are arranged at the top and the bottom of the supporting plate, the movable plate is arranged on the sliding rails arranged at the top of the supporting plate in a sliding mode, and the cutter arranging assembly is arranged on the sliding rails arranged at the bottom of the supporting plate in a sliding mode.

Preferably, the moving mechanism comprises a stepping motor and a screw rod, two ends of the screw rod are both installed in bearing seats symmetrically installed at the top of the supporting plate and are driven by the stepping motor to keep rotating, and the movable plate is in threaded connection with the screw rod.

Preferably, an exhaust channel is installed on the supporting plate, a plurality of air inlet pipes and exhaust pipes are arranged in the exhaust channel, and each air inlet pipe and each exhaust pipe are communicated with the cutter arranging assembly.

Preferably, the tool setting assembly comprises a guide sliding block, a first air chamber and a tool setting seat, the first air chamber is installed on the guide sliding block, the output end of the first air chamber is installed on the tool setting seat, and the air inlet pipe and the air outlet pipe are both fixedly communicated in the first air chamber and used for controlling the tool setting seat to vertically stretch.

Preferably, the tool setting seat is rotatably provided with tool setting tools.

Preferably, a graduated scale is mounted on the side wall of the supporting plate.

Preferably, the movable plate is provided with an air valve and a second air chamber, and the telescopic column is arranged at the output end of the second air chamber;

the row knife assembly comprises a first air bin, an insertion part is arranged on the side wall of the first air bin, and the pneumatic telescopic device is used for driving the telescopic column to be inserted into or separated from the insertion part.

Preferably, a gas valve sensor is installed on the second gas cabin.

In the technical scheme, the utility model provides a pair of automatic row sword system architecture possesses following beneficial effect: the technical purpose of automatically adjusting the distance between a plurality of cutter arranging assemblies is achieved, compared with manual operation, the accuracy of the whole cutter adjusting and the working efficiency are greatly improved compared with personnel, and the requirement of cutter adjusting under the high production rhythm of an assembly line is met.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

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

fig. 2 is a schematic view of a partially enlarged structure provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a gang tool assembly provided by an embodiment of the present invention.

Description of the reference numerals:

1. a movable plate; 2. a telescopic column; 3. a frame; 31. a support plate; 32. a slide rail; 41. a stepping motor; 42. a screw; 5. an exhaust passage; 61. a guide slider; 62. a first gas bin; 621. a plug-in part; 63. a tool arranging seat; 631. arranging cutters; 7. a graduated scale; 81. an air valve; 82. a second gas bin; 83. an air valve sensor; 9. a shield.

Detailed description of the preferred embodiments

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-3, an automatic gang tool system structure comprises:

the moving mechanism comprises a movable plate 1 which is driven to keep reciprocating movement in the horizontal direction, a synchronizing mechanism is arranged on the movable plate 1, the synchronizing mechanism comprises a telescopic column 2 which is driven to move in the vertical direction, and the telescopic column 2 is driven to be inserted into the cutter arranging assembly in an inserting mode so that the movable plate 1 can move the cutter arranging assembly one by one and the distance between the cutter arranging assemblies can be adjusted.

Specifically, the moving mechanism includes a stepping motor 41 and a screw rod 42, both ends of the screw rod 42 are installed in bearing seats symmetrically installed on the top of the supporting plate 31 and are driven by the stepping motor 41 to keep rotating, and the movable plate 1 is in threaded connection with the screw rod 42. Namely, the supporting plate 31 can be driven to slide by rotating the screw rod 42, so as to drive the telescopic columns 2 on the supporting plate to move the cutter-arraying assemblies one by one. The driving one-by-one telescopic column 2 can be driven to be telescopic by a screw rod driven by a motor; or the telescopic rod of the cylinder drives the telescopic rod to extend and retract; or any other driving means known to those skilled in the art.

In the above embodiment, the frame 3 and the frame 3 are provided with the supporting plate 31, the top and the bottom of the supporting plate 31 are provided with the sliding rails 32, the movable plate 1 is slidably disposed on the sliding rails 32 disposed at the top of the supporting plate 31, and the cutter arranging assembly is slidably disposed on the sliding rails 32 disposed at the bottom of the supporting plate 31.

Further, the blade arranging assembly comprises a guide sliding block 61, a first air chamber 62 and a blade arranging seat 63, the first air chamber 62 is installed on the guide sliding block 61, the output end of the first air chamber 62 is installed on the blade arranging seat 63, and an air inlet pipe and an air outlet pipe are fixed to be communicated with the first air chamber 62 and used for controlling the vertical stretching of the blade arranging seat 63. The side wall of the telescopic column 2 directly inserted into the first air chamber 62 is provided with the insertion part 621, so that the supporting plate 31 drives the cutter arranging assemblies to move, the distance between the cutter arranging assemblies is adjusted, and after the adjustment is completed, the sliding block 61 can be locked on the sliding rail 32.

It should be noted that, the engaging claws symmetrically distributed about the slide rail 32 are arranged in the guide slider 61, and when the telescopic column 2 is disengaged from the insertion part 621, the driven engaging claws are closed to clamp on the slide rail 32 to achieve the purpose of locking.

In the above technical solutions, the sensors involved in the action coordination all belong to the common technical knowledge of the prior public, and both the trigger switch and the infrared sensor can be used, and the specific principle is not described in detail.

According to the technical scheme, the technical purpose of automatically adjusting the distance between the cutter arranging assemblies is achieved, compared with manual operation, the accuracy of the whole cutter adjustment (the error is between 0.1mm and 0.3 mm), the working efficiency is greatly improved compared with personnel, and the requirement of cutter adjustment under the high production rhythm of the production line is met.

As the technical scheme that the utility model further provides, install exhaust passage 5 on the layer board 31, a plurality of intake pipes and blast pipes that set up in exhaust passage 5, each intake pipe and each blast pipe all are linked together with row's sword subassembly. And the movable plate 1 is provided with an air valve 81 and a second air chamber 82, and the telescopic column 2 is arranged at the output end of the second air chamber 82. The cutter arranging assembly comprises a guide sliding block 61, a first air chamber 62 and a cutter arranging seat 63, the first air chamber 62 is installed on the guide sliding block 61, the output end of the first air chamber 62 is installed on the cutter arranging seat 63, and an air inlet pipe and an air outlet pipe are both fixed to be communicated with the first air chamber 62 and used for controlling the vertical extension and retraction of the cutter arranging seat 63. The side wall of the first air chamber 62 is provided with an insertion part 621, and the second air chamber 82 is used for driving the telescopic column 2 to be inserted into or separated from the insertion part 621. Furthermore, a gas valve sensor 83 is installed on the second gas chamber 82. Specifically, an air valve 81 is arranged above the movable plate 1, a second air chamber 82 and an air valve sensor 83 are arranged below the movable plate, when the distance set by a program is large, the movable plate moves transversely along with the screw rod 42, at the moment, when the air valve sensor 83 touches the insertion part 621, the air valve 81 opens the telescopic column 2 in the second air chamber 82 for ventilation and pops out of a U-shaped opening extending into the insertion part 621, and the first air chamber 62 is moved to perform transverse equidistant sequencing movement; a cutter arranging seat 63 connected with the air chamber upright post is arranged in the first air chamber 62, and a cutter arranging cutter 631 is arranged below the cutter arranging seat 63; air is fed into the first air chamber 62 from the air inlet pipe of the exhaust passage 5, and when the air valve 81 is opened to ventilate the air chamber upright post in the first air chamber 62 to pop up, the cutter discharging cutter 631 is pressed downwards; when the air flow in the first air chamber 62 returns to the exhaust passage 5 through the exhaust pipe, the air chamber columns in the first air chamber 62 rebound, and the exhaust knives are recovered upwards.

It should be noted that, in the above-mentioned technical scheme, an air storage tank is arranged in the exhaust passage 5, and the air storage tank includes a port a and a port B, and the exhaust pipe is communicated with the port B, and the intake pipe is communicated with the port a.

In the above scheme, the closing claw is a pneumatic claw (in the prior art), the output end and the input end of the closing claw are respectively communicated with the exhaust pipe and the air inlet pipe, and when the telescopic column 2 is separated from the insertion part 621, the closing claw is driven to close to clamp the sliding rail 32 to achieve the purpose of locking; when the telescopic column 2 is inserted into the insertion part 621, the locking slide rail 32 is released by driving the closing claw to separate, so that the supporting plate 31 drives the cutter arranging assemblies to move, and the distance between the cutter arranging assemblies is adjusted.

As a further embodiment provided for its practical use, a row knife tool 631 is rotatably mounted on the row knife seat 63. The specific row knife tool 631 is driven to rotate by a driving motor installed on the row knife base 63 to divide the commodity with partitions.

As a further embodiment provided for practical use in itself, the side wall of the support plate 31 is fitted with a scale 7. Used for manual external inspection so as to repair system errors in time and adjust the distance between the cutter arranging cutters 631 in time.

Further, in the above technical solution, the shield 9 is disposed between the movable plate 1 and the base plate on the bearing seat at one end of the screw rod 42. The flexible printed circuit board can be stretched along with the increase of the distance between the movable plate 1 and the substrate, and can be a corrugated pipe or a rectangular tension spring sleeved with cloth.

Certain exemplary embodiments of the present invention have been described above by way of illustration only, and it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive on the scope of the appended claims.

Claims

1. An automatic gang tool system structure, comprising:

the moving mechanism comprises a movable plate (1) driven to keep reciprocating movement in the horizontal direction, a synchronizing mechanism is arranged on the movable plate (1), the synchronizing mechanism comprises a telescopic column (2) driven to move in the vertical direction, and the telescopic column (2) is driven to be inserted into the cutter arranging assemblies, so that the movable plate (1) moves the cutter arranging assemblies one by one, and the distance between the cutter arranging assemblies is adjustable.

2. The automatic blade arranging system structure according to claim 1, further comprising a frame (3), wherein a supporting plate (31) is disposed on the frame (3), sliding rails (32) are disposed on the top and the bottom of the supporting plate (31), the movable plate (1) is slidably disposed on the sliding rails (32) disposed on the top of the supporting plate (31), and the blade arranging assembly is slidably disposed on the sliding rails (32) disposed on the bottom of the supporting plate (31).

3. The automatic gang tool system structure of claim 1, characterized in that the moving mechanism comprises a stepping motor (41) and a screw (42), both ends of the screw (42) are installed in bearing seats symmetrically installed on the top of the supporting plate (31) and are driven by the stepping motor (41) to keep rotating, and the movable plate (1) and the screw (42) are in threaded connection.

4. The automatic gang tool system structure of claim 2, wherein the blade is a blade-holder, and wherein the blade-holder is a blade-holder

(31) The exhaust passage (5) is installed on the cutter frame, a plurality of air inlet pipes and exhaust pipes are arranged in the exhaust passage (5), and each air inlet pipe and each exhaust pipe are communicated with the cutter arranging assembly.

5. The automatic gang tool system structure of claim 4, wherein the gang tool assembly comprises a guide sliding block (61), a first air chamber (62) and a gang tool seat (63), the first air chamber (62) is installed on the guide sliding block (61), the output end of the first air chamber (62) is installed on the gang tool seat (63), and the air inlet pipe and the air outlet pipe are both fixed to be communicated with the first air chamber (62) and used for controlling the vertical extension and retraction of the gang tool seat (63).

6. The automatic gang tool system structure of claim 5, characterized in that a gang tool bit (631) is rotatably mounted on the gang tool bit (63).

7. The automatic gang tool system structure of claim 2, characterized in that a scale (7) is mounted to a side wall of the supporting plate (31).

8. The automatic gang tool system structure of claim 1, characterized in that the movable plate (1) is provided with an air valve (81) and a second air chamber (82), and the telescopic column (2) is arranged at the output end of the second air chamber (82);

the row knife assembly comprises a first air bin (62), an inserting part (621) is arranged on the side wall of the first air bin (62), and the second air bin (82) is used for driving the telescopic column (2) to be inserted into or separated from the inserting part (621).

9. The automatic gang tool system structure of claim 8, characterized in that an air valve sensor (83) is installed on the second air chamber (82).