CN114378865B - Unidirectional movement two-way pipeline cutting device - Google Patents

Abstract

The invention provides a unidirectional moving bidirectional pipeline cutting device, and relates to the field of PVC pipelines. The unidirectional movement bidirectional pipeline cutting device comprises a synchronous movement rail and a support frame, wherein a through hole is formed in the bottom end of the support frame, the synchronous movement rail is slidably connected to the inside of the through hole, a cutting mechanism is slidably connected to the inside of the support frame, a driving mechanism is fixedly arranged at the side end of the support frame, and a fixing frame is fixedly arranged on the upper surface of the support frame. This unidirectional movement two-way pipeline cutting device cup joints the movable block through setting up two helical pitch axles, cup joints the movable block at the surface of helical pitch axle, through the extreme position switching in both sides with the helical pitch piece height of helical pitch axle adaptation, and then can make same drive belt, the opposite gear of timesharing drive rotation direction and then drive helical pitch axle rotation, finally realize motor unidirectional rotation can drive the effect of the reciprocal cutting of movable block, solved among the prior art problem that the reciprocal cutting needs device complicacy reliability low.

Description

Unidirectional movement two-way pipeline cutting device

Technical Field

The invention relates to the technical field of PVC (polyvinyl chloride) pipelines, in particular to a unidirectional moving bidirectional pipeline cutting device.

Background

PVC is mainly composed of polyvinyl chloride, and other components are added to strengthen the heat resistance, toughness and ductility of the PVC. The uppermost layer of the surface film is paint, the main component in the middle is polyvinyl chloride, and the lowermost layer is back-coating adhesive. It is a synthetic material that is popular, popular and widely used in the world today.

The pipe cutting device is generally divided into two actions of cutting and resetting, the resetting action cannot realize cutting, so time is wasted, the existing solution to solve the problem is to drive the cutting device from two sides by arranging two motors, but the arrangement increases the equipment cost, and the two motors need to program control codes to make mistakes, which easily cause the damage of the device, so that a cutting device with unidirectional movement is needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a unidirectional moving bidirectional pipeline cutting device, which solves the problems in the background technology.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a unidirectional movement bidirectional pipeline cutting device, including synchronous movement track and support frame, the through-hole has been seted up to the bottom of support frame, synchronous movement track sliding connection is in the inside of through-hole, and the inside sliding connection of support frame has cutting mechanism, and the side fixed mounting of support frame has actuating mechanism, the fixed frame of upper surface fixed mounting of support frame, and the inside both sides of fixed frame are located the top fixed mounting of support frame has spacing semi-ring, and the open slot has been seted up at the middle part of spacing semi-ring, and the square groove perpendicular with the open slot has been seted up to the upper surface of support frame, and both sides fixed mounting has the mount around the one end of support frame, and one side rear end fixed mounting of support frame installation mount has the motor support, and one side below fixed mounting of support frame has the extension frame, cutting mechanism includes two lead shafts, and two lead shafts rotate the inside of connecting at the support frame, and the one end of two lead shafts in the support frame outside is fixed connection has forward rotation gear and reverse rotation gear respectively, and the surface of two lead shafts is provided with the movable block, the bottom of movable block has the slide hole with the lead shaft adaptation, the inside of slide hole has the guide wire adapted slide groove, the inside of slide hole has the guide block with the guide wire block, and the guide wire block of guide wire block, and the guide wire block is equipped with the guide wire block of guide wire block, and the guide wire block is located the inside the side of the two lead block, and the guide wire block is connected to the guide wire block, and the cutting blade has the guide wire cutting blade to the guide wire block, the inside sliding connection of shoulder hole has the annular plate, and the both ends fixed mounting of annular plate has the magnetic column, and annular plate and shoulder hole spring coupling, and the magnetic column cup joints in the inside of locating hole, and the inside of support frame is located the top fixed mounting fixed magnetic frame of magnetic plate, the inboard fixed mounting of fixed magnetic frame has the magnetic jack post with the magnetic column adaptation, actuating mechanism includes the motor, and motor fixed mounting is in the inside of motor support, and the output fixed mounting of motor has drive gear, and drive gear rotates with the mount to be connected, and the mount of front end rotates to be connected with tensioning gear, and tensioning gear and drive gear's surface transmission is connected with the drive belt, and forward rotation gear and drive belt meshing, the inboard rotation of extension frame is connected with the driving gear, and the driving gear is connected with the drive belt transmission, and the below meshing of driving gear has the gear, and the below meshing of reversing gear has the gear, gear train and reverse rotation gear meshing, and gear train reversing gear all rotates with the extension frame to be connected.

Preferably, the inner transmission part of the transmission belt is divided into a part meshed with the tensioning gear, a part meshed with the forward rotation gear and a part meshed with the driving gear, the whole transmission belt is fully adhered to the part meshed with the tensioning gear, the part meshed with the forward rotation gear and the part meshed with the driving gear occupy half of the whole transmission belt length, and the two parts are connected in a tail-end mode.

Preferably, the driving gear is located further outside than the forward rotation gear, and the meshing part of the driving gear and the forward rotation gear in the driving belt is arranged in a staggered manner.

Preferably, the cross section of the fixed magnetic frame is L-shaped, the bottom end of the upper half part of the fixed magnetic frame is magnetic, the magnetism of the fixed magnetic frame at one end is the same as that of the magnetic plate below the fixed magnetic frame, the magnetism of the fixed magnetic frame at the other end is opposite to that of the magnetic plate below the fixed magnetic frame, and the magnetism of the front and rear groups of fixed magnetic frames and the magnetism of the magnetic plate are opposite.

Preferably, a limiting block is fixedly arranged at the top end of the double-sided cutting knife, and the limiting block is in sliding connection with the fixed frame.

Preferably, one end of the magnetic top column close to the magnetic column on one side has the same magnetic property as the magnetic column, and the other end of the magnetic top column close to the magnetic column has the opposite magnetic property as the magnetic column.

The invention has the following beneficial effects:

1. this unidirectional movement two-way pipeline cutting device cup joints the movable block through setting up two helical pitch axles, cup joints the movable block at the surface of helical pitch axle, through the extreme position switching in both sides with the helical pitch piece height of helical pitch axle adaptation, and then can make same drive belt, the opposite gear of timesharing drive rotation direction and then drive helical pitch axle rotation, finally realize motor unidirectional rotation can drive the effect of the reciprocal cutting of movable block, solved among the prior art problem that the reciprocal cutting needs device complicacy reliability low.

2. This unidirectional movement two-way pipeline cutting device has three tooth parts through setting up a drive belt, can realize the drive belt self motion when actuating mechanism is rotatory to and the effect of two different gears of timesharing control.

3. This two-way pipeline cutting device of unidirectional movement, the cross-sectional shape of fixed magnetic frame is "L" shape, and there is magnetism in the bottom of fixed magnetic frame upper half, and the fixed magnetic frame magnetism of one end is the same with the magnetic sheet magnetism of its below, and the fixed magnetic frame of the other end is opposite with the magnetic sheet magnetism of below, and the magnetism of two sets of fixed magnetic frames and magnetic sheet is opposite around, can guarantee through such setting that the magnetic sheet can be inhaled up in one end, can be pressed down at the other end.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the connection of the support frame of the present invention;

FIG. 3 is a schematic diagram of a driving mechanism according to the present invention;

FIG. 4 is a schematic view of a support frame in semi-section according to the present invention;

FIG. 5 is a schematic view of a cutting mechanism according to the present invention;

FIG. 6 is a schematic diagram of a moving block according to the present invention in semi-section.

The device comprises a limiting block-1, a synchronous moving track-2, a supporting frame-3, a through hole-4, a cutting mechanism-5, a driving mechanism-6, a fixed frame-7, an extension frame-8, a limiting semi-ring-9, a through groove-10, a square groove-11, a fixed frame-12, a motor bracket-13, a lead shaft-501, a reverse rotating gear-502, a moving block-503, a sliding hole-504, a sliding groove-505, a lead block-506, a clamping block-507, a positioning hole-508, a cutting knife-509, a fixed sleeve-510, a stepped hole-511, a magnetic column-512, a magnetic plate-513, a fixed magnetic frame-514, a forward rotating gear-516, a magnetic jack column-515, a ring plate-517, a motor-601, a driving gear-602, a tensioning gear-603, a driving belt-604, a driving gear-605, a reversing gear-606 and a gear set-607.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides a unidirectional moving bidirectional pipeline cutting device, which comprises:

1-6, as shown in fig. 1-6, including synchronous movement track 2 and support frame 3, through-hole 4 has been seted up to the bottom of support frame 3, synchronous movement track 2 sliding connection is in the inside of through-hole 4, synchronous movement track 2 can make the device the same with the travel speed of pipeline, the inside sliding connection of support frame 3 has cutting mechanism 5, the side fixed mounting of support frame 3 has actuating mechanism 6, the fixed frame 7 of upper surface fixed mounting of support frame 3, the inside both sides of fixed frame 7 are located the top fixed mounting of support frame 3 and have spacing semi-ring 9, logical groove 10 has been seted up at the middle part of spacing semi-ring 9, the square groove 11 with logical groove 10 vertically is seted up to the upper surface of support frame 3, both sides fixed mounting has mount 12 around the one end of support frame 3, one side rear end fixedly mounting of support frame 3 mount 12 has motor support 13, one side below fixed mounting of support frame 3 mount 12 has extension frame 8.

The cutting mechanism 5 comprises two lead shafts 501, the two lead shafts 501 are rotationally connected in the support frame 3, one ends of the two lead shafts 501, which are located on the outer side of the support frame 3, are fixedly connected with a forward rotating gear 516 and a reverse rotating gear 502 respectively, the outer surfaces of the two lead shafts 501 are provided with moving blocks 503, sliding holes 504 which are matched with the lead shafts 501 are formed in the bottom ends of the moving blocks 503, sliding grooves 505 which are matched with the sliding holes 504 are formed in the sliding holes 504, lead blocks 506 are slidingly connected in the sliding grooves 505, the lead blocks 506 are meshed with the lead shafts 501, clamping blocks 507 are fixedly arranged at the top ends of the lead blocks 506, the clamping blocks 507 penetrate through the moving blocks 503 and extend to the upper side of the moving blocks 503, magnetic plates 513 are fixedly arranged at the top ends of the clamping blocks 507, two positioning holes 508 are formed in the middle of the clamping blocks 507, double-sided cutting knives 509 are fixedly arranged on the upper surfaces of the moving blocks 503, the double-sided cutting knives 509 are slidingly connected in the through grooves 10 and the square grooves 11, limiting blocks 1 are fixedly arranged at the top ends of the double-sided cutting knives 509, and the fixing blocks 7 are slidingly connected with the fixing blocks 7, and the sliding stability can be guaranteed.

The upper surface of movable block 503 is located the outside fixed mounting of joint piece 507 and has had fixed cover 510, the shoulder hole 511 has been seted up to the inside of fixed cover 510, the inside sliding connection of shoulder hole 511 has annular plate 517, the both ends fixed mounting of annular plate 517 have magnetic pillar 512, annular plate 517 and shoulder hole 511 spring coupling, magnetic pillar 512 cup joints in the inside of locating hole 508, the inside of support frame 3 is located the top fixed mounting fixed magnet frame 514 of magnetic plate 513, the cross-sectional shape of fixed magnet frame 514 is "L" shape, the bottom of fixed magnet frame 514 top has magnetism, the fixed magnet frame 514 magnetism of one end is the same with the magnetic plate 513 magnetism of its below, the magnetism of fixed magnet frame 514 of the other end is opposite with the magnetic plate 513 of below, two sets of fixed magnet frames 514 and magnetic plate 513 magnetism are opposite, can be guaranteed through this setting that magnetic plate 513 can be absorbed in one end, can be pressed down at the other end.

The inner side of the fixed magnetic frame 514 is fixedly provided with a magnetic jack post 515 which is matched with the magnetic column 512, one end of the magnetic jack post 515 close to the magnetic column 512 on one side is the same as the magnetic of the magnetic column 512, and the other end of the magnetic jack post 515 close to the magnetic column 512 is opposite to the magnetic of the magnetic column 512, so that the magnetic column 512 can be inserted into the positioning hole 508 through the magnetic jack post 515.

The driving mechanism 6 comprises a motor 601, the motor 601 is fixedly arranged in the motor bracket 13, a driving gear 602 is fixedly arranged at the output end of the motor 601, the driving gear 602 is rotationally connected with a fixing frame 12, the fixing frame 12 at the front end is rotationally connected with a tensioning gear 603, the tensioning gear 603 is in transmission connection with the outer surface of the driving gear 602, a driving belt 604 is meshed with a forward rotating gear 516, a driving gear 605 is rotationally connected with the inner side of the extension frame 8, the driving gear 605 is in transmission connection with the driving belt 604, the inner side driving part of the driving belt 604 is divided into a part meshed with the tensioning gear 603, a part meshed with the forward rotating gear 516 and a part meshed with the driving gear 605 are fully adhered to the whole driving belt 604, the part meshed with the forward rotating gear 516 and the part meshed with the driving gear 605 are half of the whole length of the driving belt 604, and the parts are in tail-in transmission connection, and the driving belt 604 can be guaranteed to rotate unidirectionally and time-sharing the driving gear through the arrangement.

A reversing gear 606 is meshed below the driving gear 605, a gear set 607 is meshed below the reversing gear 606, the gear set 607 is meshed with the counter-rotating gear 502, and the reversing gears 606 of the gear set 607 are rotatably connected with the extension frame 8. The driving gear 605 is located further outside than the forward rotation gear 516, and the meshing part of the driving belt 604 and the forward rotation gear 516 are arranged in a staggered manner, so that the driving belt 604 can be meshed with both the driving gear 605 and the forward rotation gear 516.

When the motor 601 is started, the driving belt 604 can be driven to move through the driving gear 602, at this time, the driving belt 604 is meshed with the forward rotating gear 516, and then the lead shaft 501 can be driven to rotate through the forward rotating gear 516, at this time, the lead block 506 attached to the lead shaft 501 is at the lowest position, the moving block 503 can be driven to move, and then the pipeline can be cut through the moving double-sided cutting knife 509, in the process that the lead shaft 501 rotates to the limit position, the magnetic pillars 515 attract the magnetic pillars 512, the fixed magnetic frame 514 attract the magnetic plate 513, the lead block 506 moves upwards, the lead block 506 at the front side is extruded to move downwards, the motor 601 is closed to wait for the second cutting, the second cutting is performed, the driving belt 604 is meshed with the driving gear 605, the lead shaft 501 can be driven to rotate through transmission, the moving block 503 can reset the position of the top lead block 506 in the moving process, the continuous moving block 503 can realize cutting, and the moving block 503 can reach the initial position.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 two-way pipeline cutting device of unidirectional movement, includes synchronous movement track (2) and support frame (3), its characterized in that: the bottom end of the support frame (3) is provided with a through hole (4), the synchronous moving rail (2) is connected in the through hole (4) in a sliding way, the inside of the support frame (3) is connected with a cutting mechanism (5) in a sliding way, and a driving mechanism (6) is fixedly arranged at the side end of the support frame (3);

the upper surface of the support frame (3) is fixedly provided with a fixed frame (7), two sides of the inside of the fixed frame (7) are positioned above the support frame (3) and fixedly provided with a limiting semi-ring (9), the middle part of the limiting semi-ring (9) is provided with a through groove (10), the upper surface of the support frame (3) is provided with a square groove (11) perpendicular to the through groove (10), two sides of one end of the support frame (3) are fixedly provided with a fixed frame (12), the rear end of one side of the support frame (3) where the fixed frame (12) is installed is fixedly provided with a motor support (13), and one side of the support frame (3) where the fixed frame (12) is installed is fixedly provided with an extension frame (8);

the cutting mechanism (5) comprises two lead shafts (501), the two lead shafts (501) are rotationally connected in the support frame (3), one ends of the two lead shafts (501) located on the outer side of the support frame (3) are fixedly connected with a forward rotating gear (516) and a reverse rotating gear (502) respectively, moving blocks (503) are arranged on the outer surfaces of the two lead shafts (501), sliding holes (504) matched with the lead shafts (501) are formed in the bottom ends of the moving blocks (503), sliding grooves (505) matched with the sliding holes (504) are formed in the sliding holes (504), lead blocks (506) are connected in the sliding grooves (505) in a sliding mode, the lead blocks (506) are meshed with the lead shafts (501), clamping blocks (507) are fixedly arranged at the top ends of the lead blocks (506), the clamping blocks (507) penetrate through the moving blocks (503) and extend to the upper sides of the moving blocks (503), magnetic plates (513) are fixedly arranged at the top ends of the clamping blocks (507), two positioning holes (508) are formed in the middle of the moving blocks (507), and the surfaces of the moving blocks (503) are fixedly connected with cutting knives (10) in the sliding grooves (509).

The upper surface of the moving block (503) is positioned at the outer side of the clamping block (507), a fixed sleeve (510) is fixedly arranged at the outer side of the clamping block (507), a stepped hole (511) is formed in the fixed sleeve (510), a ring plate (517) is connected to the inside of the stepped hole (511) in a sliding mode, magnetic columns (512) are fixedly arranged at two ends of the ring plate (517), the ring plate (517) is in spring connection with the stepped hole (511), the magnetic columns (512) are sleeved in the positioning holes (508), a fixed magnetic frame (514) is fixedly arranged above the magnetic plate (513) in the support frame (3), and a magnetic jacking column (515) matched with the magnetic columns (512) is fixedly arranged at the inner side of the fixed magnetic frame (514);

the driving mechanism (6) comprises a motor (601), the motor (601) is fixedly arranged in a motor support (13), a driving gear (602) is fixedly arranged at the output end of the motor (601), the driving gear (602) is rotationally connected with a fixing frame (12), the fixing frame (12) at the front end is rotationally connected with a tensioning gear (603), the tensioning gear (603) and the outer surface of the driving gear (602) are in transmission connection with a transmission belt (604), a forward rotating gear (516) is meshed with the transmission belt (604), a driving gear (605) is rotationally connected with the inner side of an extension frame (8), the driving gear (605) is in transmission connection with the transmission belt (604), a reversing gear (606) is meshed with the lower side of the driving gear (605), a gear set (607) is meshed with a reverse rotating gear (502), and the reversing gear (606) of the gear set (607) is rotationally connected with the extension frame (8).

2. A unidirectional moving bi-directional pipe cutting apparatus as claimed in claim 1, wherein: the inner side transmission part of the transmission belt (604) is divided into a part meshed with the tensioning gear (603), a part meshed with the forward rotation gear (516) and a part meshed with the driving gear (605), the whole transmission belt (604) is fully adhered to the part meshed with the tensioning gear (603), the part meshed with the forward rotation gear (516) and the part meshed with the driving gear (605) are half of the whole transmission belt (604), and the two parts are connected in a tail-to-tail mode.

3. A unidirectional moving bi-directional pipe cutting apparatus as claimed in claim 1, wherein: the driving gear (605) is arranged on the outer side of the forward rotating gear (516), and the meshing part of the driving belt (604) and the forward rotating gear (516) and the meshing part of the driving gear (605) are arranged in a staggered mode.

4. A unidirectional moving bi-directional pipe cutting apparatus as claimed in claim 1, wherein: the section shape of the fixed magnetic frame (514) is L-shaped, the bottom end of the upper half part of the fixed magnetic frame (514) is magnetic, the magnetism of the fixed magnetic frame (514) at one end is the same as that of the magnetic plate (513) below the fixed magnetic frame, the magnetism of the fixed magnetic frame (514) at the other end is opposite to that of the magnetic plate (513) below, and the magnetism of the front group of fixed magnetic frame (514) and the magnetism of the rear group of fixed magnetic frame (514) are opposite to that of the magnetic plate (513).

5. A unidirectional moving bi-directional pipe cutting apparatus as claimed in claim 1, wherein: the top end of the double-sided cutting knife (509) is fixedly provided with a limiting block (1), and the limiting block (1) is in sliding connection with the fixed frame (7).

6. A unidirectional moving bi-directional pipe cutting apparatus as claimed in claim 1, wherein: one end of the magnetic jack post (515) close to the magnetic post (512) on one side is the same as the magnetic of the magnetic post (512), and the other end of the magnetic jack post (515) close to the magnetic post (512) on the other side is opposite to the magnetic of the magnetic post (512).