CN216858412U - Idling prevention device of handheld electric cutting tool - Google Patents

Abstract

The utility model relates to the technical field of electric tools, in particular to an anti-idle rotation device of a handheld electric cutting tool, which comprises: the cutting seat is internally provided with a roller seat and a cutter seat, the roller seat is provided with a roller, and the cutter seat is provided with a cutting knife; a clamping position is formed between the roller and the cutting knife; the guide rod is movably arranged in the cutting seat, and the roller seat or the cutter seat is connected to the guide rod; the inductor is arranged outside the cutting seat and used for inducing the guide rod; when the pipe enters the clamping position, the roller seat or the cutter seat is spread to move, so that the end part of the guide rod is far away from the inductor. When a pipe enters the clamping position, the roller seat is unfolded to move, so that the end part of the guide rod is far away from the inductor, the equipment can normally work, and the problems of equipment damage, electric quantity waste and influence on service life caused by idling in the prior art are solved.

Description

Anti-idle rotation device of handheld electric cutting tool

Technical Field

The utility model relates to the technical field of electric tools, in particular to an anti-idle rotation device of a handheld electric cutting tool.

Background

The thin-wall metal pipe refers to a metal pipe with the ratio of the wall thickness to the outer diameter not more than 10%, and common materials comprise red copper, stainless steel, carbon steel, aluminum alloy and the like. The thin-wall metal pipe is mainly applied to water supply and drainage, gas supply, heating, fire protection and chemical pipeline systems in urban construction. The conventional cutting equipment for the thin-wall metal pipe is commonly provided with equipment such as a handsaw, a manual cutting knife, a grinding wheel cutting machine, an angle grinder and the like.

However, the above-mentioned devices can cause problems of impurities, burrs and the like during use, and can seriously affect the normal use of the pipe, so that the handheld copper pipe cutting tools appear in the market.

For example, chinese patent 2019214354103, entitled portable automatic pipe cutter, discloses a cutting device including a fixed plate, the fixed plate is rotatably provided with a cutting base, a cutter and a fixing base for fixing the cutter are provided in the cutting base, the fixed plate is provided with a driving device, and the driving device drives the cutting base to rotate; rotate on the fixed plate and be provided with piece and adjusting device that resets, the piece that resets passes through the cable with adjusting device and connects, and adjusting device drives the piece that resets and rotates, and the cooperation cutting seat carries out the operation that resets of cutter.

The product that above-mentioned scheme corresponds is at the in-service use in-process, as long as press the switch, no matter have or not centre gripping pipe, all can normally start, when equipment idle running, causes the damage of equipment inner structure very easily, also can cause the waste of battery power simultaneously, influences life.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-idle rotation device of a handheld electric cutting tool, when a pipe enters a clamping position, a roller seat is spread to move, so that the end part of a guide rod is far away from an inductor, and the problems of equipment damage, electric quantity waste and influence on service life caused by idle rotation in the prior art are solved.

The purpose of the utility model is realized as follows:

an anti-spinning device for a hand-held power cutting tool, comprising:

the cutting seat is internally provided with a roller seat and a cutter seat, the roller seat is provided with a roller, and the cutter seat is provided with a cutting knife; a clamping position is formed between the roller and the cutting knife;

the guide rod is movably arranged in the cutting seat, and the roller seat or the cutter seat is connected to the guide rod;

the inductor is arranged outside the cutting seat and used for inducing the guide rod;

when the pipe enters the clamping position, the roller seat or the cutter seat is spread to move, so that the end part of the guide rod is far away from the inductor.

Preferably, the sensor is an proximity switch or a sensor.

Preferably, a feed device is also included, which comprises

The clamping and cutting mechanism comprises the roller seat and a cutter seat;

the cutter feeding mechanism is used for controlling the relative movement between the roller seat and the cutter seat;

wherein, the feed mechanism includes:

the cutter feeding rotating shaft is used for driving the roller seat or the cutter seat;

the driving assembly is used for driving the feed rotating shaft to rotate;

the feed rotating shaft is matched with the limiting block, so that the rotation of the feed rotating shaft is converted into the movement of the feed rotating shaft in the axis direction; the feeding rotating shaft drives the roller seat or the cutter seat to move in the axial direction, so that the roller seat and the cutter seat generate relative movement.

Preferably, the guide rod is a feed rotating shaft.

Preferably, the drive assembly has:

the worm gear is movably arranged on the feed rotating shaft and is radially limited with the feed rotating shaft;

the worm is rotatably arranged in the cutting seat, is connected with the worm wheel, protrudes out of the cutting seat at the end part and is provided with a gear;

a toothed plate mounted within the housing for enabling the gear to rotate as it passes the toothed plate;

in the rotating process of the cutting seat, the feed rotating shaft is rotated through the matching of the worm gear and the worm.

Preferably, the surface of the feed rotating shaft is provided with a first threaded part; the inner side of the limiting block is provided with a second threaded portion, and the first threaded portion is matched with the second threaded portion to limit the feed rotating shaft through the limiting block.

Preferably, the upper end of the feed rotating shaft protrudes out of the roller seat or the cutter seat to form an installation part;

the worm wheel is provided with a first through hole, and a limiting part is formed on the inner wall of the first through hole;

the installation part is arranged in the first through hole in a penetrating mode, the outer wall of the installation part is abutted against the limiting part, and the limiting part and the installation part are radially limited.

Preferably, a first inserting part is formed at the rear end of the roller seat, and a movable cavity is formed in the first inserting part;

a second inserting part is formed at the rear end of the cutter holder, and a rotating groove used for being matched with the feed rotating shaft is formed in the end face of the second inserting part;

the second inserting part is movably arranged in the movable cavity, and the clamping position is formed between the front end of the roller seat and the cutting knife.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

1. the anti-idle rotation device provided by the utility model has the advantages that the position of the end part of the installation part is sensed by the sensor, and a signal is sent to the driving device, so that the work of the driving device is adjusted, the condition that the equipment is damaged due to idle running and continuous feed of the equipment when a pipe is not clamped is avoided, the equipment is not damaged, the waste of electric quantity is avoided, and the service life of the equipment is ensured.

2. In the cutting process, the rotation of the cutting seat is utilized to trigger the driving assembly to rotate so as to drive the cutting feed rotating shaft to rotate, and the cutting seat is matched to convert the rotation of the cutting feed rotating shaft into the movement of the cutting feed rotating shaft in the axial direction, so that the roller seat or the cutter seat is driven to move, and further, the cutting force is generated. As long as the cutting seat rotates, the clamping position can be continuously reduced, and the cutting force is continuously increased, so that the purpose of cutting harder and thicker pipes is achieved, the whole scheme has stronger adaptability, and the cutting effect is better.

3. The feeding mechanism of the utility model utilizes the matching of the worm gear and the worm to convert the rotating force of the cutting seat into the driving force for driving the cutter seat to move, and a driving piece is not additionally arranged, thus ensuring the structure to be small; simultaneously, the worm is triggered to rotate through the toothed plate, the feed amount can be adjusted by adjusting the length of the toothed plate, and the worm-gear feed mechanism is convenient to adjust and more convenient to use.

4. According to the utility model, the first through hole is formed in the worm wheel, the mounting part is inserted into the first through hole, the rotation of the mounting part in the first through hole is limited by the limiting part, but the movement in the axial direction is not limited, so that the design ensures that the torsion can be normally transmitted, the axial movement of the mounting part in the first through hole is not influenced, the movement of the tool apron is realized when a pipe is clamped, the feeding operation of the feeding device is not influenced, and the normal use of the machine is ensured.

Drawings

Fig. 1 is a schematic view of the overall structure of the hand-held electric cutting tool of the present invention.

Fig. 2 is a schematic structural view of the handheld electric cutting tool with a half of the housing hidden according to the present invention.

Fig. 3 is one of the schematic views of the matching structures of the feeding device and a part of the resetting device of the utility model.

Fig. 4 is a second schematic view of the matching structure of the feeding device and a part of the resetting device of the present invention.

Fig. 5 is a schematic structural diagram of the feed device of the present invention.

Fig. 6 is a schematic structural view of the tool holder and the feed mechanism of the present invention.

Fig. 7 is a schematic structural view of the reset device of the present invention against the feeding device.

Fig. 8 is a schematic structural view of the reset device of the present invention when it is detached from the feeding device.

Fig. 9 is a partial structural schematic diagram of the resetting device of the utility model.

Fig. 10 is a cross-sectional view of fig. 9.

Fig. 11 is a schematic structural view of the anti-spinning device of the present invention.

Fig. 12 is a schematic structural diagram of a driving device of the present invention.

Fig. 13 is a schematic view of the related structure of the restriction edge and the restriction groove of the present invention.

Reference numerals:

100. a housing; 101. a working head; 102. a hand-held portion; 103. a battery pack;

200. an execution device; 201. a supporting seat; 202. mounting a plate; 203. cutting the base; 204. a C-shaped notch;

300. a drive device; 301. a circular toothed plate; 302. a drive motor; 303. a clutch mechanism; 304. a transmission mechanism; 306. a limiting groove; 307. a speed reduction mechanism; 308. a limiting edge;

400. a control device; 401. starting a switch; 402. a reset switch; 403. a control circuit board;

500. a feed device; 501. a clamping and cutting mechanism; 502. a feed mechanism; 503. a clamping position; 504. a feed rotating shaft; 505. a drive assembly; 506. a roller seat; 507. a first inserting part; 508. a movable cavity; 509. a tool apron; 510. a second inserting part; 511. a rotating groove; 512. cutting; 513. a first clamping part; 514. a first threaded part; 515. an installation part; 516. a worm gear; 517. a worm; 518. a toothed plate; 519. a first through hole; 520. a limiting part; 521. a first elastic part; 522. an elastic member III; 523. a convex ring; 525. a roller;

600. a resetting device; 601. a cutter limiting mechanism; 602. an adjustment mechanism; 603. a limiting block; 604. a second clamping part; 605. a rotating shaft limiting block; 606. a second threaded part; 607. a pusher member; 608. a reset sheet; 609. a second elastic piece; 610. a chute; 611. mounting grooves; 612. a convex strip; 613. a first groove; 614. a limiting groove; 615. rotating the projection; 616. a swing rod;

700. an anti-spinning device; 701. an inductor.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, a hand-held electric cutting tool, mainly for cutting thin-walled metal pipes, mainly comprises: the device comprises a shell 100, an actuating device 200, a driving device 300, a resetting device 600, a feeding device 500 and an anti-spinning device 700;

the shell 100 is mainly formed by injection molding, is hollow inside, and is mainly divided into a working head part 101, a handheld part 102 and a battery pack 103; the working head part 101 is provided with a U-shaped opening, the executing device 200 is arranged on the working head part 101, and the driving device 300, the resetting device 600 and the control device 400 are all arranged in the shell 100;

with reference to fig. 3 and 7, the actuator 200 includes a support base 201, a mounting plate 202, and a cutting base 203;

the mounting plate 202 is mounted at the front end of the supporting seat 201, the cutting seat 203 is rotatably mounted on the mounting plate 202, a U-shaped opening is also formed in the cutting seat 203, and a mounting cavity is formed in the cutting seat 203;

with reference to fig. 2 and 12, the driving device 300 includes a control device 400, a battery, a driving motor 302, a speed reduction mechanism 307, a clutch mechanism 303, and a transmission mechanism 304;

the speed reducing mechanism 307 is installed in the supporting seat 201, the transmission mechanism 304 is installed on the mounting plate 202 and connected with the cutting seat 203, the mounting plate 202 is located between the circular toothed plate 305 and the executing device 200, the output end of the driving motor 302 is connected with the speed reducing mechanism, power output is achieved, and the cutting seat 203 can rotate.

As shown in fig. 2, the control device 400 includes a control circuit board 403, a start switch 401 and a reset switch 402, the start switch 401 and the reset switch 402 are both electrically connected to the control circuit board 403, the control circuit board 403 is connected to the battery and the driving motor 302, and the start switch 401 and the reset switch 402 are used to control the operation of the driving motor 302, such as start-stop, forward rotation or reverse rotation, through the control circuit board 403.

As shown in fig. 3-5, the feeding device 500 is installed in the installation cavity of the cutting base 203, and mainly comprises a clamping cutting mechanism 501 and a feeding mechanism 502;

the clamping and cutting mechanism 501 is mainly used for clamping a pipe, and mainly comprises: a roller seat 506 and a tool seat 509, both of which are movably arranged in the cutting seat 203;

the overall shape of the roller seat 506 is similar to an L shape, two groups of rollers 525 are arranged at the front end of the roller seat 506, and a space is reserved between the two groups of rollers 525; a first inserting part 507 is formed at the rear end of the roller seat 506, the first inserting part 507 is a square block, a movable cavity 508 is formed on the first inserting part 507, and the side wall of the movable cavity 508 penetrates through the upper end, the lower end, the rear end and the front end part; the opening at the rear end is smaller than the width dimension of the movable cavity 508;

a cutter 512 is mounted at the front end of the cutter holder 509, the cutter 512 can rotate on the cutter holder 509, a second insertion part 510 is formed at the rear end of the cutter holder 509, the external shape of the second insertion part 510 is similar to a square strip, the size of the second insertion part 510 is matched with that of the movable cavity 508, a rotating groove 511 for mounting the feed rotating shaft 504 is formed in the end face of the second insertion part 510, and the lower end of the rotating groove 511 is not provided with a side wall and penetrates through the outside.

The cutting knife 512 and the roller 525 are both internally provided with bearings, so that the cutting knife can rotate freely.

When the pipe is installed, the second inserting part 510 is inserted into the movable cavity 508 and can move in the movable cavity 508, so that a clamping position 503 is formed between the cutting knife 512 and the roller 525 and is used for clamping and fixing the pipe.

The two groups of rollers 525 and the cutter 512 are distributed in a triangular shape, and when the pipe to be cut is placed in the clamping position 503, the triangular distribution can ensure the stability and accuracy of the fixation of the pipe to be cut and simultaneously ensure that the pipe to be cut cannot fly out of the clamping position 503 in the rotary cutting process.

Referring to fig. 5, the feeding mechanism 502 mainly includes: a feed rotating shaft 504, a first elastic piece 521, a tooth plate 518 and a driving assembly 505;

the feeding rotating shaft 504 is installed in the cutting seat 203, then the tool holder 509 is installed in the cutting seat 203, so that the feeding rotating shaft 504 is installed in the rotating groove 511, the tool holder 509 is in lap joint with the feeding rotating shaft 504, the feeding rotating shaft 504 can rotate in the rotating groove 511, the first elastic member 521 is sleeved at the lower end of the feeding rotating shaft 504, the end portions of the first elastic member 521 are respectively abutted against the outer portion of the feeding rotating shaft 504 and the cutting seat 203, and the feeding rotating shaft 504 is restrained from moving in the rotating groove 511 under the action of the first elastic member 521.

An elastic member III 522 is disposed in the cutting base 203, and an end of the elastic member III 522 supports the roller base 506, and a clamping force can be generated between the roller base 506 and the tool seat 509 by cooperating with the elastic member I521.

The driving component 505 is installed in the cutting seat 203, and part of the driving component is arranged outside the cutting seat 203, and the driving component 505 is connected with the feed rotating shaft 504;

tooth plate 518 is mounted to support base 201 and is configured to cooperate with drive assembly 505 to rotate drive assembly 505, primarily during rotation of cutting block 203.

According to the utility model, the feeding rotating shaft 504 is arranged in the second inserting part 510 of the tool apron 509, then the second inserting part 510 is inserted into the movable cavity 508, the roller seat 506 and the tool apron 509 cannot move under the limitation of the resetting device 600, at the moment, the feeding mechanism 502 works and can drive the second inserting part 510 to move in the movable cavity 508, so that feeding is realized, and the structure converts the rotation of the feeding rotating shaft 504 into the driving force for the feeding rotating shaft 504 to move along the axis of the feeding rotating shaft 504.

Compared with the prior art, the structure is more stable, can generate larger cutting force and ensures the cutting effect.

The elastic piece I of the feed mechanism can provide the tool apron with the trend of moving towards the roller seat, so that the clamping and cutting mechanism has initial clamping force, can clamp and position the pipe, ensures that the pipe can be fixed and stably and conveniently positioned in the clamping position, ensures that the pipe is accurately clamped in the clamping position, facilitates subsequent cutting operation, and ensures the cutting effect.

The working process is as follows:

referring to fig. 7 and 8, firstly, a pipe to be cut is installed in the clamping position 503, the pipe to be cut is clamped and positioned under the action of the first elastic member 521, then the starting switch 401 is pressed, the control circuit board 403 starts the driving motor 302 to rotate forward, the driving motor 302 drives the speed reducing mechanism, the clutch mechanism 303 and the transmission mechanism 304 to work, and the cutting base 203 rotates around the axis of the clamped pipe;

during the rotation, the end of the resetting device 600 abuts against the first clamping portion 513 of the roller seat 506 and the first threaded portion 514 of the outer wall of the feed rotating shaft 504 in the tool holder 509, so as to limit the movement between the roller seat 506 and the tool holder 509; when the driving assembly 505 passes through the tooth plate 518, the end of the driving assembly 505 is engaged with the teeth on the tooth plate 518, so as to rotate the driving assembly 505, the driving assembly 505 drives the feeding rotating shaft 504 to rotate, the feeding rotating shaft 504 cannot move in the rotating groove 511 due to the action of the resetting device 600, and only can rotate, in the rotating process, the design of the first threaded portion 514 enables the rotation of the feeding rotating shaft 504 to be converted into the movement in the axial direction of the feeding rotating shaft 504, namely the tool apron 509 moves towards the direction of the roller, so as to reduce the size of the clamping position 503, so that the force of the cutting knife 512 abutting against the outer wall of the pipe to be cut is gradually increased, so as to increase the cutting force, the cutting seat 203 continuously rotates and continuously feeds, so as to cut the pipe with thicker wall thickness and harder thickness.

After the cutting is finished, the reset switch 402 is pressed, the driving motor 302 rotates reversely to drive the cutting seat 203 to rotate reversely, the reset device 600 is triggered, the reset device 600 is enabled to separate the clamping and cutting mechanism 501, the constraint of the clamping and cutting mechanism 501 is removed, the clamping and cutting mechanism 501 can be opened passively, the U-shaped opening is overlapped with the U-shaped opening on the cutting seat 203, the pipe can be conveniently placed into the U-shaped opening on the cutting seat 203 to be overlapped and clamped again, then the actions are repeated, and the cutting operation can be carried out again.

The design of the utility model is to change a newly designed feeding device, in the cutting process, the rotation of the cutting base 203 is utilized to trigger the driving component 505 to rotate, the feeding rotating shaft 504 is driven to rotate, and the rotation of the feeding rotating shaft is converted into the movement of the axis direction of the feeding rotating shaft 504 by matching with the limiting block 603, so that the cutter holder 509 is driven to move, and further, the cutting force is generated. As long as cutting seat 203 rotates, can continuously reduce centre gripping position 503, the cutting force is continuously increased to reach the purpose of cutting harder, thicker pipe, whole scheme adaptability is stronger, and the cutting effect is better.

The cutting force is ensured by utilizing a mechanical structure, and the influence of the existing material factors is avoided.

The position of the rotation slot is not limited, and may be set according to the actual situation, and may be set in the roller seat 506 or the tool seat 509.

Further, as shown in fig. 6, a first threaded portion 514 is formed on the outer wall of the middle portion of the feeding rotating shaft 504, protruding rings 523 are formed at two ends of the first threaded portion 514, and the protruding rings 523 protrude from two ends of the feeding rotating shaft 504, similar to the feeding rotating shaft 504.

When the feeding rotating shaft 504 is installed in the rotating groove 511, the protruding ring 523 abuts against the inner wall of the rotating groove 511, so that the first threaded portion 514 is separated from the inner wall of the rotating groove 511, the protruding ring 523 abuts against the upper end portion of the rotating groove 511, and the upper end of the feeding rotating shaft 504 penetrates through the second inserting portion 510.

The outer diameter of the convex ring 523 is larger than that of the first threaded part 514.

The convex ring 523 can protect the first threaded part 514 on one hand and prevent the first threaded part from being worn during the rotation process of the feed rotating shaft 504; on the other hand, the feed rotary shaft 504 is restrained to prevent the feed rotary shaft 504 from being separated from the upper end of the rotary groove 511, thereby ensuring the stability of installation.

The protruding ring 523 also realizes the abutting of the end of the elastic element, and realizes the sleeving of the first elastic element 521 on the feeding rotating shaft 504.

The first elastic member 521 is installed to support the feeding rotary shaft 504, so that the upper end of the feeding rotary shaft 504 protrudes out of the second insertion part 510 to form an installation part 515.

[ modification 1 ]

The first threaded portion 514 may be formed on a sleeve, which is then welded to the feed shaft 504, for the purpose of providing the first threaded portion 514 on the exterior of the feed shaft 504.

As shown in fig. 5, in order to cooperate with the resetting device 600, a first clamping portion 513 is formed on an end surface of the first inserting portion 507;

a first threaded part 514 is formed on the outer wall of the feed rotating shaft 504;

the end part of the resetting device 600 is respectively formed with a second clamping part 604 and a second threaded part 606;

the first clamping portion 513 is matched and clamped with the second clamping portion 604, and the first threaded portion 514 is matched with the second threaded portion 606, so that free movement of the roller seat 506 and the tool seat 509 is limited.

The first clamping portion 513 and the second clamping portion 604 can be both in a tooth shape and clamped through meshing; or a convex and groove matching mode is adopted to realize clamping, and the clamping can be adopted as long as the clamping is matched with the convex and groove to limit the movement.

As shown in fig. 4 to 6, the driving assembly 505 is constructed as follows.

The drive assembly 505 has a worm gear 516, a worm 517 and a toothed plate 518;

the worm wheel 516 is provided with a first through hole 519, and a limiting part 520 is formed on the inner wall of the first through hole 519, so that the first through hole 519 is hexagonal, and can be quadrilateral, quincunx and other special shapes.

The mounting portion 515 is a column, such as a hexagonal column, a quadrangular column, a quincunx column, and the like, and can be matched with the first through hole 519 to realize radial limiting.

During installation, shaft sleeves or bearings are sleeved at two ends of the worm wheel 516, the worm wheel 516 is rotatably installed in the cutting seat 203 through the shaft sleeves or bearings, the installation part 515 is arranged in the first through hole 519 of the worm wheel 516 in a penetrating mode, and the installation part 515 can move in the axial direction of the first through hole 519.

Two ends of the worm 517 are respectively fixed on two side walls of the cutting seat 203, so that the worm 517 can be rotatably mounted in the cutting seat 203;

meanwhile, one end of the worm 517 penetrates through the side wall of the cutting seat 203 and is arranged outside, and a gear is arranged on the worm 517 arranged outside;

the tooth plate 518, which is mounted on the supporting base 201, is formed with teeth, and the arrangement of the teeth is an arc distribution, that is, the teeth distributed in an arc are located on the track of the gear rotating along with the cutting base 203.

Therefore, in the process that the cutting seat 203 rotates, when the cutting seat passes through the toothed plate 518, the worm 517 can be driven to rotate through the matching of the gear and the toothed plate 518, and the worm gear 516 and the worm 517 are matched to drive the rotation of the feed rotating shaft 504 to realize feed.

The feed mechanism 502 utilizes the cooperation of the worm wheel 516 and the worm 517 to convert the rotating force of the cutting seat 203 into the driving force for driving the tool holder 509 to move, and a driving part cannot be additionally arranged, so that the structure is small and exquisite; simultaneously, the worm 517 is triggered to rotate through the toothed plate 518, the feed amount can be adjusted by adjusting the length of the toothed plate 518, and the adjustment is convenient and the use is more convenient.

The first through hole 519 is formed in the worm wheel 516, the mounting portion 515 is inserted into the first through hole 519, the limiting portion 520 is used for limiting rotation of the mounting portion 515 in the first through hole 519, movement in the axial direction cannot be limited, normal transmission of torsion force is guaranteed, meanwhile, axial movement of the mounting portion 515 in the first through hole 519 cannot be influenced, when a pipe is clamped, movement of the tool apron 509 cannot influence feeding operation of the feeding device 500, and normal use of the machine is guaranteed.

The tooth plate 518 is provided with a waist-shaped hole, a rubber piece can be arranged in the waist-shaped hole, a cover plate can be covered on the tooth plate 518, and the cover plate and the tooth plate 518 are fixed on the supporting seat 201 by bolts.

The rubber spare can play the effect of buffering, avoids when the feed, cuts off the bolt behind the toothed plate 518 atress, also alleviates the power of transmitting on supporting seat 201 simultaneously, protects supporting seat 201, avoids appearing the cracked condition of supporting seat 201, guarantees the life-span of equipment.

The worm gear has strong self-locking capability, the rotation amplitude is very small, and friction force exists between the feed rotating shaft 504 and the rotating groove.

Meanwhile, in the cutting process, the cutting seat rotates at a high speed, inertia can be generated due to rotation, the rotating force can be offset, and the rotating condition cannot occur due to the friction force, so that the feed cutting effect is influenced.

As shown in fig. 11, the anti spinning device 700 is constructed as follows.

The idle rotation preventing device 700 includes an inductor 701;

a second through hole is formed in the cutting part, and the end part of the mounting part 515 is arranged in the second through hole and can penetrate out of the cutting seat 203 through the second through hole;

the inductor 701 is installed inside the casing 100 opposite to the second through hole, and mainly used for inducing the end of the installation part 515.

The use state is as follows:

when the pipe to be cut is not clamped in the clamping position 503, the clamping position 503 is the smallest, so that the end of the mounting part 515 penetrates out of the cutting seat 203 or is closest to the sensor 701, at this time, if the starting switch 401 is pressed, the controller circuit board can issue a command that the driving motor 302 does not work, or the cutting seat 203 is allowed to rotate for 1 or 2 circles through setting;

when the clamping position 503 clamps the pipe to be cut, the clamping position 503 is spread, the mounting part 515 is retracted into the cutting seat 203, that is, the end of the mounting part 515 is far away from the sensor 701, and then the cutting can be normally started to realize cutting.

The idle rotation prevention device 700 of the utility model uses the sensor 701 to sense the position of the end part of the installation part 515, sends a signal to the control device 400, and the control device 400 controls the operation of the driving device 300, thereby avoiding the condition that the equipment is damaged due to idle rotation and continuous feed of the equipment when the pipe is not clamped, ensuring that the equipment is not damaged and the electric quantity is wasted, and ensuring the service life of the equipment.

The sensor 701 may be an proximity switch or an infrared sensing switch or sensor.

[ variation 2 ]

A guide bar may be installed on the roller mount 506 or the tool holder 509 so that the guide bar can move along with the roller mount 506 or the tool holder 509.

This allows the end of the guide rod to be close to the inductor 701 when the pipe is not clamped; when clamping a pipe, the clamping position is opened and the roller block 506 or the tool block 509 is displaced so that the guide rod is retracted into the cutting block, i.e. the end of the guide rod is away from the sensor 701.

As shown in fig. 7-10, the reset device 600 is constructed as follows.

The resetting device 600 comprises a knife limiting mechanism 601 and an adjusting mechanism 602;

the cutter limiting mechanism 601 is arranged on the side surface of the cutter feeding device 500, the adjusting mechanism 602 is arranged at the rear end of the cutter limiting mechanism 601, and the front end of the cutter limiting mechanism 601 is used for clamping and clamping the cutting mechanism 501; the adjustment mechanism 602 is used to adjust the position of the knife limit mechanism 601 so that the knife limit mechanism 601 is close to or away from the knife feeding device 500.

The knife limiting mechanism 601 includes: a stopper 603 and a spindle stopper 605;

the stopper 603 only needs to limit the movement of the roller base 506 and the tool base 509 in the cutting-in state. As described below, the limiting block 603 is movably installed in the cutting seat 203.

A sliding groove 610 is formed in the cutting seat 203, the sliding groove 610 is opened towards the first inserting part 507, and the limiting block 603 is installed in the sliding groove 610 and can slide in the sliding groove 610; the adjusting mechanism 602 is mounted at the rear end of the sliding groove 610 and abuts against the rear end of the limiting block 603, and the adjusting mechanism 602 pushes the limiting block 603 to move in the sliding groove 610;

the second clamping portion 604 and the second threaded portion 606 are formed on the front end face of the limiting block 603, and the limiting block 603 is close to the cutter feeding device 500, so that the first clamping portion 513 is clamped with the second clamping portion 604, and the first threaded portion 514 is clamped with the second threaded portion 606, so that free movement of the roller seat 506 and the cutter seat 509 is limited.

In order to ensure the clamping effect, the front end surface of the limiting block 603 is recessed inwards to form a mounting groove 611, and two sides of the mounting groove 611 penetrate through opposite side surfaces of the limiting block 603 to form a groove with three open sides;

the rotating shaft limiting block 605 is installed in the installation groove 611, and the front end of the rotating shaft limiting block 605 is formed with an arc-shaped second threaded portion 606 for matching with the first threaded portion 514 to limit the feeding rotating shaft 504.

In order to enable the rotating shaft limiting block 605 to move along with the limiting block 603, a protruding strip 612 is formed on the side wall of the mounting groove 611, a first groove 613 is formed on the side wall of the rotating shaft limiting block 605, the rotating shaft limiting block 605 is installed from the side surface of the mounting groove 611, the protruding strip 612 slides into the first groove 613 to restrict the rotating shaft limiting block 605 from sliding out of the front end of the mounting groove 611, the sliding grooves 610 can restrict the two sides of the mounting groove 611 to prevent the rotating shaft limiting block 605 from sliding out of the mounting groove 611 from the two sides, and the installation of the rotating shaft limiting block 605 at the front end of the limiting block 603 is ensured.

The width L of the rotation shaft limiting block 605 is smaller than the width S of the limiting block 603, so that after the limiting block 603 is installed in the sliding groove 610, the rotation shaft limiting block 605 can move in the installation groove 611 within a small range.

The effect of design like this is for more accurate joint, and there is the deviation when the joint position because be dentate design, can be through sliding, accurate joint, guarantee the mutual joint between screw thread portion one 514 and the screw thread portion two 606.

[ variation 3 ]

The limiting block 603 can also be integrally formed with the cutting seat 203, and during resetting, the resetting can be realized only by continuously reversing.

The adjusting mechanism 602 comprises a pushing piece 607, a resetting piece 608 and a second elastic piece 609;

the pushing piece 607 penetrates through the cutting seat 203, the part of the pushing piece 607 located inside the cutting seat 203 is an eccentric shaft, the side wall of the eccentric shaft abuts against the rear end of the limiting block 603, the end part of the pushing piece 607 penetrates through the cutting seat 203 and forms a swing stem 616 along the side wall of the cutting seat 203, and the end part of the swing stem 616 protrudes to form a rotating protrusion 615;

the two second elastic pieces 609 are arranged in the cutting seat 203, the end parts of the second elastic pieces 609 are fixed on the pin shafts, the other ends of the second elastic pieces 609 are connected to the side surfaces of the rear ends of the limiting blocks 603 respectively, and the eccentric shafts are located between the two second elastic pieces 609;

the rotation of the eccentric shaft overcomes the elasticity of the second elastic piece 609 to push the limiting block 603 to move; when the eccentric shaft returns to the initial state, the second elastic member 609 pulls the limiting block 603 back to the original position, i.e. the limiting block 603 is pulled away from the clamping and cutting mechanism 501.

The end of the reset sheet 608 is mounted on the support base 201, and a waist-shaped hole is formed in the reset sheet 608, so that the bolt for fixing the mounting plate 202 penetrates through the waist-shaped hole, the reset sheet 608 can only swing within the range of the waist-shaped hole, and meanwhile, a torsion spring is mounted, so that the torsion spring provides rotating force for the reset sheet 608, and the movable end of the reset sheet can be placed in the rotating track of the cutting base 203.

A limiting groove 614 is formed on the supporting seat 201.

When the cutting seat 203 rotates forward, the rotating protrusion 615 moves from the fixed end to the movable end of the reset sheet 608, so that the swing link 616 rotates under the action of the rotating protrusion 615, the swing link 616 rotates into the cutting seat 203, and at this time, the front end of the cutter limiting mechanism 601 abuts against the rear end of the clamping cutting mechanism 501, thereby ensuring the cutting operation of the cutter feeding device 500.

After cutting, the cutting seat 203 rotates reversely, the rotating protrusion 615 rotates from the movable end to the fixed end of the reset sheet 608, due to the action of the torsion spring, the movable end of the reset sheet 608 extends into the cutting seat 203, the rotating protrusion 615 can abut against the movable end face of the reset sheet 608, under the guide of the arc of the movable end face, the swing rod 616 swings and rotates out of the cutting seat 203, then the cutting seat 203 enters the limiting groove 614, the swing rod 616 is clamped by the side wall of the limiting groove 614 and the cutting seat 203, the reverse rotation of the cutting seat 203 is limited, meanwhile, the elastic piece two 609 pulls the knife limiting mechanism 601 away from the clamping and cutting mechanism 501, the clamping and cutting mechanism 501 can be opened optionally, and the U-shaped opening of the cutting seat 203 coincides with the U-shaped opening of the shell 100, so that the reset is realized, and the subsequent use is facilitated.

At this time, the clutch mechanism 303 is activated to prevent the power from being transmitted to the cutting base 203, thereby preventing the structure from being damaged.

According to the utility model, the adjusting mechanism 602 drives the cutter limiting mechanism 601 to move perpendicular to the clamping part I513 of the clamping and cutting mechanism 501, so that clamping and limiting effects are ensured, the situation that the cutter limiting mechanism 601 cannot stably limit the movement of the clamping and cutting mechanism 501 (gear disengaging phenomenon, clamping cannot be stably controlled) in the cutter feeding process is avoided, the stability of the movement of the whole structure is ensured, and the cutting effect is ensured.

[ variation 4 ]

The portion of the pushing member 607 inside the cutting seat 203 may also be designed as a cam shaft to achieve a design of pushing the swing link 616 so that the limit block 603 is pushed.

[ modification 5 ]

The pushing member 607 is a convex pillar with two vertical axes and different directions, one of the convex pillar forms the swing link 616, and the other convex pillar is used for abutting against the rear end of the limiting block 603.

Further, as shown in fig. 13, in order to ensure the safety of use, a C-shaped notch 204 is formed on the mounting plate 202, and a limiting edge 308 is formed along the edge of the C-shaped notch 204;

the driving device 300 is internally provided with a circular toothed plate 305, and the side wall of the circular toothed plate 305 is formed with a limiting groove 306 matched with a limiting edge 308;

the circular tooth plate 305 is connected to the actuator 200 such that the mounting plate 202 is positioned between the circular tooth plate 305 and the cutting block 203, the limit edge 308 is disposed within the limit slot 306, and the actuator 200 rotates such that the limit edge 308 moves within the limit slot 306.

The limit edge 308 and the limit groove 306 are matched to restrict the rotation range of the actuating device 200, so that the situation that the actuating device 200 is separated from the mounting plate 202, namely the cutting seat 203 flies out, which causes a use accident is avoided, and the working safety of the equipment is improved.

The control circuit board 403 of the control device 400 can be purchased directly, and is now common in the market, and will not be described in detail.

The structure of the driving device 300 can be referred to as a reference 201921435422.6 and is not expanded.

The tube may be a long tube, or a tube, or other outer cylindrical, inner central tubular member.

The first elastic element 521, the second elastic element 609 and the third elastic element 522 can all adopt springs or elastic sheets.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. An anti-spinning device for a hand-held power cutting tool, comprising:

the cutting seat (203) is internally provided with a roller seat (506) and a cutter seat (509), the roller seat (506) is provided with a roller (525), and the cutter seat (509) is provided with a cutting knife (512); a clamping position (503) is formed between the roller (525) and the cutting knife (512);

the guide rod is movably arranged in the cutting seat (203), and the roller seat (506) or the cutter seat (509) is connected to the guide rod;

a sensor (701) installed outside the cutting block (203) for sensing the guide bar;

when the pipe enters the clamping position (503), the roller seat (506) or the cutter seat (509) is expanded to move, so that the end of the guide rod is far away from the inductor (701).

2. The anti spinning device of a hand held power cutting tool of claim 1, wherein:

the sensor (701) is an approach switch or a sensor.

3. The anti spinning device of a hand held power cutting tool of claim 1, wherein: also comprises a feed device (500) which comprises

A clamping and cutting mechanism (501) comprising the roller seat (506) and a tool seat (509);

a feed mechanism (502) for controlling relative movement between the roller block (506) and the tool block (509);

wherein the feed mechanism (502) comprises:

a feed rotary shaft (504) for driving the roller holder (506) or the tool holder (509);

the driving component (505) is used for driving the feed rotating shaft (504) to rotate;

the feed rotating shaft (504) is matched with the limiting block (603), so that the rotation of the feed rotating shaft (504) is converted into the movement of the feed rotating shaft (504) in the axial direction; the feed rotating shaft (504) drives the roller seat (506) or the tool seat (509) to move in the axial direction, so that the roller seat (506) and the tool seat (509) generate relative movement.

4. The anti spinning device of a hand held power cutting tool of claim 3, wherein:

the guide rod is a feed rotating shaft (504).

5. The anti spinning device of a hand held power cutting tool of claim 3, wherein:

the drive assembly (505) has:

the worm wheel (516) is movably arranged on the feeding rotating shaft (504) and is limited with the feeding rotating shaft (504) in the radial direction;

a worm (517) which is rotatably arranged in the cutting seat (203), is connected with the worm wheel (516), has the end part protruding out of the cutting seat (203), and is provided with a gear;

a toothed plate (518) mounted within the housing (100) for enabling rotation of the gear as it passes the toothed plate (518); during the rotation of the cutting seat (203), the feed rotating shaft (504) is rotated through the cooperation of the worm gear (516) and the worm (517).

6. The anti spinning device of a hand held power cutting tool of claim 3, wherein:

a first threaded part (514) is arranged on the surface of the feed rotating shaft (504); the inner side of the limiting block (603) is provided with a second threaded part (606), and the first threaded part (514) is matched with the second threaded part (606) to limit the feed rotating shaft (504) by the limiting block (603).

7. The anti spinning device of a hand held power cutting tool of claim 5, wherein:

the upper end of the feed rotating shaft (504) protrudes out of the roller seat (506) or the cutter seat (509) to form an installation part (515);

a first through hole (519) is formed in the worm wheel (516), and a limiting part (520) is formed on the inner wall of the first through hole (519);

this installation department (515) wear to establish in through-hole one (519), and spacing portion of outer wall butt (520), spacing portion (520) and installation department (515) are spacing radially.

8. The anti spinning device of a hand held power cutting tool of claim 3, wherein:

a first inserting part (507) is formed at the rear end of the roller seat (506), and a movable cavity (508) is formed on the first inserting part (507);

a second inserting part (510) is formed at the rear end of the cutter holder (509), and a rotating groove (511) used for being matched with the feed rotating shaft (504) is formed in the end face of the second inserting part (510);

the second inserting part (510) is movably arranged in the movable cavity (508), and the clamping position (503) is formed between the front end of the roller seat (506) and the cutting knife (512).

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