CN110016799B - Self-walking electric cutting machine - Google Patents

Abstract

The invention discloses a self-walking electric cutting machine, which comprises a supporting platform, electric scissors arranged above the supporting platform, a pair of driving wheels arranged below the supporting platform, and a base arranged between the pair of driving wheels, wherein the electric scissors comprise a machine body, a motor arranged in the machine body, a blade driven by the motor to rotate, and a shield arranged above the blade, the supporting platform can move relative to the base, the top end of the base is provided with a sliding chute, the driving wheels are clamped and arranged at two sides of the base, the self-walking electric cutting machine is also provided with a front guiding device and a rear guiding device which are connected below the supporting platform, the front guiding device and the rear guiding device can slide in the sliding chute, the blade extends into the sliding chute, the pair of driving wheels drive the supporting platform to advance at two sides of the base, and the front guiding device and the rear guiding device enable the supporting, the self-walking electric cutting machine disclosed by the invention automatically walks on the cut object, so that the cutting efficiency is high.

Description

Self-walking electric cutting machine

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of cutting machines, in particular to a self-walking electric cutting machine.

[ background of the invention ]

In glass steel wind-powered electricity generation blade production, need cut the bold glass fiber cloth on the web many times, make it part so that link to each other with other cloth, under the normal conditions, the fine cloth of glass tailors to adopt artifical handheld operation scissors to tailor, not only the cloth is cut edge untiely, and tailors inefficiency, operating personnel still need climb the high long-time cutting of cutting, operating personnel appears tiredly easily and causes unnecessary bodily injury, with mechanical cloth cutting device, can improve cutting efficiency and cutting quality greatly.

The mechanical cloth cutting device is a machine mainly used for cutting glass fiber cloth and mainly applied to cutting a large number of small-sized samples or products. Can be widely applied to other similar materials, in particular to the field of clothes with wide application.

The traditional mechanical cloth cutting device mainly comprises a cutting machine and other operation rods, and the cutting of the web glass fiber cloth can be finished only by manually maintaining the lifting of a matched travelling crane and the like.

But current mechanical cloth cutting device uses inconveniently, and at the actual shearing in-process, because the fine cloth height of glass on the web is long length, and the shape is curved, the complicated cooperation of manual fit driving operation requires highly, appears cooperating improper even and leads to damaging cutting machine etc. and influences the production cycle of blade.

It can be seen that providing an improved electric cutter is a problem that needs to be solved in the art.

[ summary of the invention ]

The invention aims at the problems and provides a self-walking electric cutting machine which can walk on an object to be cut by self and has high cutting efficiency.

In order to solve the problems, the invention provides a self-walking electric cutting machine, which comprises a supporting platform, electric scissors arranged above the supporting platform, a pair of driving wheels arranged below the supporting platform and a base arranged between the pair of driving wheels, the electric scissors comprise a body, a motor arranged in the body, a blade driven by the motor to rotate, and a protective cover positioned above the blade, the supporting platform can move relative to the base, the top end of the base is provided with a sliding groove, the driving wheels are clamped and installed on two sides of the base, the self-propelled electric cutting machine is also provided with a front guide device and a rear guide device which are connected below the supporting platform, the front guide device and the rear guide device can slide in the sliding groove, the blade extends into the sliding groove, the pair of driving wheels drives the supporting platform to move forwards on two sides of the base, and the front guiding device and the rear guiding device enable the supporting platform to move directionally.

Further, the electric shears include a base mounted below the blades, the base having an opening through which the blades extend into the chute.

Further, the base is a front guide device.

Further, the driving wheel is a motor hub integrated outer rotor driving wheel.

Further, the electric scissors are further provided with a connecting seat installed at the front end of the machine body, the electric scissors are installed on the supporting platform through a supporting block, the supporting block comprises a pair of arms and a connecting portion connected with the pair of arms, the pair of arms and the connecting portion form an accommodating space with an opening, one side of the accommodating space is provided with a pair of attaching portions, the attaching portions extend inwards from the arms to form the attaching portions, the electric scissors are installed on the supporting block from the opening from top to bottom, the connecting seat of the electric scissors is installed in the accommodating space and attached to the attaching portions, the attaching portions are connected with the connecting seat of the electric scissors to fix the electric scissors onto the supporting block, and the supporting block is fixedly connected with the.

Furthermore, the supporting platform comprises a pair of guide parts arranged in parallel and a triangular main body part, the guide parts are installed on two sides of the base, the electric scissors are installed on the main body part, and a base of a blade of the electric scissors is located between the guide parts.

Furthermore, the free ends of the arm parts of the supporting blocks extend outwards to form a pair of extending parts, a front handle is installed on each extending part, a rear handle is installed on the rear side of the supporting platform, and the front handle and the rear handle interact to remove the supporting platform and the electric scissors from the base.

Further, the axis of the body of the electric scissors is parallel to the sliding groove.

Furthermore, the plane of the saw blade is parallel to the sliding groove.

Moreover, the self-walking electric cutting machine disclosed by the invention automatically walks on the cut object, so that the cutting efficiency is high.

[ description of the drawings ]

Fig. 1 is a front view of a self-propelled electric cutter of the present invention.

Fig. 2 is an exploded view of the self-propelled electric cutter of the present invention.

Figure 3 is an exploded view of the pliers of the present invention.

Fig. 4 and 5 show the use of the clamp of the present invention.

[ detailed description ] embodiments

Referring to fig. 1 to 5, the constituent structure of the self-propelled electric cutter of the present invention is shown. The self-walking electric cutting machine comprises a supporting platform 1, an adjusting platform 2 arranged above the supporting platform 1, a base 6 positioned below the supporting platform 1, an adjusting component 3 connected to the supporting platform 1 and a moving component 4 driving the supporting platform 1 to walk. The base is a web top ruler, the top end of the base 6 is provided with a sliding groove, and the supporting platform 1 can move relative to the base.

The moving assembly 4 includes a pair of driving wheels 41 located at both sides of the supporting plate, a mounting shaft 43 mounted to the driving wheels 41, and a guide block 42 guiding the movement of the supporting platform. The guide block 42 moves in a slide groove 44 formed at the top end of the base 6. The driving wheels 41 are motor hub integrated outer rotor driving wheels, are driving wheels and are not driven wheels, and after the pair of driving wheels are driven simultaneously, the driving force is increased, so that the electric scissors can obtain enough thrust in the cutting process.

The self-walking electric cutting machine further comprises electric scissors 5 installed at one end of the supporting platform 1, and the electric scissors 5 are installed on the supporting platform 1 through supporting blocks 7. The electric scissors are a commonly used angle grinder cutting machine in the market, and comprise a machine body 51, a motor (not shown) arranged in the machine body, a blade 53 driven by the motor to rotate, a shield 52 positioned above the blade 53, a base 55 arranged below the blade 53, and a connecting seat 54 arranged at the front end of the machine body. The base 55 has an opening 56 through which the blade 53 extends into the chute 44. The support block 7 includes a pair of arm portions 71 and a connecting portion 73 connecting the pair of arm portions 71, and the pair of arm portions 71 and the connecting portion 73 constitute an accommodating space having an opening, and one side of the accommodating space has a pair of attaching portions 74, and the attaching portions 74 are formed to extend inward from the arm portions. The electric scissors are arranged on the supporting block 7 from top to bottom, the connecting seats 54 of the electric scissors are arranged in the accommodating space and are attached to the attaching portions 74, the screws penetrate through the attaching portions 74 and the connecting seats 54 of the electric scissors to fix the electric scissors onto the supporting block 7, and the screws extend upwards from the lower surface of the supporting platform 1 to the connecting portions 73 of the supporting block 7. The free ends of the arm portions of the support block 7 extend outwardly to form a pair of extensions 72. The pair of extending portions is disposed in parallel with the connecting portion. When the electric shears are mounted to the support platform 1, the blades 53 of the electric shears extend through the openings 56 into the chute 44. The base 55 and guide blocks 42 slide within the slide channels to guide the movement of the support platform on the base 6.

The support platform has a pair of guide portions 11 arranged in parallel and a triangular main body portion 12. The glass fiber cloth which is firstly cut into two sides is separated at two sides of the guiding part 11, and the glass fiber cloth is ensured to be naturally separated towards the two sides under the stirring of the triangular main body part of the supporting platform, so that the automatic cutting of the glass fiber cloth is realized. The width of the front end of the main body part is larger than that of the rear end. The support block 7 is mounted on one end of the main body 12 close to the guide portion by a screw, and the screw is mounted on the main body 12 from bottom to top and is connected to the bottom of the connecting portion 73 of the support block 7. The electric scissors 5 are mounted in the supporting block 7 from top to bottom, and the connecting seat 54 of the electric scissors 5 is accommodated in the accommodating space of the supporting seat and connected to the attaching portion 74 of the supporting seat and the connecting seat 54 by screws. The support platform 1 also has a pair of apertures 13.

The adjusting assembly 3 comprises an adjusting platform 2 mounted on the supporting platform, a slide block 32 mounted on the adjusting platform, and a pair of clamps 31 for adjusting the position of the slide block on the adjusting platform. The slider 32 is connected to a mounting shaft 43 by a screw, and the mounting shaft 43 is mounted together with the drive wheel 41. The clamp 31 includes an operation portion 311, a pair of bent portions 312 connected to one end of the operation portion 311, a bearing portion 313 mounted between the pair of bent portions 312, a slide bar 315 slidable in the bearing portion 313, and a mounting portion 316 connected to one end of the slide bar 315. The installation department has the internal thread, and the slide bar has the external screw thread, the installation department through screw-thread fit connect in slide bar 315. The bearing part is a hollow structure, and the sliding rod 315 slides in the hollow structure. The carrying portion 313 has a main body 3131, an extending portion 3132 extending forward from the main body 3131, and a step portion 3133 located between the main body and the extending portion. The body portion has a pair of oppositely disposed slots 3134 through its inner and outer surfaces. The adjusting assembly 3 further has a pair of connecting rods 314, one end of each connecting rod 314 is connected to the bending portion 312, and the other end is connected to the sliding rod 315. A pin passes through the slot 3134 to connect the link 314 with the sliding bar 315. The extending directions of the bending portion 312 and the operating portion 311 are not parallel. The bending portion 312 has a first connecting portion 3121 and a second connecting portion 3122, the bearing portion 313 is installed between the pair of bending portions 312, and the pin passes through the first connecting portion 3121 and the bearing portion 313, so that the operating portion 311 can rotate relative to the bearing portion 313. The second connecting portion 3122 of the bent portion 312 is connected to the link 314, and when the operating portion 311 is rotated upward, the operating portion rotates about a pin connecting the first connecting portion 3121 and the receiving portion 313 as a rotation axis, the link 314 rotates downward, the sliding rod 315 slides into the receiving portion 313, and the driving wheel 41 moves in a direction away from the base; when the operation portion 311 is rotated downward, the operation portion rotates about a pin connecting the first connecting portion 3121 and the receiving portion 313 as a rotation axis, the link 314 rotates upward, the slide rod 315 slides outward of the receiving portion 313, the driving wheel moves in a direction approaching the base, and the distance of the driving wheel 41 from the base 6 is adjusted by rotating the operation portion. The extension 3132 is connected to a hexagonal nut 317 having an internal thread, and the extension 3132 has an external thread.

The adjustment platform 2 includes a plate portion 21, a pair of lugs 22 connected to both ends of the plate portion 21, a mounting hole 24 penetrating the lugs, and a pair of moving grooves 23 penetrating the plate portion. The extension 3132 of the supporting portion 313 passes through the mounting hole 24, one side of the lug abuts against the step 3133, and then the hexagonal nut 317 is in threaded engagement with the extension 3132, so that the other side of the lug abuts against the hexagonal nut 317, and the clamp is mounted on the adjustment platform 2. The opening 13 and the moving groove 23 are both rectangular, the outermost periphery of the moving groove 23 is outside the opening 13, the opening area of the opening 13 is smaller than that of the moving groove 23, so that the sliding block 32 can slide on the upper side of the supporting platform through the moving groove 23, and the mounting shaft 43 passes through the opening on the supporting platform 1 and is mounted with the driving wheel 41.

The slider 32 is L-shaped and has an attachment shaft coupling portion 321 and an adjustment coupling portion 322 extending upward from the attachment shaft coupling portion 321. The mounting shaft coupling portion 321 is coupled to the mounting shaft 43 by a screw. The slide 32 slides on the support platform 1 through the moving slot 23 on the adjustment platform. The adjustment connection portion 322 has a connection hole 3221, the mounting portion 316 has an external thread, and the sliding rod 315 has an internal thread. The mounting portion 316 includes a mounting main body portion 3161 and a stopper portion 3162 located at a free end of the mounting main body portion 3161, the mounting main body portion 3161 passes through the connecting hole 3221 of the slider, the mounting portion 316 is in threaded fit with the sliding rod 315, and the adjusting connecting portion 322 of the slider 32 is mounted between the stopper portion 3162 and an end surface of the sliding rod 315.

The self-propelled electric cutter further has a handle 8 attached thereto, and the handle 8 includes a first handle 81 attached to the extended portion 72 and a second handle 82 attached to the flat plate portion 21 of the adjustable platform 2.

The guide block 42 is mounted by screws under the support platform 1, the guide block 42 and the base 55 of the electric shears 5 slide in the slide groove 44 and orient so that the support platform 1 can move relative to the base 6. The electric scissors 5 and the adjusting platform are arranged above the supporting platform 1, the pair of driving wheels 41 are arranged below the supporting platform and on two sides of the base 6, the distance between the pair of driving wheels 41 and the base 6 is adjusted by rotating the operating part 311 of the clamp 31, so that the clamping force of the driving wheels relative to the base is adjusted, after the adjustment is completed, other structures are quickly arranged on the supporting platform, then the clamp is locked, so that the two driving wheels clamp the base to obtain corresponding friction force, and the driving wheels can move relative to the base. When the self-walking electric cutting machine works, the glass fiber cloth is located between the base and the supporting platform 1 and moves forward through the driving of the pair of driving wheels, the base 55 and the guide block 42 guarantee the moving direction of the supporting platform 1, the blade penetrates through the base 55 and extends into the sliding groove 44, the electric scissors cut the glass fiber cloth on the base, and the glass fiber cloth is guaranteed to be naturally separated to two sides under the stirring of the triangular main body part of the supporting platform, so that the automatic cutting of the glass fiber cloth is realized, and the glass fiber cloth at the top end of the web plate is cut off from head to tail at one time. For safety, the electric scissors and the driving wheel are controlled separately, the electric scissors are firstly started, and then the driving wheel is started, so that the situation that an operator is accidentally injured when the driving wheel is started is prevented. After cutting, the supporting platform, the electric scissors and the like can be removed from the base through the handle. The structure of the present invention may be used to cut other cut materials, and is not limited to the glass cloth of the present invention. According to the roughness difference of base, decided the drive wheel at the different clamp force of base both sides, adjustable drive wheel adjusts the frictional force of drive wheel walking on the base for the distance of base, guarantees cutting effect like this, and when changing the base, the clamp force of adjusting the drive wheel is more convenient, guarantees cutting effect like this.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A self-walking electric cutting machine comprises a supporting platform (1), electric scissors (5) arranged above the supporting platform, a pair of driving wheels (4) arranged below the supporting platform and a base arranged between the pair of driving wheels (4), wherein the electric scissors comprise a machine body (51), a motor arranged in the machine body, a blade (53) driven by the motor to rotate and a shield (52) arranged above the blade (53), the self-walking electric cutting machine is characterized in that the rotation axis of the driving wheel is vertical to the rotation axis of the blade, the supporting platform (1) can move relative to the base, the top end of the base is provided with a sliding groove (44), the driving wheels are clamped and arranged at two sides of the base, the self-walking electric cutting machine is also provided with a front guiding device and a rear guiding device which are connected below the supporting platform, and the front guiding device and the rear guiding device can slide in, the blades (53) extend into the sliding grooves (44), a pair of driving wheels drive the supporting platform (1) to move forwards on two sides of the base, the supporting platform is driven to move directionally by the front guiding device and the rear guiding device, and the driving wheels are motor hub integrated outer rotor driving wheels.

2. The self-propelled electric cutter according to claim 1, wherein the electric shears includes a base (55) mounted below the blade (53), the base (55) having an opening (56), the blade (53) extending through the opening of the base (55) into the chute (44).

3. Self-propelled electric cutting machine according to claim 2, characterized in that said base (55) is a front guide.

4. The self-propelled electric cutting machine according to claim 2, wherein the electric shears further have a connecting base (54) mounted at a front end of the machine body, the electric shears (5) are mounted on the supporting platform through a supporting block (7), the supporting block (7) includes a pair of arm portions (71) and a connecting portion (73) connecting the pair of arm portions (71), the pair of arm portions (71) and the connecting portion (73) form a receiving space having an opening, one side of the receiving space has a pair of engaging portions (74), the engaging portions (74) are formed by extending inward from the arm portions, the electric shears are mounted on the supporting block from the opening from top to bottom, the connecting base (54) of the electric shears is mounted in the receiving space and engages with the engaging portions (74), and the engaging portions (74) are connected with the connecting base (54) of the electric shears to fix the electric shears to the supporting block (7), the supporting block (7) is fixedly connected with the supporting platform (1).

5. Self-propelled electric cutting machine according to claim 2, characterized in that said support platform comprises a pair of guide portions (11) arranged in parallel and a body portion (12) having a triangular shape, said guide portions being mounted on both sides of the base (6) and said electric shears being mounted on the body portion, the bases of the blades of said electric shears being located between the guide portions.

6. The self-propelled electric cutter of claim 4 wherein the free ends of the support blocks extend outwardly to form a pair of extensions (72) having a front handle attached thereto and a rear handle attached to the rear side of the support platform, the front and rear handles interacting to remove the support platform and the pair of electric shears from the base.

7. The self-propelled electric cutter according to claim 2, wherein the body of the electric shears is disposed with its axis parallel to the chute.

8. The self-propelled electric cutter according to claim 2, wherein the plane of the saw blade and the chute are parallel to each other.

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