CN119549783A - A slot milling machine for processing hairdressing scissors blades - Google Patents

Abstract

The invention discloses a slot milling machine for processing a hair clipper blade, which comprises a milling mechanism and a clipper blade main body, wherein the milling mechanism comprises a processing table serving as a substrate, a driving mechanism is arranged on the outer side wall of the processing table, a supporting mechanism which is convenient for the clipper blade main body to move is arranged above the driving mechanism, the clipper blade main body limited by an adsorption mechanism is driven to move in an arc shape through the driving mechanism, the clipper blade main body moves to a smoothing mechanism through the supporting mechanism, and then the transmission mechanism is utilized to drive the smoothing mechanism to work, wherein a first sliding plate and a second sliding plate relatively move, so that the upper end face of the clipper blade main body can be rubbed, the defect and the protruding point of the upper end face are removed, the smoothness of the surface of the clipper blade main body is improved, the condition that workers are cut in the palm of a subsequent processing process is effectively reduced, and the time required for subsequent polishing is reduced.

Description

A slot milling machine for processing hair clipper blade

Technical Field

The invention relates to the technical field of slot milling machines, in particular to a slot milling machine for processing a hair clipper blade.

Background

The design and manufacturing technology of the hair clipper blade, which is one of indispensable professional tools in the hair styling industry, has been developed and innovated for many years, and a highly specialized and refined system has been gradually formed, so that in order to improve the shearing effect of the hair clipper blade, the cutting slot is generally formed on the blade, so that the cutting blade can be smoother in shearing, the clamping and friction are reduced, and especially for the hair styling work requiring frequent fine trimming, the cutting slot can remarkably improve the trimming efficiency and comfort.

In the existing haircut scissor blade processing technology, basic processing and forming of a scissor blade main body are realized, but when the scissor blade is used for milling grooves, certain burrs and protruding points exist on the milling groove surface due to processing reasons, the milling groove surface is not smooth enough, and when workers collect the haircut scissor blade, potential safety hazards are easily caused to the palm of the workers, and if the milling groove surface of the scissor blade is independently polished, time and labor are wasted, and the dimension precision and the shape precision of the scissor blade are easily influenced due to excessive polishing.

To this end, we propose a slot milling machine for machining a hair clipper blade.

Disclosure of Invention

The invention aims to provide a slot milling machine for processing a hair clipper blade, so as to solve the problems in the background art.

In order to achieve the purpose, the slot milling machine for processing the hair clipper blade comprises a milling mechanism and a clipper blade body, wherein the milling mechanism comprises a processing table serving as a substrate, a driving mechanism is arranged on the outer side wall of the processing table, a supporting mechanism which is convenient for the clipper blade body to move is arranged above the driving mechanism, a smoothing mechanism which is used for smoothing the upper end face of the clipper blade body is arranged on the outer side wall of the processing table, a transmission mechanism which is used for driving the local structure of the smoothing mechanism to work is arranged on the outer side wall of the smoothing mechanism, and an adsorption mechanism which is used for adsorbing the clipper blade body is arranged at the end part of the supporting mechanism.

As the preference of above-mentioned technical scheme, the up end fixedly connected with mount of processing platform, the up end tip fixedly connected with second motor of mount, the output fixedly connected with screw thread lead screw of second motor, the up end of mount is located the top sliding connection of screw thread lead screw has the slip table, the inner bottom fixedly connected with support frame of slip table, the screw thread frame that lower bottom middle part fixedly connected with and screw thread lead screw thread cup jointed of slip table, the up end fixedly connected with of support frame goes up the supporting frame, go up the first electric putter of one side fixedly connected with of supporting frame and keep away from the processing platform, be located the middle part the last top fixedly connected with second electric putter of first electric putter, the up end fixedly connected with spacing of going up the supporting frame, the up end of spacing corresponds the position department fixedly connected with of first electric putter and is used for depositing the frame that gathers materials of shearing blade main part, the lower extreme fixedly connected with movable block that makes things convenient for the shearing blade main part to drop, the flexible fixedly connected with movable block of first electric putter, the inside of movable block sliding connection has the first electric putter, the upper end fixedly connected with second electric putter is located the inside the fixed connection of the push pedal of a plurality of the upper end of the first electric putter.

As the preference of above-mentioned technical scheme, the inside wall fixedly connected with first motor of processing platform, the output of first motor is through pivot fixedly connected with milling disc sword, the interior top of processing platform is located the outer wall department fixedly connected with protection frame of milling disc sword, the interior top of processing platform is located the tip department fixedly connected with limiting plate of milling disc sword, just the tip and the limiting plate rotation of milling disc sword cup joint, the lateral wall of processing platform is provided with the conveyer that drives the shearing blade main part and remove.

As the preference of above-mentioned technical scheme, supporting mechanism includes the unloading frame that fixed connection is located the conveyer top at the processing platform lateral wall, the lateral wall fixedly connected with extension board of unloading frame, the tip of extension board has cup jointed limit sleeve through the bearing rotation, limit sleeve's inside slip has cup jointed the fixed axle, adsorption equipment sets up the tip department at the fixed axle.

As the preference of above-mentioned technical scheme, adsorption equipment includes the triangle of fixed axle tip of fixed connection, the lower bottom symmetry fixedly connected with limiting shaft of triangle, two the tip fixedly connected with V template of limiting shaft, the both ends of V template all are provided with the pneumatic chuck that adsorbs spacing to the scissors blade main part, just pneumatic chuck's adsorption end runs through the V template, the lower bottom tip fixedly connected with roof of triangle, the lower bottom slip of roof has cup jointed and has carried out extruded butt plate to the scissors blade main part, butt plate's last top center department fixedly connected with stop spring.

As the preference of above-mentioned technical scheme, actuating mechanism includes the lifting frame of fixed connection at processing platform lateral wall, the up end fixedly connected with third motor of lifting frame, two equal fixedly connected with actuating levers of output of third motor, one of them the tip fixedly connected with flange of actuating lever, the tip of flange rotates and cup joints first rocking arm, the lateral wall of processing platform is located the oblique top fixedly connected with fixed bolster of third motor, the tip of fixed bolster rotates and cup joints the second rocking arm, the tip of first rocking arm is connected with the lateral wall center department rotation of second rocking arm, the other end that the fixed bolster was kept away from to the second rocking arm rotates and cup joints the up end at the set square.

As the preference of above-mentioned technical scheme, smooth mechanism includes the inner frame of fixed connection at processing platform lateral wall, the interior bottom symmetry fixedly connected with leading truck of inner frame, two the last top slip of leading truck has cup jointed the deflector, the last top symmetry slip of deflector has cup jointed a plurality of guide bar, a plurality of the last top fixedly connected with first slide of guide bar, the lateral wall fixedly connected with pushing down the frame of first slide, the lateral wall rotation that the pushing down the frame kept away from first slide cup joints spacing wheel, the inside wall symmetry of inner frame has offered the spacing groove that cup joints with spacing wheel slip, the lateral wall fixedly connected with of deflector runs through the first stopper of inner frame inside wall, the last top slip of inner frame has cup jointed the second slide, the lateral wall fixedly connected with second stopper of inner frame, the interior top of inner frame is located the interval department of two leading trucks and has been placed the collection frame of collecting scissors piece main part.

As the preference of above-mentioned technical scheme, the lateral wall symmetry fixedly connected with second bearing frame of inside casing, two the inside fixedly connected with optical axis of second bearing frame, the lateral wall fixedly connected with centre gripping arm of second slide, the centre gripping arm slides and cup joints the lateral wall at the optical axis, the last top symmetry fixedly connected with pivot frame of second slide, two the inside rotation of pivot frame cup joints the flitch that is used for pushing shear blade main part, the flitch is kept away from the same fixedly connected with pivot frame of one side center department of second slide, the last top fixedly connected with third electric putter of second slide, the telescopic end fixedly connected with of third electric putter rotates the cover frame of cup joint in the inside pivot frame of flitch lateral wall, the up end of first slide and the equal fixedly connected with of lower terminal surface of second slide with shear blade main part surface friction squeeze plate.

As the preference of above-mentioned technical scheme, drive mechanism includes symmetrical fixed connection's first bearing frame of inner frame lateral wall, two the inside of first bearing frame has cup jointed reciprocating lead screw through the bearing rotation, reciprocating lead screw's lateral wall screw thread cup joints the reciprocal cover with inner frame sliding connection, the lateral wall of inner frame is located reciprocating lead screw's top and has cup jointed four sprocket through the bearing symmetry rotation, four the outer wall of sprocket has cup jointed the chain, the upper end of reciprocal cover and the tip of first stopper, second stopper all with chain fixed connection, the lateral wall of inner frame is located the tip department fixedly connected with gear frame of first bearing frame, the inside wall of gear frame is close to one side rotation cup jointed the second gear of reciprocating lead screw, the inside wall of gear frame rotates cup jointed the first gear with second gear engagement transmission, the lateral wall of gear frame and the coaxial fixedly connected with synchronizing wheel of first gear, another the end fixedly connected with synchronizing wheel that the driving lever kept away from the flange, two the outer wall of synchronizing wheel cup joints the hold-in gear for transmission.

As the preference of above-mentioned technical scheme, the lateral wall and the coaxial fixedly connected with first fluted disc of second gear of gear frame, just first fluted disc rotates with the reciprocating screw and cup joints, the spline groove has been seted up to the outer wall of reciprocating screw, the reciprocating screw is located the position department sliding sleeve who spline groove has with first fluted disc meshing driven second fluted disc, the lateral wall of inner frame is located the top fixedly connected with fourth electric putter of reciprocating screw, fourth electric putter's telescopic end fixedly connected with rotates the spacing sleeve board of cup jointing at second fluted disc outer wall.

Compared with the prior art, the invention has the beneficial effects that:

According to the invention, the adsorption mechanism is driven to perform arc-shaped movement by the driving mechanism, the adsorption mechanism can perform a certain adsorption function on the scissor blade main body, so that the scissor blade main body is limited, then the adsorption mechanism performs arc-shaped movement and moves to the smoothing mechanism through the supporting mechanism, and then the smoothing mechanism is driven to operate by the driving mechanism, wherein the first sliding plate and the second sliding plate relatively move, so that the upper end face of the scissor blade main body can be rubbed, the upper surface of the scissor blade main body is smoother, flaws and protruding points of the upper end face are removed, the smoothness of the scissor blade main body surface is improved, the condition that the palm of a worker can be cut in the subsequent processing process is effectively reduced, and the time required for subsequent polishing is shortened.

Drawings

FIG. 1 is a schematic view of the overall structure of a slot milling machine for machining a clipper blade;

FIG. 2 is a schematic overall side view of a slot milling machine for machining a clipper blade;

FIG. 3 is a schematic view of a milling mechanism according to the present invention;

FIG. 4 is a schematic view of a partial milling mechanism of the present invention in a disassembled configuration;

FIG. 5 is a schematic diagram showing the split structure of the fixing frame and the sliding table;

FIG. 6 is a schematic view of the blanking structure of the scissor blade of the invention;

FIG. 7 is a schematic diagram of the driving mechanism and smoothing mechanism according to the present invention;

FIG. 8 is a schematic diagram of a driving mechanism according to the present invention;

FIG. 9 is a schematic diagram of the adsorption mechanism of the present invention;

FIG. 10 is a schematic view of the inner frame structure of the present invention;

FIG. 11 is a schematic view of the back structure of the inner frame of the present invention;

FIG. 12 is a schematic view of a first slide plate and inner frame split structure according to the present invention;

FIG. 13 is a schematic view of a second skateboard structure according to the present invention;

Fig. 14 is a schematic view showing the split structure of the inner frame of the present invention.

In the figure, 1, a milling mechanism; 11, a processing table; 111, a first motor; 112, milling disc knife 113, protective frame 114, limit plate, 12, fixing frame 13, second motor 131, screw rod 14, sliding table 141, screw frame 15, supporting frame 151, first electric push rod 152, second electric push rod 153, aggregate frame 154, moving block 155, limit frame 156, lower trough 157, push block 158, push plate 16, conveyor 17, upper supporting frame 2, scissor blade main body 3, driving mechanism 31, third motor 32, driving rod 33, convex plate 331, first rocker arm 332, second rocker arm 333, fixing bracket 34, synchronous wheel 35, lifting frame 36, synchronous belt 4, supporting mechanism 41, blanking frame 42, extension plate 43, limit sleeve 44, fixing shaft 5, smoothing mechanism 51, inner frame 52, limit groove 53, first sliding plate 531, guide frame 532, guide rod 533, guide plate 534, lower frame 535, pressure roller 535, second rocker arm 332, second rocker arm 333, fixed bracket 34, synchronous wheel 35, lifting frame 36, synchronous belt 4, supporting mechanism 41, blanking frame 42, extension plate 43, limit sleeve 44, fixed shaft 5, smooth mechanism 51, inner frame 52, limit groove 53, first sliding plate 531, guide frame 532, guide rod 533, guide plate 534, lower frame 535, pressure frame 535, limit plate 35, second rocker arm 62, second rocker arm 46, second rocker arm 67, fourth connecting arm, hanging arm 67, hanging arm, hanging bracket, hanging lifting arm, hanging leg, hanging lifting arm, hanging lifting, hanging lifting, lifting, lifting, and 77, a limit spring.

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.

Referring to fig. 1-4, the invention provides a slot milling machine for processing a hair clipper blade, which comprises a milling mechanism 1 and a clipper blade main body 2, wherein the milling mechanism 1 comprises a processing table 11 serving as a substrate, a driving mechanism 3 is arranged on the outer side wall of the processing table 11, a supporting mechanism 4 which is convenient for the clipper blade main body 2 to move is arranged above the driving mechanism 3, a smoothing mechanism 5 which is used for smoothing the upper end surface of the clipper blade main body 2 is arranged on the outer side wall of the processing table 11 and is positioned on one side of the driving mechanism 3, a transmission mechanism 6 which drives the smoothing mechanism 5 to work in a local structure is arranged on the outer side wall of the smoothing mechanism 5, and an adsorption mechanism 7 which is used for adsorbing the clipper blade main body 2 is arranged at the end part of the supporting mechanism 4.

By adopting the technical scheme, the outer side wall of the processing table 11 is close to one side of the driving mechanism 3, the smoothing mechanism 5 is carefully configured, after milling is finished, the upper end face of the scissor blade main body 2 is subjected to fine smoothing treatment so as to eliminate possible burrs or uneven phenomena, so that the final product is smoother, the quality requirement of high standards is met, the time required by subsequent polishing is reduced, the transmission mechanism 6 can drive the local structure of the smoothing mechanism 5 to work as required, the energy is saved, the processing efficiency is improved, in addition, the end part of the supporting mechanism 4 is skillfully provided with the adsorption mechanism 7, and the scissor blade main body 2 can be firmly adsorbed, so that the scissor blade main body 2 can be moved.

Referring to fig. 1-6, the upper end surface of the processing table 11 is fixedly connected with a fixing frame 12, the upper end of the fixing frame 12 is fixedly connected with a second motor 13, the output end of the second motor 13 is fixedly connected with a threaded screw rod 131, the upper end of the fixing frame 12 is located above the threaded screw rod 131 and is slidably connected with a sliding table 14, the inner bottom end of the sliding table 14 is fixedly connected with a supporting frame 15, the middle part of the lower bottom end of the sliding table 14 is fixedly connected with a threaded frame 141 which is in threaded sleeve connection with the threaded screw rod 131, the upper end surface of the supporting frame 15 is fixedly connected with an upper supporting frame 17, one side of the upper supporting frame 17 far away from the processing table 11 is fixedly connected with a plurality of first electric push rods 151, the upper end of the upper supporting frame 151 is fixedly connected with a second electric push rod 152, the upper end surface of the upper supporting frame 17 is fixedly connected with a limiting frame 155, the upper end surface of the limiting frame 155 is fixedly connected with a plurality of aggregate frames 153 for storing the scissor body 2, the upper end surface of the limiting frame 155 is provided with a lower 156 which is convenient for the scissor body 2 to drop, the telescopic ends of the first electric push rods 151 are fixedly connected with moving blocks 154, the upper end of the moving blocks 154 are fixedly connected with the upper end of the upper supporting frame 17 and the second push rods 152 are fixedly connected with the telescopic push rods 158.

By adopting the technical scheme, the fixed frame 12 fixedly connected with the upper end surface of the processing table 11 and the accessory mechanism thereof provide strong support for efficient and orderly processing of the scissor blade main body 2, the combination of the second motor 13 and the threaded screw rod 131 realizes stable translation of the sliding table 14 on the fixed frame 12 through accurate motor driving, not only simplifies the complexity of the traditional mechanical adjustment process, but also greatly improves the flexibility and accuracy in the processing process, simultaneously, the supporting frame 15 fixed on the sliding table 14 and the upper supporting frame 17 at the upper end thereof provide a stable platform for temporary storage and transmission of the scissor blade main body 2, shaking and dislocation in the processing process are effectively prevented, the first electric push rod 151 realizes accurate selection and movement of the scissor blade main body 2 in the collecting frame 153 through the sliding block 154, and the design of the lower trough 156 skillfully solves the transition problem of the scissor blade main body 2 from the collecting frame 153 to a processing area, thereby avoiding the complicated manual operation, reducing the risk of material damage, and further realizing accurate positioning and moving of the scissor blade main body 2 in the pushing plate 158 through the pushing block 157 and the pushing plate 155.

Referring to fig. 1-4, a first motor 111 is fixedly connected to an inner side wall of a processing table 11, a milling cutter 112 is fixedly connected to an output end of the first motor 111 through a rotating shaft, a protection frame 113 is fixedly connected to an outer wall of the milling cutter 112 at an inner top end of the processing table 11, a limiting plate 114 is fixedly connected to an end of the milling cutter 112 at an inner top end of the processing table 11, the end of the milling cutter 112 is rotatably sleeved with the limiting plate 114, and a conveyor 16 for driving a scissor body 2 to move is arranged on an outer side wall of the processing table 11.

By adopting the technical scheme, the first motor 111 drives the milling cutter 112 to rotate at a high speed through the strong output torque thereof, so that efficient and accurate milling of the scissor blade main body 2 is realized, the protection frame 113 fixed at the top end in the processing table 11 provides necessary safety protection for the milling process, not only can the scraps generated in the milling process be effectively prevented from splashing, the safety of operators is protected, but also the influence of noise and vibration on the surrounding environment is reduced, the quality of the whole working environment is improved, the limiting plate 114 is arranged, the axial positioning of the milling cutter 112 in the high-speed rotating process is ensured, and the axial movement caused by vibration or abrasion is prevented.

Referring to fig. 1-7, the supporting mechanism 4 includes a blanking frame 41 fixedly connected to the outer side wall of the processing table 11 above the conveyor 16, an extension plate 42 fixedly connected to the outer side wall of the blanking frame 41, a limit sleeve 43 rotatably sleeved on the end of the extension plate 42 through a bearing, a fixed shaft 44 slidably sleeved inside the limit sleeve 43, and the adsorption mechanism 7 is disposed at the end of the fixed shaft 44.

By adopting the technical scheme, the ingenious structure of the supporting mechanism 4 provides important guarantee for the accurate positioning and stable conveying of the scissor blade main body 2, and particularly, the blanking frame 41 fixedly connected to the outer side wall of the processing table 11 and positioned above the conveyor 16 is used as a transition platform from the conveyor 16 to a processing area of the scissor blade main body 2, stability and accuracy of the scissor blade main body 2 in the conveying process are ensured through reasonable position and size design, the extending plate 42 fixedly connected to the outer side wall of the blanking frame 41 and the limit sleeve 43 sleeved at the end part of the extending plate 42 are rotated through a bearing, so that a flexible adjusting mechanism is formed, and the fixed shaft 44 is allowed to slide and rotate in a certain range in the limit sleeve 43, thereby realizing the adjustment of the adsorption mechanism 7 in a three-dimensional space.

Referring to fig. 7-9, the adsorption mechanism 7 includes a triangle 71 fixedly connected to the end of the fixed shaft 44, the lower bottom ends of the triangle 71 are symmetrically and fixedly connected with limiting shafts 72, the end parts of the two limiting shafts 72 are fixedly connected with a V-shaped plate 73, two ends of the V-shaped plate 73 are respectively provided with a pneumatic sucker 74 for adsorbing and limiting the scissor blade main body 2, the adsorption end of the pneumatic sucker 74 penetrates through the V-shaped plate 73, the lower bottom end of the triangle 71 is fixedly connected with a top plate 75, the lower bottom end of the top plate 75 is slidably sleeved with a retaining plate 76 for extruding the scissor blade main body 2, and the center of the upper top end of the retaining plate 76 is fixedly connected with a limiting spring 77.

By adopting the technical scheme, the stability and accuracy of the scissor body 2 in the processing process are further enhanced by the structure of the adsorption mechanism 7, particularly, the triangular plate 71 fixedly connected to the end part of the fixed shaft 44 has a stable triangular structure, so that not only a strong supporting force is provided, but also the stability of the whole adsorption mechanism 7 is ensured, the design of the V-shaped plate 73 is not only suitable for the shape characteristics of the scissor body 2, but also the accurate adsorption and limitation of the scissor body 2 are realized by the pneumatic sucking discs 74 at the two ends of the V-shaped plate 73, the adsorption end of the pneumatic sucking disc 74 penetrates through the V-shaped plate 73, the scissor body 2 can be firmly adsorbed, the displacement or the falling off of the scissor body 2 in the processing process is prevented, the processing accuracy and stability are ensured, and the retaining plate 76 is connected with the top plate 75 through the limiting spring 77 at the upper top end of the retaining plate 77, and can be adaptively adjusted according to the thickness and the shape of the scissor body 2, so that the scissor body 2 is uniformly extruded and fixed.

Referring to fig. 7 and 8, the driving mechanism 3 includes a lifting frame 35 fixedly connected to an outer side wall of the processing table 11, a third motor 31 is fixedly connected to an upper end surface of the lifting frame 35, two output ends of the third motor 31 are fixedly connected to driving rods 32, an end portion of one driving rod 32 is fixedly connected to a convex plate 33, an end portion of the convex plate 33 is rotatably sleeved with a first rocker arm 331, an outer side wall of the processing table 11 is located above an inclined upper side of the third motor 31 and is fixedly connected to a fixed support 333, an end portion of the fixed support 333 is rotatably sleeved with a second rocker arm 332, an end portion of the first rocker arm 331 is rotatably connected to a center of an outer side wall of the second rocker arm 332, and the other end of the second rocker arm 332 away from the fixed support 333 is rotatably sleeved on an upper end surface of the triangle 71.

By adopting the technical scheme, the lifting frame 35 fixedly connected to the outer side wall of the processing table 11 not only provides a stable mounting platform for the third motor 31, but also ensures that the driving rod 32 and the connected transmission mechanism 6 thereof can work smoothly and efficiently through reasonable position and height design, the other end of the first rocker arm 331 is connected with the second rocker arm 332 which is rotationally sleeved at the end part of the fixed bracket 333, a lever type transmission system is formed, the rotating power of the third motor 31 can be converted into the swinging power of the first rocker arm 331 and the second rocker arm 332, thereby realizing accurate driving of the set square 71 and the upper adsorption mechanism 7 thereof, the other end of the second rocker arm 332 far away from the fixed bracket 333 is rotationally sleeved on the upper end surface of the set square 71, ensuring stable movement of the adsorption mechanism 7 in the processing process, and realizing the accuracy of the processing position of the scissor piece main body 2 through adjusting the length and the angle of the second rocker arm 332.

Referring to fig. 7-12, the smoothing mechanism 5 includes an inner frame 51 fixedly connected to an outer side wall of the processing table 11, guide frames 531 are symmetrically and fixedly connected to inner bottom ends of the inner frame 51, guide plates 533 are slidably sleeved on upper top ends of the two guide frames 531, a plurality of guide rods 532 are symmetrically and fixedly sleeved on upper top ends of the guide plates 533, a first sliding plate 53 is fixedly connected to an outer side wall of the first sliding plate 53, a pressing frame 534 is fixedly connected to an outer side wall of the first sliding plate 53, a limit wheel 535 is rotatably sleeved on an end portion of the pressing frame 534, which is far away from the first sliding plate 53, limit grooves 52 which are slidably sleeved with the limit wheel 535 are symmetrically formed in an inner side wall of the inner frame 51, a first limiter 536 penetrating through the inner side wall of the inner frame 51 is fixedly connected to the outer side wall of the guide plates 533, a second sliding plate 54 is slidably sleeved on an upper top end of the inner frame 51, a second limiter 541 is fixedly connected to an outer side wall of the inner frame 51, and a collecting frame 56 for collecting the scissor body 2 is placed at a position where the inner top end of the inner frame 51 is located between the two guide frames 531.

By adopting the technical scheme, the addition of the smoothing mechanism 5 adds extra stability and smoothness to the processing process of the scissor blade main body 2, further improves the processing quality and efficiency, the inner frame 51 fixedly connected to the outer side wall of the processing table 11 is used as a main body structure of the smoothing mechanism 5, a stable supporting platform is provided for other components, a guide system consisting of the guide frame 531 at the inner bottom end of the inner frame 51, the guide plate 533 at the upper top end of the inner frame and the guide rod 532 is provided, the stability and the safety of the processing process are ensured, the first sliding plate 53 and the lower pressing frame 534 on the first sliding plate 53 can be stably and accurately moved, the limit wheel 535 at one side of the lower pressing frame 534 is in sliding sleeve joint with the limit groove 52 on the inner side wall of the inner frame 51, the moving track of the first sliding plate 53 is limited, the friction resistance is reduced through rolling contact of the limit wheel, the first limiter 536 of the outer side wall of the guide plate 533 and the second limiter 541 of the outer side wall of the inner frame 51 are formed together, the stability and the safety of the processing process are ensured, the second sliding sleeve joint design of the second sliding plate 54 is further improved, the full-flexible and the full-direction processing of the scissor blade main body 2 can be realized, and the full-direction processing of the processing is realized according to the requirements of the processing requirements.

Referring to fig. 10-14, the outer side walls of the inner frame 51 are symmetrically and fixedly connected with second bearing frames 542, the inner sides of the two second bearing frames 542 are fixedly connected with an optical axis 543, the outer side walls of the second sliding plate 54 are fixedly connected with clamping arms 544, the clamping arms 544 are slidably sleeved on the outer side walls of the optical axis 543, the upper top ends of the second sliding plate 54 are symmetrically and fixedly connected with rotating shaft frames 545, the inner sides of the two rotating shaft frames 545 are rotatably sleeved with blanking plates 547 for pushing the scissor body 2, the center of one side of the blanking plates 547 away from the second sliding plate 54 is fixedly connected with rotating shaft frames 545, the upper top ends of the second sliding plate 54 are fixedly connected with third electric push rods 546, the telescopic ends of the third electric push rods 546 are fixedly connected with sleeve frames 548 rotatably sleeved inside the rotating shaft frames 545 of the outer side walls of the blanking plates 547, and the upper end faces of the first sliding plate 53 and the lower end faces of the second sliding plate 54 are fixedly connected with squeezing plates 55 which rub against the surfaces of the scissor body 2.

By adopting the technical scheme, the sliding sleeve connection design of the optical axis 543 and the clamping arm 544 ensures that the second sliding plate 54 and components on the second sliding plate can stably and accurately move along the optical axis 543, the resistance in the moving process is reduced through the low friction characteristic of the second sliding plate 54, the processing efficiency is improved, the structural stability of the second sliding plate 54 is enhanced by the design of the clamping arm 544, the accurate control of the moving track of the second sliding plate 54 is realized through the sliding sleeve connection mode of the clamping arm 544 on the optical axis 543, the blanking plate 547 is sleeved with the second sliding plate 54 and the sleeve frame 548 through the rotation of the rotating shaft frame 545, a flexible pushing mechanism is formed, the telescopic end of the third electric push rod is connected with the blanking plate 547 through the sleeve frame 548, the accurate angle and the position adjustment can be carried out on the blanking plate 547 according to the processing requirement, the extrusion plates 55 are fixedly connected with the upper end face and the lower end face of the first sliding plate 53 and the second sliding plate 54, the stability and the accuracy in the processing process are ensured, the polishing quality of the polishing shear blade main body 2 is slightly improved through the friction force of the extruding plate 55, and further processing quality is further cleaned.

Referring to fig. 7-10, the transmission mechanism 6 includes a first bearing frame 61 symmetrically and fixedly connected to the outer side wall of the inner frame 51, a reciprocating screw rod 62 is rotatably sleeved in the inner side of the two first bearing frames 61 through bearings, a reciprocating sleeve 63 slidably connected to the inner frame 51 is rotatably sleeved on the outer side wall of the reciprocating screw rod 62 through bearings, four chain wheels 64 are rotatably sleeved on the outer side wall of the inner frame 51 above the reciprocating screw rod 62 through bearings symmetrically, chains 65 are fixedly connected to the outer side walls of the four chain wheels 64, the upper end portions of the reciprocating sleeve 63 and the end portions of the first limiter 536 and the second limiter 541 are fixedly connected to the chains 65, a gear frame 66 is fixedly connected to the outer side wall of the inner frame 51 at the end portion of the first bearing frame 61, a second gear 662 is rotatably sleeved on one side of the inner side wall of the gear frame 66, a first gear 661 meshed with the second gear 662 is rotatably sleeved on the inner side wall of the gear frame 66, a synchronizing wheel 34 is fixedly connected to the outer side wall of the first gear 661 coaxially, a synchronizing wheel 32 is fixedly connected to the end portion of the other driving rod 32 far from the convex plate 33, and the outer side wall of the synchronizing wheel 34 is fixedly connected to the synchronizing wheel 34 is sleeved on the outer side of the synchronizing wheel 34, and the two synchronizing belts 34 are sleeved on the synchronizing belt 34.

By adopting the technical scheme, the first bearing frame 61 is fixedly connected with the outer side wall of the inner frame 51, a stable installation foundation is provided for the reciprocating screw rods 62, the reciprocating screw rods 62 are rotatably sleeved inside the two first bearing frames 61 through bearings, the threads on the outer side walls of the reciprocating screw rods 62 are sleeved with the threads of the reciprocating sleeve 63, the function of converting rotary motion into reciprocating linear motion is realized, the efficiency and stability of power transmission are improved, the reciprocating sleeve 63 can move stably and accurately along the inner frame 51, the components such as the chain 65, the first limiter 536 and the second limiter 541 connected with the reciprocating sleeve 63 are driven to synchronously move, the four chain wheels 64 are respectively rotatably sleeved on the outer side wall of the inner frame 51 and are connected through the chain 65, a closed transmission chain is formed, the stable transmission of power is realized, the stability and the wear resistance of long-term use are ensured through the high bearing capacity and the wear resistance of the reciprocating screw rods 62, the second gear 662 is connected with the transmission of the reciprocating screw rods 62, and the first gear 661 is fixedly connected with the synchronous wheel 34 coaxially, the rotary power of the driving mechanism 3 can be transmitted to the whole chain 65 in a multistage manner, and the accurate machining process is realized.

Referring to fig. 7-10, a first fluted disc 68 is fixedly connected to an outer side wall of the gear frame 66 and a second gear 662 coaxially, the first fluted disc 68 is rotatably sleeved with the reciprocating screw 62, a spline groove 621 is formed in an outer wall of the reciprocating screw 62, a second fluted disc 69 meshed with the first fluted disc 68 for transmission is slidably sleeved at a position of the spline groove 621 on the reciprocating screw 62, a fourth electric push rod 67 is fixedly connected to an outer side wall of the inner frame 51 above the reciprocating screw 62, and a limiting sleeve plate 671 rotatably sleeved on an outer wall of the second fluted disc 69 is fixedly connected to a telescopic end of the fourth electric push rod 67.

By adopting the technical scheme, the coaxial fixed connection design of the first fluted disc 68 and the second fluted disc 662 ensures synchronous rotation between the first fluted disc 68 and the second fluted disc 662, gear transmission is converted into finer disc tooth transmission through the meshing transmission relation, the second fluted disc 69 can stably slide along the reciprocating screw rod 62 in the spline groove 621, the precise adjustment of the rotating speed of the reciprocating screw rod 62 can be realized through the meshing relation between the tooth number of the second fluted disc 69 and the first fluted disc 68, the flexibility and the controllability of transmission are improved, the precise control requirements under different processing requirements are met through the characteristics of strong adaptability and wide adjustment range, and the fourth electric push rod 67 can drive the limiting sleeve plate 671 and the second fluted disc 69 on the limiting sleeve plate 671 to slide in the spline groove 621 through the precise telescopic movement of the fourth electric push rod, so that the real-time adjustment of the rotating speed of the reciprocating screw rod 62 is realized.

The shear blade body 2 is placed in the interior of the collecting frame 153, when the groove needs to be milled, the telescopic end of the second electric push rod 152 drives the push block 157 and the push plate 158 to perform linear motion, at the moment, the push plate 158 can extrude the shear blade body 2, because only one shear blade body 2 is allowed to be singly discharged between the outlet end of the collecting frame 153 and the upper end face of the limiting frame 155, after the push plate 158 applies acting force to the shear blade body 2, the shear blade body 2 falls onto the moving block 154 below through the blanking groove 156, at the moment, the telescopic end of the first electric push rod 151 drives the moving block 154 to move, the shear blade body 2 can be conveyed to the lower part of the milling disc blade 112, then the first motor 111 is started to drive the milling disc blade 112 to rotate, and the milling disc blade 112 can be contacted with the upper end face of the shear blade body 2, and the contact face of the shear blade body 2 is enabled to be small, therefore, in the motor 158 can apply acting force to the shear blade body 2 through the second motor, the screw rod 131 is driven to move through the output end 13, the screw rod 131 is matched with the screw thread of the screw rod 2, and the screw thread can be matched with the screw thread of the screw rod 2, and the screw thread of the screw rod 2 is completed;

For the finished scissor blade body 2: because the screw rod 131 drives the screw frame 141 to perform linear motion, when the processed scissor body 2 moves to the lower side of the adsorption mechanism 7, the output end of the third motor 31 drives the driving rod 32 and the convex plate 33 to rotate, the end part of the convex plate 33 is rotationally sleeved with the first rocker 331, so that the first rocker 331 and the second rocker 332 can be driven to perform arc irregular motion, and the end part of the second rocker 332 is rotationally sleeved with the adsorption mechanism 7, so that after the adsorption mechanism 7 adsorbs the scissor body 2, the adsorption mechanism 7 rotates ninety degrees under the driving of the second rocker 332 and the rotation guide of the fixed shaft 44 and the limiting sleeve 43, and the adsorbed scissor body 2 is positioned in the blanking frame 41, at the moment, the scissor body 2 is desorbed, the scissor body 2 falls onto the conveyor 16 through the blanking frame 41, and the other end of the conveyor 16 is located above the first sliding plate 53, so that the scissor body 2 moves to the upper end face of the first sliding plate 53, at this time, the rest scissor body 2 is in milling groove processing, so that the scissor body 2 located on the first sliding plate 53 can be processed in advance, at this time, the output end of the third motor 31 drives the driving rod 32 connected with the synchronizing wheel 34 to rotate, and drives the first gear 661 and the second gear 662 to rotate in a meshing manner through the synchronizing belt 36, and the second gear 662 drives the reciprocating screw 62 to rotate through the cooperation of the first gear disk 68 and the second gear disk 69, the reciprocating sleeve 63 cooperates with the reciprocating screw 62 to realize linear motion, and the top end of the reciprocating sleeve 63 is fixedly connected with the chain 65, so that when the reciprocating sleeve 63 performs linear motion, can drive the chain 65 to move and synchronously drive the meshed sprocket 64 to rotate, and at the moment, the first limiter 536 and the second limiter 541 are synchronously driven to move and drive the first sliding plate 53 connected with the first limiter, The second slide plate 54 moves, and the height of the first slide plate 53 will decrease with the movement of the first slide plate 53 due to the cooperation of the limit wheel 535 and the limit groove 52, and the scissor body 2 at the top end of the pressing plate 55 at the upper end of the first slide plate 53 will move, and after the first slide plate 53 and the second slide plate 54 are staggered, the pressing plate 55 at the lower end of the second slide plate 54 will contact with the upper end of the scissor body 2, and with the movement of the first slide plate 53, The staggered movement of the second sliding plate 54 realizes friction, so that the upper surface of the second sliding plate 54 is smoother, flaws and protruding points on the upper end face are removed, smoothness of the surface of the scissor blade body 2 is improved, the reciprocating sleeve 63 moves to the end of the reciprocating screw rod 62, so that the first sliding plate 53 and the second sliding plate 54 are not staggered any more, the telescopic end of the third electric push rod 546 drives the sleeve frame 548 to adjust the position of the blanking plate 547, at the moment, the blanking plate 547 moves in an arc shape and forms ninety degrees with the second sliding plate 54, the blanking plate 547 stops the scissor blade body 2 when the second sliding plate 54 moves, and along with the relative movement between the second sliding plate 54 and the first sliding plate 53, the scissor blade body 2 falls from the first sliding plate 53 under the stop of the blanking plate 547 and enters the inside of the collecting frame 56 to finish collection.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (10)

1. A slot milling machine for machining a hair clipper blade comprises a milling mechanism (1) and a clipper blade main body (2), and is characterized in that the milling mechanism (1) comprises a machining table (11) serving as a substrate, a driving mechanism (3) is arranged on the outer side wall of the machining table (11), a supporting mechanism (4) which is convenient for the clipper blade main body (2) to move is arranged above the driving mechanism (3) on the outer side wall of the machining table (11), a smoothing mechanism (5) for smoothing the upper end face of the clipper blade main body (2) is arranged at one side of the driving mechanism (3), a transmission mechanism (6) for driving the smoothing mechanism (5) to work in a local structure is arranged on the outer side wall of the smoothing mechanism (5), and an adsorption mechanism (7) for adsorbing the clipper blade main body (2) is arranged at the end part of the supporting mechanism (4).

2. The slot milling machine for processing the hair clipper blade according to claim 1, wherein the upper end face of the processing table (11) is fixedly connected with a fixing frame (12), the upper end face end part of the fixing frame (12) is fixedly connected with a second motor (13), the output end of the second motor (13) is fixedly connected with a threaded screw rod (131), the upper end face of the fixing frame (12) is fixedly connected with a sliding table (14) above the threaded screw rod (131), the inner bottom end of the sliding table (14) is fixedly connected with a supporting frame (15), the middle part of the lower bottom end of the sliding table (14) is fixedly connected with a threaded frame (141) which is in threaded sleeve joint with the threaded screw rod (131), the upper end face of the supporting frame (15) is fixedly connected with an upper supporting frame (17), one side of the upper supporting frame (17) far away from the processing table (11) is fixedly connected with a plurality of first electric pushing rods (151), the upper top end of the first electric pushing rods (151) is fixedly connected with a second electric pushing rods (152), the upper end face of the upper supporting frame (17) is fixedly connected with a sliding table (14), the upper end face of the upper supporting frame (14) is fixedly connected with a plurality of electric pushing rods (155) and the position of the upper supporting frame (155) is fixedly connected with a plurality of cutting blades (2), the utility model discloses a convenient cutting blade main part (2) unloading groove (156) that drops has been seted up to the up end of spacing (155), flexible end fixedly connected with movable block (154) of first electric putter (151), movable block (154) sliding connection is in the inside of last carriage (17), and is located the below of unloading groove (156), the flexible end fixedly connected with ejector pad (157) of second electric putter (152), the tip fixedly connected with of ejector pad (157) is used for pushing away push pedal (158) of cutting blade main part (2), push pedal (158) sliding connection is in the inside of spacing (155).

3. The slot milling machine for processing the hair clipper blade according to claim 2, wherein the inner side wall of the processing table (11) is fixedly connected with a first motor (111), the output end of the first motor (111) is fixedly connected with a milling disc cutter (112) through a rotating shaft, the inner top end of the processing table (11) is fixedly connected with a protective frame (113) at the outer wall of the milling disc cutter (112), the inner top end of the processing table (11) is fixedly connected with a limiting plate (114) at the end of the milling disc cutter (112), the end of the milling disc cutter (112) is rotationally sleeved with the limiting plate (114), and the outer side wall of the processing table (11) is provided with a conveyor (16) for driving the hair clipper blade body (2) to move.

4. The slot milling machine for processing the hair clipper blade as set forth in claim 1, wherein the supporting mechanism (4) comprises a blanking frame (41) fixedly connected to the outer side wall of the processing table (11) and located above the conveyor (16), an extension plate (42) is fixedly connected to the outer side wall of the blanking frame (41), a limit sleeve (43) is sleeved at the end of the extension plate (42) through bearing rotation, a fixed shaft (44) is sleeved inside the limit sleeve (43) in a sliding mode, and the adsorption mechanism (7) is arranged at the end of the fixed shaft (44).

5. The slot milling machine for processing the hair clipper blade according to claim 4, wherein the adsorption mechanism (7) comprises a triangle (71) fixedly connected to the end part of the fixed shaft (44), limiting shafts (72) are symmetrically and fixedly connected to the lower bottom ends of the triangle (71), V-shaped plates (73) are fixedly connected to the end parts of the two limiting shafts (72), pneumatic sucking discs (74) for adsorbing and limiting the hair clipper blade body (2) are arranged at two ends of the V-shaped plates (73), the adsorption ends of the pneumatic sucking discs (74) penetrate through the V-shaped plates (73), a top plate (75) is fixedly connected to the lower bottom end part of the triangle (71), a retaining plate (76) for extruding the hair clipper blade body (2) is sleeved at the lower bottom end of the top plate (75) in a sliding mode, and a limiting spring (77) is fixedly connected to the center of the upper top end of the retaining plate (76).

6. The slot milling machine for processing the hair clipper blade according to claim 5, wherein the driving mechanism (3) comprises a lifting frame (35) fixedly connected to the outer side wall of the processing table (11), a third motor (31) is fixedly connected to the upper end face of the lifting frame (35), driving rods (32) are fixedly connected to two output ends of the third motor (31), one end part of the driving rods (32) is fixedly connected with a convex plate (33), a first rocker arm (331) is rotatably sleeved at the end part of the convex plate (33), a fixed support (333) is fixedly connected to the outer side wall of the processing table (11) above the inclined upper side of the third motor (31), a second rocker arm (332) is rotatably sleeved at the end part of the fixed support (333), the end part of the first rocker arm (331) is rotatably connected to the center of the outer side wall of the second rocker arm (332), and the other end part of the second rocker arm (332) far from the fixed support (333) is rotatably sleeved on the upper end face of the triangular plate (71).

7. The slot milling machine for processing the hair clipper blade as set forth in claim 6, wherein the smoothing mechanism (5) comprises an inner frame (51) fixedly connected to the outer side wall of the processing table (11), wherein the inner bottom end of the inner frame (51) is symmetrically and fixedly connected with a guide frame (531), the upper top ends of the two guide frames (531) are in sliding connection with a guide plate (533), the upper top ends of the guide plates (533) are symmetrically and slidingly connected with a plurality of guide rods (532), the upper top ends of the guide rods (532) are fixedly connected with a first sliding plate (53), the outer side wall of the first sliding plate (53) is fixedly connected with a pressing frame (534), one side end part of the pressing frame (534) far away from the first sliding plate (53) is rotationally connected with a limit wheel (535), the inner side wall of the inner frame (51) is symmetrically provided with limit slots (52) which are in sliding connection with the limit wheel (535), the outer side wall of the guide plate (533) is fixedly connected with a first limit limiter (536) penetrating the inner side wall of the inner frame (51), the upper side wall of the inner frame (53) is fixedly connected with a second sliding plate (536), the upper side wall of the second sliding plate (54) is fixedly connected with a limit wheel (541), the inner top end of the inner frame (51) is positioned at the interval of the two guide frames (531) and is provided with a collecting frame (56) for collecting the scissor blade main body (2).

8. The slot milling machine for processing the hair clipper blade as set forth in claim 7, wherein the outer side wall of the inner frame (51) is symmetrically and fixedly connected with a second bearing frame (542), two inner sides of the second bearing frames (542) are fixedly connected with an optical axis (543), the outer side wall of the second sliding plate (54) is fixedly connected with a clamping arm (544), the clamping arm (544) is slidingly sleeved on the outer side wall of the optical axis (543), the upper top end of the second sliding plate (54) is symmetrically and fixedly connected with a rotating shaft frame (545), two blanking plates (547) for pushing the hair clipper blade body (2) are rotatably sleeved in the inner sides of the rotating shaft frames (545), the blanking plates (547) are fixedly connected with a rotating shaft frame (545) at the center of one side far away from the second sliding plate (54), the upper top end of the second sliding plate (54) is fixedly connected with a third electric push rod (546), the telescopic end of the third electric push rod (546) is fixedly connected with a rotating sleeve in the outer side wall of the blanking plate (547), and the second sliding plate (55) is fixedly connected with the upper end surface of the second sliding plate (55).

9. A slot milling machine for processing a hair clipper blade, as set forth in claim 8, wherein the transmission mechanism (6) comprises a first bearing frame (61) symmetrically and fixedly connected with the outer side wall of the inner frame (51), a reciprocating screw rod (62) is rotatably sleeved in the inner part of the first bearing frame (61) through a bearing, a reciprocating sleeve (63) slidably connected with the inner frame (51) is rotatably sleeved on the outer side wall of the reciprocating screw rod (62) through a thread, four chain wheels (64) are symmetrically and rotatably sleeved on the outer side wall of the inner frame (51) above the reciprocating screw rod (62) through bearings, chains (65) are sleeved on the outer walls of the four chain wheels (64), the upper end part of the reciprocating sleeve (63) and the ends of a first limiter (536) and a second limiter (541) are fixedly connected with the chains (65), a gear frame (66) is fixedly connected with the outer side wall of the inner frame (51) at the end part of the first bearing frame (61), a gear 661 is rotatably sleeved on one side of the inner side wall of the gear frame (66) close to the reciprocating screw rod (62), a second gear 661 (66) is rotatably sleeved on the inner side of the second gear frame (661) and is meshed with a second gear 661 (34), the end part of the other driving rod (32) far away from the convex plate (33) is fixedly connected with a synchronous wheel (34), and the outer walls of the two synchronous wheels (34) are sleeved with a synchronous belt (36) for transmission.

10. The slotting machine for processing the hair clipper blade as set forth in claim 9, wherein the outer side wall of the gear rack (66) is fixedly connected with a first fluted disc (68) coaxially with a second gear (662), the first fluted disc (68) is rotatably sleeved with a reciprocating screw (62), a spline groove (621) is formed in the outer wall of the reciprocating screw (62), a second fluted disc (69) meshed with the first fluted disc (68) and driven is slidingly sleeved at the position of the spline groove (621), a fourth electric push rod (67) is fixedly connected to the outer side wall of the inner frame (51) above the reciprocating screw (62), and a limiting sleeve plate (671) rotatably sleeved on the outer wall of the second fluted disc (69) is fixedly connected to the telescopic end of the fourth electric push rod (67).