CN113520035A - Horizontal multifunctional hair trimming machine - Google Patents

Abstract

The utility model relates to a horizontal multi-functional hair machine of repairing relates to hair equipment technical field, including the support body, slide and set up the anchor clamps that are used for the centre gripping brush on the support body, set up on the support body and lie in the cutter of anchor clamps both sides, be equipped with the glide machanism that drive anchor clamps slided along the horizontal direction on the support body, be equipped with drive anchor clamps pivoted rotating assembly on the glide machanism, rotating assembly is including setting up riser on the glide machanism, rotate the fluted disc of connecting on the riser, set up drive fluted disc pivoted motor three on the riser, anchor clamps set up on the fluted disc. This application utilizes glide machanism to drive the fluted disc and slide on the horizontal direction, three drive fluted discs of motor rotate through setting up the fluted disc for the brush also can rotate along with the fluted disc when the horizontal direction slides, and then increases pruning angle, the pruning scope of brush, thereby has the advantage that increases the brush and prunes the pattern.

Description

Horizontal multifunctional hair trimming machine

Technical Field

The application relates to the technical field of hair trimming equipment, in particular to a horizontal multifunctional hair trimming machine.

Background

The existing hairbrushes are produced in more and more styles so as to meet the requirements of people for use in daily life, but the hairbrushes have the same characteristics, the tails of the hairbrushes are mostly neat and neat, and the hairbrushes are finished products formed by trimming the produced hairbrushes through a hair trimming machine.

When the hair trimming machine commonly used in the market trims the hair of the hair brush, the hair brush is mostly trimmed through the movement of the clamp in the horizontal direction, and the hair brush is trimmed tidily by moving back and forth in the trimming process.

In the above-described related art, the inventors consider that: when the traditional clamp clamps the hairbrush to trim, the hairbrush is trimmed through movement in the horizontal direction, so that the hairbrush has a single angle during trimming and a smaller trimming range, and the hairbrush has fewer styles after trimming.

Disclosure of Invention

In order to increase the style of the hairbrush after being trimmed, the application aims to provide a horizontal multifunctional hairbrush trimmer.

The application provides a horizontal multi-functional wool trimmer adopts following technical scheme:

the utility model provides a horizontal multi-functional trimming machine, include the support body, slide set up in be used for the anchor clamps of centre gripping brush on the support body, set up in on the support body and be located the cutter of anchor clamps both sides, be equipped with the drive on the support body the glide machanism that anchor clamps slided along the horizontal direction, be equipped with the drive on the glide machanism anchor clamps pivoted rotating assembly, rotating assembly including set up in riser on the glide machanism, rotate connect in fluted disc on the riser, set up in drive on the riser fluted disc pivoted motor three, anchor clamps set up in on the fluted disc.

Through adopting above-mentioned technical scheme, when pruning the brush, be fixed in the brush holder of brush on anchor clamps, then start glide machanism, drive anchor clamps and move to the position that is close to the cutter on the horizontal direction to make anchor clamps change for the position of cutter to make a round trip to slide, with the pruning to the same angle of brush. And then, the third motor is started to drive the fluted disc to rotate, so that the clamp is driven by the third motor to rotate along with the fluted disc, and the brush rotates beside the cutter to trim. Therefore, by arranging the fluted disc, the sliding mechanism is utilized to drive the fluted disc to slide in the horizontal direction, and the motor drives the fluted disc to rotate, so that the brush can rotate along with the slippage of the fluted disc in the horizontal direction, the trimming angle and the trimming range of the brush are further increased, and the pattern of the brush after trimming is increased.

Optionally, the sliding mechanism includes a base platform disposed on one side of the tool, a first sliding member disposed on the base platform and sliding, and a second sliding member disposed on the first sliding member and sliding toward or away from the tool, and the second sliding member slides along a direction perpendicular to the sliding direction of the first sliding member.

Through adopting above-mentioned technical scheme, when the drive fluted disc drove anchor clamps and slided on the horizontal direction, the piece that slides starts, drives the piece that slides two and fluted disc lie in one side of cutter and make a round trip to slide along the length direction of base station to the distance that the adjustment brush is close to the cutter. Then the second sliding piece is started to drive the fluted disc and the clamp to slide towards the direction close to the cutter or far away from the cutter, so that the brush on the clamp can extend into the cutter to be trimmed, and the length of the brush extending into the cutter can be controlled, so that the trimming range of the brush can be controlled.

Optionally, the first sliding part comprises a first sliding seat slid on the base platform, a first screw rod rotatably connected to the base platform and in threaded connection with the first sliding seat, and a first motor arranged on the base platform and used for driving the first screw rod to rotate.

Through adopting above-mentioned technical scheme, when driving the sliding member one and the fluted disc when sliding along base station length direction, the first start-up of motor drives lead screw one and rotates for threaded connection makes a round trip to slide along the length direction of base station in the slide on the lead screw one, slides along base station length direction with driving sliding member two and fluted disc one side at the cutter. Therefore, through the threaded connection of the first sliding seat and the first screw rod, the first motor is used for driving the first screw rod to rotate, the second sliding piece and the fluted disc slide along the length direction of the base table, the brush on the clamp is further driven to slide back and forth between the cutters, and the lengths of bristles on two sides of the brush on the clamp are convenient to trim.

Optionally, the second sliding part comprises a second sliding seat which slides on the first sliding seat, a second motor which is arranged on the second sliding seat, and a first gear which is coaxially connected to the second motor, and the first sliding seat is provided with a first rack which is meshed with the first gear.

Through adopting above-mentioned technical scheme, when the drive anchor clamps towards the direction of being close to or keeping away from the cutter slip, motor two starts, drives gear one and rotates for the rack that meshes gear one drives slide two and makes a round trip to slide on slide one, so that the brush on the anchor clamps stretches into and the roll-off between the cutter, thereby be convenient for adjust the length that the brush stretched into between the cutter.

Optionally, a sliding member for driving the clamp to slide along a direction perpendicular to the rotation axis of the fluted disc is arranged on the vertical plate, the sliding member rotates along with the fluted disc, and the clamp is arranged on the sliding member.

Through adopting above-mentioned technical scheme, when the high needs adjustment that anchor clamps are located the cutter top, through starting the slider for when the fluted disc drove slider pivoted, the slider drove anchor clamps and slides along the direction of perpendicular fluted disc axis, and then adjusts the distance that stretches into in the cutter between anchor clamps and the anchor clamps, thereby be convenient for adjust the distance between anchor clamps and the cutter after the brush stretches into the cutter.

Optionally, the sliding part includes a rotating shaft penetrating through the vertical plate and coaxially connected to the fluted disc, a fixing plate connected to the rotating shaft, a sliding plate sliding on the fixing plate, a second screw rod rotatably connected to the fixing plate and threadedly connected to the inside of the sliding plate, and a fourth motor arranged on the fluted disc and driving the second screw rod to rotate, and the clamp is arranged on the sliding plate.

Through adopting above-mentioned technical scheme, when the fluted disc drives the slider and rotates, motor three drive fluted disc rotates, and pivot and motor three rotate along with the fluted disc is together simultaneously, and then make fixed plate and slide rotate along with the pivot together, and then drive the anchor clamps and rotate. Then the motor four is started to drive the screw rod two to rotate, so that the sliding plate in threaded connection with the screw rod two slides on the fixing plate along the direction perpendicular to the axis of the rotating shaft, the clamp stretching into the cutter is driven to slide towards the direction close to the cutter or away from the cutter, and the clamp can slide along the direction perpendicular to the axis of the rotating shaft while rotating.

Optionally, the clamp includes a support plate fixedly connected to the slide plate, a plurality of clamping members rotatably connected to the support plate, and a motor five disposed on the support plate and driving the clamping members to rotate.

Through adopting above-mentioned technical scheme, when carrying out the centre gripping with the brush, put into the clamping piece with the brush and press from both sides tightly, then the clamping piece that the tight brush of start motor four-drive clamp rotates to make the clamping piece rotate in the backup pad, make the tight brush of clamp rotate in the backup pad, in order to prune on a large scale after brush self rotates, in order to prune in each angle of brush circumferential direction.

Optionally, the clamping piece including rotate connect in clamping sleeve in the backup pad, slide in collapsible or expanded tensioning section of thick bamboo, drive in the clamping sleeve the die clamping cylinder that tensioning section of thick bamboo slided, the clamping sleeve is used for extrudeing gliding tensioning section of thick bamboo and contracts, motor five is used for the drive the clamping sleeve drives tensioning section of thick bamboo rotates together.

By adopting the technical scheme, when the hairbrush is clamped on the supporting plate, the clamping cylinder contracts to drive the tensioning cylinder to slide towards the direction close to the supporting plate, so that one end of the tensioning cylinder in a gradually expanded shape slides out of the clamping sleeve, the clamping of the clamping sleeve on the tensioning cylinder is relieved, and the hairbrush handle can be conveniently inserted after the tensioning cylinder recovers deformation. Then the clamping cylinder extends to drive the tensioning cylinder to slide towards the direction far away from the supporting plate, so that the gradually expanded end of the tensioning cylinder is clamped into the clamping sleeve to extrude the tensioning cylinder to gather together, and a brush handle in the tensioning cylinder is clamped tightly. Therefore, the clamping sleeve is matched with the tensioning cylinder, the tensioning cylinder is driven to contract, clamp and expand to release the brush, and the brush is convenient to clamp.

Optionally, a partition plate is arranged on the frame body, supports for bearing the cutters are arranged on two sides of the partition plate in a sliding mode along the vertical direction, a second rack is arranged on the partition plate, a second gear meshed with the second rack is arranged on the supports in a rotating mode, and a lifting motor for driving the second gear to rotate is arranged on the supports.

Through adopting above-mentioned technical scheme, when the brush is bulky or less, start elevator motor, drive gear two and rotate for the gear meshes and drives the support and slide on the baffle after rack two goes up, and then drives the support and slide along vertical direction on the baffle, with the distance of adjusting the cutter in vertical direction and between the anchor clamps, thereby be convenient for prune the great or less brush hair of volume.

Optionally, a buffer cylinder located below the support is arranged on the frame body, and a piston rod of the buffer cylinder is fixedly connected to the bottom of the support.

Through adopting above-mentioned technical scheme, slide when elevator motor drive support, buffer cylinder acts on the support to buffer cylinder supports the support after elevator motor cuts off the power supply suddenly, with the condition that reduces the support and drive the cutter and fall suddenly, reduces the damage that the cutter received, thereby improves the life of cutter.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the fluted disc, the slippage mechanism is utilized to drive the fluted disc to slide in the horizontal direction, and the motor III drives the fluted disc to rotate, so that the brush can rotate while sliding along with the fluted disc in the horizontal direction, the trimming angle and the trimming range of the brush are further increased, and the pattern of the brush after trimming is increased;

through the threaded connection of the sliding seat I and the screw rod I, the screw rod I is driven to rotate by the motor I, so that the sliding piece II and the fluted disc slide along the length direction of the base table, and further the hairbrush on the clamp is driven to slide back and forth between the cutters, and the lengths of the bristles on two sides of the hairbrush on the clamp are convenient to trim;

the second sliding seat is arranged on the first sliding seat in a sliding mode, and the first gear is meshed with the first rack, so that the second sliding seat is driven by the second motor to slide on the first sliding seat close to or away from the cutter, the hairbrush on the clamp stretches into or slides out of the position between the cutters, and the length of the hairbrush stretching into the position between the cutters is convenient to adjust;

through the threaded connection who sets up slide and lead screw two, utilize the fixed plate along with under the fluted disc pivoted condition, motor three drive lead screw two rotates to make the slide along the direction of perpendicular to fluted disc axis on the fixed plate, with the distance between regulation and the anchor clamps in stretching into the cutter, thereby be convenient for adjust the distance between anchor clamps and the cutter after the brush stretches into the cutter.

Through setting up a tensioning section of thick bamboo and clamping sleeve, utilize a die clamping cylinder drive tensioning section of thick bamboo to slide in clamping sleeve for a tensioning section of thick bamboo shrink to press from both sides the brush holder tightly, and drive the tensioning section of thick bamboo that presss from both sides tight brush and rotate under the drive of motor four, so that brush self prunes on a large scale after rotating, so that each angle of brush circumferential direction prunes.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a bottom view of the embodiment of the present application for showing the lifting mechanism.

Fig. 3 is a schematic structural diagram for showing a sliding mechanism according to an embodiment of the present application.

Fig. 4 is an exploded view schematically illustrating a rack gear i according to an embodiment of the present disclosure.

FIG. 5 is a schematic structural diagram for showing bevel gears according to the embodiment of the present application.

FIG. 6 is a schematic structural diagram for showing a clamp according to an embodiment of the present application.

Fig. 7 is a schematic cross-sectional view for showing a tension cylinder in an embodiment of the present application.

Fig. 8 is a schematic cross-sectional view illustrating the inside of a support plate according to an embodiment of the present application.

Description of reference numerals: 1. a frame body; 11. a buffer cylinder; 2. a sliding mechanism; 21. a base station; 211. a second slide rail; 22. a first sliding part; 221. a first sliding seat; 222. a first screw rod; 223. a first motor; 224. a second sliding block; 225. a first rack; 226. a third slide rail; 23. a second sliding part; 231. a second sliding seat; 232. a second motor; 233. a first gear; 234. a third sliding block; 24. a rotating assembly; 241. a vertical plate; 242. a fluted disc; 243. a third motor; 244. a speed reducer; 25. a slider; 251. a rotating shaft; 252. a fixing plate; 253. a slide plate; 254. a second screw rod; 255. a fourth motor; 256. a bevel gear; 257. a fourth slide rail; 258. a fourth sliding block; 3. a lifting mechanism; 31. a partition plate; 32. a support; 33. a lifting motor; 331. a second gear; 34. a first slide rail; 35. a first sliding block; 36. a second rack; 4. a cutter; 5. a clamp; 51. a support plate; 52. a clamping member; 521. a tensioning cylinder; 522. a clamping sleeve; 523. a clamping cylinder; 524. a tensioning port; 525. a collar; 526. a hinge hole; 527. a hinged column; 528. a support bar; 529. a bearing; 53. a fifth motor; 531. a third gear; 532. a fourth gear; 533. and a chain.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses horizontal multi-functional trimming machine.

Referring to fig. 1, the hair trimming machine comprises a frame body 1 and a sliding mechanism 2 located on one side of the frame body 1 and sliding along the horizontal direction, wherein an elevating mechanism 3 is installed in the frame body 1 in a sliding manner along the vertical direction, a cutter 4 for trimming a hair brush is connected onto the elevating mechanism 3, and a clamp 5 for clamping a workpiece is installed on the sliding mechanism 2.

Referring to fig. 1, the lifting mechanism 3 includes a partition plate 31 vertically and fixedly connected in the machine body, supports 32 slidably mounted on two sides of the partition plate 31 in the vertical direction, and a lifting motor 33 mounted on the supports 32 and driving the supports 32 to slide, the cutters 4 are fixedly connected to the upper ends of the supports 32, and two cutters 4 are fixedly connected to the same support 32 side by side.

Referring to fig. 2, two first sliding rails 34 are fixedly connected to two sides of the partition plate 31 along the vertical direction, a first sliding block 35 for the first sliding rails 34 to be embedded into is fixedly connected to one side of the support 32 facing the partition plate 31, and the first sliding block 35 slides along the length direction of the first sliding rails 34. A second rack 36 is fixedly connected to the side wall of the partition board 31 on the same side between the first slide rails 34, and the second rack 36 extends along the vertical direction. The lifting motor 33 is fixedly connected to one side, back to the rack, of the support 32, an output shaft of the lifting motor 33 penetrates through the support 32 and is coaxially connected with the second gear 331, the second gear 331 is meshed with the second rack 36, the lifting motor 33 drives the second gear 331 to rotate, so that the second gear 331 rotates on the second rack 36, and the support 32 slides along the first sliding rail 34 under the rotation of the second gear 331.

Referring to fig. 1 and 2, a buffer cylinder 11 located below the support 32 is vertically and fixedly connected to the frame body 1, and a piston rod of the buffer cylinder 11 is vertically upward and fixedly connected to the bottom wall of the support 32, so that the buffer cylinder 11 supports the support 32 after the power failure of the lifting motor 33.

Referring to fig. 1 and 3, the sliding mechanism 2 includes a base 21 located on one side of the partition 31, a first sliding member 22 mounted on the base 21 to slide, and a second sliding member 23 mounted on the first sliding member 22 to slide, wherein the second sliding member 23 slides along a direction perpendicular to the sliding direction of the first sliding member 22. The second sliding piece 23 is provided with a rotating assembly 24, the rotating assembly 24 is provided with a sliding piece 25 in a sliding way, the sliding piece 25 slides along the direction vertical to the rotating axis of the rotating assembly 24, the clamp 5 is arranged on the sliding piece 25, and the clamp 5 on the sliding piece 25 can slide to the upper part of the cutter 4 on two sides of the partition plate 31.

Referring to fig. 1 and 3, the length direction of the base 21 is perpendicular to the height direction of the partition plate 31, the base 21 is adjacent to the cutters 4 on both sides of the partition plate 31, the first sliding member 22 slides along the length direction of the base 21, and the second sliding member 23 slides along the length direction perpendicular to the base 21.

Referring to fig. 1 and 3, the first sliding member 22 includes a first sliding base 221 sliding on the base 21, a first lead screw 222 rotatably connected to the base 21 and screwed into the first sliding base 221, and a first motor 223 fixedly connected to the base 21 for driving the first lead screw 222 to rotate. The base station 21 is located two fixedly connected with slide rails 211 on two sides of the screw rod 254, the slide rails 211 and the screw rod 254 are parallel to each other, a slide block 224 for embedding the slide rails 211 is fixedly connected to the bottom wall of the slide block 221, the slide block 224 slides on the slide rails 211, so that after the motor 223 drives the screw rod 222 to rotate, the screw rod 222 drives the slide block 221 to slide back and forth along the length direction of the slide rails 211, and the clamp 5 is driven to transfer the cutters 4 on two sides of the partition plate 31.

Referring to fig. 4 and 5, the second sliding member 23 includes a second sliding seat 231 sliding on the first sliding seat 221, a second motor 232 vertically and fixedly connected to the second sliding seat 231, and a first gear 233 coaxially connected to the second motor 232, and a first rack 225 engaged with the first gear 233 is fixedly connected to the upper surface of the first sliding seat 221. The second motor 232 is fixedly connected to the upper surface of the second sliding seat 231, an output shaft of the second motor 232 penetrates through the second sliding seat 231, and the first gear 233 is located on the bottom wall of the second sliding seat 231 and is coaxially connected with the second motor 232.

Referring to fig. 4 and 5, the upper surface of the first sliding seat 221 is fixedly connected with the third sliding rail 226 at two sides of the first rack 225, the bottom wall of the second sliding seat 231 is fixedly connected with the third sliding block 234 embedded in the third sliding rail 226, and the length direction of the third sliding rail 226 is perpendicular to the length direction of the second sliding rail 211, so that after the second motor 232 drives the first gear 233 to rotate, the first gear 233 drives the second sliding seat 231 to slide back and forth along the length direction of the third sliding rail 226 under the engagement of the first rack 225.

Referring to fig. 3, the rotating assembly 24 includes an upright plate 241 fixedly connected to the second sliding seat 231, a gear plate 242 rotatably connected to the upright plate 241, and a third motor 243 fixedly connected to the upright plate 241 and driving the gear plate 242 to rotate. The vertical plate 241 is located at one end of the second sliding seat 231 close to the cutter 4, the gear disc 242 is semicircular, and the third motor 243 is fixedly connected to the side wall of the vertical plate 241 below the gear disc 242. The output shaft of the motor 243 is close to the gear plate 242, and the output shaft of the motor 243 is coaxially connected with a speed reducer 244, and the edge of the gear plate 242 extends into the speed reducer 244 to be meshed with the speed reducer 244, so that the motor 243 drives the gear plate 242 to rotate on the vertical plate 241 through the speed reducer 244.

Referring to fig. 3 and 4, the sliding member 25 includes a rotating shaft 251 penetrating through the vertical plate 241 and coaxially connected to the toothed disc 242, a fixing plate 252 fixedly connected to an end of the rotating shaft 251, a sliding plate 253 slidably sliding on the fixing plate 252, a second screw 254 rotatably connected to the fixing plate 252 and threadedly connected to the inside of the sliding plate 253, and a fourth motor 255 fixedly connected to the toothed disc 242 to drive the second screw 254 to rotate.

Referring to fig. 4 and 5, the fixing plate 252 is located on the rotating shaft 251 of the vertical plate 241, which faces away from the toothed disc 242, and the length direction of the fixing plate 252 is perpendicular to the axial direction of the rotating shaft 251, and the length direction of the fixing plate 252 is parallel to the center line of the cross section of the semicircular toothed disc 242. The motor four 255 is fixedly connected to one side of the fluted disc 242 opposite to the vertical plate 241, an output shaft of the motor four 255 is coaxially connected with the rotating shaft 251, and the rotating shaft 251 and the motor four 255 are both located at the center of the fluted disc 242. One end of the second screw 254 close to the rotating shaft 251 is coaxially connected with a bevel gear 256, one end of the rotating shaft 251 close to the second screw 254 is also coaxially connected with the bevel gear 256, the axis of the second screw 254 is perpendicular to the axis of the rotating shaft 251, the two bevel gears 256 are meshed, and the rotating shaft 251 drives the second screw 254 to rotate through the meshing of the bevel gears 256.

Referring to fig. 4, two sliding rails four 257 are fixedly connected to one side of the fixing plate 252, which faces the sliding plate 253, side by side, the sliding rails four 257 extend along a length direction of the fixing plate 252, a sliding block four 258 for the sliding rails four 257 to be embedded is fixedly connected to a side wall of the sliding plate 253, and the sliding block four 258 slides on the sliding rails four 257, so that the sliding plate 253 slides on the fixing plate 252 along a direction perpendicular to an axis of the toothed disc 242.

Referring to fig. 4 and 6, the clamp 5 includes a support plate 51 fixedly connected to a side of the sliding plate 253 opposite to the fixing plate 252, a plurality of clamping members 52 rotatably connected to the support plate 51, and a motor five 53 fixedly connected to the support plate 51 for driving the clamping members 52 to rotate, wherein a length direction of the support plate 51 is perpendicular to a length direction of the sliding plate 253.

Referring to fig. 1 and 6, the number of the clamping pieces 52 corresponds to the number of the cutters 4 on the same side of the partition 31, and the distance between the cutters 4 on the same side of the partition 31 is the same as the distance between the clamping pieces 52 on the support plate 51.

Referring to fig. 6 and 7, the clamping member 52 includes a clamping sleeve 522 rotatably connected to the support plate 51, a tensioning cylinder 521 slidably disposed in the clamping sleeve 522 and having a deformation capability, and a clamping cylinder 523 fixedly connected to the support plate 51 for driving the tensioning cylinder 521 to slidably move. Both ends of the tensioning cylinder 521 are located outside the clamping sleeve 522, the tensioning cylinder 521 cannot rotate relative to the clamping sleeve 522, and the tensioning cylinder 521 can only slide in the clamping sleeve 522 along the axial direction thereof. The five motor 53 is located on a side of the support plate 51 facing away from the clamping cylinders 523, and the five motor 53 is located between the two clamping cylinders 523.

Referring to fig. 7, a plurality of tensioning ports 524 are formed in a circumferential side wall of the tensioning cylinder 521 near one end of the clamping cylinder 523, and an end portion of the tensioning cylinder 521 near the tensioning ports 524 is in a gradually expanding shape. So that after the gradually expanding end part of the tension cylinder 521 slides into the clamping sleeve 522, the clamping sleeve 522 presses the tension cylinder 521, so that the tension cylinder 521 is contracted and deformed to reduce the tension opening 524, so as to insert the brush handle into the tension cylinder 521 for clamping.

Referring to fig. 6 and 7, the clamping cylinders 523 correspond to the tensioning cylinders 521 one to one, a sleeve ring 525 is sleeved on one side of the tensioning cylinder 521 close to the motor five 53, a bearing 529 sleeved on the tensioning cylinder 521 is hinged in the sleeve ring 525, and the bearing 529 is fixed to the tensioning cylinder 521, so that the sleeve ring 525 can drive the tensioning cylinder 521 to slide in the clamping sleeve 522 by driving the bearing 529 while the tensioning cylinder 521 rotates in the sleeve ring 525 through the bearing 529. And the collar 525 is larger in diameter than the bearing 529, the axis of articulation of the collar 525 and the bearing 529 is perpendicular to the axis of the collar 525.

Referring to fig. 6, a hinge hole 526 is formed in a side wall of the collar 525, a hinge post 527 hinged in the hinge hole 526 is fixedly connected to a piston rod of the clamping cylinder 523, the diameter of the hinge hole 526 is larger than that of the hinge post 527, so that when the hinge post 527 rotates in the hinge hole 526, the hinge post 527 can slide along a direction perpendicular to an axis of the hinge hole 526, and an axis of the piston rod of the clamping cylinder 523 is parallel to an axis of the collar 525.

Referring to fig. 6 and 7, the piston rod of the clamping cylinder 523 is hinged to one side of the sleeve ring 525 close to the motor five 53, one side of the sleeve ring 525 far from the motor five 53 is hinged to a supporting rod 528, one end of the supporting rod 528 far from the sleeve ring 525 is fixedly connected to the supporting plate 51, so that the sleeve ring 525 is driven to rotate through the expansion and contraction of the clamping cylinder 523, the bearing 529 drives the tensioning cylinder 521 to slide in the clamping sleeve 522 towards the direction close to the motor five 53 under the rotation of the sleeve ring 525, the gradually expanded end of the tensioning cylinder 521 slides into the clamping sleeve 522, and the tensioning port 524 is contracted after being squeezed by the clamping sleeve 522, so that a brush handle inserted into the tensioning cylinder 521 is clamped.

Referring to fig. 7 and 8, the output shaft of the five motor 53 penetrates through the support plate 51, the output shaft of the five motor 53 is coaxially connected with the third gear 531, the four gears 532 are fixedly connected to the clamping sleeves 522 on the two sides of the five motor 53, the four gears 532 are located outside the clamping sleeves 522 and rotate in the support plate 51, the third gear 531 and the fourth gear 532 are connected through the chain 533, so that the clamping cylinder 523 drives the tensioning cylinder 521 to slide, the clamping sleeves 522 clamp the tensioning cylinder 521, the five motor 53 drives the clamping sleeves 522 to rotate, and the clamping sleeves 522 drive the tensioning cylinder 521 to rotate on the support plate 51, thereby realizing the rotation of the brush on the support plate 51.

The implementation principle of the horizontal multifunctional wool trimming machine in the embodiment of the application is as follows: when the hairbrush needs to be trimmed, the lifting motor 33 drives the support 32 to slide up and down, so as to adjust the cutter 4 to a proper height. Then, the first motor 223 is started to drive the first sliding seat 221 to slide back and forth on the base 21, so as to adjust the position of the second sliding seat 231 in the length direction of the base 21. Then, the second motor 232 is started to drive the second sliding seat 231 to slide on the first sliding seat 221 in a direction approaching or departing from the cutter 4, so as to adjust the vertical plate 241 to a proper position. Then, the third motor 243 is started again to drive the gear disc 242 to rotate, so that the supporting plate 51 and the fixing plate 252 rotate on the vertical plate 241, and further drive all the clamps 5 to rotate. Then, the motor 255 is started again to drive the sliding plate 253 to slide on the fixing plate 252, so as to adjust the sliding distance of the supporting plate 51 along the direction perpendicular to the axis of the toothed plate 242.

The brush shaft of the brush is then inserted into the tension cylinder 521 and the clamping cylinder 523 is retracted so that the diverging end of the tension cylinder 521 slides towards the clamping sleeve 522 and clamps the brush shaft in the tension cylinder 521. And starting the motor five 53 again, and driving the tensioning cylinder 521 and the clamping sleeve 522 to rotate through the gear three 531 and the gear four 532, so that the clamped hairbrush rotates automatically. Therefore, the support 32, the first sliding seat 221, the second sliding seat 231, the sliding plate 253 slide and the fluted disc 242 rotate, so that the support plate 51 drives the clamped brush to adjust at multiple angles, the clamped brush rotates under the driving of the fifth motor 53, the increase of the brush trimming angle and the trimming range is realized, and the style of the brush after trimming is increased.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a horizontal multi-functional trimming machine which characterized in that: including support body (1), slide set up in be used for on support body (1) anchor clamps (5) of centre gripping brush, set up in on support body (1) and be located cutter (4) of anchor clamps (5) both sides, be equipped with the drive on support body (1) slide mechanism (2) that anchor clamps (5) slided along the horizontal direction, be equipped with the drive on slide mechanism (2) anchor clamps (5) pivoted rotating assembly (24), rotating assembly (24) including set up in riser (241) on slide mechanism (2), rotate connect in fluted disc (242) on riser (241), set up in drive on riser (241) fluted disc (242) pivoted motor three (243), anchor clamps (5) set up in on fluted disc (242).

2. The horizontal multifunctional wool trimmer according to claim 1, characterized in that: the sliding mechanism (2) comprises a base platform (21) arranged on one side of the cutter (4), a first sliding part (22) arranged on the base platform (21) and a second sliding part (23) arranged on the first sliding part (22) and close to or far away from the cutter (4) in a sliding mode, and the first sliding part (22) slides along the direction perpendicular to the sliding direction of the second sliding part (23).

3. The horizontal multifunctional wool trimmer according to claim 2, characterized in that: the first sliding part (22) comprises a first sliding seat (221) sliding on the base platform (21), a first screw rod (222) rotatably connected to the base platform (21) and in threaded connection with the first sliding seat (221), and a first motor (223) arranged on the base platform (21) and used for driving the first screw rod (222) to rotate.

4. The horizontal multifunctional wool trimmer according to claim 3, characterized in that: the second sliding part (23) comprises a second sliding seat (231) which slides on the first sliding seat (221), a second motor (232) which is arranged on the second sliding seat (231), and a first gear (233) which is coaxially connected to the second motor (232), and a first rack (225) which is meshed with the first gear (233) is arranged on the first sliding seat (221).

5. The horizontal multifunctional wool trimmer according to claim 1, characterized in that: the vertical plate (241) is provided with a sliding piece (25) which drives the clamp (5) to slide along the axis vertical to the rotation axis of the fluted disc (242), the sliding piece (25) rotates along with the fluted disc (242), and the clamp (5) is arranged on the sliding piece (25).

6. The horizontal multifunctional wool trimmer according to claim 5, characterized in that: the sliding part (25) comprises a rotating shaft (251) which penetrates through the vertical plate (241) and is coaxially connected with the fluted disc (242), a fixing plate (252) connected to the rotating shaft (251), a sliding plate (253) which slides on the fixing plate (252), a second screw rod (254) which is rotatably connected to the fixing plate (252) and is in threaded connection with the sliding plate (253), and a fourth motor (255) which is arranged on the fluted disc (242) and drives the second screw rod (254) to rotate, wherein the clamp (5) is arranged on the sliding plate (253).

7. The horizontal multifunctional wool trimmer of claim 6, wherein: the clamp (5) comprises a support plate (51) fixedly connected to the sliding plate (253), a plurality of clamping pieces (52) rotatably connected to the support plate (51), and a motor five (53) arranged on the support plate (51) and used for driving the clamping pieces (52) to rotate.

8. The horizontal multifunctional wool trimmer of claim 7, wherein: clamping piece (52) including rotate connect in clamping sleeve (522) on backup pad (51), slide in clamping sleeve (522) in collapsible or expanded tensioning section of thick bamboo (521), the drive clamping cylinder (523) that tensioning section of thick bamboo (521) slided, clamping sleeve (522) are used for extrudeing gliding tensioning section of thick bamboo (521) and contract, motor five (53) are used for the drive clamping sleeve (522) drive tensioning section of thick bamboo (521) rotate together.

9. The horizontal multifunctional wool trimmer according to claim 1, characterized in that: be equipped with baffle (31) on support body (1), the both sides of baffle (31) are provided with support (32) that bear cutter (4) along vertical direction slip, be equipped with rack two (36) on baffle (31), it is provided with the meshing to rotate on support (32) gear two (331) of rack two (36), just be equipped with the drive on support (32) gear two (331) pivoted elevator motor (33).

10. The horizontal multifunctional wool trimmer according to claim 9, characterized in that: be equipped with on support body (1) and be located cushion cylinder (11) of support (32) below, cushion cylinder (11) piston rod fixed connection in the bottom of support (32).

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