Disclosure of Invention
In order to overcome prior art manual promotion KT board moving as a whole and shift out, waste time and energy, comparatively dangerous, when shifting out the KT board, the tight KT board of clamp probably damages or the shortcoming that can't remove, and the technical problem that solve is: the utility model provides an automatic KT board of drive removes realizes the cutting of KT board, and automatic equidistance releases the KT board, and the KT board equidistance automatic cutting device of unblock KT board when shifting out the KT board.
The technical scheme is as follows: the utility model provides a KT board equidistance automatic cutting device, including: the number of the supporting legs is four; the supporting plate is connected between the upper parts of the supporting legs at the two sides; the supporting rod is connected between the middle part of the supporting leg at one side and one side of the supporting leg at one side; the middle part of the supporting rod is provided with a cutting mechanism; the placing mechanism is arranged between the supporting plates; and the propelling component is arranged between the upper part of the supporting plate and the cutting mechanism.
As a further preferable mode, the cutting mechanism includes: the middle part of the supporting rod is connected with the base; the servo motor is arranged on the upper part of the base; one side of an output shaft of the servo motor is connected with the rotary table; one side of the rotary disc is connected with the ring gear; the middle part of the outer side of the rotary disc is connected with a cutting wheel.
As a further preferable mode, the placing mechanism includes: the first guide rods are symmetrically connected between the support plates; the placing table is connected between the first guide rods in a sliding manner; the first springs are symmetrically connected between the placing table and the supporting plate on one side and sleeved on the first guide rods; the two sides of the placing table are evenly and slidably connected with three first limiting rods at intervals; the clamping plates are connected between the inner sides of the first limiting rods on the two sides; three second springs are uniformly connected between the outer side of the clamping plate and the placing table at intervals, and the second springs are sleeved on the first limiting rods; the rack is connected with one side of the upper part of the placing table.
As a further preferred aspect, the propulsion assembly comprises: the upper parts of the supporting plates are connected with the connecting frames; the shaft bracket is connected between the upper parts of the connecting brackets; the middle part of the shaft bracket is rotatably connected with a rotating shaft; one side of the rotating shaft is connected with a half gear which is matched with the rack; the middle part of the rotating shaft is connected with the sliding sleeve in a sliding and rotating way; the third spring is connected between the sliding sleeve and the shaft bracket and sleeved on the rotating shaft; one side of the upper part of the connecting frame is connected with the fixed seat; the upper side and the lower side of the warping frame are in sliding fit with the sliding sleeve; one side of the tilting frame is connected with a rotating rod; one side of the sliding sleeve is rotatably connected with the rotating sleeve, and the rotating sleeve is connected with the rotating shaft in a sliding manner; one side of the rotating shaft is connected with a transmission bar; the clamping blocks are connected to the two sides of the transmission strip in a sliding mode and are matched with the rotary table; the connecting rod, the equal rotary type in clamp splice one side is connected with the connecting rod, and connecting rod one side all is connected with the commentaries on classics cover rotary type.
As a further preferable aspect, the apparatus further comprises a linkage assembly, wherein the linkage assembly comprises: one side of the supporting rod is connected with the rotating seat; the upper part of the rotating seat is rotatably connected with a transmission shaft; one side of the transmission shaft is connected with a transmission gear, and the transmission gear is meshed with the ring gear; one side of the transmission shaft is connected with the transmission disc; one side of the lower part of the transmission disc is rotatably connected with the small slide bar; one side of the upper part of the connecting frame is connected with a second limiting rod in a sliding manner; the sliding frame is connected between the two sides of the second limiting rod; the shaft sleeve is rotatably connected between the upper side and the lower side of the sliding frame and is connected with the rotating rod; the middle part of one side of the sliding frame is rotatably connected with the large sliding rod, and the small sliding rod is connected with the large sliding rod in a sliding way; and a fourth spring is connected between the small sliding rod and the large sliding rod.
As a further preferable scheme, the device further comprises a feeding assembly, wherein the feeding assembly comprises: the hanging bracket is connected with one side of the lower part of the sliding frame; the lower side of the hanging bracket is symmetrically connected with a second guide rod; the wedge plate is connected between the lower sides of the second guide rods in a sliding manner; the fifth spring is symmetrically connected between the wedge-shaped plate and the hanging bracket and sleeved on the second guide rod; the lower part of the wedge-shaped plate is connected with a pressing plate; the special-shaped rod is symmetrically connected to one side of the lower portion of the connecting frame and matched with the wedge-shaped plate.
As a further preferred solution, a release assembly is included, the release assembly being disposed between the lower carriage portion and the upper clamp plate portion.
As a further preferable aspect, the unlocking means includes: the two sides of the lower part of the sliding frame are connected with the movable frame; the outer sides of the lower parts of the movable frames are connected with the wedge blocks; the push rod, splint upper portion one side all is connected with the push rod, and the push rod is mutually supported with the wedge.
The invention has the beneficial effects that: 1. according to the invention, the servo motor is started to drive the ring gear to rotate, so that the transmission gear and the transmission disc are driven to rotate, the sliding frame is driven to move rightwards through the small sliding rod and the large sliding rod, the rotating rod and the warping frame are driven to rotate clockwise, and finally the KT plate is driven to move backwards, so that the effect of automatically driving the KT plate to move backwards to finish cutting is achieved.
2. According to the invention, the sliding frame moves rightwards to drive the wedge-shaped plate and the pressing plate to move rightwards, the wedge-shaped plate is matched with the special-shaped rod to drive the pressing plate to move downwards to press the KT plate, the sliding frame continuously moves rightwards to drive the pressing plate and the KT plate to move rightwards, the effect of automatically driving the KT plate to move rightwards at equal intervals is achieved, the KT plate is ensured to be cut at equal intervals, and manpower.
3. According to the invention, the sliding frame drives the movable frame and the wedge block to move rightwards, the sliding frame is matched with the push rod to push the clamping plate to move outwards to loosen the KT plate, so that the pressing plate smoothly drives the KT plate to move rightwards, the effect of automatically unlocking the KT plate while moving the KT plate is achieved, and the problem that the KT plate is damaged or cannot move due to friction force is avoided, and the cutting of the KT plate is influenced.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the cutting mechanism of the present invention.
Fig. 3 is a schematic perspective view of the placement mechanism of the present invention.
Fig. 4 is a schematic perspective view of the propulsion mechanism of the present invention.
FIG. 5 is a perspective view of the linkage assembly of the present invention.
Fig. 6 is a perspective view of the feed assembly and the release assembly of the present invention.
Wherein: 1-supporting feet, 2-supporting plates, 3-supporting rods, 4-cutting mechanisms, 41-bases, 42-servo motors, 43-rotating disks, 44-cutting wheels, 45-ring teeth, 5-placing mechanisms, 51-first guide rods, 52-first springs, 53-placing tables, 54-clamping plates, 55-second springs, 56-first limiting rods, 57-racks, 6-pushing components, 61-transmission bars, 62-rotating shafts, 63-clamping blocks, 64-connecting rods, 65-rotating sleeves, 66-sliding sleeves, 67-tilting frames, 68-fixing seats, 69-third springs, 610-half gears, 611-shaft frames, 612-connecting frames, 613-rotating rods, 7-linkage components and 71-transmission gears, 72-transmission shaft, 73-transmission disc, 74-small slide bar, 75-fourth spring, 76-large slide bar, 77-sliding frame, 78-second limiting rod, 79-rotating seat, 710-shaft sleeve, 8-feeding assembly, 81-hanging frame, 82-second guide bar, 83-fifth spring, 84-wedge-shaped plate, 85-pressing plate, 86-special-shaped bar, 9-unlocking assembly, 91-movable frame, 92-wedge-shaped block and 93-push rod.
Detailed Description
The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Example 1
The utility model provides a KT board equidistance automatic cutting device, as shown in fig. 1, fig. 2, fig. 3 and fig. 4, including supporting legs 1, backup pad 2, bracing piece 3, cutting mechanism 4, placement mechanism 5 and propulsion assembly 6, supporting legs 1 is provided with four altogether, be connected with backup pad 2 between front and back 1 upper portions of both sides supporting legs, be connected with bracing piece 3 between the 1 middle part right side of right side supporting legs, 3 middle parts of bracing piece are equipped with cutting mechanism 4, be equipped with placement mechanism 5 between backup pad 2, be equipped with propulsion assembly 6 between 2 upper portions of backup pad and cutting mechanism 4.
The cutting mechanism 4 comprises a base 41, a servo motor 42, a rotary table 43, a cutting wheel 44 and a ring gear 45, the middle of the supporting rod 3 is connected with the base 41, the servo motor 42 is installed on the upper portion of the base 41, the left side of an output shaft of the servo motor 42 is connected with the rotary table 43, the right side of the rotary table 43 is connected with the ring gear 45, and the middle of the outer side of the rotary table 43 is connected with the cutting wheel 44.
Placing mechanism 5 is including first guide bar 51, first spring 52, place platform 53, splint 54, second spring 55, first gag lever post 56 and rack 57, bilateral symmetry is connected with first guide bar 51 between backup pad 2, sliding type is connected with places platform 53 between first guide bar 51, bilateral symmetry is connected with first spring 52 between placing platform 53 and the preceding lateral backup pad 2, first spring 52 overlaps on first guide bar 51, it has three first gag lever posts 56 all to separate even sliding type in both sides around placing platform 53, all be connected with splint 54 between the first gag lever post 56 inboard in both sides around, splint 54 outside and place platform 53 all separate even connection with three second spring 55, second spring 55 overlaps on first gag lever post 56, it is connected with rack 57 to place platform 53 upper portion left side.
The propelling component 6 comprises a transmission bar 61, a rotating shaft 62, a clamping block 63, a connecting rod 64, a rotating sleeve 65, a sliding sleeve 66, a tilting frame 67, a fixed seat 68, a third spring 69, a half gear 610, a shaft frame 611, a connecting frame 612 and a rotating rod 613, wherein the connecting frame 612 is connected between the upper parts of the supporting plates 2, the shaft frame 611 is connected between the upper parts of the connecting frame 612, the rotating shaft 62 is rotatably connected with the middle part of the shaft frame 611, the half gear 610 is connected with the left side of the rotating shaft 62, the half gear 610 is mutually matched with the rack 57, the sliding sleeve 66 is rotatably connected with the middle part of the rotating shaft 62, the third spring 69 is connected between the sliding sleeve 66 and the shaft frame 611, the third spring 69 is sleeved on the rotating shaft 62, the fixed seat 68 is connected with the front side of the upper part and the lower part of the fixed seat 68, the tilting frame 67 is rotatably, sliding sleeve 66 right side rotary type is connected with changes cover 65, changes cover 65 and pivot 62 sliding connection, and the pivot 62 right side is connected with transmission strip 61, and the equal sliding connection in both sides has clamp splice 63 around the transmission strip 61, and clamp splice 63 and carousel 43 mutually support, and the equal rotary type in clamp splice 63 left side is connected with connecting rod 64, and the connecting rod 64 left side all is connected with changes cover 65 rotary type.
When a user needs to cut a KT plate, firstly, the clamping plates 54 are pushed to move outwards, the second springs 55 are compressed, the KT plate can be pushed into the space between the clamping plates 54 from two sides, the KT plate is placed on the placing table 53, the clamping plates 54 are loosened, the clamping plates 54 are pushed to move inwards under the action of the second springs 55, the KT plate is clamped and fixed, then, after the KT plate is pushed to move backwards for a certain distance, the servo motor 42 is started to drive the rotary table 43 and the cutting wheel 44 to rotate, at the moment, the rotating rod 613 is pushed to rotate clockwise, the warping frame 67 is driven to rotate clockwise, the sliding sleeve 66 is driven to move rightwards, the third spring 69 is stretched, the rotating sleeve 65 is driven to move rightwards, the clamping blocks 63 are driven by the connecting rods 64 to move outwards, the clamping blocks 63 abut against the rotary table 43, the transmission bar 61 and the rotary table 43 are fixed together, at the moment, at the moment, the half gear 610 is meshed with the rack 57, so that the rack 57 is driven to move backwards, the placing table 53 and the KT board are driven to move backwards, the first spring 52 is stretched, the right side of the KT board is contacted with the cutting wheel 44 to cut the KT board, when the half gear 610 rotates for half a circle, the rack 57, the placing table 53 and the KT board move to the rearmost side, the KT board is cut, then the half gear 610 continues to rotate until the half gear is not meshed with the rack 57, the placing table 53 and the rack 57 are pushed to move forwards under the action of the first spring 52 to restore to the original state, after the half gear 610 rotates for a circle, the rotating rod 613 is released, the sliding sleeve 66 is pushed to move leftwards under the action of the third spring 69 to drive the warping frame 67 and the rotating rod 613 to rotate anticlockwise to return to the original position, the rotating sleeve 65 is driven to move leftwards at the same time, the clamping block 63 is driven by the connecting rod 64 to move inwards to, pivot 62 and half gear 610 stall resume to original state, promote the KT board again afterwards and move equal distance to the right to promote bull stick 613 clockwise rotation, accomplish the cutting of next KT board, so reciprocal, all KT boards all cut the back of finishing, close servo motor 42, and the device stops the function, reaches the effect that drives the KT board simply and conveniently and realize the equidistant cutting of KT board.
Example 2
On the basis of embodiment 1, as shown in fig. 1, 5 and 6, the present invention further comprises a linkage assembly 7, wherein the linkage assembly 7 comprises a transmission gear 71, a transmission shaft 72, a transmission disc 73, a small sliding rod 74, a fourth spring 75, a large sliding rod 76, a sliding carriage 77, a second limit rod 78, a rotation seat 79 and a shaft sleeve 710, the front side of the right portion of the support rod 3 is connected with the rotation seat 79, the upper portion of the rotation seat 79 is rotatably connected with the transmission shaft 72, the rear side of the transmission shaft 72 is connected with the transmission gear 71, the transmission gear 71 is engaged with the ring gear 45, the front side of the transmission shaft 72 is connected with the transmission disc 73, the front side of the lower portion of the transmission disc 73 is rotatably connected with the small sliding rod 74, the front side of the upper portion of the connecting frame 612 is rotatably connected with the second limit rod 78, the sliding carriage 77 is connected between the left side and the right side, the middle part of the right side of the sliding frame 77 is rotatably connected with a large sliding rod 76, the small sliding rod 74 is connected with the large sliding rod 76 in a sliding way, and a fourth spring 75 is connected between the small sliding rod 74 and the large sliding rod 76.
The clockwise rotation of the rotary disk 43 will drive the ring gear 45 to rotate clockwise, thereby driving the transmission gear 71 to rotate counterclockwise, further driving the transmission shaft 72 and the transmission disk 73 to rotate counterclockwise, driving the small slide bar 74 and the large slide bar 76 to move rightward, further driving the carriage 77 to move rightward, further driving the rotary bar 613 and the tilting rack 67 to rotate counterclockwise, driving the sliding sleeve 66 to move leftward, compressing the third spring 69, at this time, the KT plate will not move backward, after the carriage 77 abuts against the connecting rack 612 and does not move any more, the large slide bar 76 will stop moving, the small slide bar 74 will continue to move rightward, the fourth spring 75 will be stretched, subsequently, the transmission disk 73 will continue to rotate counterclockwise, driving the small slide bar 74 to move leftward, after the fourth spring 75 retracts to the original state, driving the large slide bar 76 to move leftward together, thereby driving the carriage 77 to move, driving the rotary bar 613 and the tilting rack 67 to rotate, the third spring 69 is continuously stretched after returning to the original state, and finally drives the KT plate to move backwards to complete cutting of the KT plate, after the sliding frame 77 moves leftwards to abut against the connecting frame 612, the large sliding rod 76 stops moving, the small sliding rod 74 continues to move leftwards, the fourth spring 75 is compressed, and continues to rotate anticlockwise along with the transmission disc 73, and drives the small sliding rod 74 to move rightwards again, after the fourth spring 75 returns to the original state, the large sliding rod 76 is driven to move rightwards together to the original position, the sliding frame 77 is driven to move rightwards, so that the rotating rod 613 and the warping frame 67 are driven to rotate anticlockwise, the sliding sleeve 66 is driven to move leftwards, the third spring 69 retracts to the original state and returns to the original state, and the reciprocating operation is carried out, and the effect of.
Still including feeding subassembly 8, feed subassembly 8 including gallows 81, second guide bar 82, fifth spring 83, wedge 84, clamp plate 85 and dysmorphism pole 86, balladeur train 77 lower part right side is connected with gallows 81, gallows 81 right part downside front and back symmetric connection has second guide bar 82, slidingtype connection has wedge 84 between the second guide bar 82 downside, front and back symmetric connection has fifth spring 83 between wedge 84 and gallows 81, fifth spring 83 overlaps on second guide bar 82, wedge 84 sub-unit connection has clamp plate 85, connecting frame 612 lower part front side front and back symmetric connection has dysmorphism pole 86, dysmorphism pole 86 and wedge 84 are mutually supported.
When the carriage 77 moves rightwards, the hanger 81, the wedge plate 84 and the pressing plate 85 are driven to move rightwards, the wedge plate 84 is pushed to move downwards after contacting the special-shaped rod 86, the fifth spring 83 is stretched to drive the pressing plate 85 to move downwards, the pressing plate 85 presses the KT plate tightly, the carriage 77 continues to move rightwards to drive the wedge plate 84 and the pressing plate 85 to continue to move rightwards, the wedge plate 84 continues to move downwards, the fifth spring 83 continues to be stretched, the pressing plate 85 drives the KT plate to move rightwards for a certain distance while pressing the KT plate, the wedge plate 84 passes through the special-shaped rod 86, under the action of the fifth spring 83, the wedge plate 84 and the pressing plate 85 are driven to move upwards, the pressing plate 85 is far away from the KT plate, then the carriage 77 moves leftwards to drive the hanger 81, the wedge plate 84 and the pressing plate 85 to move leftwards, the wedge plate 84 is driven to move upwards after, drive clamp plate 85 rebound, behind wedge 84 left movement kept away from special-shaped pole 86, under the effect of fifth spring 83, promote wedge 84 and clamp plate 85 rebound, resume to original state, so reciprocal, reach the effect that the equidistance of automatic drive KT board moved right, ensure that KT board equidistance cuts, use manpower sparingly.
Still including unblock subassembly 9, unblock subassembly 9 is including adjustable shelf 91, wedge 92 and push rod 93, and both sides all are connected with adjustable shelf 91 around the balladeur train 77 lower part, and the outside of adjustable shelf 91 lower part all is connected with wedge 92, and splint 54 upper portion right side all is connected with push rod 93, and push rod 93 and wedge 92 mutually support.
The balladeur train 77 moves to the right, will drive adjustable shelf 91 and wedge 92 and move to the right, wedge 92 contacts behind the push rod 93, will promote push rod 93 and move to the outside, drive splint 54 and move to the outside, second spring 55 is compressed, loosen the KT board, meanwhile clamp plate 85 compresses tightly the KT board and drives the KT board and move the equidistance to the right, balladeur train 77 moves left afterwards, drive adjustable shelf 91 and wedge 92 and move left and keep away from push rod 93, under the effect of second spring 55, promote splint 54 and push rod 93 and move to the inside, resume to original state, fasten the KT board clamp once more and fix, so reciprocal, reach the effect of automatic unblock KT board when moving the KT board, avoid leading to the KT board to damage or can't move because of frictional force problem, influence the cutting of KT.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.