CN215618655U

CN215618655U - Automatic perforating device of timber

Info

Publication number: CN215618655U
Application number: CN202122214477.8U
Authority: CN
Inventors: 卢德洪
Original assignee: Pan'an Shuangshen Handicraft Co ltd
Current assignee: Pan'an Shuangshen Handicraft Co ltd
Priority date: 2021-09-14
Filing date: 2021-09-14
Publication date: 2022-01-25
Anticipated expiration: 2031-09-14

Abstract

The utility model discloses an automatic wood punching device which comprises a rack, wherein a moving channel extending left and right is arranged above the middle part of a top plate of the rack, and a pressing through groove is formed in a side baffle at the rear part of the moving channel; a lower support frame is fixed on the top surface of a top plate of the rack right below the moving channel, a front punching device is installed on the front portion of the lower support frame, and a rear punching device is installed on the rear portion of the lower support frame; preceding perforating head is last to be installed two preceding perforating heads, and the last two back perforating heads of installing of back perforating device, preceding perforating head is facing to some logical grooves that punch of shaping on the side shield of moving channel's anterior, and the back perforating head is facing to compressing tightly logical groove. The wood sliding block to be processed can be compressed tightly and can be aligned with the front wall surface of the wood sliding block and the inner wall surface of the sliding groove to continuously punch, so that the punching effect is good, and the efficiency is high.

Description

Automatic perforating device of timber

The technical field is as follows:

the utility model relates to the technical field of wood processing equipment, in particular to an automatic wood punching device.

Background art:

among the wooden apparatus such as current painter, it is as required to adjust, need process wooden slider, a microscler spout can be processed at the preceding lateral wall middle part of its slider, need process the hole on the internal face of microscler spout, also need process the outer hole on the back wall of the slider that microscler spout corresponds, the outer hole needs communicate with each other with the hole that corresponds, simultaneously, the diameter of hole needs to be greater than the diameter of outer hole, when conveniently passing through the bolt fastening with slider and other parts, the head of bolt is in the hole, and the screw portion of bolt is in the outer hole, current mode is to fix the slider on the puncher, punch its preceding wall or back wall earlier, then, install the slider backward again, punch again, it needs twice clamping, punch twice, it is effectual, low efficiency.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provides an automatic wood punching device which can tightly press a wood sliding block to be processed and can continuously punch holes by aligning the front wall surface of the wood sliding block and the inner wall surface of a sliding groove, so that the punching effect is good and the efficiency is high.

The scheme for solving the technical problems is as follows:

an automatic timber punching device comprises a rack, wherein a moving channel extending left and right is arranged above the middle part of a top plate of the rack, and a side baffle at the rear part of the moving channel is provided with a pressing through groove in a molding manner;

a lower support frame is fixed on the top surface of a top plate of the rack right below the moving channel, a front punching device is installed on the front portion of the lower support frame, and a rear punching device is installed on the rear portion of the lower support frame;

preceding perforating head is last to be installed two preceding perforating heads, and the last two back perforating heads of installing of back perforating device, preceding perforating head is facing to some logical grooves that punch of shaping on the side shield of moving channel's anterior, and the back perforating head is facing to compressing tightly logical groove.

The lower support frame comprises two left and right corresponding fixing bottom plates extending front and back, connecting blocks are fixed on the top surfaces of the front portion and the rear portion of each fixing bottom plate, connecting guide rods extending front and back are fixed on the two connecting blocks, and the fixing bottom plates are fixed on the top surfaces of top plates of the rack.

The front punching device and the rear punching device respectively comprise guide moving blocks, a connecting guide rod is sleeved in a through hole penetrating through the middle of each corresponding guide moving block, a movable connecting plate is fixed on the top surfaces of the left and right corresponding guide moving blocks, two main shaft fixing seats are installed on the top surfaces of the movable connecting plates, a main shaft is fixed on a bearing inner ring of each main shaft fixing seat, one end of each main shaft extends out of each main shaft fixing seat and is fixed with a front punching head or a rear punching head, the other end of each main shaft extends out of each main shaft fixing seat and is fixed with a driving wheel, an upper movable supporting frame is fixed on the top surface of each movable connecting plate, a punching motor is installed on the top surface of a top plate of each upper movable supporting frame, a double-groove belt pulley is fixed on an output shaft of the punching motor, a belt is tensioned on the double-groove belt pulley and the corresponding driving wheel, and the belt is sleeved in the double-groove belt pulley and the corresponding driving wheel groove of the driving wheel;

and rotary hole pushing cylinders are fixed on the top surfaces of the top plates of the racks at the front part and the rear part of the lower support frame, rotary hole pushing blocks are fixed on the end parts of push rods of the rotary hole pushing cylinders, and the rotary hole pushing blocks are fixed on the corresponding movable connecting plates.

The movable sliding block is fixed on the movable connecting plate, the movable sliding block is fixed on the bottom surface of the main shaft fixing seat, a left dovetail sliding groove and a right dovetail sliding groove which penetrate through the bottom surface of the movable sliding block in a forming mode, the dovetail block is inserted into the corresponding dovetail sliding grooves in a sleeved mode, a locking bolt connecting through hole is formed in one side wall of the movable sliding block in a forming mode, a screw portion of an adjusting locking bolt is connected into the corresponding locking bolt connecting through hole in a threaded mode, the end portion of the screw portion of the adjusting locking bolt is pressed on the side wall of the corresponding dovetail block in a pressing mode, an adjusting locking nut is connected onto the screw portion of the adjusting locking bolt in a threaded mode, and the adjusting locking nut is pressed on the side wall of the corresponding movable sliding block in a pressing mode.

The side walls of two main shaft fixing seats of the rear punching device are respectively fixed with a guide supporting seat, the rear part of a top plate of the rack is fixed with a rear fixing frame, the top of the rear fixing frame is fixed with a rear connecting plate, the middle part of the front wall surface of the rear connecting plate is fixed with a compression guide cylinder, the end part of a push rod of the compression guide cylinder is fixed with a compression push plate, the front wall surface of the compression push plate is fixed with a front guide compression bar, the front guide compression bar is inserted in a guide through hole of the corresponding guide supporting seat, the front end of the front guide compression bar extends out of the front end of the guide supporting seat and is fixed with an auxiliary compression plate, the auxiliary compression plate is positioned in a compression through groove, an installation through hole is formed in the auxiliary compression plate, and a rear punching head faces the installation through hole and is positioned behind the auxiliary compression plate.

A motor fixing and adjusting plate is fixed on the bottom surface of the punching motor, one side of the motor fixing and adjusting plate passes through a hinge shaft, two ends of the hinge shaft extend out of the motor fixing and adjusting plate and are inserted and sleeved in the through holes of the corresponding vertical rods, one side of the top surface of the top plate of the upper movable support frame is fixed with two vertical rods, one side of the motor fixing and adjusting plate is movably connected onto the two vertical rods through a connecting shaft, a motor installation connection through groove is formed in the middle of the other side of the motor fixing and adjusting plate, a motor installation vertical screw rod is fixed on the top surface of the top plate of the upper movable support frame under the motor installation connection through groove, the top of the motor installation vertical screw rod extends out of the motor installation connection through groove and is screwed with a motor installation locking nut, the part of the motor installation vertical screw rod under the motor installation connection through groove is screwed with a motor installation locking nut, and the motor fixing and adjusting plate is clamped between the two corresponding motor installation locking nuts.

The utility model has the following outstanding effects:

the wood sliding block to be processed can be compressed tightly and can be aligned with the front wall surface of the wood sliding block and the inner wall surface of the sliding groove to continuously punch, so that the punching effect is good, and the efficiency is high.

Description of the drawings:

FIG. 1 is a partial side view of the present invention;

FIG. 2 is a partial top view of the present invention;

FIG. 3 is a schematic view of a partial structure at the post-punching apparatus of the present invention;

fig. 4 is a partial structural schematic diagram of the spindle fixing seat of the present invention.

The specific implementation mode is as follows:

in the embodiment, as shown in fig. 1 to 4, an automatic wood perforating device comprises a frame 10, wherein a moving channel extending from left to right is arranged above the middle part of a top plate of the frame 10, and a pressing through groove 125 is formed on a side baffle plate 12 at the rear part of the moving channel;

a lower support frame 20 is fixed on the top surface of the top plate of the machine frame 10 right below the moving channel, a front punching device 30 is installed on the front part of the lower support frame 20, and a rear punching device 40 is installed on the rear part of the lower support frame 20;

two front punching heads 31 are installed on the front punching device 30, two rear punching heads 41 are installed on the rear punching device 40, the front punching heads 31 face the punching through grooves 126 formed in the side baffle plates 12 in the front of the moving channel, and the rear punching heads 41 face the pressing through grooves 125.

Further, the lower supporting frame 20 includes two front and rear extending fixing bottom plates 21 corresponding to each other in the left-right direction, connecting blocks 22 are fixed to the front and rear top surfaces of the fixing bottom plates 21, connecting guide rods 23 extending in the front-rear direction are fixed to the two connecting blocks 22, and the fixing bottom plates 21 are fixed to the top surface of the top plate of the rack 10.

Further, the front punching device 30 and the rear punching device 40 both comprise guide moving blocks 32, the connecting guide rods 23 are inserted in through holes penetrating through the middle portions of the corresponding guide moving blocks 32, the movable connecting plate 33 is fixed on the top surfaces of the left and right corresponding guide moving blocks 32, two spindle fixing seats 34 are mounted on the top surface of the movable connecting plate 33, spindles 35 are fixed on bearing inner rings of the spindle fixing seats 34, one ends of the spindles 35 extend out of the spindle fixing seats 34 and are fixed with front punching heads 31 or rear punching heads 41, the other ends of the spindles 35 extend out of the spindle fixing seats 34 and are fixed with driving wheels 351, upper movable supporting frames 36 are fixed on the top surfaces of the top plates of the upper movable supporting frames 36, punching motors 37 are mounted on the top surfaces of the top plates of the upper movable supporting frames 36, double-groove belt pulleys 371 are fixed on output shafts of the punching motors 37, and belts are tensioned on the double-groove belt pulleys 371 and the corresponding driving wheels 351, the belt is inserted in the double-groove belt pulley 371 and the corresponding groove of the driving wheel 351;

rotary hole pushing cylinders 24 are fixed on the top surfaces of the top plates of the frame 10 at the front part and the rear part of the lower support frame 20, rotary hole pushing blocks 25 are fixed on the ends of push rods of the rotary hole pushing cylinders 24, and the rotary hole pushing blocks 25 are fixed on corresponding movable connecting plates 33.

Further, a dovetail block 38 is fixed on the movable connecting plate 33, a movable slider 341 is fixed on the bottom surface of the spindle fixing base 34, a dovetail sliding groove penetrating left and right is formed on the bottom surface of the movable slider 341, the dovetail block 38 is inserted into the corresponding dovetail sliding groove, a locking screw through hole is formed on one side wall of the movable slider 341, a screw portion of the adjusting locking bolt 342 is screwed into the corresponding locking screw through hole, an end portion of the screw portion of the adjusting locking bolt 342 is pressed against the side wall of the corresponding dovetail block 38, an adjusting locking nut 343 is screwed onto the screw portion of the adjusting locking bolt 342, and the adjusting locking nut 343 is pressed against the side wall of the corresponding movable slider 341.

Further, the side walls of the two spindle fixing seats 34 of the rear punching device 40 are fixed with guide supporting seats 42, the rear portion of the top plate of the frame 10 is fixed with a rear fixing frame 43, the top portion of the rear fixing frame 43 is fixed with a rear connecting plate, the middle portion of the front wall surface of the rear connecting plate is fixed with a compression guide cylinder 44, the end portion of a push rod of the compression guide cylinder 44 is fixed with a compression pushing plate 45, the front wall surface of the compression pushing plate 45 is fixed with a front guide pressing rod 46, the middle portion of the compression pushing plate 45 is formed with a transverse adjusting through groove extending left and right, a screw joint portion formed in the middle portion of the rear end surface of the front guide pressing rod 46 is inserted and sleeved in the transverse adjusting through groove, the rear end of the screw joint portion of the rear end of the front guide pressing rod 46 extends out of the rear wall surface of the compression pushing plate 45 and is screwed with a fixing nut, and the compression pushing plate 45 is clamped between the rear end surface of the front guide pressing rod 46 and the fixing nut;

the front guide compression bar 46 is inserted in the guide through hole of the corresponding guide support seat 42, the front end of the front guide compression bar 46 extends out of the front end of the guide support seat 42 and is fixed with an auxiliary compression plate 47, the auxiliary compression plate 47 is positioned in the compression through groove 125, an installation through hole is formed in the auxiliary compression plate 47, and the rear punching head 41 faces the installation through hole and is positioned behind the auxiliary compression plate 47.

Further, a motor fixing and adjusting plate 372 is fixed on the bottom surface of the punching motor 37, one side of the motor fixing and adjusting plate 372 passes through a hinge shaft, two ends of the hinge shaft extend out of the motor fixing and adjusting plate 372 and are inserted into through holes of corresponding vertical rods, two vertical rods are fixed on one side of the top plate of the upper moving support frame 36, one side of the motor fixing and adjusting plate 372 is movably connected to the two vertical rods through a connecting shaft, a motor mounting and connecting through groove is formed in the middle of the other side of the motor fixing and adjusting plate 372, a motor mounting vertical screw 361 is fixed on the top plate of the upper moving support frame 36 right below the motor mounting and connecting through groove, the top of the motor mounting vertical screw 361 extends out of the motor mounting and connecting through groove and is screwed with a motor mounting and locking nut 362, and the part of the motor mounting vertical screw 361 below the motor mounting and connecting through groove is also screwed with a motor mounting and locking nut 362, the motor fixing adjustment plate 372 is clamped between the corresponding two motor mounting lock nuts 362.

In the present embodiment, when the wooden slider 100 moves from right to left through the moving channel, when the rear portion of the middle portion of the wooden slider 100 moves to face the pressing through-groove 125 (generally, when the subsequent wooden slider 100 on the right side is continuously pushed by the pushing device on the right side to move to left, so that the wooden slider 100 on the front portion moves to this position), each time the wooden slider 100 is pushed, the pushing rod of the pressing guide cylinder 44 pushes, so that the auxiliary pressing plate 47 presses against the rear wall surface of the left portion or the right portion of the corresponding wooden slider 100, so that the front wall surface of the wooden slider 100 presses against the inner wall surface of the side fence 12 on the front portion of the moving channel, so as to achieve pressing, then, the punching motor 37 of the post-punching device 40 operates, so that the post-punching head 41 rotates, and the pushing rod of the cylinder 24 retracts through the rotary hole of the post-punching device 40, the rear punching head 41 is moved forward, the end part of the rear punching head extends out of the mounting through hole of the auxiliary pressure strip 47 and punches the rear wall surface of the left part or the right part of the corresponding wood sliding block 100, after punching is completed, the push rod of the rotary hole pushing cylinder 24 of the rear punching device 40 pushes and returns, then the punching motor 37 of the front punching device 30 operates, the front punching head 31 rotates and retracts by the push rod of the rotary hole pushing cylinder 24 of the front punching device 30, so that the front punching head 31 moves backward, the end part of the front punching head passes through the punching through groove 126 and punches a hole on the inner wall surface of the sliding groove of the front part of the left part or the right part of the corresponding wood sliding block 100, the hole processed at the position corresponds to and communicates with the hole processed by the corresponding rear punching head 41, thereby completing the processing, then, all the components return to move leftward by the subsequent wood sliding block 100, so that the processed wood sliding block 100 moves leftward, the processing station is moved out, a series of processing is controlled by a control host machine to realize continuous processing, and the control host machine is a common part which can be directly purchased in the market, so that the detailed description is omitted and is not shown in the attached drawings.

When the device is used, the adjusting locking nut 343 and the adjusting locking bolt 342 can be loosened, so that the position of the main shaft fixing seat 34 on the dovetail-shaped block 38 can be moved as required, and after the adjustment is completed, the adjusting locking nut 343 and the adjusting locking bolt 342 can be tightened, wherein when the main shaft fixing seat 34 of the rear punching device 40 is adjusted, the fixing nut of the front guide pressure rod 46 needs to be loosened, so that when the device is adjusted, the front guide pressure rod 46 can be moved and adjusted along the transverse adjusting through groove of the pressing pushing plate 45, and after the adjustment is completed, the fixing nut can be tightened, so that the front punching head 31 and the corresponding rear punching head 41 can be aligned front and back;

in this embodiment, when its belt needs to be changed or maintained, only need to rotate motor installation lock nut 362 of motor installation vertical screw 361, make the slope of motor fixed regulating plate 372, make the belt not tensioning on double flute belt pulley 371 and the drive wheel 351 that corresponds, make the belt not hard up, can dismantle it and change, accomplish the installation back, rotate regulating motor installation lock nut 362 again, make the centre gripping of motor fixed regulating plate 372 between two motor installation lock nuts 362 that correspond, accomplish the installation and guarantee the belt tensioning on double flute belt pulley 371 and the drive wheel 351 that corresponds, it is fixed to realize, it changes or maintains conveniently, improve the work efficiency that the maintenance was maintained.

The above embodiments are only for illustrating the utility model and are not to be construed as limiting the utility model, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model, therefore, all equivalent technical solutions also belong to the scope of the utility model, and the scope of the utility model is defined by the claims.

Claims

1. The utility model provides an automatic perforating device of timber, includes frame (10), the removal passageway that extends about the middle part top of the roof of frame (10) is installed, its characterized in that: a compaction through groove (125) is formed in the side baffle (12) at the rear part of the moving channel;

a lower support frame (20) is fixed on the top surface of a top plate of the rack (10) right below the moving channel, a front punching device (30) is installed on the front part of the lower support frame (20), and a rear punching device (40) is installed on the rear part of the lower support frame (20);

two front punching heads (31) are installed on the front punching device (30), two rear punching heads (41) are installed on the rear punching device (40), the front punching heads (31) face to the punching through grooves (126) formed in the side baffle plates (12) in the front of the moving channel, and the rear punching heads (41) face to the pressing through grooves (125).

2. An automatic timber perforating device as claimed in claim 1, wherein: the lower support frame (20) comprises two front and rear extending fixing bottom plates (21) corresponding to each other in the left and right direction, connecting blocks (22) are fixed to the top surfaces of the front portion and the rear portion of each fixing bottom plate (21), connecting guide rods (23) extending in the front and rear direction are fixed to the two connecting blocks (22), and the fixing bottom plates (21) are fixed to the top surface of a top plate of the rack (10).

3. An automatic timber perforating device as claimed in claim 2, wherein: the front punching device (30) and the rear punching device (40) both comprise guide moving blocks (32), connecting guide rods (23) are inserted in through holes in the middle of the corresponding guide moving blocks (32), a movable connecting plate (33) is fixed on the top surfaces of the left and right corresponding guide moving blocks (32), two main shaft fixing seats (34) are installed on the top surface of the movable connecting plate (33), a main shaft (35) is fixed on a bearing inner ring of each main shaft fixing seat (34), one end of each main shaft (35) extends out of each main shaft fixing seat (34) and is fixed with a front punching head (31) or a rear punching head (41), the other end of each main shaft (35) extends out of each main shaft fixing seat (34) and is fixed with a driving wheel (351), an upper movable supporting frame (36) is fixed on the top surface of the movable connecting plate (33), and a punching motor (37) is installed on the top surface of a top plate of the upper movable supporting frame (36), a double-groove belt pulley (371) is fixed on an output shaft of the punching motor (37), a belt is tensioned on the double-groove belt pulley (371) and the corresponding transmission wheel (351), and the belt is inserted in the grooves of the double-groove belt pulley (371) and the corresponding transmission wheel (351);

the top surfaces of top plates of the rack (10) at the front part and the rear part of the lower support frame (20) are respectively fixed with a rotary hole pushing cylinder (24), the end part of a push rod of the rotary hole pushing cylinder (24) is fixed with a rotary hole pushing block (25), and the rotary hole pushing block (25) is fixed on a corresponding movable connecting plate (33).

4. An automatic timber perforating device as claimed in claim 3, wherein: the movable connecting plate (33) is fixed with a dovetail block body (38), the bottom surface of the main shaft fixing seat (34) is fixed with a movable sliding block (341), the bottom surface of the movable sliding block (341) is formed with a dovetail sliding groove which penetrates through the movable sliding block from left to right, the dovetail block body (38) is inserted in the corresponding dovetail sliding groove in a sleeved mode, one side wall of the movable sliding block (341) is formed with a locking bolt connection through hole, a screw rod part of an adjusting locking bolt (342) is in threaded connection with the corresponding locking bolt connection through hole, the end part of the screw rod part of the adjusting locking bolt (342) is pressed against the side wall of the corresponding dovetail block body (38), the screw rod part of the adjusting locking bolt (342) is in threaded connection with an adjusting locking nut (343), and the adjusting locking nut (343) is pressed against the side wall of the corresponding movable sliding block (341).

5. An automatic timber perforating device as claimed in claim 3, wherein: the side walls of two main shaft fixing seats (34) of the rear punching device (40) are respectively fixed with a guide supporting seat (42), the rear part of a top plate of the frame (10) is fixed with a rear fixing frame (43), the top part of the rear fixing frame (43) is fixed with a rear connecting plate, the middle part of the front wall surface of the rear connecting plate is fixed with a compression guide cylinder (44), the end part of a push rod of the compression guide cylinder (44) is fixed with a compression push plate (45), the front wall surface of the compression push plate (45) is fixed with a front guide pressure rod (46), the front guide pressure rod (46) is inserted and sleeved in a guide through hole of the corresponding guide supporting seat (42), the front end of the front guide compression bar (46) extends out of the front end of the guide support seat (42) and is fixed with an auxiliary compression plate (47), the auxiliary compression plate (47) is positioned in the compression through groove (125), the auxiliary pressing plate (47) is provided with a mounting through hole in a molding mode, and the rear punching head (41) faces the mounting through hole and is located behind the auxiliary pressing plate (47).

6. An automatic timber perforating device as claimed in claim 3, wherein: a motor fixing adjusting plate (372) is fixed on the bottom surface of the punching motor (37), one side of the motor fixing adjusting plate (372) passes through a hinged shaft, two ends of the hinged shaft extend out of the motor fixing adjusting plate (372) and are inserted into through holes of corresponding vertical rods, two vertical rods are fixed on one side of the top plate of the upper moving support frame (36), one side of the motor fixing adjusting plate (372) is movably connected onto the two vertical rods through a connecting shaft, a motor mounting connecting through groove is formed in the middle of the other side of the motor fixing adjusting plate (372), a motor mounting vertical screw rod (361) is fixed on the top plate of the upper moving support frame (36) right below the motor mounting connecting through groove, the top of the motor mounting vertical screw rod (361) extends out of the motor mounting connecting through groove and is in threaded connection with a motor mounting locking nut (362), and a part of the motor mounting vertical screw rod (361) below the motor mounting connecting through groove is also in threaded connection with a motor mounting locking nut (362), the motor fixing adjusting plate (372) is clamped between the two corresponding motor mounting locking nuts (362).