CN113510814A - Loudspeaker box shell composite processing device and using method thereof - Google Patents

Abstract

The invention discloses a composite processing device for a sound box shell and a using method thereof, and the composite processing device comprises a workbench, wherein a first cavity is arranged in the workbench, a clamping device is arranged in the first cavity, the clamping device can fix log positioned on the upper side surface of the workbench, and a support frame is fixedly arranged on the upper side surface of the workbench; the waste material generated in the cutting process can be utilized, the waste material can be processed into the cover plate, and the waste material can be processed into the raw material of the supporting leg preliminarily; the wood cutting machine provided by the invention can be used for cutting wood by using a wire saw method so as to ensure the smoothness of the cutting surface, can be used for fully automatically cutting, reducing the size error, and can be used for enabling workers to be far away from wood chips so as to ensure the health of the workers.

Description

Loudspeaker box shell composite processing device and using method thereof

Technical Field

The invention relates to the technical field of sound boxes, in particular to a sound box shell composite processing device and a using method thereof.

Background

A speaker refers to a device that can convert an audio signal into sound. The popular way is that a power amplifier is arranged in a main box body or a bass box body of the sound box, and the sound is emitted back by the sound box after the audio signal is amplified, so that the sound is increased.

At present, large-scale flow line production is adopted, the size and the specification of the loudspeaker box are mostly limited, and the appearance of the loudspeaker box is mostly uniform, so that customers with customized requirements are difficult to meet.

Disclosure of Invention

The invention aims to provide a sound box shell composite processing device and a using method thereof, which are used for overcoming the defects in the prior art.

The invention relates to a composite processing device for a loudspeaker box shell, which comprises a workbench, wherein a first cavity is arranged in the workbench, a clamping device is arranged in the first cavity, the clamping device can fix logs on the upper side surface of the workbench, a support frame is fixedly arranged on the upper side surface of the workbench, the support frame is arranged on the rear side of the first cavity, a first control groove with a forward opening is arranged in the support frame, a first sliding block is connected in the first control groove in a vertical sliding manner, a first motor is arranged in the lower side surface of the first control groove, the upper side surface of the first motor is provided with a first threaded shaft which is connected with the first sliding block in a threaded manner and is rotatably connected with the upper side surface of the first control groove, a second control groove is arranged in the front side surface of the first sliding block, and a second sliding block is connected in the second control groove in a left-right sliding manner, be equipped with the motor No. two in the trailing flank of No. two control flumes, the leading flank of motor No. two is installed and is extended to in the slider No. two, and with slider threaded connection's No. two threaded shafts, the slider extends to the front side of support frame forward, and the front end of slider No. two is equipped with bearing block admittedly, the left end of bearing block admittedly is equipped with left fixed block, and the right-hand member of bearing block has set firmly right fixed block, the downside left and right sliding connection of left fixed block has left cutting block, the downside left and right sliding connection of right fixed block has right cutting block, be equipped with threading device in left cutting block and the right cutting block, threading device can pass the log with the coping saw to be equipped with in the bearing block and can drive left cutting block with right cutting block simultaneous movement's drive arrangement, the upside of workstation has set firmly the mount, be equipped with the pre-treatment equipment that can punch the preprocessing to the log in the mount, and pre-treatment equipment can transport by the waste material that the coping saw cut out, be equipped with post-treatment equipment in the workstation, post-treatment equipment can be processed into the apron with the waste material of being transported to can convert the waste material into the raw materials of supporting legs.

Optionally, clamping device is including locating upwards two through-holes that link up in the side on a cavity, sliding connection has two grip blocks, two around in the lower side of a cavity the grip block is respectively through two the through-hole extends to the upside of workstation, be equipped with No. three motors in the cavity trailing flank, No. three motor leading flank installs threaded connection in two the No. three threaded shaft of grip block.

Optionally, the threading device comprises a wire outgoing groove which is arranged in the right cutting block and has a leftward opening, a fourth motor is arranged in the rear side face of the wire outgoing groove, a winding shaft which is rotatably connected to the front side face of the wire outgoing groove is mounted on the front side face of the fourth motor, the wire saw is wound on the winding shaft, a fixing bead is fixedly arranged at the tail end of the wire saw, two extending shafts are rotatably connected to the front side face and the rear side face of the wire outgoing groove, the extending shafts are located on the left side of the winding shaft, the fixing bead is located on the left side of the extending shaft, a wire connecting groove is arranged in the right side face of the left cutting block, a fifth motor is arranged in the left side face of the wire connecting groove, a fourth threaded shaft is mounted on the right side face of the fifth motor, a first connecting block which is in threaded connection with the fourth threaded shaft is slidably connected to the left and right in the wire connecting groove, and a downward through is arranged in the lower side face of the first connecting block, and control the smooth chamber that link up, sliding connection has No. two lugs about in the smooth chamber, the left downside of No. two lugs is the inclined plane, the downside of left side cutting block has set firmly the sloping, the inclined plane sliding connection of No. two lugs in the side of sloping.

Optionally, the driving device comprises a second cavity arranged in the bearing block, a sixth motor is fixedly arranged on the lower side surface of the right fixed block, a first rotating shaft extending into the second cavity is arranged on the upper side surface of the sixth motor, a disc is fixedly arranged at the upper end of the first rotating shaft, a first communicating groove which penetrates downwards and is communicated with the second cavity is arranged in the left fixed block, a second communicating groove communicated with the second cavity and communicated downwards is arranged in the right fixed block, a driving plate is connected in the second cavity in a left-right sliding manner, a circular groove which is communicated up and down is arranged in the driving plate, the upper side of the disc is fixedly provided with an extension column extending into the circular groove, the lower side of the driving plate is fixedly provided with a first fixing plate and a second fixing plate, the lower end of the first fixing plate is fixed on the upper side surface of the left cutting block, and the lower end of the second fixing plate is fixed on the upper side surface of the right cutting block.

Optionally, the preprocessing device comprises a seventh motor fixedly arranged on the right side surface of the fixing frame, a second through hole and a third through hole which are communicated with each other are arranged in the fixing frame, a left side surface of the seventh motor is provided with a punching drill bit which passes through the second through hole and extends to the left side of the fixing frame, a first annular groove is arranged in the annular surface of the second through hole, a second annular groove communicated with the first annular groove is arranged in the annular surface of the third through hole, a first gear is arranged on the annular surface of the punching drill bit, the first gear is positioned in the first annular groove, a second gear meshed with the first gear is rotationally connected in the second annular groove, an inner annular surface of the second gear is fixedly provided with an inner thread block, the inner thread block is in threaded connection with a threaded rod, a sliding groove is arranged in the annular surface of the threaded rod, and a spring groove is arranged in the upper side surface of the third through hole, the spring slot is internally and vertically connected with a limiting block in a sliding mode, the limiting block is connected to the upper side face of the spring slot through a spring, and an electromagnet capable of repelling the limiting block is arranged in the upper side face of the spring slot.

Optionally, the fixture comprises a third cavity arranged in the workbench, the third cavity is positioned on the right side of the first cavity, an eighth motor is arranged in the lower side surface of the third cavity, a fifth threaded shaft is arranged on the upper side surface of the eighth motor, a supporting block is connected to the fifth threaded shaft through threads, a ninth motor is arranged in the left side surface of the supporting block, a second rotating shaft is arranged on the left side surface of the ninth motor, two first cutter discs are arranged on the second rotating shaft, an extending block is fixedly arranged on the left side surface of the supporting block, a third rotating shaft is arranged on the front side surface of the extending block, a second cutter disc is arranged on the third rotating shaft, a fourth rotating shaft is arranged on the front side surface of the extending block, the fourth rotating shaft and the third rotating shaft are connected through a synchronous belt, and a first bevel gear is arranged at the front end of the fourth rotating shaft, be equipped with on No. two axis of rotation with No. two bevel gear of a bevel gear meshing, the side of going up of workstation has set firmly the butt plate, the left surface of butt plate has No. three sliders through two spring coupling on the front and back No. two, be equipped with the electro-magnet No. two that can attract No. three sliders in the butt plate, be equipped with in the side of going up of No. three cavities upwards link up for supply No. two blade discs with No. four through-holes that a blade disc passes through.

A use method of a sound box shell composite processing device comprises the following specific steps:

firstly, when the size of the sound box needs to be customized, a worker enables a seventh motor to be electrified, the seventh motor drives a punching drill bit and a first gear to rotate when being electrified, the first gear drives a second gear and a thread block in the second gear to rotate when rotating, a threaded rod is driven to rotate at the moment, then the worker punches the log by using the punching drill bit, and the seventh motor is powered off after a through hole is punched in the log;

after the second step, a worker places the log on the upper side of the workbench between the clamping plates and enables the log to abut against the left side face of the right cutting block, then the third motor is electrified, the third motor drives the third threaded shaft to rotate to enable the clamping plates to move inwards when being electrified, the third motor is powered off after the clamping plates complete clamping on the log, the fourth motor is powered on and the fifth motor is powered on, the first connecting block is driven to move rightwards when the fifth motor is powered on, the second connecting block moves downwards when the first connecting block moves rightwards, the first connecting block moves for a certain time and abuts against the left side face of the log, the fifth motor is powered off, the fourth motor drives the winding shaft to rotate when being powered on, the fretsaw and the fixed beads enter through holes in the log, and the fixed beads move into the wiring grooves on the left side of the first connecting block after passing through the through holes for a certain time, then the fifth motor is electrified and drives the first wiring block to move leftwards, after a certain time, the fifth motor is powered off, the first wiring block and the second wiring block are attached to each other, the fixing beads are positioned on the left side of the first wiring block, then the fourth motor drives the winding shaft to rotate reversely until the wire saw positioned in the log is tightened, and at this time, the threading and fixing work of the wire saw is finished;

thirdly, the sixth motor is electrified and drives the first rotating shaft to rotate, the first rotating shaft drives the disc to rotate the extending column when rotating, the drive plate is driven to move left and right periodically in the rotation process of the disc, the left cutting block and the right cutting block are driven to move left and right, then the first motor and the second motor are electrified to enable the bearing block to move longitudinally and transversely, and the logs can be cut in a controllable size, when the fretsaw in the log moves for a circle, the fretsaw moves to the initial position, the cutting of the log is completed, then the fifth motor is electrified, the fourth motor is electrified to recover the fretsaw, when the fixed ball abuts against the extension shaft again, the fourth motor is powered off, then the fourth threaded shaft rotates reversely until the first wiring block and the second wiring block are completely positioned in the wiring groove, and at the moment, the resetting work of the wire saw is completed;

fourthly, after cutting, a motor is powered on and drives the bearing block until the bearing block moves to the upper limit position, the right cutting block is positioned at the upper side of the log, a motor seven is powered on and an electromagnet one is powered on, a limiting block moves into the chute in the process of rotating the threaded rod, the threaded rod stops rotating and starts moving rightwards when the limiting block moves into the chute, a block which is cut by the wire saw and separated from the log is pushed by the threaded rod and moves to the right side of the sliding block three, the motor seven drives the punching drill bit to rotate reversely after a certain time, the motor seven is powered off and the electromagnet is powered off when the threaded rod is reset and moves to the left side of the left cutting block again, and the motor one drives the bearing block to move downwards until the bearing block moves to the preset height;

no. two electro-magnets circular telegrams and attracts No. three slider after the fifth step, the column that lies in No. three left sliders this moment can butt in butt joint board and No. three sliders and accomplish the centre gripping, later No. eight motor circular telegrams and No. nine motor circular telegrams, can drive a blade disc and No. two blade disc upward movements when eight motor circular telegrams, can drive a blade disc and No. two blade disc rotations when nine motor circular telegrams, No. two blade discs and a blade disc can cut the bulk into two boards and two blocks this moment, wherein the apron of stereo set can be regarded as to the board, the supporting legs that can become the audio amplifier after the piece is through the grinding, and the staff can be through driving No. three threaded shaft and take out the log through the cutting this moment, log memory is at this moment in one size customization and control the through-hole that link up, and the log can become the audio amplifier shell through simple outer processing this moment.

The invention has the beneficial effects that: the invention can customize the size of the inner cavity of the sound box, so that the sound box can be simply and conveniently processed into sound boxes with different specifications;

the waste material generated in the cutting process can be utilized, the waste material can be processed into the cover plate, and the waste material can be processed into the raw material of the supporting leg preliminarily;

the wood cutting machine provided by the invention can be used for cutting wood by using a wire saw method so as to ensure the smoothness of the cutting surface, can be used for fully automatically cutting, reducing the size error, and can be used for enabling workers to be far away from wood chips so as to ensure the health of the workers.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Fig. 1 is a schematic structural view of a loudspeaker box casing composite processing device of the present invention;

FIG. 2 is a schematic view of the fixture of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 1 at the location of the bearing block;

FIG. 4 is a schematic view of the structure of the cavity III in FIG. 1;

fig. 5 is a schematic view of the structure a-a in fig. 1.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-5, a loudspeaker box shell composite processing device according to an embodiment of the present invention includes a workbench 11, a first cavity 12 is provided in the workbench 11, a clamping device 101 is provided in the first cavity 12, the clamping device 101 can fix logs on an upper side of the workbench 11, a support frame 13 is fixedly provided on the upper side of the workbench 11, the support frame 13 is provided on a rear side of the first cavity 12, a first control groove 14 with a forward opening is provided in the support frame 13, a first slide block 15 is slidably connected in the first control groove 14 up and down, a first motor 16 is provided in a lower side of the first control groove 14, a first threaded shaft 17 threadedly connected to the first slide block 15 and rotatably connected to an upper side of the first control groove 14 is provided on an upper side of the first slide block 15, a second control groove 18 is provided in a front side of the first slide block 15, no. two slider 19 of horizontal sliding connection in No. two control grooves 18, be equipped with No. two motor 20 in No. two control grooves 18's the trailing flank, the leading flank of No. two motor 20 is installed and is extended to in No. two slider 19, and with No. two threaded spindle 21 of No. two slider 19 threaded connection, No. two slider 19 extends forward to the front side of support frame 13, and No. two slider 19's front end is equipped with bearing block 22 admittedly, bearing block 22's left end is equipped with left fixed block 23 admittedly, and bearing block 22's right-hand member has set firmly right fixed block 24, the downside horizontal sliding connection of left fixed block 23 has left cutting block 25, the downside horizontal sliding connection of right fixed block 24 has right cutting block 26, be equipped with threading device 102 in left cutting block 25 and the right cutting block 26, threading device 102 can pass log 32, and be equipped with in the carrier block 22 and drive left cutting block 25 with right cutting block 26 synchronous motion's drive arrangement 103, the side has set firmly the mount 27 on workstation 11, be equipped with in the mount 27 and carry out the preprocessing equipment 104 that punches preprocessing to the log to preprocessing equipment 104 can transport the waste material of being cut out by the coping saw 32, be equipped with aftertreatment equipment 105 in workstation 11, aftertreatment equipment 105 can be processed into the apron with the waste material of transporting, and can convert the waste material into the raw materials of supporting legs.

Preferably, clamping device 101 is including locating upwards two through-holes that link up in the side on cavity 12, sliding connection has two grip blocks 28 around in the lower side of cavity 12, two grip blocks 28 are respectively through two the through-hole extends to the upside of workstation 11, be equipped with No. three motors in the cavity 12 trailing flank, No. three motor leading flank installs threaded connection in two No. three threaded shaft 29 of grip block 28.

Preferably, the threading device 102 includes an outlet groove 30 which is arranged in the right cutting block 26 and has a left opening, a fourth motor is arranged in the rear side of the outlet groove 30, the front side of the fourth motor is provided with a winding shaft 31 rotatably connected in the front side of the outlet groove 30, the wire saw 32 is wound on the winding shaft 31, and the end of the wire saw 32 is fixedly provided with a fixing ball 77, the front side and the rear side of the outlet groove 30 are rotatably connected with two extending shafts 33, the extending shaft 33 is positioned at the left side of the winding shaft 31, the fixing ball 77 is positioned at the left side of the extending shaft 33, a wire connecting groove 34 is arranged in the right side of the left cutting block 25, a fifth motor 35 is arranged in the left side of the wire connecting groove 34, a fourth threaded shaft 36 is arranged on the right side of the fifth motor 35, a first wire connecting block 37 in threaded connection with the fourth threaded shaft 36 is slidably connected in the wire connecting groove 34 from left to right, be equipped with in the downside of a junction block 37 and link up downwards to control smooth chamber 38 that link up, sliding connection has No. two junction blocks 39 about in the smooth chamber 38, No. two junction blocks 39's the downside of a left side is the inclined plane, the downside of left side cutting block 25 has set firmly sloping block 40, No. two junction blocks 39's inclined plane sliding connection in sloping block 40's side.

Preferably, the driving device 103 includes the cavity 42 No. two in locating the carrier block 22, set firmly No. six motors 43 on the downside of the right fixed block 24, the last side-mounting of No. six motors 43 extends to a rotation axis 44 in the cavity 42 No. two, the upper end of a rotation axis 44 has set firmly the disc 45, be equipped with in the left fixed block 23 and link up downwards and with a intercommunication groove 46 of cavity 42 intercommunication No. two, be equipped with in the right fixed block 24 with No. two cavity 42 intercommunication and No. two intercommunication grooves 47 that link up downwards, sliding connection has the drive plate 48 in No. two cavities 42, be equipped with the circular slot that link up from top to bottom in the drive plate 48, the last side of disc 45 has set firmly extends to the extension post in the circular slot, the downside of drive plate 48 has set firmly fixed plate 49 and No. two fixed plates 50, the lower extreme of fixed plate 49 is fixed in the last side of left cutting block 25, and the lower end of the second fixing plate 50 is fixed to the upper side of the right cutting block 26.

Preferably, preprocessing device 104 including set firmly in No. seven motor 52 of mount 27 right flank, be equipped with about being equipped with in mount 27 through-hole 53 and No. three through-hole 54 that link up, the left surface of No. seven motor 52 is installed and is passed through No. two through-holes 53 and extend to the left drill bit 55 of mount 27, be equipped with annular 56 in the anchor ring of No. two through-holes 53, be equipped with in the anchor ring of No. three through-holes 54 with No. two annular of annular 56 intercommunication, be equipped with a gear 57 on the anchor ring of drill bit 55, a gear 57 is located in annular 56, No. two annular internal rotations be connected with No. two gears of a gear 57 meshing, the internal ring face of No. two gears has set firmly the internal thread piece, internal thread piece threaded connection has threaded rod 58, be equipped with spout 59 in the anchor ring face of threaded rod 58, a spring groove 60 is formed in the upper side face of the third through hole 54, a limiting block 61 is connected in the spring groove 60 in a vertical sliding mode, the limiting block 61 is connected to the upper side face of the spring groove 60 through a first spring, and a first electromagnet 62 capable of repelling the limiting block 61 is arranged in the upper side face of the spring groove 60.

Preferably, 105 including locating No. three cavities 63 in the workstation 11, No. three cavities 63 are located the right side of a cavity 12, be equipped with No. eight motors 64 in the downside of No. three cavities 63, No. five threaded spindle 65 are installed to the side of going up of No. eight motors 64, threaded connection has supporting shoe 66 on the No. five threaded spindle 65, be equipped with No. nine motors 67 in the left surface of supporting shoe 66, No. two axis of rotation 68 are installed to the left surface of No. nine motors 67, install two cutterheads 69 on the No. two axis of rotation 68, the left surface of supporting shoe 66 has set firmly the extension piece, No. three axis of rotation are installed to the leading flank of extension piece, be equipped with No. two cutterheads 70 on No. three axis of rotation, the leading flank of extension piece is installed No. four axis of rotation, No. four axis of rotation with No. three axis of rotation are connected through the hold-in range, and the front end of No. four axis of rotation is equipped with bevel gear, be equipped with on No. two axis of rotation 68 with No. two bevel gear of bevel gear meshing, the side of going up of workstation 11 has set firmly butt joint board 71, No. three slider 72 of two spring coupling in front and back are passed through to butt joint board 71's left surface, be equipped with in the butt joint board 71 and attract No. two electro-magnets 73 of No. three slider 72, be equipped with upwards in the side of going up of No. three cavity 63 and link up for No. four through-holes that No. two blade discs 70 and No. one blade disc 69 passed through.

A use method of a sound box shell composite processing device comprises the following specific steps:

firstly, when the size of the sound box needs to be customized, a worker enables the seven motor 52 to be electrified, the seven motor 52 drives the punching drill 55 and the first gear 57 to rotate when being electrified, the first gear 57 drives the second gear and the thread block therein to rotate when rotating, the threaded rod 58 is driven to rotate at the moment, then the worker punches holes on the log by using the punching drill 55, and the seven motor 52 is powered off after the through hole is punched in the log;

after the second step, the worker places the log on the upper side of the worktable 11 between the clamping plates 28 and makes the log abut against the left side surface of the right cutting block 26, then the third motor is electrified, the third motor drives the third threaded shaft 29 to rotate to make the clamping plate 28 move inwards when being electrified, when the clamping plate 28 finishes clamping the log, the third motor is powered off, then the fourth motor is electrified and the fifth motor 35 is powered on, the fifth motor 35 drives the first wiring block 37 to move rightwards, when the first wiring block 37 moves rightwards, the second wiring block 39 moves downwards, when the first wiring block 37 moves for a certain time and abuts against the left side surface of the log, at the moment, the fifth motor 35 is powered off, the fourth motor drives the winding shaft 31 to rotate when being electrified, at the moment, the wire saw 32 and the fixed bead 77 enter a through hole in the log, and after a certain time, the fixed bead 77 moves to the wiring groove 34 on the left side of the first wiring block 37, then, the fifth motor 35 is electrified and drives the first wiring block 37 to move leftwards, after a certain time, the fifth motor 35 is powered off, the first wiring block 37 and the second wiring block 39 are attached to each other, the fixing bead 77 is positioned on the left side of the first wiring block 37, then, the fourth motor drives the winding shaft 31 to rotate reversely until the wire saw 32 positioned in the log is tightened, and at this time, the threading and fixing work of the wire saw 32 is completed;

after the third step, the sixth motor 43 is electrified and drives the first rotating shaft 44 to rotate, the first rotating shaft 44 drives the disc 45 to rotate the extension column when rotating, the driving plate 48 is driven to periodically move left and right in the rotation process of the disc 45, the left cutting block 25 and the right cutting block 26 are driven to move left and right at the moment, the first motor 16 and the second motor 20 are electrified to enable the bearing block 22 to move longitudinally and transversely, the log can be cut in a controllable size, the log moves to an initial position after the wire saw 32 in the log moves for one circle, the cutting of the log is completed, the fifth motor 35 is electrified and the fourth motor is electrified to recover the wire saw 32, the fourth motor is powered off when the fixed bead 77 abuts against the extension shaft 33 again, and the fourth threaded shaft 36 rotates reversely until the first connecting block 37 and the second connecting block 39 are completely positioned in the wire connecting groove 34, at this time, the reset operation of the wire saw 32 is completed;

fourthly, when the cutting is finished, the first motor 16 is electrified and drives the bearing block 22 until the bearing block 22 moves to the upper limit, the right cutting block 26 is positioned at the upper side of the log, then the seventh motor 52 is electrified and the first electromagnet 62 is electrified, at this time, the limiting block 61 moves into the chute 59 in the rotating process of the threaded rod 58, when the stop block 61 moves into the chute 59, the threaded rod 58 stops rotating and starts moving to the right, at this time, the lump cut by the jigsaw 32 and separated from the log is pushed by the threaded rod 58 and moves to the right side of the third slide block 72, after a certain time, the seventh motor 52 drives the punching bit 55 to rotate reversely, when the threaded rod 58 is reset and moves to the left side of the left cutting block 25 again, the seventh motor 52 is powered off and the first electromagnet 62 is powered off, and then the first motor 16 drives the bearing block 22 to move downwards until the bearing block 22 moves to the preset height;

after the fifth step, the second electromagnet 73 is electrified and attracts the third sliding block 72, at this time, the columnar object positioned on the left side of the third sliding block 72 abuts against the abutting plate 71 and the third sliding block 72 to complete clamping, then the eighth motor 64 is electrified and the ninth motor 67 is electrified, the eighth motor 64 drives the first cutter disc 69 and the second cutter disc 70 to move upwards when being electrified, the ninth motor 67 drives the first cutter disc 69 and the second cutter disc 70 to rotate when being electrified, at this time, the second cutter disc 70 and the first cutter disc 69 cut the blocky object into two plates and two blocks, wherein the apron that the board can regard as the stereo set, the supporting legs that can become the audio amplifier after the piece through the grinding to the staff can be through driving No. three screw shaft 29 and taking out the log through the cutting this moment, has a size customization and controls the through-hole that link up in the log this moment, and the log can become the audio amplifier shell through simple outer processing this moment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a loudspeaker box shell combined machining device, includes the workstation, its characterized in that: the automatic wood cutting machine is characterized in that a first cavity is arranged in the workbench, a clamping device is arranged in the first cavity and can fix logs on the upper side surface of the workbench, a support frame is fixedly arranged on the upper side surface of the workbench and is positioned on the rear side of the first cavity, a first control groove with a forward opening is arranged in the support frame, a first sliding block is connected in the first control groove in a vertical sliding manner, a first motor is arranged in the lower side surface of the first control groove, the upper side surface of the first motor is connected with the first sliding block in a threaded manner and is rotatably connected with a first threaded shaft in the upper side surface of the first control groove, a second control groove is arranged in the front side surface of the first sliding block, a second sliding block is connected in the second control groove in a left-right sliding manner, a second motor is arranged in the rear side surface of the second control groove, and the front side surface of the second motor is installed to extend into the second sliding block, and with No. two threaded spindle of No. two slider threaded connection, No. two sliders extend to the front side of support frame forward, and No. two slider front ends solid be equipped with the carrier block, the left end of carrier block is equipped with left fixed block admittedly, and the right-hand member of carrier block has set firmly right fixed block, the downside of left fixed block left-right sliding connection has left cutting block, the downside left-right sliding connection of right fixed block has right cutting block, be equipped with threading device in left cutting block and the right cutting block, threading device can pass the log, and be equipped with in the carrier block and drive left cutting block and right cutting block synchronous motion's drive arrangement, the upside of workstation has set firmly the mount, be equipped with the preliminary treatment equipment that can punch the log and preprocess in the mount, and the preliminary treatment equipment can be transported by the waste material of cutting out, be equipped with the after treatment equipment in the workstation, the after treatment equipment can be processed into the apron with the waste material of being transported to can convert the waste material into the raw materials of supporting legs.

2. The loudspeaker box shell composite processing device of claim 1, characterized in that: clamping device is including locating upwards two through-holes that link up in the side on a cavity, sliding connection has two grip blocks, two around in the lower side of a cavity the grip block is respectively through two a through-hole extends to the upside of workstation, be equipped with No. three motors in the cavity trailing flank, No. three motor leading flank installs threaded connection in two No. three threaded shaft of grip block.

3. The loudspeaker box shell composite processing device of claim 2, characterized in that: the threading device comprises a wire outgoing groove which is arranged in the right cutting block and has a leftward opening, a fourth motor is arranged in the rear side face of the wire outgoing groove, a winding shaft which is rotatably connected in the front side face of the wire outgoing groove is mounted on the front side face of the fourth motor, the wire saw is wound on the winding shaft, a fixed bead is fixedly arranged at the tail end of the wire saw, two extension shafts are rotatably connected in the front side face and the rear side face of the wire outgoing groove, the extension shafts are positioned on the left side of the winding shaft, the fixed bead is positioned on the left side of the extension shaft, a wire connecting groove is arranged in the right side face of the left cutting block, a fifth motor is arranged in the left side face of the wire connecting groove, a fourth threaded shaft is mounted on the right side face of the fifth motor, a first connecting block which is in threaded connection with the fourth threaded shaft is slidably connected in the wire connecting groove, and a downward through hole is arranged in the lower side face of the first connecting block, and control the smooth chamber that link up, sliding connection has No. two lugs about in the smooth chamber, the left downside of No. two lugs is the inclined plane, the downside of left side cutting block has set firmly the sloping, the inclined plane sliding connection of No. two lugs in the side of sloping.

4. The loudspeaker box shell composite processing device of claim 3, characterized in that: the driving device comprises a second cavity arranged in the bearing block, a sixth motor is fixedly arranged on the lower side surface of the right fixed block, a first rotating shaft extending into the second cavity is arranged on the upper side surface of the sixth motor, a disc is fixedly arranged at the upper end of the first rotating shaft, a first communicating groove which penetrates downwards and is communicated with the second cavity is arranged in the left fixed block, a second communicating groove communicated with the second cavity and communicated downwards is arranged in the right fixed block, a driving plate is connected in the second cavity in a left-right sliding manner, a circular groove which is communicated up and down is arranged in the driving plate, the upper side of the disc is fixedly provided with an extension column extending into the circular groove, the lower side of the driving plate is fixedly provided with a first fixing plate and a second fixing plate, the lower end of the first fixing plate is fixed on the upper side surface of the left cutting block, and the lower end of the second fixing plate is fixed on the upper side surface of the right cutting block.

5. The loudspeaker box shell composite processing device of claim 4, wherein: the pretreatment device comprises a seven-motor fixedly arranged on the right side surface of the fixing frame, a second through hole and a third through hole which are communicated with each other are arranged in the fixing frame, the left side surface of the seven-motor is provided with a through hole which passes through the second through hole and extends to the left punching drill bit of the fixing frame, a first annular groove is arranged in the annular surface of the second through hole, a second annular groove communicated with the first annular groove is arranged in the annular surface of the third through hole, a first gear is arranged on the annular surface of the punching drill bit, the first gear is positioned in the first annular groove, a second gear meshed with the first gear is rotationally connected in the second annular groove, an inner annular surface of the second gear is fixedly provided with an inner thread block, the inner thread block is in threaded connection with a threaded rod, a sliding groove is arranged in the annular surface of the threaded rod, a spring groove is arranged in the upper side surface of the third through hole, and a limiting block is vertically and slidably connected in the spring groove, the limiting block is connected to the upper side face of the spring groove through a spring, and a first electromagnet capable of repelling the limiting block is arranged in the upper side face of the spring groove.

6. The loudspeaker box shell composite processing device of claim 5, wherein: the three-position bevel gear cutting machine comprises a third cavity arranged in a workbench, the third cavity is positioned on the right side of a first cavity, an eighth motor is arranged in the lower side surface of the third cavity, a fifth threaded shaft is arranged on the upper side surface of the eighth motor, a supporting block is connected to the fifth threaded shaft through threads, a ninth motor is arranged in the left side surface of the supporting block, a second rotating shaft is arranged on the left side surface of the ninth motor, two first cutter discs are arranged on the second rotating shaft, an extending block is fixedly arranged on the left side surface of the supporting block, a third rotating shaft is arranged on the front side surface of the extending block, a second cutter disc is arranged on the third rotating shaft, a fourth rotating shaft is arranged on the front side surface of the extending block, the fourth rotating shaft is connected with the third rotating shaft through a synchronous belt, a first bevel gear is arranged at the front end of the fourth rotating shaft, and a second bevel gear meshed with the first bevel gear is arranged on the second rotating shaft, the side of going up of workstation has set firmly the butt joint board, No. three sliders of two spring coupling in front and back are passed through to the left surface of butt joint board, be equipped with the electro-magnet No. two that can attract No. three sliders in the butt joint board, be equipped with the confession that upwards link up in the side of going up of No. three cavities No. two blade discs with No. four through-holes that a blade disc passes through.

7. The use method of the sound box shell composite processing device according to claim 6 comprises the following steps:

firstly, when the size of the sound box needs to be customized, a worker enables a seventh motor to be electrified, the seventh motor drives a punching drill bit and a first gear to rotate when being electrified, the first gear drives a second gear and a thread block in the second gear to rotate when rotating, a threaded rod is driven to rotate at the moment, then the worker punches the log by using the punching drill bit, and the seventh motor is powered off after a through hole is punched in the log;

after the second step, a worker places the log on the upper side of the workbench between the clamping plates and enables the log to abut against the left side face of the right cutting block, then the third motor is electrified, the third motor drives the third threaded shaft to rotate to enable the clamping plates to move inwards when being electrified, the third motor is powered off after the clamping plates complete clamping on the log, the fourth motor is powered on and the fifth motor is powered on, the first connecting block is driven to move rightwards when the fifth motor is powered on, the second connecting block moves downwards when the first connecting block moves rightwards, the first connecting block moves for a certain time and abuts against the left side face of the log, the fifth motor is powered off, the fourth motor drives the winding shaft to rotate when being powered on, the fretsaw and the fixed beads enter through holes in the log, and the fixed beads move into the wiring grooves on the left side of the first connecting block after passing through the through holes for a certain time, then the fifth motor is electrified and drives the first wiring block to move leftwards, after a certain time, the fifth motor is powered off, the first wiring block and the second wiring block are attached to each other, the fixing beads are positioned on the left side of the first wiring block, then the fourth motor drives the winding shaft to rotate reversely until the wire saw positioned in the log is tightened, and at this time, the threading and fixing work of the wire saw is finished;

thirdly, the sixth motor is electrified and drives the first rotating shaft to rotate, the first rotating shaft drives the disc to rotate the extending column when rotating, the drive plate is driven to move left and right periodically in the rotation process of the disc, the left cutting block and the right cutting block are driven to move left and right, then the first motor and the second motor are electrified to enable the bearing block to move longitudinally and transversely, and the logs can be cut in a controllable size, when the fretsaw in the log moves for a circle, the fretsaw moves to the initial position, the cutting of the log is completed, then the fifth motor is electrified, the fourth motor is electrified to recover the fretsaw, when the fixed ball abuts against the extension shaft again, the fourth motor is powered off, then the fourth threaded shaft rotates reversely until the first wiring block and the second wiring block are completely positioned in the wiring groove, and at the moment, the resetting work of the wire saw is completed;

fourthly, after cutting, a motor is powered on and drives the bearing block until the bearing block moves to the upper limit position, the right cutting block is positioned at the upper side of the log, a motor seven is powered on and an electromagnet one is powered on, a limiting block moves into the chute in the process of rotating the threaded rod, the threaded rod stops rotating and starts moving rightwards when the limiting block moves into the chute, a block which is cut by the wire saw and separated from the log is pushed by the threaded rod and moves to the right side of the sliding block three, the motor seven drives the punching drill bit to rotate reversely after a certain time, the motor seven is powered off and the electromagnet is powered off when the threaded rod is reset and moves to the left side of the left cutting block again, and the motor one drives the bearing block to move downwards until the bearing block moves to the preset height;

no. two electro-magnets circular telegrams and attracts No. three slider after the fifth step, the column that lies in No. three left sliders this moment can butt in butt joint board and No. three sliders and accomplish the centre gripping, later No. eight motor circular telegrams and No. nine motor circular telegrams, can drive a blade disc and No. two blade disc upward movements when eight motor circular telegrams, can drive a blade disc and No. two blade disc rotations when nine motor circular telegrams, No. two blade discs and a blade disc can cut the bulk into two boards and two blocks this moment, wherein the apron of stereo set can be regarded as to the board, the supporting legs that can become the audio amplifier after the piece is through the grinding, and the staff can be through driving No. three threaded shaft and take out the log through the cutting this moment, log memory is at this moment in one size customization and control the through-hole that link up, and the log can become the audio amplifier shell through simple outer processing this moment.

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