Summary of the invention
The purpose of the present invention is to provide a kind of titanium alloy plate production equipments, in the prior art above-mentioned scarce for overcoming
It falls into.
A kind of titanium alloy plate production equipment according to the present invention, including apparatus main body, it is characterised in that: described device master
It is provided with clamping device in vivo, the clamping device includes the cutting chamber that front and back end wall is connected with free surrounding space, the cutting
It is intracavitary to be provided with workbench, it is placed with titanium alloy plate on the workbench, is provided with left end wall and institute on the right side of the cutting chamber
The drive cavity that cutting chamber is connected is stated, dovetail groove, sliding in the drive cavity right end wall are provided in the drive cavity lower end wall
It is connected with the gripping block extended to the left, the through hole that upper and lower end wall is connected with the drive cavity is provided in the gripping block,
A driving motor is embedded in the drive cavity upper end wall, the driving motor lower end surface is connected by power a drive extended downwardly
Moving axis, the gripping block downside are provided with power-conversion mechanism, and the power-conversion mechanism includes that setting is right in the through hole
Disengaging chamber in end wall, the disengaging chamber right side are provided with the power-conversion chamber extended downwardly, the intracavitary sliding of power-conversion
It is connected with movable block, movable block left side center is fixedly connected with a mobile bar extended to the left, the power-conversion chamber
Lower left side is provided with power cavity, is provided with the belt chamber upwardly extended, belt chamber left end wall on the right side of the power-conversion chamber
Upside is provided with the hydraulic lift on the upside of the clamping device, is provided on the downside of the hydraulic lift positioned at institute
It states and cuts intracavitary cutting mechanism.
Further technical solution, the clamping device include the drive cavity being arranged in the cutting chamber right end wall, institute
State and slidably connect gripping block in drive cavity right end wall, the gripping block upper surface be fixedly connected with upper end be fixedly connected on it is described
The fastening spring of drive cavity upper end wall, the gripping block lower end surface are fixedly connected with trapezoidal briquetting, and the gripping block left end is run through
Drive cavity left end wall and to be located at the cutting intracavitary, is fixedly connected positioned at the intracavitary gripping block lower end surface of the cutting
Cushion, be provided with the through hole that upper and lower end wall is connected with the drive cavity in the gripping block, drive shaft lower end is passed through
Wearing the through hole, end wall, the drive cavity lower end wall are with the power cavity upper end wall and in the power cavity up and down, institute
State the threaded block for being threaded in drive shaft and being slidably connected with the disengaging chamber.
Further technical solution, the power conversion apparatus include that the power being arranged in the drive cavity right end wall turns
Change chamber, center is embedded with drive electromagnet in the power-conversion chamber right end wall, and the power-conversion is intracavitary to slidably connect shifting
Motion block is embedded with driven electromagnet in the center of the movable block right side, is provided in the movable block upper end and the power
The sliding slot that chamber is connected is converted, is provided with the connection being connected with the drive cavity in the wall of left end on the upside of the power-conversion chamber
Slot slidably connects sliding block in the sliding slot, and the sliding block left side is fixedly connected with extends slide bar to the left, and the slide bar runs through
Sliding slot left end wall, power-conversion chamber left end wall, the connectivity slot left hand end wall and the disengaging chamber right end wall and with
The threaded block right side is fixedly connected, and movable block left side center is fixedly connected with a mobile bar extended to the left, institute
Mobile bar left end is stated through power-conversion chamber left end wall and the dovetail groove right end wall and is located in the dovetail groove, it is described
Mobile bar left side is fixedly connected with the trapezoid block being slidably connected with the dovetail groove, and the trapezoid block right side is fixedly connected with
Right end is fixedly connected on the spring of the dovetail groove right end wall, and the drive shaft lower end is through end wall, institute above and below the through hole
It states drive cavity lower end wall and the power cavity upper end wall and is located in the power cavity, the drive shaft lower end surface is fixedly connected with
Driving bevel gear, the transmission shaft extended to the right is provided in the power cavity, and the transmission shaft right end is right through the power cavity
End wall and power-conversion chamber left end wall are simultaneously rotatablely connected, the biography in the power cavity with the movable block lower end
Moving axis left side is fixedly connected with to bevel gear, and keyway is provided in the transmission shaft right end, and sliding is oriented in the keyway
The rotation axis of right extension, the rotation axis right end is through the keyway right end wall, the power-conversion chamber right end wall and the skin
End wall with chamber is simultaneously rotatablely connected with the belt chamber, is fixedly connected with transmission in the rotation axis intracavitary positioned at the belt
Belt wheel, the belt is intracavitary to be provided with a driven pulley, and the drive pulley and the driven pulley are connected with a belt, described
Driven pulley center is fixedly connected with the driven shaft extended to the left.
Further technical solution, the hydraulic lift include the movement being arranged on the upside of the wall of belt chamber left end
Chamber is provided with the first hydraulic cavities in the wall of the mobile cavity left end, is provided with and described first in the wall of first hydraulic cavities left end
The hydraulic pipeline that hydraulic cavities are connected is provided with the second liquid being connected with the hydraulic pipeline in the wall of the hydraulic pipeline left end
Chamber is pressed, lifting chamber is provided on the downside of second hydraulic cavities, the lifting is intracavitary to be provided with cutter device, slides in the mobile cavity
It is dynamic to be connected with translational block, thread cavity is provided in the translational block, belt chamber left end wall, institute are run through in the driven shaft left end
It states mobile cavity right end wall and the thread cavity and is threadedly engaged with the translational block and is connect, the translational block left side is fixedly connected
Have a connecting rod extended to the left, the connecting rod left end through mobile cavity left end wall and the first hydraulic cavities right end wall and
In first hydraulic cavities, the connecting rod left side is fixedly connected with the first hydraulic block, first hydraulic block and institute
It states the first hydraulic cavities to be slidably connected, the second hydraulic block, second hydraulic block lower end is slidably connected in second hydraulic cavities
Face is fixedly connected with the hydraulic stem extended downwardly, and the hydraulic stem is hydraulic through the second hydraulic cavities lower end wall and described second
Chamber upper end wall and be located at it is described lifting it is intracavitary.
Further technical solution, the cutter device include that the lower lock block being slidably connected with the lifting chamber is arranged in,
It is provided with rotating drum in the lower lock block, revolution space, the revolution space lower end wall are provided in the wall of the rotating drum left end
It is connected with the cutting chamber, all is embedded in the rotating drum right end wall and cuts motor, cutting motor left side power
Be connected with cutting axis, be fixedly connected with driving spur gear on the cutting axis, the driving spur gear lower end engagement be connected with from
Dynamic spur gear, the driven spur gear center are fixedly connected with cutting axis, the cutting axis through rotating drum left end wall with
The end wall of the lower lock block is simultaneously rotatablely connected with the lower lock block, fixed on the cutting axis in the revolution space to connect
It is connected to cutting blade.
The beneficial effects of the present invention are: the configuration of the present invention is simple, is completed by compact transmission to titanium alloy plate
Cutting processing process improves the linkage that device increases device operation by the switching to motion state between mechanism, passes through
The characteristic of hydraulic mechanism transmission ensure that the stability that device is run when cutting to titanium alloy plate, improves and closes to titanium
The clamping effect of golden plate material improves cutting efficiency by the automation control to cutting process, reduces the work of operative employee
Amount, avoids the unexpected phenomenon occurred in cutting process, ensure that the safety problem of operative employee.
Specific embodiment
Below with reference to Fig. 1-2, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
Referring to Fig.1-2, a kind of titanium alloy plate production equipment of embodiment according to the present invention, including apparatus main body 100,
It is provided with clamping device in described device main body 100, the clamping device includes cutting of being connected with free surrounding space of front and back end wall
Chamber 102 is cut, workbench 104 is provided in the cutting chamber 102, titanium alloy plate 103, institute are placed on the workbench 104
It states and is provided with the drive cavity 147 that left end wall is connected with the cutting chamber 102 on the right side of cutting chamber 102,147 lower end of drive cavity
It is provided with dovetail groove 106 in wall, slidably connects the gripping block 151 extended to the left, the folder in the 147 right end wall of drive cavity
The through hole 132 that upper and lower end wall is connected with the drive cavity 147 is provided in tight block 151, in 147 upper end wall of the drive cavity
It is embedded with a driving motor 135,135 lower end surface of driving motor is connected by power a drive shaft 114 extended downwardly, described
Power-conversion mechanism is provided on the downside of gripping block 151, the power-conversion mechanism includes being arranged in the 132 right end wall of through hole
Interior disengaging chamber 126 is provided with the power-conversion chamber 123 extended downwardly, the power-conversion chamber on the right side of the disengaging chamber 126
Movable block 128 is slidably connected in 123, the 128 left side center of movable block is fixedly connected with a mobile bar extended to the left
111,123 lower left side of power-conversion chamber is provided with power cavity 118, is provided on the right side of the power-conversion chamber 123 and prolongs upwards
The belt chamber 134 stretched, the 134 left end wall upside of belt chamber are provided with the dress of the hydraulic lifting on the upside of the clamping device
It sets, the cutting mechanism being provided on the downside of the hydraulic lift in the cutting chamber 102.
Valuably or illustratively, the clamping device includes the drive cavity being arranged in the cutting 102 right end wall of chamber
147, gripping block 151 is slidably connected in the 147 right end wall of drive cavity, and 151 upper surface of gripping block is fixedly connected with
End is fixedly connected on the fastening spring 136 of 147 upper end wall of drive cavity, and 151 lower end surface of gripping block is fixedly connected with ladder
Shape briquetting 105,151 left end of gripping block is through the 147 left end wall of drive cavity and is located in the cutting chamber 102, is located at
The cushion 150 that is fixedly connected of 151 lower end surface of the gripping block in the cutting chamber 102 is provided in the gripping block 151
About 132 through hole is run through in the through hole 132 that lower end wall is connected with the drive cavity 147,114 lower end of drive shaft
End wall, 147 lower end wall of the drive cavity are with 118 upper end wall of power cavity and in the power cavity 118, the drive shaft
The threaded block 127 being slidably connected with the disengaging chamber 126 is threaded on 114, effect is: starting the driving motor
135, to drive the drive shaft 114 to rotate, to drive the threaded block 127 being threadedly coupled with the drive shaft 114
It moves down, so that the gripping block 151 be driven to move down, the fastening spring 136 is stretched, thus by the titanium alloy
Plate 103 clamps, to realize the clamping to titanium alloy plate, does homework for subsequent cutting.
Valuably or illustratively, the power conversion apparatus includes that moving in the 147 right end wall of drive cavity is arranged in
Power converts chamber 123, and center is embedded with drive electromagnet 122, the power-conversion chamber in the 123 right end wall of power-conversion chamber
Movable block 128 is slidably connected in 123, is embedded with driven electromagnet 121, the shifting in the 128 right side center of movable block
The sliding slot 125 being connected with the power-conversion chamber 123 is provided in 128 upper end of motion block, 123 upside of power-conversion chamber is left
It is provided with the connectivity slot 124 being connected with the drive cavity 147 in end wall, slidably connects sliding block 131 in the sliding slot 125,
131 left side of sliding block be fixedly connected with to the left extension slide bar 130, the slide bar 130 through the 125 left end wall of sliding slot,
The 123 left end wall of power-conversion chamber, 124 left hand end wall of the connectivity slot and the 126 right end wall of disengaging chamber and with the spiral shell
127 right side of line block is fixedly connected, and the 128 left side center of movable block is fixedly connected with a mobile bar 111 extended to the left,
111 left end of mobile bar is through the 123 left end wall of power-conversion chamber and the 106 right end wall of dovetail groove and is located at the ladder
In shape slot 106,111 left side of mobile bar is fixedly connected with the trapezoid block 107 being slidably connected with the dovetail groove 106, institute
It states 107 right side of trapezoid block and is fixedly connected with the spring 110 that right end is fixedly connected on the 106 right end wall of dovetail groove, the drive
114 lower end of moving axis is through about 132 end wall of through hole, 147 lower end wall of the drive cavity and 118 upper end wall of power cavity
And be located in the power cavity 118,114 lower end surface of drive shaft is fixedly connected with driving bevel gear 115, the power cavity
Be provided with the transmission shaft 113 extended to the right in 118,113 right end of transmission shaft through the 118 right end wall of power cavity with it is described
123 left end wall of power-conversion chamber is simultaneously rotatablely connected, the biography in the power cavity 118 with 128 lower end of movable block
113 left side of moving axis is fixedly connected with driven wheel of differential 112, is provided with keyway 116, the key in 113 right end of transmission shaft
Sliding has a rotation axis 117 extended to the right in slot 116, and 117 right end of rotation axis is through the 116 right end wall of keyway, described
The end wall of 123 right end wall of power-conversion chamber and the belt chamber 134 is simultaneously rotatablely connected with the belt chamber 134, is located at the skin
With drive pulley 120 is fixedly connected in the rotation axis 117 in chamber 134, a driven belt is provided in the belt chamber 134
Wheel 137, the drive pulley 120 are connected with a belt 133 with the driven pulley 137, and 137 center of driven pulley is fixed
Be connected with the driven shaft 140 extended to the left, effect is: while the clamping device works, the trapezoidal briquetting 105 with
The gripping block 151 moves down and declines, so that the trapezoid block 107 be pushed to the right, the spring 110 is compressed, from
And the mobile bar 111 is driven to move right, to drive the movable block 128 to move right, thus the sliding block 131 and institute
It states slide bar 130 to move right, cooperate so that the threaded block 127 be made to be detached from the drive shaft 114, to drive, by institute
It states movable block 128 to move right, to drive the transmission shaft 113 to move right with the driven wheel of differential 112, thus described
Driven wheel of differential 112 is engaged with the trapezoidal briquetting 105, so that the transmission shaft 113 is driven to rotate with the rotation axis 117,
To drive the drive pulley 120 to rotate, to drive the driven pulley connecting with 120 belt of drive pulley
137 rotations, so that the driven shaft 140 be driven to rotate, effect is to drive the movable block by the cooperation between trapezoid block
128 move right, and the slide bar 130 is driven to move right with the transmission shaft 113, make the threaded block 127 and the driving
Axis 114 engages the driven wheel of differential 112 with the trapezoidal briquetting 105 while being detached from cooperation, to realize turning for power
Change.
Valuably or illustratively, the hydraulic lift includes being arranged on the upside of the 134 left end wall of belt chamber
Mobile cavity 144, is provided with the first hydraulic cavities 146 in the 144 left end wall of mobile cavity, in the 146 left end wall of the first hydraulic cavities
Be provided with the hydraulic pipeline 152 being connected with first hydraulic cavities 146, be provided in the 152 left end wall of hydraulic pipeline with
The second hydraulic cavities 155 that the hydraulic pipeline 152 is connected are provided with lifting chamber 156, institute on the downside of second hydraulic cavities 155
It states in lifting chamber 156 and is provided with cutter device, translational block 142, the translational block 142 are slidably connected in the mobile cavity 144
It is inside provided with thread cavity 141, the 134 left end wall of belt chamber, 144 right end of the mobile cavity are run through in 140 left end of driven shaft
Wall and the thread cavity 141 and being threadedly engaged with the translational block 142 is connect, and 142 left side of translational block is fixedly connected with
The connecting rod 143 extended to the left, 143 left end of connecting rod is through the 144 left end wall of mobile cavity and first hydraulic cavities
146 right end walls and be located at first hydraulic cavities 146 in, 143 left side of connecting rod is fixedly connected with the first hydraulic block
145, first hydraulic block 145 is slidably connected with first hydraulic cavities 146, is slidably connected in second hydraulic cavities 155
There is the second hydraulic block 154,154 lower end surface of the second hydraulic block is fixedly connected with the hydraulic stem 153 extended downwardly, described hydraulic
Bar 153 is through 155 lower end wall of the second hydraulic cavities and 1556 upper end wall of the second hydraulic cavities and is located at the lifting chamber 156
Interior, effect is: the power conversion apparatus is by power transmission to the driven shaft 140, to drive and the driven shaft
140 translational blocks 142 being threadedly coupled are moved to the left, to drive the connecting rod 143 to be moved to the left, thus described in driving
First hydraulic cavities 146 are moved to the left, so that first hydraulic block 145 is hydraulic by first hydraulic cavities 146 described first
The hydraulic oil indentation in 145 left side of block is pressed into second hydraulic cavities 155 by the hydraulic pipeline 152, thus described in driving
Second hydraulic block 154 moves down, so that the hydraulic stem 153 is driven to move down, so that cutter device is driven to move down,
It is the rise and fall that cutter device is realized by power-conversion mechanism that it, which is acted on, to realize the cutting to titanium alloy plate.
Valuably or illustratively, the cutter device includes that the pushing being slidably connected with the lifting chamber 156 is arranged in
Block 161 is provided with rotating drum 164 in the lower lock block 161, is provided with revolution space 160 in the 164 left end wall of rotating drum,
160 lower end wall of revolution space is connected with the cutting chamber 102, is embedded with all in the 164 right end wall of rotating drum and cuts
Motor 167,167 left side of cutting motor have been connected by power cutting axis 168, have been fixedly connected with drive on the cutting axis 168
Dynamic spur gear 166,166 lower end of driving spur gear, which is engaged, is connected with driven spur gear 165, in the driven spur gear 165
The heart is fixedly connected with cutting axis 162, and the cutting axis 162 runs through the end of the rotating drum 164 left end wall and the lower lock block 161
Wall is simultaneously rotatablely connected with the lower lock block 161, is fixedly connected on the cutting axis 162 in the revolution space 160
Cutting blade 163, effect is: starting the cutting motor 167, to drive the cutting axis 168 to rotate, to drive institute
Driving spur gear 166 is stated to rotate, so that the driven spur gear 165 engaged with the driving spur gear 166 is driven to rotate, from
And the cutting axis 162 is driven to rotate, so that the cutting blade 163 be driven to work, effect is that hydraulic lift drives
While cutter device declines, cutter device work, to realize the cutting to titanium alloy plate.
Embodiments of the present invention: in use, starting the driving motor 135, to drive 114 turns of the drive shaft
It is dynamic, to drive the threaded block 127 being threadedly coupled with the drive shaft 114 to move down, to drive the gripping block
151 move down, and the fastening spring 136 is stretched, to the titanium alloy plate 103 be clamped, due to the gripping block
151 declines, so that the trapezoidal briquetting 105 moves down, so that 107 be pushed to the right, the spring 110 is compressed, thus
Drive the mobile bar 111 to move right, so that the movable block 128 be driven to move right, thus the sliding block 131 with it is described
Slide bar 130 moves right, and cooperates so that the threaded block 127 be made to be detached from the drive shaft 114, to drive, due to described
Movable block 128 moves right, so that the transmission shaft 113 be driven to move right with the driven wheel of differential 112, thus it is described from
Dynamic bevel gear 112 is engaged with the trapezoidal briquetting 105, so that the transmission shaft 113 is driven to rotate with the rotation axis 117, from
And the drive pulley 120 is driven to rotate, to drive the driven pulley 137 connecting with 120 belt of drive pulley
Rotation, to drive the driven shaft 140 to rotate, to drive the translational block 142 being threadedly coupled with the driven shaft 140
It is moved to the left, so that the connecting rod 143 is driven to be moved to the left, so that first hydraulic cavities 146 is driven to be moved to the left, thus
The hydraulic oil indentation in 145 left side of the first hydraulic block described in first hydraulic cavities 146 is passed through institute by first hydraulic block 145
It states hydraulic pipeline 152 to be pressed into second hydraulic cavities 155, to drive second hydraulic block 154 to move down, thus band
It moves the hydraulic stem 153 to move down, so that cutter device be driven to move down, starts the cutting motor 167, cutter device
It is driven work while moving down, to realize the cutting of titanium alloy plate;
Then, the cutting motor 167 is closed, after the completion of cutting, 135 reverse operation of driving motor, to drive cutting
Device restPoses, and then the drive electromagnet 122 works mutually exclusive with the driven electromagnet 121, to make
The movable block 128 is moved to the left, and the trapezoidal briquetting 105 is disengaged from the driven wheel of differential 112, thus the screw thread
Block 127 cooperates again with the drive shaft 114, drives the gripping block 151 to rise, closes the driving motor 135, device is extensive
Multiple original state.
The beneficial effects of the present invention are: the configuration of the present invention is simple, is completed by compact transmission to titanium alloy plate
Cutting processing process improves the linkage that device increases device operation by the switching to motion state between mechanism, passes through
The characteristic of hydraulic mechanism transmission ensure that the stability that device is run when cutting to titanium alloy plate, improves and closes to titanium
The clamping effect of golden plate material improves cutting efficiency by the automation control to cutting process, reduces the work of operative employee
Amount, avoids the unexpected phenomenon occurred in cutting process, ensure that the safety problem of operative employee.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments, fall within the scope of protection of the present invention, protection scheme of the invention
It is subject to claims appended hereto.