CN214079343U - double-Y-axis drilling machine - Google Patents

Abstract

The application relates to a two Y axle drilling machines, it includes: the drilling platform is arranged adjacent to the material receiving platform, the drilling platform is used for drilling a product to be drilled, and the material receiving platform is used for collecting the product after drilling is finished; the track conveying assembly spans above the drilling platform and the material receiving platform and is used for driving the material sucking assembly to move back and forth above the drilling platform and the material receiving platform; inhale material subassembly activity and set up on the track transports the subassembly, inhale the material subassembly and be used for adsorbing the product after the drilling from the drilling platform to transport the product after the drilling to receive the material bench and put down. This application has the manpower that the product consumed that finishes of the reduction drilling, promotes the effect of taking off the product efficiency that finishes of drilling.

Description

double-Y-axis drilling machine

Technical Field

The application relates to the field of drilling machines, in particular to a double-Y-axis drilling machine.

Background

The drilling machine is used for drilling a product, for example, the drilling of the heat dissipation holes on the shell on the back of the notebook computer is carried out, and the drilling machine can be applied to the drilling of the heat dissipation holes; the double Y-axis drill is so named because it has two drilling stations at the same time.

In the related art, a double-Y-axis drilling machine comprises a workbench, wherein the workbench is used for placing a product to be drilled and processed, and the workbench can move on a Z axis; the two drill bits are movably arranged above the placing table and are arranged in parallel, and the two drill bits can move on an X axis and a Y axis simultaneously; when the product needs to be drilled, the product needs to be firstly fixed on a placing table, then the drill bit is moved on an X, Y shaft and the placing table is moved on a Z shaft, so that the drill bit is aligned to the position, needing to be drilled, on the product, and meanwhile, the drill bit is started to rotate, so that the desired hole is drilled on the product, the product after the drilling is finished needs an operator to take the product off from the placing table, and the drilling machine can be used for simultaneously placing two products for simultaneous processing at one time, so that the drilling machine is named as a double-Y-shaft drilling machine.

In view of the above-mentioned related art, the inventor believes that there are defects that it takes a lot of manpower and is inefficient to manually remove the product that is drilled on the placing table.

SUMMERY OF THE UTILITY MODEL

In order to reduce the manpower that the product that finishes of taking off drilling consumed, promote the efficiency of taking off the product that finishes of drilling, this application provides a two Y axle drilling machines.

The application provides a two Y axle drilling machines adopts following technical scheme:

a dual Y-axis drill comprising: the drilling platform is arranged adjacent to the material receiving platform, the drilling platform is used for drilling a product to be drilled, and the material receiving platform is used for collecting the product after drilling is finished; the track conveying assembly spans above the drilling platform and the material receiving platform and is used for driving the material sucking assembly to move back and forth above the drilling platform and the material receiving platform; inhale material subassembly activity and set up on the track transports the subassembly, inhale the material subassembly and be used for adsorbing the product after the drilling from the drilling platform to transport the product after the drilling to receive the material bench and put down.

Through adopting above-mentioned technical scheme, the product is the back that finishes drilling on the drill block, the track transports the subassembly and will inhale the material subassembly and transport the drill block top, then adsorb the product from the drill block through inhaling the material subassembly, later the rethread track transports the subassembly will adsorb the material subassembly of inhaling that has the product and transport to the top of receiving the material platform from the top of drill block, adsorption component just can put absorbent product at this moment on receiving the material platform, thereby accomplish the action of whole unloading, compare in taking off the product from the drill block through artificial mode, this kind of mode has reduced the practicality of manpower when taking off the product, the efficiency of taking off simultaneously also can be higher.

Preferably, the rail transport assembly comprises: the support is fixedly arranged on the material receiving platform; the sliding rail is fixedly arranged on the bracket; the belt transmission part is movably arranged on the slide rail and is used for driving the material suction assembly to move along the slide rail; the first driving piece is fixedly arranged on the sliding rail and is used for driving the belt driving piece to drive the material sucking assembly to move.

By adopting the technical scheme, the arrangement of the bracket provides a stable fixed position for the slide rail, so that the slide rail can be suspended above the drilling platform and the material receiving platform, and the material sucking assembly can slide on the slide rail conveniently; the arrangement of the slide rail enables the material suction assembly to move back and forth between the material receiving table and the drilling table along a specified path; the belt transmission piece is arranged, so that the material sucking component has sufficient power when moving on the slide rail; the first drive member is arranged to provide sufficient power for movement of the belt drive member.

Preferably, the belt drive comprises: the belt is annular, two ends of the belt are respectively sleeved on the driving wheel and the driven wheel, and the material suction assembly is fixedly connected with the belt; the driving wheel and the driven wheel are both rotatably arranged on the sliding rail, and the driving wheel is connected with an output shaft of the first driving part to be driven by the first driving part to rotate around the axis of the first driving part.

Through adopting above-mentioned technical scheme, when the output of the output shaft of first driving piece rotated, the action wheel also just can be taken and rotate around self axis, and then drive the belt and rotate from the driving wheel, just also can move under the drive of belt with the material subassembly of inhaling of belt fixed connection this moment to inhale the material subassembly and move between receipts material platform and drilling platform.

Preferably, the material sucking component comprises: the material suction device comprises a sliding frame, a material suction frame and an adsorption piece, wherein the sliding frame is vertically arranged on a slide rail, and the upper end of the sliding frame is in sliding clamping connection with the slide rail and can slide along the slide rail; the material sucking frame is arranged at the lower end of the sliding frame and can drive the adsorption piece to move in the vertical direction; the adsorption piece is arranged on the material adsorption frame and used for adsorbing a product after drilling is finished.

By adopting the technical scheme, the arrangement of the sliding frame facilitates the connection of the material sucking frame and the sliding rail; inhale the setting of work or material rest, for adsorbing the piece provides special mounted position to adsorb the better absorption product of piece, adsorb the setting of piece, conveniently take off the product from the drill block through absorbent mode, simultaneously in the transportation of product, the product is also difficult for falling from adsorbing the piece.

Preferably, the material sucking frame comprises a second driving part and a I-shaped part, the second driving part is fixedly arranged at the lower end of the sliding frame, and the second driving part is used for driving the I-shaped part to vertically move; the I-shaped part is fixedly connected with an output shaft of the second driving part; the adsorption piece is arranged on the I-shaped piece and a plurality of adsorption pieces are arranged at intervals.

By adopting the technical scheme, the arrangement of the second driving piece provides sufficient power for the vertical movement of the I-shaped piece, and meanwhile, the I-shaped piece is not easy to collide with a product when moving; the setting of worker's word piece has increased the mounted position who adsorbs the piece for adsorb the piece and can install a plurality ofly simultaneously, so that more stable adsorb the product, the product is adsorbed the back and also is difficult for falling from adsorbing the piece more moreover.

Preferably, the I-shaped piece is provided with a long hole, and the adsorption piece is detachably connected in the long hole.

Through adopting above-mentioned technical scheme, the setting of slot hole for the position of adsorbing the piece can be finely tuned at less within range more easily, so that adsorb the better absorption product of piece.

Preferably, the drilling platform is further provided with a material loading box for placing products to be drilled, and a plurality of products to be drilled are stacked in the material loading box.

Through adopting above-mentioned technical scheme, the setting of year magazine for drilling man-hour can once process a plurality of products, has promoted the machining efficiency of product, also can improve the efficiency of unloading through the mode of adsorbing year magazine when the unloading moreover.

Preferably, the edge of the material loading box is fixedly provided with a stress block, and the adsorption piece adsorbs the stress block to suck up the material loading box.

Through adopting above-mentioned technical scheme, the setting of atress piece provides special absorption position for adsorbing the piece to it adsorbs the material box better to adsorb the piece, and then reaches the purpose that promotes unloading efficiency.

Drawings

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

Fig. 2 is a schematic structural diagram of the rail conveying assembly and the suction assembly in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a material loading box in the embodiment of the application.

Description of reference numerals: 1. a drilling table; 11. a protective shell; 2. a material receiving platform; 3. a rail transport assembly; 31. a support; 311. a vertical rod; 312. a horizontal bar; 32. a slide rail; 321. a square bar; 322. a guide rail; 33. a belt drive member; 331. a belt; 332. a driving wheel; 333. a driven wheel; 34. a first driving member; 4. a material suction assembly; 41. a sliding frame; 411. a clamping block; 412. a vertical connecting block; 42. a material sucking frame; 421. a second driving member; 422. a work piece; 4221. square bars; 42211. a long hole; 4222. a straight rod; 43. an adsorbing member; 5. a material carrying box; 51. and a stress block.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses two Y axle drilling machines. Referring to fig. 1, the dual Y-axis drill includes: the drilling platform 1 is arranged adjacent to the receiving platform 2, the drilling platform 1 is used for drilling a product to be drilled, and the receiving platform 2 is used for collecting the product after drilling is finished; the track conveying assembly 3 spans over the drilling platform 1 and the material receiving platform 2, and the track conveying assembly 3 is used for driving the material sucking assembly 4 to move back and forth above the drilling platform 1 and the material receiving platform 2; inhale material subassembly 4 activity and set up on track transports subassembly 3, inhale material subassembly 4 and be used for adsorbing the product after the drilling from drilling platform 1 to transport the product after the drilling and put down on receiving material platform 2.

Specifically, referring to fig. 1, the material receiving platform 2 may be a platform or a conveyor belt, in this embodiment, the material receiving platform 2 is a conveyor belt, and the material receiving platform 2 is as high as the drilling platform 1.

Referring to fig. 1 and 2, the rail transit assembly 3 includes: support 31, slide rail 32, take driving medium 33 and first driving piece 34, support 31 is provided with two that are parallel to each other, support 31 passes through the bolt fastening and expects on platform 2, support 31 includes a montant 311 and a horizon bar 312, montant 311 all is the cuboid shape and is stainless steel material with horizon bar 312, montant 311 lower extreme passes through the bolt and expects platform 2 upper surface edge fixed connection, montant 311 upper end passes through bolt and horizon bar 312 one end fixed connection, make montant 311 and horizon bar 312 constitute an L shape of handstanding.

Referring to fig. 1 and 2, one end of the slide rail 32 extends to the upper side of the material receiving platform 2, the other end extends to the upper side of the drilling platform 1, the slide rail 32 is fixedly connected with one end of the horizontal rod 312, which is far away from the vertical rod 311, through a bolt, the slide rail 32 comprises a square rod 321 and two linear guide rails 322, the square rod 321 is in a cuboid shape and is made of stainless steel, and one side surface of the square rod 321 is connected with the horizontal rod 312; the linear guide rails 322 are fixed on the surface of the side of the square rod 321 far away from the horizontal rod 312 through screws, the two linear guide rails 322 are vertically parallel, and the length direction of the linear guide rails 322 is the same as that of the square rod 321.

Referring to fig. 1 and 2, the belt transmission member 33 is movably disposed on the slide rail 32 and is used for driving the suction assembly 4 to move along the slide rail 32, and the belt transmission member 33 includes: the belt 331 is annular and made of rubber, and two ends of the belt 331 are respectively sleeved on the driving wheel 332 and the driven wheel 333; the driving wheel 332 and the driven wheel 333 are respectively sleeved on a rotating shaft and are respectively fixedly connected with the rotating shaft in a key connection mode, the rotating shaft penetrates through the square rod 321 and is rotatably connected with the square rod 321 through a bearing, and the rotating shaft connected with the driving wheel 332 is fixedly connected with an output shaft of the first driving piece 34 after penetrating through the square rod 321 so as to be driven by the first driving piece 34 to rotate around the axis of the rotating shaft.

Referring to fig. 2, the first driving member 34 is a servo motor, and the first driving member 34 is fixed on a surface of the square bar 321 on a side away from the linear guide 322 by a bolt.

Referring to fig. 2, after the first driving member 34 is powered on, the output shaft of the first driving member 34 will output rotation, and then the driving wheel 332 will rotate around its axis through the rotating shaft connected to the driving wheel 332, and after the driving wheel 332 rotates, the driving wheel will drive the belt 331 to rotate together, and further drive the driven wheel 333 to rotate.

Referring to fig. 1 and 2, the suction assembly 4 includes: the sliding frame 41 is vertically arranged on the sliding rail 32, the sliding frame 41 comprises a fixture block 411 and a vertical connecting block 412, the fixture block 411 is fixed at the upper end of one side surface of the vertical connecting block 412 through a bolt, one clamping groove is respectively formed in the surface of one side, away from the vertical connecting block 412, of the fixture block 411, the two clamping grooves are parallel up and down, the section, perpendicular to the groove opening, of each clamping groove is T-shaped, the area of the groove opening is smaller than the area of the bottom of the groove, and the two linear guide rails 322 are respectively clamped into one clamping groove, so that the sliding frame 41 is not prone to fall off the sliding rail 32 when sliding along the sliding rail 32; the fixture block 411 is also fixedly connected with the upper half part of the belt 331 through a bolt, so that the belt 331 can drive the material suction assembly 4 to move on the slide rail 32 together when moving.

Referring to fig. 2, the material suction frame 42 is disposed at the lower end of the sliding frame 41 and can drive the suction member 43 to move in the vertical direction, the material suction frame 42 includes a second driving member 421 and an i-shaped member 422, the second driving member 421 is a cylinder, the second driving member 421 is fixed at the lower end of the surface of one side of the vertical connecting block away from the fixture block 411 by a bolt, and an output shaft of the second driving member 421 is fixedly connected with the middle position of the i-shaped member 422 by a bolt; the I-shaped part 422 is made of stainless steel and is horizontally arranged, the I-shaped part 422 comprises two square bars 4221 which are parallel to each other and are horizontally arranged and a straight rod 4222 which is positioned between the two square bars 4221, and two ends of the straight rod 4222 are fixedly connected with the middle positions of the two square bars 321 through bolts respectively.

Referring to fig. 2, the adsorption member 43 is an electromagnet, a plurality of adsorption members 43 are provided, which may be two, three, four or five, in this embodiment, the number of the adsorption members 43 is four, the four adsorption members 43 are respectively fixed at two ends of two square bars 4221 on the i-shaped member 422 by bolts, and two ends of each square bar 4221 are further respectively provided with a long hole 42211, the cross section of each long hole 42211 is waist-round, a bolt is inserted into each long hole 42211 from top to bottom and is fixedly connected with the adsorption member 43, and the adsorption member 43 clamps the square bar 4221 by a nut, so that the adsorption member 43 is fixed on the square bar 4221, when the position of the adsorption member 43 needs to be finely adjusted, the bolt in each long hole 42211 can be loosened, then slides along the length direction of the cross section of the long hole 42211, and then is tightened after sliding.

Referring to fig. 1 and 2, the drilling table 1 is further covered with a protective shell 11, the protective shell 11 is made of stainless steel, the protective shell 11 is fixedly connected with the drilling table 1 through bolts, an inlet and an outlet are formed in one side, close to the material receiving table 2, of the protective shell 11, and the sliding rail 32 extends into the protective shell 11 from the inlet and the outlet.

Referring to fig. 1 and 3, a material carrying box 5 for placing products to be drilled is further placed on the drilling platform 1, the material carrying box 5 is cuboid and is open at the upper end, the material carrying box 5 is made of stainless steel, and a plurality of products to be drilled are stacked in the material carrying box 5, so that the plurality of products can be drilled at one time during drilling.

Referring to fig. 1 and 3, the edge of the material carrying box 5 is further fixed with a stress block 51 through a bolt, the stress block 51 is rectangular and made of stainless steel, in this embodiment, the stress block 51 is four, the four stress blocks 51 are respectively located at positions close to four corners on the peripheral side surface of the material carrying box 5, when the material absorbing assembly 4 needs to transport a product to the material receiving platform 2, each absorbing piece 43 correspondingly absorbs one stress block 51, so that the material carrying box 5 is absorbed by the drilling platform 1 together, and finally transported to the material receiving platform 2.

The implementation principle of the double-Y-axis drilling machine in the embodiment of the application is as follows: after the product is drilled on the drilling table 1, the first driving part 34 is started first, so that the first driving part 34 drives the sliding frame 41 to move from the upper part of the receiving table 2 to the upper part of the drilling table 1 along the sliding rail 32 in a belt transmission manner, meanwhile, the four adsorption parts 43 on the workpiece 422 are vertically aligned to one stress block 51 respectively, and then the second driving part 421 is started, so that the second driving part 421 drives the workpiece 422 and the adsorption parts 43 to vertically move downwards until the adsorption parts 43 abut against the stress blocks 51, and therefore the adsorption parts 43 adsorb the stress blocks 51.

Then the second driving member 421 again upwards retrieves the output shaft, so that the adsorption member 43 lifts the material carrying box 5 from the drilling platform 1 through the stress block 51, and then the first driving member 34 reversely outputs and rotates, so that the sliding frame 41 moves to the upper side of the material receiving platform 2 from the upper side of the drilling platform 1 along the sliding rail 32, at this time, the output shaft of the second driving member 421 downwards extends again, so that the material carrying box 5 falls on the material receiving platform 2, at this time, the adsorption member 43 loosens the adsorption on the stress block 51, and the output shaft of the second driving member 421 retracts again, so that the material adsorption assembly 4 is completely separated from the material carrying box 5, thereby completing the whole blanking process.

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

Claims (8)

1. A dual Y-axis drill comprising: the drilling platform (1) and the receiving platform (2) are arranged adjacently, the drilling platform (1) is used for drilling a product to be drilled, and the receiving platform (2) is used for collecting the product after drilling is finished; the track conveying assembly (3) stretches across the drilling platform (1) and the material receiving platform (2), and the track conveying assembly (3) is used for driving the material sucking assembly (4) to move back and forth above the drilling platform (1) and the material receiving platform (2); inhale material subassembly (4) activity and set up on track transports subassembly (3), inhale material subassembly (4) and be used for adsorbing the product after the drilling from drilling platform (1) to transport the product after the drilling and put down on receiving material platform (2).

2. The dual Y-axis drilling machine according to claim 1, wherein the rail transport assembly (3) comprises: the material receiving platform comprises a support (31), a sliding rail (32), a belt transmission piece (33) and a first driving piece (34), wherein the support (31) is fixedly arranged on the material receiving platform (2); the slide rail (32) is fixedly arranged on the bracket (31); the belt transmission piece (33) is movably arranged on the sliding rail (32) and is used for driving the material suction assembly (4) to move along the sliding rail (32); the first driving piece (34) is fixedly arranged on the sliding rail (32) and is used for driving the belt driving piece (33) to drive the material sucking component (4) to move.

3. The double Y-axis drilling machine according to claim 2, characterized in that the belt transmission (33) comprises: the material suction device comprises a belt (331), a driving wheel (332) and a driven wheel (333), wherein the belt (331) is annular, two ends of the belt (331) are respectively sleeved on the driving wheel (332) and the driven wheel (333), and the material suction component (4) is fixedly connected with the belt (331); the driving wheel (332) and the driven wheel (333) are both rotatably arranged on the slide rail (32), and the driving wheel (332) is connected with the output shaft of the first driving part (34) so as to be driven by the first driving part (34) to rotate around the axis of the driving wheel.

4. The double Y-axis drilling machine according to claim 2, characterized in that the suction assembly (4) comprises: the material suction device comprises a sliding frame (41), a material suction frame (42) and an adsorption piece (43), wherein the sliding frame (41) is vertically arranged on a sliding rail (32), and the upper end of the sliding frame (41) is in sliding clamping connection with the sliding rail (32) and can slide along the sliding rail (32); the material sucking frame (42) is arranged at the lower end of the sliding frame (41) and can drive the sucking piece (43) to move in the vertical direction; the adsorption piece (43) is arranged on the adsorption frame (42) and is used for adsorbing the drilled product.

5. The double-Y-axis drilling machine as claimed in claim 4, wherein the suction frame (42) comprises a second driving member (421) and an I-shaped member (422), the second driving member (421) is fixedly arranged at the lower end of the sliding frame (41), and the second driving member (421) is used for driving the I-shaped member (422) to move vertically; the I-shaped piece (422) is fixedly connected with an output shaft of the second driving piece (421); the adsorption piece (43) is arranged on the I-shaped piece (422) and a plurality of adsorption pieces are arranged at intervals.

6. The double Y-axis drilling machine according to claim 5, wherein the i-shaped member (422) is provided with a long hole (42211), and the suction member (43) is detachably connected in the long hole (42211).

7. Double Y-axis drilling machine according to claim 4, characterized in that the drilling station (1) is further provided with a magazine (5) for placing products to be drilled, wherein a plurality of products to be drilled are stacked in the magazine (5).

8. The double-Y-axis drilling machine as claimed in claim 7, wherein a force-bearing block (51) is fixedly arranged at the edge of the carrier box (5), and the adsorption member (43) adsorbs the force-bearing block (51) to suck up the carrier box (5).

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