CN212886163U - Double-gantry high-speed tapping drilling machine - Google Patents

Abstract

The utility model provides a rig is attacked to two longmen high speeds, it includes the lathe bed component, Y axle beam assembly, X axle beam assembly and attack the rig subassembly, the lathe bed component includes concrete base member and surrounding edge, the surrounding edge is connected in the concrete base member outside, the concrete base member includes processing platform, connector and stand, processing platform connects in the connector top, the stand is connected in the connector below, the stand is used for connecting ground, Y axle beam assembly connects in the concrete base member top, and be located the processing platform both sides, the top is provided with Y axle slide rail, X axle beam assembly slidable connects in Y axle slide rail top, top surface and side are provided with X axle slide rail, attack rig subassembly slidable and connect on X axle slide rail, be used for machining. The utility model discloses a setting sinks into the concrete base member in the factory building underground, rational utilization factory building soil, occupation space is little, and the base member sinks into the underground, and mechanism processing platform is lower, and convenience of customers realizes automatic butt joint, and overall structure is stable durable.

Description

Double-gantry high-speed tapping drilling machine

Technical Field

The utility model relates to the field of mechanical equipment, in particular to rig is attacked to two longmen high speeds.

Background

The tapping machine is used for drilling and tapping, which are two operations most commonly used in machining, especially in the machining of hardware. Drilling refers to leaving a hole in a workpiece by rotary cutting; tapping means cutting a thread, a screw or a thread button on the surface, end face or inner surface of a hole in a workpiece. The existing tapping machine generally occupies a large space and is not well matched with other equipment for use, so that the double-gantry high-speed tapping machine needs to be provided to solve the technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rig is attacked to two longmen high speed to the general occupation space of attacking rig among the solution prior art is great, not good uses with other equipment cooperations, and the not reasonable problem inadequately of distribution of each part.

In order to solve the technical problem, the utility model adopts the technical scheme that: a dual gantry high speed tapping drill, comprising:

the lathe bed component comprises a concrete base body and a surrounding edge, the concrete base body is used for supporting and is convenient for a user to install, the surrounding edge is connected to the outer side of the concrete base body, the concrete base body comprises a processing platform, a connecting body and a stand column, the processing platform is connected above the connecting body, the stand column is connected below the connecting body, the stand column is used for connecting the ground, and the processing platform is cuboid;

the Y-axis beam assembly is connected above the concrete base body, is positioned on two sides of the processing platform, comprises a Y-axis marble beam, and is provided with a Y-axis slide rail at the top;

the X-axis beam assembly is connected above the Y-axis slide rail in a sliding manner and comprises an X-axis marble beam, and the top surface and the side surface of the X-axis marble beam are provided with X-axis slide rails;

and the tapping and drilling machine assembly is connected to the X-axis sliding rail in a sliding mode and used for machining.

Two longmen high speed attack drilling machine in, the connector is close to Y axle beam assembly one side interval evenly is provided with spacing recess, wait fine-tuning such as being provided with in the spacing recess, wait fine-tuning such as high fine-tuning is used for adjusting Y axle beam assembly's levelness, wait fine-tuning to include:

the middle part of the connecting plate is hollow, and the upper end of the connecting plate is connected with the Y-axis beam assembly;

the fixing plates are connected above the connecting plates and connected to two sides of the Y-axis beam assembly;

the ground aiming adjuster is in a strip shape, a plurality of circular-ring-shaped bulges are arranged in the middle of the ground aiming adjuster, the upper end of the ground aiming adjuster is connected below the connecting plate, and the lower end of the ground aiming adjuster is in contact with the concrete base body.

Two longmen high speed attack rig in, Y axle beam assembly with be provided with chip removal mechanism between the processing platform, chip removal mechanism is used for the chip removal, chip removal mechanism includes:

the chip removal motor base is connected with the Y-axis beam assembly and the machining platform;

the chip removal motor is connected to the chip removal motor base;

the chip removal blade is the heliciform, and the middle part is fretwork, and one end is connected the chip removal motor to follow the chip removal motor and rotate.

Two longmen high speed attack in the rig, attack the rig subassembly and include:

the tapping and drilling machine sliding seat is connected to the X-axis sliding rail in a sliding mode, and a Z-axis sliding groove is formed in one side, far away from the X-axis sliding rail, of the tapping and drilling machine sliding seat;

the tapping and drilling machine module is used for machining and comprises a Z-axis sliding rail, a motor base and a motor, wherein the Z-axis sliding rail is connected in the Z-axis sliding groove and is connected with the motor base;

the drag chain box is connected above the tapping machine sliding seat and comprises a drag chain, and the drag chain is connected with the motor.

Rig is attacked to two longmen high speed in, X axle beam assembly includes the disc tool magazine, the disc tool magazine is connected at X axle beam assembly both ends, the disc tool magazine includes:

a magazine case having a disc shape for storing the cutting tools;

and the tool changing manipulator is connected to the lower end of the tool magazine box and used for changing tools.

In the double-gantry high-speed tapping machine of the utility model, the Y-axis beam assembly comprises a Y-axis linear motor set, the Y-axis linear motor set comprises a Y-axis linear motor stator and a Y-axis linear motor rotor, the Y-axis linear motor stator is connected to the Y-axis marble beam, and the Y-axis linear motor rotor is connected with the X-axis beam assembly;

the X-axis beam assembly comprises an X-axis linear motor set, the X-axis linear motor set comprises an X-axis linear motor stator and an X-axis linear motor rotor, the X-axis linear motor stator is connected to the X-axis marble beam, and the X-axis linear motor rotor is connected with the tapping machine sliding seat;

the tapping drill machine assembly comprises a Z-axis linear motor set, the Z-axis linear motor set comprises a Z-axis linear motor stator and a Z-axis linear motor rotor, the Z-axis linear motor stator is connected with the motor base, and the Z-axis linear motor rotor is connected with the tapping drill machine sliding base.

Rig is attacked to two longmen high speed in, Y axle beam subassembly both ends are provided with the protection casing, the protection casing is including the cover body and instrument chamber door, cover body coupling is in on the Y axle marble crossbeam, instrument chamber door is connected on the cover body, and the protection casing is used for placement tool.

Rig is attacked to two longmen high speed in, Y axle beam assembly top surface both ends are provided with anticollision institution, X axle beam assembly sets up two between the anticollision institution, the anticollision institution outside is provided with the organ cover, anticollision institution includes:

the anti-collision support is connected above two ends of the Y-axis marble beam, an anti-collision seat is arranged at the top of the anti-collision support, and a limit groove is formed in one side, close to the X-axis beam assembly, of the anti-collision seat;

one end of the buffer spring is connected in the limiting groove on the anti-collision seat and used for buffering;

and the anti-collision block is connected to one side of the buffer spring, which is far away from the anti-collision seat.

Two longmen high-speed attack drilling machine in, be close to on the Y axle beam assembly chip removal mechanism one side is provided with the chip guide plate, the chip guide plate upper surface is the inclined plane, inclines to processing platform along Y axle beam assembly for the lead bits, the chip removal blade is kept away from chip removal motor one side is provided with the chip removal baffle, the chip removal baffle is connected Y axle beam assembly and processing platform, chip removal baffle include down swash plate and chip removal hole, the swash plate is the slope form down, and the lower extreme is connected the chip removal hole, the chip removal hole is used for the chip removal.

Rig is attacked to two longmen high speed in, be provided with the electronic box subassembly on the periphery, the electronic box subassembly includes:

a cabinet frame;

the electric cabinet box is connected above the electric cabinet frame and used for power distribution;

the water cooling machine is connected above the electric box frame and used for providing cooling water;

the air purifier is connected above the electric box frame and used for purifying air;

and the alarm is connected above the electric cabinet box and used for giving an alarm.

The utility model discloses compare in prior art, its beneficial effect is: the utility model discloses a rig is attacked to two longmen high speeds sinks into the concrete base member underground in factory building through the setting, and rational utilization factory building soil, occupation space is little, and the base member sinks into the underground, and mechanism's processing platform is lower, and convenience of customers realizes automatic butt joint, and overall structure is stable durable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is a schematic structural view of the double-gantry high-speed tapping machine of the present invention.

Fig. 2 is a top view of the structure of the double-gantry high-speed tapping machine of the present invention.

Fig. 3 is a partially enlarged view of a in fig. 1.

Fig. 4 is the structure schematic diagram of the concrete base body of the double-gantry high-speed tapping machine of the present invention.

Fig. 5 is the structure diagram of the Y-axis beam assembly of the double gantry high-speed tapping machine of the present invention.

Fig. 6 is the structural schematic diagram of the X-axis beam assembly of the dual-gantry high-speed tapping machine of the present invention.

Fig. 7 is the structural schematic diagram of the tapping machine assembly of the double-gantry high-speed tapping machine of the present invention.

Fig. 8 is a schematic structural view of the equal-height fine adjustment mechanism of the double-gantry high-speed tapping machine of the present invention.

Fig. 9 is a schematic structural view of the disc magazine of the double-gantry high-speed tapping machine of the present invention.

Fig. 10 is a schematic structural view of the chip removal mechanism of the dual-gantry high-speed tapping machine of the present invention.

Fig. 11 is the schematic structural diagram of the chip removal baffle of the dual-gantry high-speed tapping machine of the present invention.

Fig. 12 is the structural schematic diagram of the anti-collision mechanism of the double-gantry high-speed tapping machine of the present invention.

Fig. 13 is the structural schematic diagram of the Y-axis linear motor set of the double-gantry high-speed tapping machine of the present invention.

Fig. 14 is a schematic structural diagram of the electrical box assembly of the dual-gantry high-speed tapping machine of the present invention.

Wherein, 1, a lathe bed component, 2, a Y-axis beam component, 3, an X-axis beam component, 4, a drilling machine component, 5, an equal altitude fine adjustment mechanism, 6, a chip removal mechanism, 7, an anti-collision mechanism, 8, an electronic box component, 11, a concrete matrix, 12, a surrounding edge, 21, a Y-axis marble beam, 22, a Y-axis slide rail, 23, a Y-axis linear motor set, 24, a protective cover, 31, an X-axis marble beam, 32, an X-axis slide rail, 33, a disc tool magazine, 34, an X-axis linear motor set, 35, an X-axis drag chain, 41, a drilling machine slide seat, 42, a drilling machine module, 43, a drag chain box, 51, a connecting plate, 52, a fixing plate, 53, a ground aiming adjuster, 61, a chip removal motor seat, 62, a chip removal motor, 63, a chip removal blade, 64, a chip guide plate, 65, a chip removal baffle, 71, an organ cover, 72, an anti-collision support, 73, an anti-collision, 75. the anti-collision device comprises an anti-collision block 81, an electric box frame, 82, an electric box, 83, a water cooling machine, 84, an air purifier, 85, an alarm, 111, a processing platform, 112, a connecting body, 113, a stand column, 231, a Y-axis linear motor stator, 232, a Y-axis linear motor rotor, 241, a cover body, 242, a tool box door, 331, a tool magazine box, 332, a tool changing manipulator, 421, a Z-axis sliding rail, 431, a drag chain, 651, a lower inclined plate, 652 and a chip removal hole, wherein A is a related structure of the tail end of the Y-axis beam component 2.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the directional terms, such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom", refer to the orientation of the drawings, and the directional terms are used for illustration and understanding, but not for limiting the present invention.

The terms "first," "second," and the like in the terms of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, nor should they be construed as limiting in any way.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The tapping and drilling machine in the prior art generally occupies a large space and is not well matched with other equipment for use.

The following is the utility model provides a pair of can solve the two longmen high-speed rig of attacking of above technical problem's preferred embodiment.

Referring to fig. 1-14, wherein fig. 1 is a schematic structural view of a dual-gantry high-speed tapping machine of the present invention, fig. 2 is a top structural view of the dual-gantry high-speed tapping machine of the present invention, fig. 3 is a partial enlarged view of a in fig. 1, fig. 4 is a schematic structural view of a concrete base body of the dual-gantry high-speed tapping machine of the present invention, fig. 5 is a schematic structural view of a Y-axis beam assembly of the dual-gantry high-speed tapping machine of the present invention, fig. 6 is a schematic structural view of an X-axis beam assembly of the dual-gantry high-speed tapping machine of the present invention, fig. 7 is a schematic structural view of a tapping machine assembly of the dual-gantry high-speed tapping machine of the present invention, fig. 8 is a schematic structural view of a high-altitude fine adjustment mechanism of the dual-gantry high-speed tapping machine of the present invention, fig. 9 is a schematic structural view of a disc magazine of the dual-speed tapping machine of the present invention, fig. 10 is a schematic structural view of a chip removal mechanism of the dual-gantry high-, fig. 11 is the utility model discloses a structure schematic diagram of chip removal baffle of rig is attacked to two longmen high speeds, fig. 12 is the utility model discloses a two longmen high speeds attack the anticollision institution's of rig structural schematic diagrams, fig. 13 is the utility model discloses a two longmen high speeds attack the structure schematic diagram of the Y axle linear electric motor group of rig, fig. 14 is the utility model discloses a two longmen high speeds attack the structure schematic diagram of the electronic box subassembly of rig.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The utility model provides a rig is attacked to two longmen high speed, it includes lathe bed component 1, Y axle beam assembly 2, X axle beam assembly 3 and attack rig subassembly 4, the lathe bed component, 1 includes concrete base member 11 and surrounding edge 12, concrete base member 11 is used for supporting and convenience of customers installs, surrounding edge 12 is connected in the concrete base member 11 outside, be provided with electronic box subassembly 8 on the surrounding edge 12, electronic box subassembly 8 includes cabinet frame 81, cabinet 82, water-cooled generator 83, air purifier 84 and alarm 85, cabinet 82 connects in cabinet frame 81 top, be used for the distribution, the water-cooled generator, 83 connect in cabinet frame 81 top, be used for providing the cooling water, air purifier 84 connects in cabinet frame 81 top, be used for air-purifying, the alarm, 85 connects in cabinet 82 top, be used for sending out the police dispatch newspaper. The concrete matrix 11 comprises a processing platform 111, a connecting body 112 and an upright post 113, wherein the processing platform 11 is connected above the connecting body 112, the upright post 113 is connected below the connecting body 112, the upright post 113 is used for connecting the ground, the processing platform 111 is in a cuboid shape, the upper surface of the processing platform 111 is flat, a plurality of grooves for connection are formed in the processing platform 111 and the connecting body 112, and all parts are stably connected to the concrete matrix 11 through expansion screws; many cylindric stands 113 are connected in connector 112 below, use concrete base member 11 to sink into factory building ground, and rational utilization factory building soil, occupation space is little, and the base member sinks into the underground, and mechanism processing platform 11 is lower, and convenience of customers realizes automatic butt joint, and overall structure is stable durable.

Referring to fig. 4 and 8, limiting grooves 1121 are uniformly formed in one side, close to the Y-axis beam assembly 2, of the connecting body 112 at intervals, an equal-height fine adjustment mechanism 5 is arranged in each limiting groove 1121, each equal-height fine adjustment mechanism 5 is used for adjusting the levelness of the Y-axis beam assembly 2, each equal-height fine adjustment mechanism 5 comprises a connecting plate 51, a fixing plate 52 and a ground aiming adjuster 53, the connecting plate 51 is hollow, and the upper end of the connecting plate 51 is connected with the Y-axis beam assembly 2; the fixed plate 52 is connected above the connecting plate 51 and connected to both sides of the Y-axis beam assembly 2; the ground aiming adjuster 53 is in a long strip shape, the middle part of the ground aiming adjuster is provided with a plurality of annular bulges, the upper end of the ground aiming adjuster is connected below the connecting plate 51, and the lower end of the ground aiming adjuster is contacted with the concrete substrate 11.

Referring to fig. 2 and 10, a chip removal mechanism 6 is arranged between the Y-axis beam assembly 2 and the machining platform 111, the chip removal mechanism 6 is used for removing chips, the chip removal mechanism 6 comprises a chip removal motor base 61, a chip removal motor 62 and a chip removal blade 63, the chip removal motor base 61 is connected with the end of the Y-axis beam assembly 2 and one corner of the machining platform 111, and the chip removal motor 62 is connected with the chip removal motor base 61; chip removal blade 63 is the heliciform, and the middle part is fretwork, and chip removal motor 62 is connected to one end to follow chip removal motor 62 and rotate, start chip removal motor 62, drive chip removal blade 63 and rotate, will attack the piece that drilling machine subassembly 4 processing produced and accomodate. The chip guide plate 64 is arranged on one side, close to the chip removal mechanism 6, of the Y-axis beam assembly 2, the upper surface of the chip guide plate 64 is an inclined surface, the Y-axis beam assembly 2 inclines towards the machining platform 111, the Y-axis beam assembly 2 is higher than the axis of the machining platform 111, chips on the chip guide plate 64 slide towards the chip removal blades 63, the chip guide plate 64 is used for guiding chips, the chip removal blades 63 are provided with chip removal baffles 65 on the sides, away from the chip removal motor 62, of the chip removal blades 63, the chip removal baffles 65 are drawer-shaped, the chip removal baffles 65 are connected with the Y-axis beam assembly 2 and the machining platform 111, the chip removal baffles 65 comprise lower inclined plates 651 and chip removal holes 652, the lower inclined plates 651 are connected with the chip removal holes 652.

Referring to fig. 7, the tapping and drilling machine assembly 4 includes a tapping and drilling machine slide 41, a tapping and drilling machine module 42 and a drag chain box 43, the tapping and drilling machine slide 41 is slidably connected to the X-axis slide rail 32, and a Z-axis slide groove is arranged on one side away from the X-axis slide rail 32; the tapping and drilling machine module 42 is used for machining and comprises a Z-axis slide rail 421, a motor seat and a motor, wherein the Z-axis slide rail 421 is connected in a Z-axis slide groove, the Z-axis slide rail 421 is connected with the motor seat, and the motor is connected with the motor seat; the drag chain box 43 is connected above the tapping and drilling machine sliding seat 41 and comprises a drag chain 431, the drag chain 431 is connected with a motor, the motor is electrified through the drag chain 431, and the electrification stability can be guaranteed in the up-and-down moving process of the motor; and a Y-axis drag chain is arranged on the Y-axis beam assembly 2, an X-axis drag chain 35 is arranged on the X-axis beam assembly 3, and the Y-axis drag chain and the X-axis drag chain 35 are used for stably electrifying the moving process of the drilling machine assembly 4.

Referring to fig. 1 and 9, the X-axis beam assembly 3 includes a disc tool magazine 33, the disc tool magazine 33 is connected at the two ends of the X-axis beam assembly 3, the disc tool magazine 33 includes a tool magazine box 331 and a tool changing manipulator 332, the tool magazine box 331 is disc-shaped and is used for storing tools, the tool changing manipulator 332 is connected at the lower end of the tool magazine box 331 and is used for changing tools, tools required by the drilling machine assembly 4 can be stored in the tool magazine box 331 and can be tapped, tools are tapped for the drilling machine assembly 4 through the tool changing manipulator 332, and different processing requirements are met.

Referring to fig. 5, 6 and 13, the Y-axis beam assembly 2 is connected above the concrete base 11, is located on both sides of the processing platform 111, and comprises a Y-axis marble beam 21, and is provided with a Y-axis slide rail 22 at the top; the X-axis beam assembly 3 is connected above the Y-axis slide rail 22 in a sliding manner and comprises an X-axis marble beam 31, and X-axis slide rails 32 are arranged on the top surface and the side surfaces of the X-axis marble beam; the tapping and drilling machine assembly 4 is slidably attached to the X-axis slide 32 for machining. The Y-axis beam assembly 2 comprises a Y-axis linear motor set 23, the Y-axis linear motor set 23 comprises a Y-axis linear motor stator 231 and a Y-axis linear motor rotor 232, the Y-axis linear motor stator 231 is connected to the Y-axis marble beam 21, and the Y-axis linear motor rotor 232 is connected with the X-axis beam assembly 2; the X-axis beam assembly 3 comprises an X-axis linear motor set 34, the X-axis linear motor set 34 comprises an X-axis linear motor stator and an X-axis linear motor rotor, the X-axis linear motor stator is connected to the X-axis marble beam 31, and the X-axis linear motor rotor is connected with a drilling machine sliding seat 41; attack rig subassembly 4 and include Z axle linear electric motor group, Z axle linear electric motor group includes Z axle linear electric motor stator and Z axle linear electric motor active cell, motor cabinet 422 is connected to Z axle linear electric motor stator, the rig slide 41 is attacked in Z axle motor active cell connection, Y axle linear electric motor group 23, X axle linear electric motor group 34 and Z axle linear electric motor group's outward appearance and theory of operation are similar, through using linear electric motor group, whole space occupies still less, moving direction is fixed, it is more stable to remove.

Referring to fig. 1, 3 and 12, the Y-axis beam assembly 2 is provided at both ends thereof with a protective cover 24, the protective cover 24 includes a cover body 241 and a tool box door 242, the cover body 241 is connected to the Y-axis marble beam 21, the tool box door 242 is connected to the cover body 241, and the protective cover 24 is used for placing tools. The two ends of the top surface of the Y-axis beam assembly 2 are provided with anti-collision mechanisms 7, the X-axis beam assembly 3 is arranged between the two anti-collision mechanisms 7, the outside of each anti-collision mechanism 7 is provided with an organ cover 71, each anti-collision mechanism 7 comprises an anti-collision support 72, a buffer spring 74 and an anti-collision block 75, the anti-collision supports 72 are connected above the two ends of the Y-axis marble beam 21, the top of each anti-collision support is provided with an anti-collision seat 73, each anti-collision seat 73 is cuboid, one side, close to the X-axis beam assembly 3, of each anti-; the buffer spring 74 is connected in a limit groove on the anti-collision seat 73 and used for buffering; the anti-collision block 75 is connected on one side of the buffer spring 74 far away from the anti-collision seat 73, when the X-axis beam assembly 3 moves on the Y-axis beam assembly 2, the anti-collision mechanisms 7 at two ends of the Y-axis beam assembly 2 can limit the inertial movement of the X-axis beam assembly 3, and the work stability of the Y-axis linear motor set 23 is effectively protected.

The utility model discloses a theory of operation: connect the stand 113 of concrete base member 11 to the factory building in the soil, fix surrounding edge 12 in the concrete base member 11 outside, fix Y axle beam assembly 2 on concrete base member 11, connect X axle beam assembly 3 on Y axle beam assembly, connect on X axle beam assembly 3 and attack rig subassembly 4, four groups are attacked rig subassembly 4 and can be satisfied multiple processing demands, move along XYZ axle, change the stage property through disc tool magazine 33 on X axle beam assembly 3, the article that will treat processing is placed on processing platform 111, it can the article processing to attack rig subassembly 4.

Thus, the working process of the double-gantry high-speed tapping and drilling machine of the preferred embodiment is completed.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims (10)

1. A drilling machine is attacked to two longmen high speed which characterized in that includes:

the lathe bed component comprises a concrete base body and a surrounding edge, the concrete base body is used for supporting and is convenient for a user to install, the surrounding edge is connected to the outer side of the concrete base body, the concrete base body comprises a processing platform, a connecting body and a stand column, the processing platform is connected above the connecting body, the stand column is connected below the connecting body, the stand column is used for connecting the ground, and the processing platform is cuboid;

the Y-axis beam assembly is connected above the concrete base body, is positioned on two sides of the processing platform, comprises a Y-axis marble beam, and is provided with a Y-axis slide rail at the top;

the X-axis beam assembly is connected above the Y-axis slide rail in a sliding manner and comprises an X-axis marble beam, and the top surface and the side surface of the X-axis marble beam are provided with X-axis slide rails;

and the tapping and drilling machine assembly is connected to the X-axis sliding rail in a sliding mode and used for machining.

2. The double-gantry high-speed tapping and drilling machine as claimed in claim 1, wherein a spacing groove is uniformly arranged on one side of the connecting body close to the Y-axis beam assembly at intervals, an equal-height fine adjustment mechanism is arranged in the spacing groove and used for adjusting the levelness of the Y-axis beam assembly, and the equal-height fine adjustment mechanism comprises:

the middle part of the connecting plate is hollow, and the upper end of the connecting plate is connected with the Y-axis beam assembly;

the fixing plates are connected above the connecting plates and connected to two sides of the Y-axis beam assembly;

the ground aiming adjuster is in a strip shape, a plurality of circular-ring-shaped bulges are arranged in the middle of the ground aiming adjuster, the upper end of the ground aiming adjuster is connected below the connecting plate, and the lower end of the ground aiming adjuster is in contact with the concrete base body.

3. The dual-gantry high-speed tapping machine according to claim 1, wherein a chip removal mechanism is arranged between the Y-axis beam assembly and the machining platform, the chip removal mechanism is used for chip removal, and the chip removal mechanism comprises:

the chip removal motor base is connected with the Y-axis beam assembly and the machining platform;

the chip removal motor is connected to the chip removal motor base;

the chip removal blade is the heliciform, and the middle part is fretwork, and one end is connected the chip removal motor to follow the chip removal motor and rotate.

4. The dual gantry high speed tap drill of claim 1 wherein the tap drill assembly comprises:

the tapping and drilling machine sliding seat is connected to the X-axis sliding rail in a sliding mode, and a Z-axis sliding groove is formed in one side, far away from the X-axis sliding rail, of the tapping and drilling machine sliding seat;

the tapping and drilling machine module is used for machining and comprises a Z-axis sliding rail, a motor base and a motor, wherein the Z-axis sliding rail is connected in the Z-axis sliding groove and is connected with the motor base;

the drag chain box is connected above the tapping machine sliding seat and comprises a drag chain, and the drag chain is connected with the motor.

5. The dual gantry high speed tap drill of claim 1, wherein the X-axis beam assembly comprises a carousel magazine connected across the X-axis beam assembly, the carousel magazine comprising:

a magazine case having a disc shape for storing the cutting tools;

and the tool changing manipulator is connected to the lower end of the tool magazine box and used for changing tools.

6. The dual gantry high speed tap drill of claim 4, wherein the Y-axis beam assembly comprises a Y-axis linear motor assembly, the Y-axis linear motor assembly comprising a Y-axis linear motor stator and a Y-axis linear motor mover, the Y-axis linear motor stator being coupled to the Y-axis marble beam, the Y-axis linear motor mover being coupled to the X-axis beam assembly;

the X-axis beam assembly comprises an X-axis linear motor set, the X-axis linear motor set comprises an X-axis linear motor stator and an X-axis linear motor rotor, the X-axis linear motor stator is connected to the X-axis marble beam, and the X-axis linear motor rotor is connected with the tapping machine sliding seat;

the tapping drill machine assembly comprises a Z-axis linear motor set, the Z-axis linear motor set comprises a Z-axis linear motor stator and a Z-axis linear motor rotor, the Z-axis linear motor stator is connected with the motor base, and the Z-axis linear motor rotor is connected with the tapping drill machine sliding base.

7. The dual gantry high speed tap drill according to claim 1, wherein protective covers are provided at both ends of the Y-axis beam assembly, the protective covers comprise covers attached to the Y-axis marble beam and tool box doors attached to the covers for holding tools.

8. The double-gantry high-speed tapping and drilling machine as claimed in claim 1, wherein two ends of the top surface of the Y-axis beam assembly are provided with anti-collision mechanisms, the X-axis beam assembly is arranged between the two anti-collision mechanisms, an organ cover is arranged on the outer side of each anti-collision mechanism, and each anti-collision mechanism comprises:

the anti-collision support is connected above two ends of the Y-axis marble beam, an anti-collision seat is arranged at the top of the anti-collision support, and a limit groove is formed in one side, close to the X-axis beam assembly, of the anti-collision seat;

one end of the buffer spring is connected in the limit groove on the anti-collision seat and is used for buffering;

and the anti-collision block is connected to one side of the buffer spring, which is far away from the anti-collision seat.

9. The high-speed rig of attacking of two longmen according to claim 3, characterized in that, be close to on the Y axle beam assembly chip removal mechanism one side is provided with the chip guide plate, the chip guide plate upper surface is the inclined plane, inclines to the processing platform along Y axle beam assembly for the chip guide, the chip removal blade is kept away from chip removal motor one side is provided with chip removal baffle, chip removal baffle connects Y axle beam assembly and processing platform, chip removal baffle include down swash plate and chip removal hole, the swash plate is the slope form down, and the lower extreme is connected the chip removal hole, and the chip removal hole is used for the chip removal.

10. The dual gantry high speed tap drill of claim 1, wherein an electrical box assembly is disposed on the perimeter, the electrical box assembly comprising:

a cabinet frame;

the electric cabinet box is connected above the electric cabinet frame and used for power distribution;

the water cooling machine is connected above the electric box frame and used for providing cooling water;

the air purifier is connected above the electric box frame and used for purifying air;

and the alarm is connected above the electric cabinet box and used for giving an alarm.

Images