CN213889260U

CN213889260U - Spray set for machining center

Info

Publication number: CN213889260U
Application number: CN202022557654.8U
Authority: CN
Inventors: 杨新雄
Original assignee: Xinchang Lianxin Intelligent Technology Co ltd
Current assignee: Xinchang Lianxin Intelligent Technology Co ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-08-06
Anticipated expiration: 2030-11-06

Abstract

The utility model discloses a spray device for a machining center, which comprises a nozzle and a nozzle moving component. The nozzle moving component includes an x-axis structure, a y-axis structure and a z-axis structure. The nozzle is fixed in the nozzle moving component. The nozzle moving component drives the nozzle to move near the workpiece. When the workpiece is replaced, the nozzle can automatically change its position without manual operation, which is convenient for operation.

Description

Spray set for machining center

Technical Field

The utility model belongs to the machining center field, concretely relates to spray set for machining center.

Background

The numerical control machining center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for machining complex parts. The numerical control machining center is one of numerical control machines with highest yield and most extensive application in the world at present. The comprehensive processing capacity is strong, a workpiece can finish more processing contents after being clamped once, the processing precision is high, batch workpieces with medium processing difficulty are processed, the efficiency is 5-10 times that of common equipment, especially, the batch processing method can finish processing which cannot be finished by a plurality of common equipment, and the batch processing method is more suitable for single-piece processing or medium-small batch multi-variety production with complex shapes and high precision requirements. The functions of milling, boring, drilling, tapping, cutting threads and the like are integrated on one device, so that the device has multiple technological means.

The lathe tool during machining needs cooling liquid to be cooled, and the cooling liquid is sprayed to a machined workpiece from a nozzle in a spraying device. The spraying device of the existing machining center is usually fixed in one place, and the position of a nozzle needs to be manually changed when objects with different sizes are machined, so that the operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a spray set for machining center, but the nozzle position automatically regulated need not the manual work, convenient operation.

In order to solve the technical problem, the utility model discloses take following technical scheme:

the utility model provides a spray set for machining center which characterized in that: the nozzle moving assembly comprises an x-axis structure, a y-axis structure and a z-axis structure, and the nozzle is fixed in the nozzle moving assembly. The nozzle moving assembly drives the nozzle to move near the machining workpiece, and after the machining workpiece is replaced, the position of the nozzle can be automatically changed without manual operation, so that the operation is convenient.

Furthermore, the x-axis structure comprises an x-axis guide rail, the x-axis guide rail is connected with an x-axis sliding block in a sliding mode, rollers are arranged in the x-axis sliding block and are matched with the x-axis guide rail, a z-axis structure is fixed to the top of the x-axis sliding block, and the nozzle is fixed to the z-axis structure. The x-axis slide block drives the nozzle to move along the x-axis guide rail, and the position of the nozzle on the x axis is changed.

Furthermore, a rotating motor and a driven wheel fixing block are respectively fixed at two ends of the x-axis guide rail, the rotating motor is provided with a rotating wheel, the driven wheel fixing block is provided with a driven wheel, a conveying belt is arranged between the rotating wheel and the driven wheel, and the conveying belt is fixed in the x-axis sliding block. The rotating motor drives the conveyor belt to rotate, and the conveyor belt drives the x-axis sliding block to move, so that the nozzle moves in the x-axis direction.

Further, the z-axis structure comprises a screw motor and a z-axis guide rail, a top plate is arranged on the top of the z-axis guide rail, the screw motor is fixed to the top of the top plate, a connecting seat penetrates through a screw rod and the z-axis guide rail of the screw motor, an idler wheel and a nut are arranged in the connecting seat, the idler wheel is matched with the z-axis guide rail, and the nut is matched with the screw rod. The connecting seat moves up and down along the z-axis guide rail under the action of the screw rod motor, so that the nozzle is driven to move in the z-axis direction.

Furthermore, the connecting seat is provided with a connecting plate which is fixedly connected with a y-axis structure. The connecting plate is used for connecting the z-axis structure and the y-axis structure.

Further, the y-axis structure comprises a cylinder and a nozzle fixing seat, the cylinder penetrates through the connecting plate to be connected with the nozzle fixing seat, and the nozzle is installed in the nozzle fixing seat. The cylinder extends or retracts along the y-axis, so that the nozzle is driven to move in the y-axis direction.

Further, the nozzle fixing base includes fixed plate, connecting rod and solid fixed ring, and the cylinder runs through shown connecting plate and links to each other with the fixed plate, and the nozzle is installed in the fixed ring, and the fixed plate is connected to the one end of connecting rod, and solid fixed ring is connected to the other end of connecting rod, and solid fixed ring's top is equipped with fastening screw, and fastening screw compresses tightly the nozzle. The nozzle is installed in the retaining ring, and the position of the nozzle is fixed through the fastening screw, so that the stability of the nozzle is kept.

Furthermore, guide rods are arranged on two sides of the air cylinder and penetrate through the connecting plate to be connected with the fixing plate. The guide rod plays a role in guiding, and the stability of the fixed plate during moving is enhanced, so that the moving stability of the nozzle is improved.

Due to the adoption of the technical scheme, the utility model discloses following beneficial effect has:

the nozzle moving assembly drives the nozzle to move near the machining workpiece, and after the machining workpiece is replaced, the position of the nozzle can be automatically changed without manual operation, so that the operation is convenient. The x-axis slide block drives the nozzle to move along the x-axis guide rail, and the position of the nozzle on the x axis is changed. The rotating motor drives the conveyor belt to rotate, and the conveyor belt drives the x-axis sliding block to move, so that the nozzle moves in the x-axis direction. The connecting seat moves up and down along the z-axis guide rail under the action of the screw rod motor, so that the nozzle is driven to move in the z-axis direction. The connecting plate is used for connecting the z-axis structure and the y-axis structure. The cylinder extends or retracts along the y-axis, so that the nozzle is driven to move in the y-axis direction. The nozzle is installed in the retaining ring, and the position of the nozzle is fixed through the fastening screw, so that the stability of the nozzle is kept. The guide rod plays a role in guiding, and the stability of the fixed plate during moving is enhanced, so that the moving stability of the nozzle is improved.

Drawings

The present invention will be further explained with reference to the drawings.

Fig. 1 is a schematic structural view of a spraying device for a machining center of the present invention;

fig. 2 is a schematic structural view in another direction of fig. 1.

Detailed Description

As shown in fig. 1 and 2, the spray device for the machining center comprises a nozzle 1 and a nozzle moving assembly, wherein the nozzle moving assembly comprises an x-axis structure, a y-axis structure and a z-axis structure, and the nozzle 1 is fixed in the nozzle moving assembly. The nozzle moving assembly drives the nozzle 1 to move near a machining workpiece, and after the machining workpiece is replaced, the position of the nozzle 1 can be automatically changed without manual operation, so that the operation is convenient.

The x axle structure includes x

axle guide rail

2, and 2 sliding connection of x axle guide rail have x axle slider 3, are equipped with gyro wheel 4 in the x axle slider 3, and gyro wheel 4 and 2 phase-matchs of x axle guide rail, 3 tops of x axle slider are fixed with the z axle structure, and nozzle 1 is fixed at the z axle structurally. The x-axis slide block 3 drives the nozzle 1 to move along the x-axis guide rail 2, and the position of the nozzle 1 on the x axis is changed. The two ends of the x-axis guide rail 2 are respectively fixed with a rotating motor 5 and a driven wheel fixing block 6, the rotating motor 5 is provided with a rotating wheel 7, the driven wheel fixing block 6 is provided with a driven wheel 8, a conveying belt 9 is arranged between the rotating wheel 7 and the driven wheel 8, and the conveying belt 9 is fixed in the x-axis sliding block 3. The rotating motor 5 drives the conveyor belt 9 to rotate, the conveyor belt 9 drives the x-axis slide block 3 to move, and the nozzle 1 moves in the x-axis direction.

The z-axis structure comprises a screw motor 10 and a z-axis guide rail 11, a top plate 12 is arranged at the top of the z-axis guide rail 11, the screw motor 10 is fixed at the top of the top plate 12, a connecting seat 13 penetrates through a screw rod 15 and the z-axis guide rail 11 of the screw motor 10, a roller 4 and a nut 14 are arranged in the connecting seat 13, the roller 4 is matched with the z-axis guide rail 11, and the nut 14 is matched with the screw rod 15. The connecting base 13 moves up and down along the z-axis guide rail 11 under the action of the lead screw motor 10, thereby driving the nozzle 1 to move in the z-axis direction. Connecting seat 13 is provided with connecting plate 16, and connecting plate 16 is fixed with the y axle structure. The connection plate 16 is used to connect the z-axis structure and the y-axis structure.

The y axle construction includes cylinder 17 and nozzle fixing base, and cylinder 17 runs through connecting plate 16 and links to each other with the nozzle fixing base, and nozzle 1 is installed in the nozzle fixing base. The cylinder 17 extends or retracts along the y-axis, thereby moving the nozzle 1 in the y-axis direction. The nozzle fixing seat comprises a fixing plate 18, a connecting rod 19 and a fixing ring 20, the air cylinder 17 penetrates through the connecting plate 16 and is connected with the fixing plate 18, the nozzle 1 is installed in the fixing ring 20, one end of the connecting rod 19 is connected with the fixing plate 18, the other end of the connecting rod 19 is connected with the fixing ring 20, the top of the fixing ring 20 is provided with a fastening screw 21, and the fastening screw 21 compresses the nozzle 1. The nozzle 1 is mounted in a fixing ring 20, and the position of the nozzle 1 is fixed by a fastening screw 21, thereby maintaining the stability of the nozzle 1. Guide rods 22 are arranged on two sides of the air cylinder 17, and the guide rods 22 penetrate through the connecting plate 16 and are connected with the fixing plate 18. The guide rod 22 plays a guiding role, and enhances the stability of the fixed plate 18 during movement, thereby improving the stability of the movement of the nozzle 1.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present invention to solve the same technical problems and achieve the same technical effects are all covered by the protection scope of the present invention.

Claims

1. A spray device for machining centers, characterized in that: comprising a nozzle and a nozzle moving assembly, the nozzle moving assembly includes an x-axis structure, a y-axis structure and a z-axis structure, and the nozzle is fixed to the nozzle moving assembly Inside, the z-axis structure includes a lead screw motor and a z-axis guide rail, the top of the z-axis guide rail is provided with a top plate, the lead screw motor is fixed on the top of the top plate, and the connecting seat penetrates the lead screw of the lead screw motor and the z-axis guide rail, the connecting seat is provided with a roller and a nut, the roller is matched with the z-axis guide rail, and the nut is matched with the screw rod.

2 . The spray device for a machining center according to claim 1 , wherein the x-axis structure comprises an x-axis guide rail, the x-axis guide rail is slidably connected with an x-axis slider, and the x-axis slider is slidably connected with the x-axis slider. 3 . A roller is provided inside, the roller matches the x-axis guide rail, a z-axis structure is fixed on the top of the x-axis slider, and the nozzle is fixed on the z-axis structure.

3. The spray device for a machining center according to claim 2, wherein the two ends of the x-axis guide rail are respectively fixed with a rotating motor and a driven wheel fixing block, and the rotating motor is provided with a rotating wheel, so The driven wheel fixing block is provided with a driven wheel, a conveyor belt is arranged between the rotating wheel and the driven wheel, and the conveyor belt is fixed in the x-axis slider.

4 . The spray device for a machining center according to claim 1 , wherein the connecting seat is provided with a connecting plate, and the connecting plate is fixedly connected with a y-axis structure. 5 .

5 . The spraying device for a machining center according to claim 4 , wherein the y-axis structure comprises an air cylinder and a nozzle fixing seat, and the air cylinder penetrates through the connecting plate and is connected to the nozzle fixing seat. 6 . The nozzle is installed in the nozzle holder.

6 . The spraying device for a machining center according to claim 5 , wherein the nozzle fixing seat comprises a fixing plate, a connecting rod and a fixing ring, and the air cylinder is connected to the fixing plate through the connecting plate. 7 . , the nozzle is installed in the fixing ring, one end of the connecting rod is connected to the fixing plate, the other end of the connecting rod is connected to the fixing ring, and the top of the fixing ring is provided with a fastening screw, so The tightening screw presses the nozzle.

7 . The spray device for a machining center according to claim 6 , wherein guide rods are provided on both sides of the cylinder, and the guide rods pass through the connecting plate and are connected to the fixing plate. 8 .