CN210966981U - Intelligent manufacturing device for titanium alloy additive - Google Patents

Abstract

The utility model discloses a titanium alloy additive intelligent manufacturing device, comprising a base, two sides of the top surface of the base are longitudinally fixedly connected with a support plate, the top of the support plate is horizontally fixedly connected with a top plate, and the top of the top plate is fixedly connected with a top plate. A rotating motor is fixedly connected to the center of the surface, and a rotating shaft is fixedly connected to the bottom of the rotating shaft of the rotating motor through a coupling. The utility model is provided with a processing table, a positioning frame, a forward and reverse rotation motor, a screw sleeve, a lifting support plate, a double-ended screw, a moving slot, a bearing plate, a guide groove, a storage groove, a guide rod, a bearing seat, a fixed frame and a fixed frame. The height adjustment of the shaft can be adjusted according to production needs, so that the additive intelligent manufacturing device can produce various types of titanium alloy workpieces, which solves the problem that the additive intelligent manufacturing device cannot be adjusted according to the actual production needs when it is used. As a result, the additive intelligent manufacturing device can only produce the same type of titanium alloy workpiece.

Description

A kind of titanium alloy additive intelligent manufacturing device

technical field

The utility model relates to the technical field of intelligent additive materials, in particular to an intelligent manufacturing device for titanium alloy additive materials.

Background technique

Titanium alloy workpieces have been used on a large scale in the aviation and aerospace fields in modern industry, and additive intelligent manufacturing devices are required in the production process of titanium alloy workpieces. During the processing process, existing additive intelligent manufacturing devices can only To produce the same type of titanium alloy workpiece, different types of titanium alloy workpieces need different growth intelligent manufacturing; in addition, multiple additive intelligent manufacturing also occupies a large space, and also requires multiple operators to operate, greatly Increased manufacturing costs.

Utility model content

The purpose of the utility model is to provide a titanium alloy additive intelligent manufacturing device, which has the advantages of producing various types of titanium alloy workpieces, and solves the problem that the additive intelligent manufacturing device can only produce the same type of titanium alloy workpieces.

In order to achieve the above purpose, the present invention provides the following technical solution: a titanium alloy additive intelligent manufacturing device, comprising a base, both sides of the top surface of the base are longitudinally fixed and connected with support plates, and the top of the support plate is laterally fixed. A top plate is connected, a rotating motor is fixedly connected at the center of the top surface of the top plate, a rotating shaft is fixedly connected to the bottom of the rotating shaft of the rotating motor through a coupling, and a bearing ring plate is fixedly connected to the bottom of the rotating shaft. The center of the outer ring surface of the bearing ring plate is provided with a bearing ring groove, the top of the inner surface of the support plate is fixedly connected with a bearing rod, and the inner side of the bearing rod extends to the inner cavity of the bearing ring groove and is connected with the inner cavity of the bearing ring groove. The cavity is in sliding contact, and the left and right sides of the center of the top surface of the bearing ring plate are respectively provided with a storage box and a cleaning box, and the bottom of the storage box and the cleaning box are fixedly connected with a stacking pipe and a cleaning rod respectively. , the surfaces on both sides of the stacking pipe and the cleaning rod are fixedly connected with distance measuring sensors, both sides of the center of the bottom surface of the top plate are provided with electric telescopic rods, and the bottoms of the electric telescopic rods are respectively connected with the storage box and the Cleaning the chassis is fixedly connected, a processing table is placed on the surface of the top of the base and between the two support plates, a placement groove is opened at the center of the top surface of the processing table, and the center of the left surface of the base is fixedly connected There is a positioning frame, and the right side of the positioning frame is provided with a forward and reverse rotation motor;

Both sides of the center of the top surface of the base are provided with moving slots, the bottom of the inner cavity of the moving slot is connected with a receiving groove, and both sides of the bottom of the inner cavity of the receiving groove are provided with guide grooves, and the receiving grooves A bearing seat is fixedly connected to the center of both sides of the inner cavity, a bearing plate is vertically fixedly connected to the center of the inner cavity of the receiving groove, and a double head is fixedly connected to the left side of the rotating shaft of the forward and reverse rotation motor through a coupling. Screw, the left side of the double-ended screw runs through the processing table and the bearing plate from right to left in turn, and extends to the inner cavity of the bearing seat and the inner cavity of the bearing seat is movably connected through the bearing, and both sides of the surface of the double-ended screw are A screw sleeve is sleeved, the center of the bottom surface of the screw sleeve is fixedly connected with a guide rod, the bottom of the guide rod extends to the inner cavity of the guide groove and is in sliding contact with the inner cavity of the guide groove, and the top of the screw sleeve is in sliding contact. The center of the surface and both sides of the center of the bottom surface of the processing table are fixedly connected with a fixed frame, the inner cavity of the fixed frame is longitudinally provided with a fixed shaft, and a side corresponding to the two fixed shafts is laterally provided with a lifting support plate , The left surface of the left support plate is inlaid with a control panel, and the output ends of the control panel are respectively electrically connected with the forward and reverse rotation motors, the rotating motors, the electric telescopic rod, the storage box, the cleaning case and the distance measuring sensor.

Preferably, the inner ring of the screw sleeve is in sliding contact with the surface of the double-ended screw, the bearing plate is provided with a bearing hole through it, the surface of the double-ended screw is in sliding contact with the inner cavity of the bearing hole, the The screw threads on both sides of the surface of the double-ended screw are in opposite directions, and the threads on the surface of the double-ended screw are opened between the inner side of the bearing seat and the outer side of the bearing plate.

Preferably, the inner surface of the support plate is provided with a lifting groove, the two sides of the outer side of the inner cavity of the lifting groove are provided with limit chutes, and the surfaces on both sides of the processing table are fixedly connected with a lifting limit plate The outer side of the lifting limit plate extends to the inner cavity of the lifting groove and is in sliding contact with the inner cavity of the lifting groove. The outer side of the rod extends to the inner cavity of the limit chute and is in sliding contact with the inner cavity of the limit chute.

Preferably, the front side and the rear side of the inner cavity of the fixed frame are provided with rotating holes, the surface of the fixed shaft is in sliding contact with the inner cavity of the rotating hole, and the front surface and the back surface of the fixed shaft are both fixed Connect the limit stopper.

Preferably, the center of the top surface of the top plate is provided with a rotating hole for use with the rotating electrical machine, and the inner diameter of the rotating hole is larger than the outside diameter of the rotating electrical machine shaft and the coupling.

Preferably, a placing groove is formed on the surface of the bottom of the top plate and in the outer ring of the rotating hole, a limit ring groove is formed at the center of both sides of the inner cavity of the placing groove, and the top of the electric telescopic rod extends to the placing groove The inner cavity of the electric telescopic rod is in sliding contact with the inner cavity of the placing slot. The tops of the two sides of the electric telescopic rod are fixedly connected with hanging rods. The lumen is in sliding contact.

Preferably, both sides of the center of the top surface of the bearing ring plate are provided with lifting through holes for cooperating with the storage box and the cleaning cabinet, and the inner ring of the lifting through hole and the surface of the storage box and the cleaning cabinet are both sliding contact.

Compared with the prior art, the beneficial effects of the present utility model are as follows:

1. The utility model is equipped with a processing table, a positioning frame, a forward and reverse rotation motor, a screw sleeve, a lifting support plate, a double-ended screw, a moving slot, a bearing plate, a guide groove, a storage groove, a guide rod, a bearing seat, and a fixed frame. When used in conjunction with a fixed shaft, the height can be adjusted according to production needs, so that the additive intelligent manufacturing device can produce various types of titanium alloy workpieces, which solves the problem that the additive intelligent manufacturing device cannot be used according to the actual production needs. Adjustment, resulting in the problem that the additive intelligent manufacturing device can only produce the same type of titanium alloy workpiece, which is worth promoting.

2. The utility model can effectively support the double-ended screw through the cooperation of the bearing plate and the bearing seat. Through the cooperation of the lifting groove, the limit chute, the lifting limit plate and the limit sliding rod, the processing table can be carried out. The position limit improves the stability of the up and down movement of the processing table. Through the rotating hole, the rotation of the fixed shaft is convenient. Through the limit baffle, the fixed shaft can be limited to prevent the fixed shaft from leaving the fixed frame. Through the rotating hole, it is convenient to The rotation of the rotating shaft of the rotating motor can be controlled, and the position of the electric telescopic rod can be limited by the cooperation of the placement groove, the limit ring groove and the hanging rod, and the rotation of the electric telescopic rod can be facilitated at the same time.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the sectional view of the base structure of the utility model;

3 is a cross-sectional view of the processing table structure of the present invention;

4 is a top view of the fixed frame structure of the present invention;

5 is a partial side view of the support plate structure of the present invention;

6 is a bottom cross-sectional view of the top plate structure of the present invention.

In the picture: 1 base, 2 processing table, 3 lifting limit plate, 4 positioning frame, 5 forward and reverse motor, 6 support plate, 7 cleaning rod, 8 carrying rod, 9 top plate, 10 carrying ring groove, 11 cleaning chassis, 12 rotating shaft, 13 rotating motor, 14 electric telescopic rod, 15 storage box, 16 bearing ring plate, 17 stacking tube, 18 distance measuring sensor, 19 control panel, 20 screw sleeve, 21 lifting support plate, 22 double-ended screw, 23 mobile slot, 24 carrier plate, 25 guide groove, 26 storage groove, 27 guide rod, 28 bearing seat, 29 fixed frame, 30 placement groove, 31 limit chute, 32 lift groove, 33 limit ring groove , 34 placement slot, 35 fixed shaft.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

Please refer to Fig. 1-6, a titanium alloy additive intelligent manufacturing device, including a base 1, both sides of the top surface of the base 1 are longitudinally fixedly connected with support plates 6, and the top of the support plate 6 is laterally fixedly connected with a top plate 9, the top plate 9. The center of the top surface is fixedly connected with a rotating motor 13, the bottom of the rotating shaft of the rotating motor 13 is fixedly connected with a rotating shaft 12 through a coupling, and the center of the top surface of the top plate 9 is provided with a rotating hole that is used in conjunction with the rotating motor 13, The inner diameter of the rotating hole is larger than the outer diameter of the rotating shaft of the rotating motor 13 and the outer diameter of the coupling. The rotating hole facilitates the rotation of the rotating shaft of the rotating motor 13. The bottom of the rotating shaft 12 is fixedly connected with a bearing ring plate 16, and the surface of the outer ring of the bearing ring plate 16 is fixed. A bearing ring groove 10 is opened at the center of the support plate 6, and a bearing rod 8 is fixedly connected to the top of the inner surface of the support plate 6. The inner side of the bearing rod 8 extends to the inner cavity of the bearing ring groove 10 and is in sliding contact with the inner cavity of the bearing ring groove 10. , the left and right sides of the center of the top surface of the bearing ring plate 16 are respectively provided with a storage box 15 and a cleaning case 11, and both sides of the center of the top surface of the bearing ring plate 16 are provided with a storage box 15 and a cleaning box. The lifting through hole is used in conjunction with the chassis 11. The inner ring of the lifting through hole is in sliding contact with the surface of the storage box 15 and the cleaning box 11. The surfaces on both sides of the rod 7, the stacking pipe 17 and the cleaning rod 7 are fixedly connected with distance measuring sensors 18, and both sides at the center of the bottom surface of the top plate 9 are provided with electric telescopic rods 14. The box 15 and the cleaning box 11 are fixedly connected, the surface of the bottom of the top plate 9 and the outer ring of the rotating hole are provided with a placement slot 34, and the center of both sides of the inner cavity of the placement slot 34 is provided with a limit ring slot 33. The top extends to the inner cavity of the placement slot 34 and is in sliding contact with the inner cavity of the placement slot 34. The tops of the two sides of the electric telescopic rod 14 are fixedly connected with hanging rods, and the outside of the hanging rods extends to the limit ring groove 33. The cavity is in sliding contact with the inner cavity of the limit ring groove 33. Through the cooperation of the placement groove 34, the limit ring groove 33 and the hanging rod, the electric telescopic rod 14 can be limited, and the rotation of the electric telescopic rod 14 is facilitated. , the surface of the top of the base 1 and between the two support plates 6 is placed with the processing table 2, the surface of the inner side of the support plate 6 is provided with a lifting groove 32, and both sides of the inner cavity of the lifting groove 32 are provided with limit chute 31. The surfaces on both sides of the processing table 2 are fixedly connected with a lifting limit plate 3. The outer side of the lifting limit plate 3 extends to the inner cavity of the lifting groove 32 and is in sliding contact with the inner cavity of the lifting groove 32. Both sides of the outer side of the position plate 3 are fixedly connected to the limit slide bar, and the outer side of the limit slide bar extends to the inner cavity of the limit chute 31 and is in sliding contact with the inner cavity of the limit chute 31, and passes through the lifting groove 32. The cooperation of the limit chute 31, the lifting limit plate 3 and the limit slide bar can limit the processing table 2 and improve the stability of the up and down movement of the processing table 2. The center of the top surface of the processing table 2 is provided with Place the groove 30 in the middle of the left side surface of the base 1 A positioning frame 4 is fixedly connected at the center, and a forward and reverse rotation motor 5 is arranged through the right side of the positioning frame 4;

Both sides of the center of the top surface of the base 1 are provided with a moving slot 23, the bottom of the inner cavity of the moving slot 23 is connected with a receiving slot 26, and both sides of the bottom of the inner cavity of the storage slot 26 are provided with a guide slot 25, and the storage slot 26 A bearing seat 28 is fixedly connected to the center of both sides of the inner cavity, a bearing plate 24 is vertically fixedly connected to the center of the inner cavity of the receiving slot 26, and the left side of the rotating shaft of the forward and reverse motor 5 is fixedly connected to a double head through a coupling. Screw 22, the left side of the double-ended screw 22 runs through the processing table 2 and the bearing plate 24 in sequence from right to left and extends to the inner cavity of the bearing seat 28 and the inner cavity of the bearing seat 28 is movably connected through the bearing, and the surface of the double-ended screw 22 is connected. Both sides are sleeved with screw sleeves 20, the inner ring of the screw sleeve 20 is in sliding contact with the surface of the double-ended screw 22, the bearing plate 24 is provided with a bearing hole, and the surface of the double-ended screw 22 and the inner cavity of the bearing hole are Sliding contact, the screw threads on both sides of the surface of the double-ended screw 22 are in opposite directions, and the threads on the surface of the double-ended screw 22 are opened between the inner side of the bearing seat 28 and the outer side of the bearing plate 24, through the bearing plate 24 and the bearing seat 28. In cooperation, the double-ended screw 22 can be effectively supported. The center of the bottom surface of the screw sleeve 20 is fixedly connected with a guide rod 27. The bottom of the guide rod 27 extends to the inner cavity of the guide groove 25 and slides with the inner cavity of the guide groove 25. Contact, both sides of the center of the top surface of the screw sleeve 20 and the center of the bottom surface of the processing table 2 are fixedly connected with a fixed frame 29, and the inner cavity of the fixed frame 29 is longitudinally provided with a fixed shaft 35, and the two fixed shafts 35 correspond to A lifting support plate 21 is arranged laterally on one side of the machine. By setting the processing table 2, the positioning frame 4, the forward and reverse rotation motors 5, the screw sleeve 20, the lifting support plate 21, the double-ended screw 22, the moving slot 23, the bearing plate 24, The combined use of the guide groove 25, the storage groove 26, the guide rod 27, the bearing seat 28, the fixed frame 29 and the fixed shaft 35 can be adjusted in height according to production requirements, so that the additive intelligent manufacturing device can produce various types of titanium alloys The workpiece solves the problem that the additive intelligent manufacturing device can only produce the same type of titanium alloy workpiece because it cannot be adjusted according to the actual production needs when the additive intelligent manufacturing device is in use. It is worth promoting. The inner cavity of the fixed frame 29 The front side and the rear side of the fixed shaft 35 are provided with rotating holes, the surface of the fixed shaft 35 is in sliding contact with the inner cavity of the rotating hole, the front surface and the back surface of the fixed shaft 35 are fixedly connected Both sides are sleeved on the surface of the fixed shaft 35, the rotation of the fixed shaft 35 is facilitated through the rotation hole, and the fixed shaft 35 can be limited by the limit baffle to prevent the fixed shaft 35 from detaching from the fixed frame 29, and the left side supports The left surface of the board 6 is inlaid with a control panel 19, and the output end of the control panel 19 is electrically connected to the forward and reverse motor 5, the rotating motor 13, the electric telescopic rod 14, the storage box 15, the cleaning case 11 and the distance measuring sensor 18 respectively. connect.

All kinds of components used in this application document are standard parts, which can be purchased from the market. The specific connection methods of each part adopt conventional methods such as mature bolts, rivets and welding in the prior art. The conventional models in the prior art are used, the devices appearing in this article are powered by 380V voltage, and the circuit connection adopts the conventional connection mode in the prior art, which will not be described in detail here.

To sum up: this kind of intelligent manufacturing device for titanium alloy additive, by setting the processing table 2, the positioning frame 4, the forward and reverse rotation motor 5, the screw sleeve 20, the lifting support plate 21, the double-ended screw 22, the moving slot 23 , the bearing plate 24, the guide groove 25, the storage groove 26, the guide rod 27, the bearing seat 28, the fixed frame 29 and the fixed shaft 35 are used together to solve the problem that the additive intelligent manufacturing device can only produce the same type of titanium alloy workpiece. .

Although the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes and modifications can be made to these embodiments without departing from the principles and spirit of the present invention , alternatives and modifications, the scope of the present invention is defined by the appended claims and their equivalents.

Claims (7)

1. A titanium alloy additive intelligent manufacturing device, comprising a base, characterized in that: both sides of the top surface of the base are longitudinally fixedly connected with a support plate, the top of the support plate is laterally fixedly connected with a top plate, and the top plate is A rotating motor is fixedly connected to the center of the top surface, a rotating shaft is fixedly connected to the bottom of the rotating shaft of the rotating motor through a coupling, and a bearing ring plate is fixedly connected to the bottom of the rotating shaft, and the outer ring surface of the bearing ring plate is fixedly connected. A bearing ring groove is opened in the center, a bearing rod is fixedly connected to the top of the inner surface of the support plate, and the inner side of the bearing rod extends to the inner cavity of the bearing ring groove and is in sliding contact with the inner cavity of the bearing ring groove. The left side and the right side of the center of the top surface of the bearing ring plate are respectively provided with a storage box and a cleaning case, and the bottom of the storage box and the cleaning case are respectively fixedly connected with a stacking pipe and a cleaning rod. The surfaces on both sides of the rod are fixedly connected with distance measuring sensors, and both sides at the center of the bottom surface of the top plate are provided with electric telescopic rods. A processing table is placed on the surface of the top of the base and between the two support plates, a placement groove is opened at the center of the top surface of the processing table, and a positioning frame is fixedly connected to the center of the left surface of the base, and the positioning The right side of the frame is provided with a forward and reverse motor; Both sides of the center of the top surface of the base are provided with moving slots, the bottom of the inner cavity of the moving slot is connected with a receiving groove, and both sides of the bottom of the inner cavity of the receiving groove are provided with guide grooves, and the receiving grooves A bearing seat is fixedly connected to the center of both sides of the inner cavity, a bearing plate is vertically fixedly connected to the center of the inner cavity of the receiving groove, and a double head is fixedly connected to the left side of the rotating shaft of the forward and reverse rotation motor through a coupling. Screw, the left side of the double-ended screw runs through the processing table and the bearing plate from right to left in turn, and extends to the inner cavity of the bearing seat and the inner cavity of the bearing seat is movably connected through the bearing, and both sides of the surface of the double-ended screw are A screw sleeve is sleeved, the center of the bottom surface of the screw sleeve is fixedly connected with a guide rod, the bottom of the guide rod extends to the inner cavity of the guide groove and is in sliding contact with the inner cavity of the guide groove, and the top of the screw sleeve is in sliding contact. The center of the surface and both sides of the center of the bottom surface of the processing table are fixedly connected with a fixed frame, the inner cavity of the fixed frame is longitudinally provided with a fixed shaft, and a side corresponding to the two fixed shafts is laterally provided with a lifting support plate , The left surface of the left support plate is inlaid with a control panel, and the output ends of the control panel are respectively electrically connected with the forward and reverse rotation motors, the rotating motors, the electric telescopic rod, the storage box, the cleaning case and the distance measuring sensor. 2 . The intelligent manufacturing device for titanium alloy additive material according to claim 1 , wherein the inner ring of the screw sleeve is in sliding contact with the surface of the double-ended screw, and the bearing plate is provided with a bearing hole through it. 3 . , the surface of the double-ended screw is in sliding contact with the inner cavity of the bearing hole, the threads on both sides of the surface of the double-ended screw are in opposite directions, and the threads on the surface of the double-ended screw are opened on the inner side of the bearing seat and the bearing between the outside of the plate. 3. The intelligent manufacturing device for titanium alloy additive material according to claim 1, characterized in that: a lifting groove is formed on the inner surface of the support plate, and both sides outside the inner cavity of the lifting groove are provided with limited openings. Lifting limit plates are fixedly connected to the surfaces on both sides of the processing table. The outer sides of the lifting limit plates extend to the inner cavity of the lifting groove and are in sliding contact with the inner cavity of the lifting groove, so Both sides of the outer side of the lifting limit plate are fixedly connected with a limit slide rod, and the outer side of the limit slide rod extends to the inner cavity of the limit chute and is in sliding contact with the inner cavity of the limit chute. 4. A titanium alloy additive intelligent manufacturing device according to claim 1, characterized in that: both the front side and the rear side of the inner cavity of the fixed frame are provided with rotating holes, and the surface of the fixed shaft is connected to the rotating hole. The inner cavity of the hole is in sliding contact, and the front surface and the back surface of the fixed shaft are fixedly connected to the limiting baffle. 5. A titanium alloy additive intelligent manufacturing device according to claim 1, characterized in that: the center of the top surface of the top plate is provided with a rotating hole used in cooperation with the rotating motor, and the inner diameter of the rotating hole is larger than that of the rotating motor Outside diameter of shaft and coupling. 6 . The intelligent titanium alloy additive manufacturing device according to claim 5 , wherein a placement groove is formed on the surface of the bottom of the top plate and located in the outer ring of the rotating hole, and the placement grooves on both sides of the inner cavity of the placement groove are provided. 7 . A limit ring groove is set in the center, the top of the electric telescopic rod extends to the inner cavity of the placing groove and is in sliding contact with the inner cavity of the placing groove, and the tops of the two sides of the electric telescopic rod are fixedly connected with hanging rods The outer side of the hanging rod extends to the inner cavity of the limit ring groove and is in sliding contact with the inner cavity of the limit ring groove. 7. A titanium alloy additive intelligent manufacturing device according to claim 1, characterized in that: both sides of the center of the top surface of the bearing ring plate are provided with lifting and lowering boxes that are used in conjunction with the storage box and the cleaning box. The inner ring of the through hole and the inner ring of the lifting through hole are in sliding contact with the surface of the storage box and the cleaning box.

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