CN206140917U - 3D printing apparatus Z shafting all - Google Patents

Abstract

The utility model provides a 3D printing apparatus Z shafting all, includes servo motor, base plate, ball screw subassembly, connecting plate, left side davit, right side davit, servo motor fixes the upper end at the base plate, the ball screw subassembly is fixed in the middle of the base plate, servo motor pivot and ball screw subassembly upper end is connected, it is fixed with the ball screw subassembly in the middle of the connecting plate back, the base plate both sides are equipped with the guide rail, it is fixed with the guide rail that the slider is passed through to connecting plate back both sides, left side davit, right side davit are stainless steel rectangle post, left side davit, right side davit upper end is fixed with connecting plate both sides respectively, left side davit, right side davit lower extreme fixedly connected with bracket. The utility model discloses the Z shafting has all reduced system fore -and -after space for the structure is compacter firm, adopts high accuracy ball screw cooperation double -slider double guide rail's structure, makes the location of Z axle stable more accurate.

Description

3D printing equipment Z axis system

Technical field

This utility model is related to 3D printing apparatus field, espespecially a kind of 3D printing equipment Z axis system.

Background technology

The davit of existing 3D printing equipment Z axis system is arranged on the front of connecting plate, and the structure is not compact firm enough, accounts for It is big with space, and existing lifting, using rustless steel panel beating bending, this kind of structure is not sufficiently strong durable.

Utility model content

To solve the above problems, this utility model provides a kind of compact conformation firm, durable 3D printing equipment Z axis System.

For achieving the above object, the technical solution adopted in the utility model is：A kind of 3D printing equipment Z axis system, including Servomotor, substrate, ball screw component, connecting plate, left side davit, right side davit, the servomotor are fixed on substrate Upper end, the ball screw component are fixed in the middle of substrate, and the servomotor rotating shaft is connected with ball screw component upper end, institute State and fix with ball screw component in the middle of connection back, the substrate both sides are provided with guide rail, the connection back both sides lead to Cross slide block to fix with guide rail, the left side davit, right side davit are stainless steel rectangular post, the left side davit, right side davit Upper end is fixed with connecting plate both sides respectively, and the left side davit, right side davit lower end are fixedly connected with bracket.

Specifically, the ball screw component includes that screw mandrel fixes end bearing block, ball screw, screw mandrel ball bearing, silk Bar activity end bearing block, the ball screw upper end are connected with servomotor rotating shaft, and the screw mandrel fixes end bearing block located at rolling Ballscrew upper end, and fix with substrate, the screw mandrel activity end bearing block is located at ball screw lower end, the screw mandrel ball bearing On ball screw, the connecting plate is fixed with screw mandrel ball bearing.

Specifically, the substrate side is additionally provided with sensor, and the bracket is horizontally disposed with.

The beneficial effects of the utility model are：This utility model Z axis system mainly includes servomotor, substrate, ball Screw component, connecting plate, left side davit and right side davit, by servomotor drive ball screw component drive connecting plate along Guide rail moves up and down, and drives bracket to move up and down so as to pass through left side davit and right side davit, wherein left side davit and right side are hung Post is separately fixed at the both sides of connecting plate, reduces the space before and after system so that structure is compacter firmly, and causes support The center of gravity of frame reduces the frictional resistance of guide rail closer to guide rail, and left side davit and right side davit are stainless steel rectangular post, are made Structure is more durable, the structure of the double guide rail of double-slider is coordinated using high precision ball screw mandrel so that the positioning of Z axis is more It is stable accurate.

Description of the drawings

Fig. 1 is axonometric chart of the present utility model.

Fig. 2 is front view of the present utility model.

Fig. 3 is side view of the present utility model.

Drawing reference numeral explanation：1. servomotor；2. substrate；21. guide rails；22. sensors；3. ball screw component； 31. screw mandrels fix end bearing block；32. ball screws；33. screw mandrel ball bearings；34. screw mandrels activity end bearing block；4. connect Fishplate bar；5. left side davit；6. right side davit；7. bracket.

Specific embodiment

Refer to shown in Fig. 1-3, this utility model is with regard to a kind of 3D printing equipment Z axis system, including servomotor 1, base Plate 2, ball screw component 3, connecting plate 4, left side davit 5, right side davit 6, the servomotor 1 are fixed on the upper end of substrate 2, The ball screw component 3 is fixed in the middle of substrate 2, and 1 rotating shaft of the servomotor is connected with 3 upper end of ball screw component, institute State, 2 both sides of the substrate are provided with guide rail 21,4 back side of the connecting plate Both sides are fixed with guide rail 21 by slide block, and the left side davit 5, right side davit 6 are stainless steel rectangular post, the left side davit 5th, davit 6 upper end in right side is fixed with 4 both sides of connecting plate respectively, and the left side davit 5,6 lower end of right side davit are fixedly connected with support Frame 7.

Compared with prior art, this utility model Z axis system mainly includes servomotor 1, substrate 2, ball screw component 3rd, connecting plate 4, left side davit 5 and right side davit 6, by servomotor 1 drive ball screw component 3 drive connecting plate 4 along Guide rail 21 moves up and down, and drives bracket 7 to move up and down so as to pass through left side davit 5 and right side davit 6, wherein left side 5 He of davit Right side davit 6 is separately fixed at the both sides of connecting plate 4, reduces the space before and after system so that structure is compacter firmly, and And cause the center of gravity of bracket 7 closer to guide rail 21, and the frictional resistance of guide rail 21 is reduced, left side davit 5 and right side davit 6 are Stainless steel rectangular post so that structure is more durable, coordinates the double guide rails 21 of double-slider using high precision ball screw component 3 Structure so that the positioning of Z axis is more stable accurate.

Specifically, the ball screw component 3 includes that screw mandrel fixes end bearing block 31, ball screw 32, screw mandrel ball axle 33, screw mandrel activity end bearing block 34 is held, 32 upper end of the ball screw is connected with 1 rotating shaft of servomotor, the screw mandrel fixing end Bearing block 31 is located at 32 upper end of ball screw, and fixes with substrate 2, and the screw mandrel activity end bearing block 34 is located at ball screw 32 Lower end, the screw mandrel ball bearing 33 on ball screw 32, fixed with screw mandrel ball bearing 33 by the connecting plate 4.

Using such scheme, it is screw mandrel ball bearing to fix end bearing block 31 with screw mandrel activity end bearing block 34 by screw mandrel 33 positioning so that connecting plate 4 moves up and down in the range of ball screw 32.

Specifically, 2 side of the substrate is additionally provided with sensor 22, and the bracket 7 is horizontally disposed with.

Using such scheme, sensing positioning is carried out to 4 movement position of connecting plate by sensor 22.

This utility model is further described below by specific embodiment.

This specific embodiment mainly includes servomotor 1, substrate 2, ball screw component 3, connecting plate 4,5 and of left side davit Right side davit 6, servomotor 1 are fixed on the upper end of substrate 2, and ball screw component 3 is fixed in the middle of substrate 2, under servomotor 1 End is connected with 32 upper end of ball screw, and connecting plate 4 is fixed with screw mandrel ball bearing 33, and 2 both sides of substrate are provided with guide rail 21, connecting plate 4 back sides both sides are slidably fixed with guide rail 21 by slide block, and left side davit 5, right side davit 6 are stainless steel rectangular post, left side Davit 5,6 upper end of right side davit are fixed with 4 both sides of connecting plate respectively, and left side davit 5,6 lower end of right side davit are fixedly connected with support Frame 7, the compact conformation are firm, easy for installation, coordinate the structure of the double guide rails 21 of double-slider using high precision ball screw component 3, So that the positioning of Z axis is more stable accurate；In process, ball screw component 3 is driven to drive connection by servomotor 1 Plate 4 moves up and down along guide rail 21, drives bracket 7 to move up and down so as to pass through left side davit 5 and right side davit 6, left side davit 5 The both sides of connecting plate 4 are separately fixed at right side davit 6, the bulk before and after system equipment is saved so that the weight of bracket 7 The heart reduces the frictional resistance of guide rail 21 closer to guide rail 21.

Embodiment of above is only that preferred implementation of the present utility model is described, not to this utility model Scope be defined, on the premise of without departing from this utility model design spirit, this area ordinary skill technical staff to this Various modifications and improvement that the technical scheme of utility model is made, all should fall into the guarantor that claims of the present utility model determine In the range of shield.

Claims (3)

1. a kind of 3D printing equipment Z axis system, it is characterised in that：Including servomotor, substrate, ball screw component, connecting plate, Left side davit, right side davit, the servomotor are fixed on the upper end of substrate, and the ball screw component is fixed in a substrate Between, the servomotor rotating shaft is connected with ball screw component upper end, solid with ball screw component in the middle of the connection back Fixed, the substrate both sides are provided with guide rail, and the connection back both sides are fixed with guide rail by slide block, the left side davit, the right side Side davit is stainless steel rectangular post, and the left side davit, right side davit upper end are fixed with connecting plate both sides respectively, the left side Davit, right side davit lower end are fixedly connected with bracket.

2. a kind of 3D printing equipment Z axis system according to claim 1, it is characterised in that：The ball screw component bag Include screw mandrel fix end bearing block, ball screw, screw mandrel ball bearing, screw mandrel activity end bearing block, the ball screw upper end with Servomotor rotating shaft connects, and the screw mandrel is fixed end bearing block and is located at ball screw upper end, and fixes with substrate, and the screw mandrel is lived Moved end bearing block is located at ball screw lower end, and on ball screw, the connecting plate is rolled the screw mandrel ball bearing with screw mandrel Pearl bearing is fixed.

3. a kind of 3D printing equipment Z axis system according to claim 1, it is characterised in that：The substrate side is additionally provided with Sensor, the bracket are horizontally disposed with.