CN106273520B - A kind of structure and installation method of tri- axis of multiinjector 3D printer X, Y, Z - Google Patents

Abstract

The invention discloses the structures and installation method of a kind of tri- axis of multiinjector 3D printer X, Y, Z, structure includes mounting base, X-axis guide rail, Z axis guide rail, movable stand, Y-axis guide rail and upper frame, two X-axis guide rails are symmetricly set in mounting base, the two sides of mounting base are equipped with pedestal, Z axis guide rail is equipped between pedestal and upper frame, movable stand is set in Z axis guide rail, and Y-axis guide rail is set between movable stand；Installation method includes the following steps: that (a) X-axis is installed；(b) Z axis is installed；(c) Y-axis is installed.The three-dimensional motion of 3D printer can be achieved in the present invention, and printing effect is high, and printing precision is guaranteed, high financial profit, is suitable for mass print job, and high benefit can be brought by putting into production, and is worth a wide range of and promotes.

Description

A kind of structure and installation method of tri- axis of multiinjector 3D printer X, Y, Z

Technical field

The invention belongs to the structure of printer technology field more particularly to a kind of tri- axis of multiinjector 3D printer X, Y, Z and Installation method.

Background technique

3D printing, i.e. one kind of rapid prototyping technology, 3D mathematical model is carried out layering sliding-model control by software by it, Then with powdery metal or plastic etc. can adhesive material, construct entity by way of successively accumulating.3D printing skill Art belongs to a kind of plus formula manufacture scope, is different from traditional formula that subtracts and manufactures scope, can preferably save raw materials for production.Towards Under the promotion that personalized and specific sex service manufacture requires, 3D printing, which has begun, is applied in mold generation, personalized product Production, medical treatment, military affairs etc..It is believed that in the near future, 3D printer can come into public family, for we life and Work service.

3D printer in the prior art based on nozzle cluster control system's development, it is very widely used, it first can face It is set to conventional cast application, such as engine, pneumatics, aviation, the energy, customization manufacturing equipment, reparation field and other heavy types Standby medium-sized or even large scale machine parts；Second the 100% pure wax pattern with minor detail pattern, model can be produced in batches It is widely used in jewelry manufacture, clothes, mini-medical instrument, medical implant, electric elements, statue, duplicate and collectibles Equal fields.

Although the multiinjector 3D printer of the prior art can complete the movement in three axis directions, 3 D-printing work is realized Make, but its structure is complicated, it is at high cost, therefore the set-up time is longer, such as occurs any axis installation accuracy during the installation process and asks Topic, then will have a direct impact on the printing precision of 3D printer, be badly in need of that a kind of structure for meeting 3D printer is simple and installation quickly, essence Quasi- three-axis structure.

Summary of the invention

Above-mentioned technical problem present in present invention aims to solve the prior art provides a kind of multiinjector 3D printer X, the structure and installation method of tri- axis of Y, Z, the structure can realize the three-dimensional motion of 3D printer, and flexibly, printing effect is high for connection, Printing precision is guaranteed that high financial profit is suitable for mass print job, and high benefit can be brought by putting into production, and is worth big Range is promoted, and installation method can guarantee the installation accuracy and installation effectiveness of tri- axis of X, Y, Z, to improve the printing essence of 3D printer Degree.

In order to solve the above-mentioned technical problem, the present invention adopts the following technical scheme:

A kind of structure of tri- axis of multiinjector 3D printer X, Y, Z, it is characterised in that: led including mounting base, X-axis guide rail, Z axis Rail, movable stand, Y-axis guide rail and upper frame, two X-axis guide rails are symmetricly set in mounting base, and the two sides of mounting base are equipped with pedestal, Z axis guide rail is equipped between pedestal and upper frame, movable stand is set in Z axis guide rail, and Y-axis guide rail is set between movable stand；The hole of pedestal There is preferable verticality with the face XY, and have preferable fit tolerance with Z axis guide rail, to guarantee that it is preferable vertical that Z axis and the face XY have Degree, guarantees that the movement of Z axis will not generate deviation, to guarantee printing precision, which can realize the three-dimensional motion of 3D printer, Flexibly, printing effect is high for connection, and printing precision is guaranteed, high financial profit, is suitable for mass print job, is put into production High benefit can be brought, is worth a wide range of and promotes.

Further, at least four Z axis guide rails, the Z axis guide rail added being equipped between pedestal and upper frame can improve in Z-direction The stability of movement, will not generate offset deviation, and Z axis guide rail and pedestal, upper frame connect into an entirety, improve apparatus structure Stability.

Further, movable stand is set in two Z axis guide rails of front side, and movable stand can move up and down, strong flexibility, realizes Z Movement in axis direction.

A kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z, it is characterised in that include the following steps:

(a) X-axis is installed: first an X-axis guide rail being fixed in mounting base, table is played with dial gauge and adjusts this with X-axis guide rail Straightness, then another X-axis guide rail is fixed on to the other side of mounting base, then table is beaten by dial gauge and adjusts its depth of parallelism, And the flatness of two X-axis guide rails is measured with dial gauge, it is ensured that straightness, flatness and two X-axis guide rails after X-axis guide rail installation Between the depth of parallelism, to guarantee the installation accuracy of X-axis, so that it is not in that displacement is inclined that 3D printer moves in the X-axis direction Difference guarantees printing precision, improves printing effect；

(b) Z axis is installed: after the installation is completed, Z axis guide rail is fixed between pedestal and upper frame for X-axis, it is ensured that Z axis guide rail peace After dress with the verticality of X, Y plane, to guarantee the installation accuracy of Z axis, so that 3D printer moves to go out in the Z-axis direction Existing offset deviation, guarantees printing precision, improves printing effect；

(c) Y-axis is installed: tooling being placed in X-axis guide rail, pushes tooling to Y-axis guide rail to install along X-axis guide rail position Place adjusts tooling along X-axis guide rail position, and locks the second screw, installs the medial surface of X-axis guide rail and the X-axis on tooling face Face paste is tight, and Y-axis guide rail is put into the Y-axis mounting groove of tooling, pushes down Y-axis guide rail by Y-axis pressing plate, and pressed with the first screw It locks, then adjusts the housing pin of two sides, be adjacent to the Y-axis mounting surface on the mounting surface and tooling of Y-axis guide rail, then successively tear open Housing pin, the first screw, Y-axis pressing plate and the second screw are opened, Y-axis guide rail is promoted, exits tooling, is then locked in Y-axis guide rail Third screw, be fixed on Y-axis guide rail on movable stand, and beat pin hole on movable stand, it is with pin that Y-axis guide rail is solid again It is scheduled on movable stand, the installation of Y-axis is realized by tooling, to guarantee the installation accuracy of Y-axis, so that 3D printer is in Y-axis It is not in offset deviation that side, which moves upwards, guarantees printing precision, improves printing effect, and is installed quickly, and installation accuracy is high, peace It fills high-efficient.

Further, the measuring for verticality method of Z axis is that first marble detection block is fixed in X-axis guide rail in step (b), Then dial gauge is fixed on movable stand, by motor driven Z axis screw rod, drives movable stand to move up and down, to measure Z axis With the verticality of X, Y plane, it is ensured that the verticality after Z axis guide rail installation with X, Y plane, to guarantee the installation accuracy of Z axis.

Further, the lower end of Z axis guide rail is fixed in the hole of pedestal in step (b), the hole and the face XY of pedestal have preferably Verticality, and have preferable fit tolerance with Z axis guide rail, it is ensured that there is preferable verticality in Z axis and the face XY, guarantee Z axis Movement will not generate deviation.

Further, adjusting the specific method of tooling along X-axis guide rail position in step (c) is to first pass through X-axis pressing plate to push down X-axis Guide rail, then the second screw is locked, so that the medial surface of X-axis guide rail is fitted closely with the X-axis mounting surface on tooling face, adjust Simply, operability is low.

A kind of tooling that the structure for tri- axis of multiinjector 3D printer X, Y, Z is installed, it is characterised in that: in tooling respectively Equipped with X-axis mounting surface and Y-axis mounting surface, the side of tooling is respectively equipped with X-axis mounting groove and X-axis pressing plate, X-axis mounting groove and X-axis Guide rail matches, and X-axis pressing plate is equipped with the second screw, is adjacent to X-axis mounting surface with X-axis guide rail by the second screw, in tooling It is respectively equipped with Y-axis mounting groove and Y-axis pressing plate, Y-axis mounting groove matches with Y-axis guide rail, and Y-axis pressing plate is equipped with the first screw, leads to It crosses the first screw and is adjacent to Y-axis mounting surface with Y-axis guide rail, X-axis mounting surface and Y-axis mounting surface have higher verticality, pass through patch The mounting surface for closing X-axis guide rail and Y-axis guide rail has qualified verticality with X-axis guide rail after installing Y-axis guide rail.

Further, X-axis mounting surface and Y-axis mounting surface are the plane of disconnection, process corresponding slot on it, can make to install Face area becomes smaller, to better ensure that the flatness of mounting surface processing.

Further, the two sides of tooling are equipped with slide block slot, and the setting of slide block slot is conducive to Y-axis guide rail during the installation process can be light Pine sliding, improves installation effectiveness.

The present invention is by adopting the above-described technical solution, have the advantages that

Three-axis structure structure is simple in the present invention, and connection is flexibly, it can be achieved that 3D printer moves in tri- axis direction of X, Y, Z Straight zero deflection guarantees that the three-dimensional motion of 3D printer is stablized, and printing precision is guaranteed, printing effect is high, and printing effect is high, High financial profit is suitable for mass print job, and high benefit can be brought by putting into production, and is worth a wide range of and promotes.

The installation method of three-axis structure passes through straightness, flatness and two X after first ensuring X-axis guide rail installation in the present invention The depth of parallelism between axis rail, then ensure verticality with X, Y plane after Z axis guide rail installation, Y-axis is realized finally by tooling Installation, guarantee the method for the verticality of Y-axis and X-axis, to guarantee X-axis, Y-axis and the installation accuracy of Z axis, so that 3D printer exists Movement is not in offset deviation in X-axis, Y-axis and Z-direction, guarantees printing precision, improves printing effect, and this method is installed Quickly, installation accuracy is high, and installation effectiveness is high, time saving and energy saving.

Detailed description of the invention

The present invention will be further explained below with reference to the attached drawings:

Fig. 1 is a kind of mounting structure schematic diagram of the structure of tri- axis of multiinjector 3D printer X, Y, Z in the present invention；

Fig. 2 is the structural schematic diagram of tooling in the present invention.

In figure: 1- mounting base；2-X axis rail；3-Z axis rail；4- movable stand；5-Y axis rail；6- upper frame；7- pedestal；8- Motor；9-Z axial filament bar；10- tooling；11-X axis mounting surface；12-Y axis mounting surface；13-X axis mounting groove；14-X shaft pressuring plate；15- Second screw；17-Y shaft pressuring plate；The first screw of 18-；19- slide block slot；20- housing pin；21- third screw.

Specific embodiment

It as depicted in figs. 1 and 2, is a kind of structure of tri- axis of multiinjector 3D printer X, Y, Z of the present invention, including mounting base 1, X-axis guide rail 2, Z axis guide rail 3, movable stand 4, Y-axis guide rail 5 and upper frame 6, two X-axis guide rails 2 are symmetricly set in mounting base 1, peace The two sides of dress seat 1 are equipped with pedestal 7, and Z axis guide rail 3 is equipped between pedestal 7 and upper frame 6, and Z axis guide rail 3 is set in the hole of pedestal 7, There is preferable verticality in the hole and the face XY of pedestal 7, and have preferable fit tolerance with Z axis guide rail 3, to guarantee that Z axis has with the face XY Preferable verticality.Upper frame 6 is made of light high-intensity material, and profession plating paint baking is made on surface, flat and smooth, beautiful It is firm.

At least four Z axis guide rails 3 are equipped between pedestal 7 and upper frame 6, the Z axis guide rail 3 added, which can improve in Z-direction, transports Dynamic stability, will not generate offset deviation, and Z axis guide rail 3 and pedestal 7, upper frame 6 connect into an entirety, improve device knot The stability of structure.Movable stand 4 is a kind of bracket with protrusion, and movable stand 4 is set in two Z axis guide rails 3 of front side, movable stand 4 can move up and down, strong flexibility, realize the movement in Z-direction.Y-axis guide rail 5 is set on the chassis plane that movable stand 4 protrudes. The structure can realize the three-dimensional motion of 3D printer, and flexibly, printing effect is high for connection, and printing precision is guaranteed, economic benefit Height is suitable for mass print job, and high benefit can be brought by putting into production, and is worth a wide range of and promotes.

A kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z, includes the following steps:

(a) X-axis is installed: first an X-axis guide rail 2 being fixed in mounting base 1, table is played with dial gauge and adjusts this and lead with X-axis The straightness of rail 2, then another X-axis guide rail 2 is fixed on to the other side of mounting base 1, then table beaten by dial gauge to adjust it flat Row degree, and measure with dial gauge the flatness of two X-axis guide rails 2, the step can ensure that the straightness after X-axis guide rail 2 is installed, flat The depth of parallelism between face degree and two X-axis guide rails 2, to guarantee the installation accuracy of X-axis, so that 3D printer is transported in the X-axis direction Dynamic is not in offset deviation, guarantees printing precision, improves printing effect.

(b) Z axis is installed: after the installation is completed, Z axis guide rail 3 is fixed between pedestal 7 and upper frame 6 for X-axis, Z axis guide rail 3 Lower end is fixed in the hole of pedestal 7, and there is preferable verticality in the hole and the face XY of pedestal 7, and have preferable cooperation with Z axis guide rail 3 Tolerance, to guarantee that Z axis and the face XY have preferable verticality.After the installation is completed, the verticality of Z axis need to be detected, detection method is first Marble detection block is fixed in X-axis guide rail 2, then dial gauge is fixed on movable stand 4, Z axis silk is driven by motor 8 Bar 9 drives movable stand 4 to move up and down, to measure the verticality of Z axis and X, Y plane, it is ensured that Z axis guide rail 3 install after with X, Y The verticality of plane, to guarantee the installation accuracy of Z axis, so that it is not in that displacement is inclined that 3D printer moves in the Z-axis direction Difference guarantees printing precision, improves printing effect.

(c) Y-axis is installed: the installation of Y-axis realized by tooling 10, guarantee Y-axis and X-axis verticality and Y-axis it is fast Speed installation.X-axis mounting surface 11 and Y-axis mounting surface 12 are respectively equipped in tooling 10, X-axis mounting surface 11 and Y-axis mounting surface 12 are The plane of disconnection processes corresponding slot on it, and mounting surface area can be made to become smaller, to better ensure that the plane of mounting surface processing Degree.

The side of tooling 10 is respectively equipped with X-axis mounting groove 13 and X-axis pressing plate 14, X-axis mounting groove 13 and 2 phase of X-axis guide rail Match, X-axis pressing plate 14 is equipped with the second screw 15, is adjacent to X-axis mounting surface 11 and X-axis guide rail 2 by the second screw 15, tooling 10 On be respectively equipped with Y-axis mounting groove and Y-axis pressing plate 17, Y-axis mounting groove matches with Y-axis guide rail 5, Y-axis pressing plate 17 be equipped with first Y-axis mounting surface 12 and Y-axis guide rail 5 are adjacent to by screw 18 by the first screw 18.X-axis mounting surface 11 and Y-axis mounting surface 12 have compared with High verticality has conjunction with X-axis guide rail 2 after installing Y-axis guide rail 5 by being bonded the mounting surface of X-axis guide rail 2 and Y-axis guide rail 5 The verticality of lattice.The two sides of tooling 10 are equipped with slide block slot 19, and the setting of slide block slot 19 is conducive to Y-axis guide rail 5 during the installation process It can easily slide, improve installation effectiveness.

Tooling 10 is placed in X-axis guide rail 2, pushes tooling 10 to 5 installation place of Y-axis guide rail along 2 position of X-axis guide rail, along X 2 position of axis rail adjusts tooling 10, pushes down X-axis guide rail 2 by X-axis pressing plate 14, and lock the second screw 15, makes X-axis guide rail 2 Medial surface is fitted closely with the X-axis mounting surface 11 on 10 face of tooling, guarantees the verticality of X-axis and Y-axis, improves installation accuracy.By Y Axis rail 5 is put into the Y-axis mounting groove of tooling 10, gently pushes down Y-axis guide rail 5 by the Y-axis pressing plate 17 on top, and with the first screw 18 light pressures are lockked, then adjust the housing pin 20 of two sides, keep the mounting surface of Y-axis guide rail 5 and the Y-axis mounting surface 12 in tooling 10 tight Closely connected conjunction.Then housing pin 20, the first screw 18, Y-axis pressing plate 17 and the second screw 15 are successively dismantled, Y-axis guide rail 5 is promoted, Exit tooling 10.Then the third screw 21 in Y-axis guide rail 5 is locked, is fixed on Y-axis guide rail 5 on movable stand 4, and in movement Pin hole is beaten on frame 4, Y-axis guide rail 5 is once again secured on movable stand 4 with pin, enhancing Y-axis guide rail 5 is connect with movable stand 4 Stability.The installation of Y-axis is realized by tooling 10, to guarantee the installation accuracy of Y-axis, so that 3D printer is in Y direction Upper movement is not in offset deviation, guarantees printing precision, improves printing effect, and is installed quickly, and installation accuracy is high, installation effect Rate is high.The installation method can guarantee the installation accuracy and installation effectiveness of tri- axis of X, Y, Z, to improve the printing essence of 3D printer Degree.

Three-axis structure structure is simple in the present invention, and connection is flexibly, it can be achieved that 3D printer moves in tri- axis direction of X, Y, Z Straight zero deflection guarantees that the three-dimensional motion of 3D printer is stablized, and printing precision is guaranteed, printing effect is high, and printing effect is high, High financial profit is suitable for mass print job, and high benefit can be brought by putting into production, and is worth a wide range of and promotes.

The installation method of three-axis structure passes through the straightness after first ensuring the installation of X-axis guide rail 2, flatness and two in the present invention The depth of parallelism between X-axis guide rail 2, then ensure verticality with X, Y plane after Z axis guide rail 3 is installed, it is real finally by tooling 10 The installation of existing Y-axis, guarantees the method for the verticality of Y-axis and X-axis, to guarantee X-axis, Y-axis and the installation accuracy of Z axis, so that 3D is beaten It is not in offset deviation that print machine moves in X-axis, Y-axis and Z-direction, guarantees printing precision, improves printing effect, and the party Quickly, installation accuracy is high for method installation, and installation effectiveness is high, time saving and energy saving.

The above is only specific embodiments of the present invention, but technical characteristic of the invention is not limited thereto.It is any with this hair Based on bright, to solve essentially identical technical problem, essentially identical technical effect is realized, made simple change, etc. With replacement or modification etc., all it is covered by among protection scope of the present invention.

Claims (7)

1. a kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z, characterized by the following steps:

(a) X-axis is installed: first an X-axis guide rail being fixed in mounting base, table is played with dial gauge and adjusts the straight of this root X-axis guide rail Dimension, then another X-axis guide rail is fixed on to the other side of mounting base, then table is beaten by dial gauge and adjusts its depth of parallelism, it is used in combination Dial gauge measures the flatness of two X-axis guide rails；

(b) Z axis is installed: after the installation is completed, Z axis guide rail is fixed between pedestal and upper frame for X-axis；

(c) Y-axis is installed: tooling being placed in X-axis guide rail, pushes tooling to Y-axis guide rail installation place along X-axis guide rail position, along X Axis rail position adjusts tooling, and locks the second screw, is adjacent to the medial surface of X-axis guide rail with the X-axis mounting surface on tooling face, Y-axis guide rail is put into the Y-axis mounting groove of tooling, Y-axis guide rail is pushed down by Y-axis pressing plate, and pressed and lockked with the first screw, then The housing pin for adjusting two sides, is adjacent to the Y-axis mounting surface on the mounting surface and tooling of Y-axis guide rail, then successively dismantles compression Screw, the first screw, Y-axis pressing plate and the second screw promote Y-axis guide rail, exit tooling, then lock the third in Y-axis guide rail Screw is fixed on Y-axis guide rail on movable stand, and pin hole is beaten on movable stand, and Y-axis guide rail is once again secured in shifting with pin In moving frame.

2. a kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z according to claim 1, feature exist In: the measuring for verticality method of Z axis is that first marble detection block is fixed in X-axis guide rail in step (b), then by dial gauge It is fixed on movable stand, by motor driven Z axis screw rod, movable stand is driven to move up and down, to measure Z axis and X, Y plane Verticality.

3. a kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z according to claim 1, feature exist In: in the hole that the lower end of Z axis guide rail is fixed on pedestal in step (b).

4. a kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z according to claim 1, feature exist In: adjusting the specific method of tooling along X-axis guide rail position in step (c) is to first pass through X-axis pressing plate to push down X-axis guide rail, then lock Second screw.

5. a kind of for a kind of installation method of the structure of tri- axis of multiinjector 3D printer X, Y, Z as described in claim 1 Tooling, it is characterised in that: X-axis mounting surface and Y-axis mounting surface are respectively equipped in the tooling, the side of the tooling is respectively equipped with X-axis mounting groove and X-axis pressing plate, the X-axis mounting groove match with the X-axis guide rail, and the X-axis pressing plate is equipped with the second spiral shell The X-axis mounting surface, is adjacent to by silk by second screw with the X-axis guide rail, and Y-axis installation is respectively equipped in the tooling Slot and Y-axis pressing plate, the Y-axis mounting groove match with the Y-axis guide rail, and the Y-axis pressing plate is equipped with the first screw, pass through institute It states the first screw and is adjacent to the Y-axis mounting surface with the Y-axis guide rail.

6. tooling according to claim 5, it is characterised in that: the X-axis mounting surface and the Y-axis mounting surface are to disconnect Plane.

7. tooling according to claim 5, it is characterised in that: the two sides of the tooling are equipped with slide block slot.