CN109130180A - A kind of high-precision intelligent 3D printer - Google Patents

Abstract

The present invention relates to 3D printer fields, specifically a kind of high-precision intelligent 3D printer, including cabinet, printing mechanism, cooling mechanism, water tank, collecting mechanism, fixed mechanism, feeding mechanism and position-limit mechanism, cooling mechanism is installed in the bottom end of cabinet, and after printing mechanism prints object in the inside of cabinet, cooling mechanism sprays water mist, water mist is contacted with object, make object fast cooling, to quickly take out printed object from the inside of cabinet, to conveniently reuse printing mechanism；Feeding mechanism is installed in the bottom end of cabinet, and the water mist after cooling enters the inside of feeding mechanism, and water mist enters the inside of collecting mechanism after the convergence of the inside of feeding mechanism by feeding mechanism, and collecting mechanism is discharged into the inside of water tank again after filtering water；And collecting mechanism is fixed between feeding mechanism and storage bin by fixed mechanism, slides fixed mechanism, collecting mechanism is removed, recoil collecting mechanism, the inside of easy cleaning collecting mechanism.

Description

A kind of high-precision intelligent 3D printer

Technical field

The present invention relates to 3D printer field, specifically a kind of high-precision intelligent 3D printer.

Background technique

3D printer is also known as three-dimensional printer, is a kind of cumulative manufacturing technology, i.e. a kind of machine of rapid prototyping technology, it It is based on a digital model file, with adhesive materials such as special wax material, powdery metal or plastics, passes through printing one Jointing material layer by layer manufactures three-dimensional object.Three-dimensional printer is used to manufacture product at this stage.The mode successively printed To construct the technology of object.The principle of 3D printer is that data and raw material are put into 3D printer, and machine can be according to program handle Product is created from level to level.

During using 3D printer, the object temperature after some printings is higher, and radiating rate is slow, and people cannot be fast The taking out the article after printing from the inside of 3D printer of speed, influences people and uses 3D printer.In consideration of it, the present invention provides A kind of high-precision intelligent D printer, has the following characteristics that

(1) a kind of high-precision intelligent 3D printer of the present invention, the bottom end installation cooling mechanism of cabinet, and cabinet Internal slide connect printing mechanism, after printing mechanism prints object in the inside of cabinet, cooling mechanism spray water mist, water mist with Object contact, absorbs the temperature of body surface, makes object fast cooling, thus quickly by printed object from the inside of cabinet It takes out, to conveniently reuse printing mechanism.

(2) feeding mechanism is installed in the bottom end of a kind of high-precision intelligent 3D printer of the present invention, cabinet, by cooling Water mist afterwards enters the inside of feeding mechanism, and water mist enters collecting mechanism by feeding mechanism after the convergence of the inside of feeding mechanism Inside, collecting mechanism is discharged into the inside of water tank again, people facilitated to reuse water after filtering water；And collecting mechanism is logical It crosses fixed mechanism to be fixed between feeding mechanism and storage bin, slides fixed mechanism, collecting mechanism is removed, recoil collection machine Structure, can be clean by the internal cleaning of collecting mechanism.

Summary of the invention

For the problems of the prior art, the present invention provides a kind of high-precision intelligent D printer, the bottom end of cabinet is installed Cooling mechanism, and the internal slide of cabinet connects printing mechanism, after printing mechanism prints object in the inside of cabinet, cooler Structure sprays water mist, and water mist contacts with object, absorbs the temperature of body surface, make object fast cooling, thus quickly will be printed Object taken out from the inside of cabinet, to conveniently reuse printing mechanism, feeding mechanism is installed in the bottom end of cabinet, by drop Water mist after temperature enters the inside of feeding mechanism, and water mist enters collection machine by feeding mechanism after the convergence of the inside of feeding mechanism The inside of structure, collecting mechanism are discharged into the inside of water tank again, people are facilitated to reuse water after filtering water；And collecting mechanism It is fixed between feeding mechanism and storage bin by fixed mechanism, slides fixed mechanism, collecting mechanism is removed, recoil collection machine Structure, can be clean by the internal cleaning of collecting mechanism.

The technical solution adopted by the present invention to solve the technical problems is: a kind of high-precision intelligent D printer, including case Body, printing mechanism, cooling mechanism, water tank, collecting mechanism, fixed mechanism, feeding mechanism and position-limit mechanism；The top of the cabinet Internal slide is held to connect the printing mechanism, and the inside of the cabinet and sidewall symmetry install the cooling mechanism；The case The inner bottom of body installs the feeding mechanism, and the collecting mechanism, and the collection machine are installed in one end of the feeding mechanism The bottom end of structure is connected to the water tank, and the water tank is fixed on the top surface of the cabinet, the collecting mechanism and it is described into Expect that the fixed mechanism is installed in the junction of mechanism and the water tank；The inside of the collecting mechanism is mounted equidistant multiple described Position-limit mechanism, and the position-limit mechanism is connect with the inner rotation of the collecting mechanism.

Specifically, the printing mechanism includes transmission shaft, printing head and supporting table, the internal slide connection of the cabinet Institute's transmission shaft, the side walls connection printing head of the transmission shaft, and the inner sidewall of the cabinet are slidably connected described Supporting table.

Specifically, the cooling mechanism includes spraying nozzle and water tank, the sidewall symmetry of the cabinet installs the water tank, The side wall of the water tank installs the spraying nozzle being equally spaced, and the spraying nozzle is located at the inside of the cabinet.

Specifically, the feeding mechanism includes multiple convex blocks, four water inlet pipes, multiple rubber pads and third strainer, it is described The third strainer is installed in the inner bottom inclination of cabinet, and the inner bottom surface of the cabinet is symmetrically installed wherein two water inlets Pipe；The sidewall symmetry side wall of the water inlet pipe is the rubber pad of arc, and the bottom end side wall of the water inlet pipe is symmetrically installed institute Convex block is stated, the convex block engages the inside of the rubber pad, and the inside of the inner bottom surface of the rubber pad and the water inlet pipe Bottom surface flushes；The top side wall of the water tank is symmetrically installed other two water inlet pipes.

Specifically, the collecting mechanism includes fixed block, the first strainer, the second strainer and collecting pipe, the institute of semi-circular shape It states the top of collecting pipe and bottom end and is respectively communicated with the water inlet pipe and the water tank, the internal symmetry of the collecting pipe is equidistantly pacified Fill multiple fixed blocks, the fixed block contradicts first strainer and second strainer, first strainer and described Second strainer is connect with the internal slide of the collecting pipe, and first strainer is corresponding and second strainer It is combined into " V " shape structure.

Specifically, the position-limit mechanism includes shaft, fixing sleeve and torque spring, the inside of the collecting pipe is mounted equidistant Multiple shafts, the side wall of shaft are rotatablely connected the fixing sleeve, described in first strainer and one One end of second strainer is installed by two fixing sleeves respectively；The rotation of one end of first strainer and second strainer The shaft is connected, the side wall of the shaft is set with the torque spring, and the torque spring is fixedly connected with the fixing sleeve.

Specifically, the fixed mechanism includes spring, connector sleeve, compact disk, rubber rods, steel ball and fixed ring, it is described into Water pipe side wall installs the fixed ring, and the both ends side walls of the collecting pipe connect the connector sleeve, the connector sleeve it is interior Portion is fixedly connected with the compact disk, and the compact disk is connect with the side walls of the collecting pipe, the both ends point of the spring It is not fixedly connected with the side wall of the compact disk and the collecting pipe；The steel that is slidably connected is distributed inside the both ends of the collecting pipe The rubber rods are installed in one end of pearl, the steel ball, and one end of the rubber rods is rotatablely connected the side wall of the collecting pipe；Institute The one end for stating water inlet pipe is connect with the internal slide of the collecting pipe, and the steel ball contradicts the fixed ring.

Beneficial effects of the present invention:

(1) a kind of high-precision intelligent 3D printer of the present invention, the bottom end installation cooling mechanism of cabinet, and cabinet Internal slide connect printing mechanism, after printing mechanism prints object in the inside of cabinet, cooling mechanism spray water mist, water mist with Object contact, absorbs the temperature of body surface, makes object fast cooling, thus quickly by printed object from the inside of cabinet It takes out, to conveniently reuse printing mechanism.

(2) feeding mechanism is installed in the bottom end of a kind of high-precision intelligent 3D printer of the present invention, cabinet, by cooling Water mist afterwards enters the inside of feeding mechanism, and water mist enters collecting mechanism by feeding mechanism after the convergence of the inside of feeding mechanism Inside, collecting mechanism is discharged into the inside of water tank again, people facilitated to reuse water after filtering water；And collecting mechanism is logical It crosses fixed mechanism to be fixed between feeding mechanism and storage bin, slides fixed mechanism, collecting mechanism is removed, recoil collection machine Structure, can be clean by the internal cleaning of collecting mechanism.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is a kind of structural schematic diagram of preferred embodiment of high-precision intelligent 3D printer provided by the invention；

Fig. 2 is feeding mechanism schematic diagram of internal structure shown in FIG. 1；

Fig. 3 is fixed mechanism schematic diagram of internal structure shown in FIG. 1；

Fig. 4 is collecting mechanism cross section structure schematic diagram shown in FIG. 1；

Fig. 5 is position-limit mechanism structural schematic diagram shown in Fig. 4.

In figure: 1, cabinet, 2, printing mechanism, 21, transmission shaft, 22, printing head, 23, supporting table, 3, cooling mechanism, 31, Spraying nozzle, 32, water tank, 4, water tank, 5, collecting mechanism, 51, fixed block, the 52, first strainer, the 53, second strainer, 54, receipts Collector, 6, fixed mechanism, 61, spring, 62, connector sleeve, 63, compact disk, 64, rubber rods, 65, steel ball, 66, fixed ring, 7, into Material mechanism, 71, convex block, 72, water inlet pipe, 73, rubber pad, 74, third strainer, 8, position-limit mechanism, 81, shaft, 82, fixing sleeve, 83, torque spring.

Specific embodiment

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Specific embodiment is closed, the present invention is further explained.

As Figure 1-Figure 5, a kind of high-precision intelligent 3D printer of the present invention, including cabinet 1, printing mechanism 2, Cooling mechanism 3, water tank 4, collecting mechanism 5, fixed mechanism 6, feeding mechanism 7 and position-limit mechanism 8；In the top of the cabinet 1 Portion is slidably connected the printing mechanism 2, and the inside of the cabinet 1 and sidewall symmetry install the cooling mechanism 3；The cabinet 1 inner bottom installs the feeding mechanism 7, and the collecting mechanism 5, and the collection are installed in one end of the feeding mechanism 7 The bottom end of mechanism 5 is connected to the water tank 4, and the water tank 4 is fixed on the top surface of the cabinet 1, the collecting mechanism 5 with The junction of the feeding mechanism 7 and the water tank 4 is installed by the fixed mechanism 6；Equidistantly pacify the inside of the collecting mechanism 5 Multiple position-limit mechanisms 8 are filled, and the position-limit mechanism 8 is connect with the inner rotation of the collecting mechanism 5.

Specifically, the printing mechanism 2 includes transmission shaft 21, printing head 22 and supporting table 23, the inside of the cabinet 1 Be slidably connected institute's transmission shaft 21, and the side walls of the transmission shaft 21 connect the printing head 22, and the inside of the cabinet 1 Wall is slidably connected the supporting table 23, and the printing head 22 makes described in the side walls of the transmission shaft 21 for convenience Top surface printing objects of the printing head 22 in the supporting table 23.

Specifically, the cooling mechanism 3 includes spraying nozzle 31 and water tank 32, the sidewall symmetry of the cabinet 1 installs institute Water tank 32 is stated, the side wall of the water tank 32 installs the spraying nozzle 31 being equally spaced, and the spraying nozzle 31 is located at institute The inside of cabinet 1 is stated, the water inside the water tank 32 makes water be sprayed onto object by spraying in the spraying nozzle 31 for convenience Surface, make object fast cooling.

Specifically, the feeding mechanism 7 includes 71, four water inlet pipes 72 of multiple convex blocks, multiple rubber pads 73 and third filter The third strainer 74 is installed in the inner bottom inclination of net 74, the cabinet 1, and the inner bottom surface of the cabinet 1 is symmetrically installed it In two water inlet pipes 72；The sidewall symmetry side wall of the water inlet pipe 72 is the rubber pad 73 of arc, the water inlet pipe 72 bottom end side wall is symmetrically installed the convex block 71, and the convex block 71 engages the inside of the rubber pad 73, in order to will it is described into Water pipe 72 is fixed on one end of the rubber pad 73；And the inner bottom of the inner bottom surface of the rubber pad 73 and the water inlet pipe 72 Face flushes, and the water inside the cabinet 1 falls on the surface sliding of the rubber pad 73 through the third strainer 74 for convenience, And water slides on the surface of the rubber pad 73 of arc, and water is made to enter the inside of the water inlet pipe 72；The top of the water tank 4 End side wall is symmetrically installed other two water inlet pipes 72, and filtered water is facilitated to enter the inside of the water tank 4.

Specifically, the collecting mechanism 5 includes fixed block 51, the first strainer 52, the second strainer 53 and collecting pipe 54, semicircle The top and bottom end of the collecting pipe 54 of annular are respectively communicated with the water inlet pipe 72 and the water tank 4, the collecting pipe 54 Internal symmetry be mounted equidistant multiple fixed blocks 51, the fixed block 51 contradicts first strainer 52 and second filter Net 53, first strainer 52 and second strainer 53 are connect with the internal slide of the collecting pipe 54, and one described One strainer 52 is corresponding and second strainer 53 is combined into " V " shape structure, in order to facilitate water through described the of " V " shape One strainer 52 and second strainer 53 make first strainer 52 and second strainer 53 cross the impurity in drainage, will be miscellaneous Matter stays in the inside of the collecting pipe 54.

Specifically, the position-limit mechanism 8 include shaft 81, fixing sleeve 82 and torque spring 83, the collecting pipe 54 it is interior Portion is mounted equidistant multiple shafts 81, and the side wall of a shaft 81 is rotatablely connected the fixing sleeve 82, and one described the One end of one strainer 52 and second strainer 53 is installed by two fixing sleeves 82 respectively；First strainer 52 and one One end of a second strainer 53 is rotatablely connected the shaft 81, and the side wall of the shaft 81 is set with the torque spring 83, And the torque spring 83 is fixedly connected with the fixing sleeve 82, when entering the inside of the collecting pipe 54 in order to facilitate water recoil, Push first strainer 52 and second strainer 53 in the inner rotation of the collecting pipe 54, to make first strainer 52 and the inner sidewall of side wall and the collecting pipe 54 of second strainer 53 separate, by first strainer 52 and described second Gap row of the impurity on 53 surface of strainer between first strainer 52 and second strainer 53 and the collecting pipe 54 Out, and first strainer 52 and second strainer 53 rotation drive the fixing sleeve 82 to rotate, and the fixing sleeve 82 makes institute State the torque spring 83 of 81 side wall of shaft energetically, after 53 inside of collecting pipe is clear clean, the torque spring 83 makes First strainer 52 and second strainer 53 reversion contradict the fixed block 51, make first strainer 52 and described second Strainer 53 contradicts the inner sidewall of the collecting pipe 53, facilitates first strainer 52 and second strainer 53 to cross miscellaneous in drainage Matter.

Specifically, the fixed mechanism 6 includes spring 61, connector sleeve 62, compact disk 63, rubber rods 64, steel ball 65 and consolidates Determine ring 66,72 side wall of water inlet pipe installs the fixed ring 66, and the both ends side walls of the collecting pipe 54 connect the company Female connector 62, the inside of the connector sleeve 62 are fixedly connected with the compact disk 63, and the compact disk 63 and the collecting pipe 54 Side walls connection, the both ends of the spring 61 are respectively fixedly connected with the side wall of the compact disk 63 and the collecting pipe 54；Institute It states and is distributed the steel ball 65 that is slidably connected inside the both ends of collecting pipe 54, the rubber rods 64 are installed in one end of the steel ball 65, And one end of the rubber rods 64 is rotatablely connected the side wall of the collecting pipe 54；One end of the water inlet pipe 72 and the collecting pipe 54 internal slide connection, and the steel ball 65 contradicts the fixed ring 66, the connector sleeve 62 is in the collection for convenience The side walls of pipe 54 make the connector sleeve 62 drive spring 61 described in 63 motion compresses of compact disk, make the compact disk 63 separate with the steel ball 65, and the rubber rods 64 drive the steel ball 65 to slip into entrance in the inside of the collecting pipe 54 The water inlet pipe 72 and the fixed ring 66 are entered the inside of the collecting pipe 54, unclamp institute by the outside of the collecting pipe 54 Connector sleeve 62 is stated, the spring 61 contacts the movement of compact disk 63 with the steel ball 65, keeps the compact disk 63 described Steel ball 65 is pressed into the inside of the collecting pipe 54, and the steel ball 65 is made to engage the fixed ring 66, thus by the water inlet pipe 72 It is fixed on the inside of the collecting pipe 54, facilitates water in the internal slide of the water inlet pipe 72 and the collecting pipe 54.

When in use, the present apparatus is accessed into power supply, in water 32 side wall is connected into 2 water sources, the present apparatus is opened, passes through manipulation Control panel opens printing head 22, makes printing head 22 and transmission shaft 21 in the internal motion of cabinet 1, so that printing be made to spray First 22 supporting table 23 top surface printing objects.After the printing of 23 object of supporting table.Supporting table 23 is set to lower into cabinet 1 Bottom end, open spraying nozzle 31, spray water water tank 32 inside by the atomization of spraying nozzle 31, collection water is sprayed onto object Surface reduces the temperature of body surface, makes object fast cooling, is opening cabinet 1, the object after cooling is being taken out, Ji Kezai It is secondary to use 22 printing objects of printing head.Water inside cabinet 1 is slided through the surface that third strainer 74 falls on rubber pad 73, and one A little biggish impurity stay in the surface of third strainer 74, and water slides on the surface of the rubber pad 73 of arc, and water is made to converge in rubber The bottom end of rubber mat 73, and the convex block 71 of 72 one end of water inlet pipe slides into the inside of rubber pad 73, and water inlet pipe 72 is fixed on rubber pad The inner bottom surface of 73 one end, rubber pad 73 is flushed with the inner bottom surface of water inlet pipe 72, make water inside rubber pad 73 enter into The inside of water pipe 72.Water enters the inside of collecting pipe 54 through water inlet pipe 72, and water is moved in the internal bend of collecting pipe 54, makes water It is successively contacted with multiple first strainers 52 and the second strainer 53, water continues to slide through the first strainer 52 and the second strainer 53, miscellaneous Matter stays in the surface of the first strainer 52 and the second strainer 53, and first strainer 52 and the combination of corresponding second strainer 53 It is V-shaped, stay in impurity between the first strainer 52 and the second strainer 53, the diameter of multiple first strainer, 52 filter openings is along collection The direction of 54 top of pipe towards 54 bottom end of collecting pipe is sequentially reduced, and the diameter of multiple second strainer, 53 filter openings is along collecting pipe 54 The direction of top towards 54 bottom end of collecting pipe is sequentially reduced, by the filtering of multiple first strainers 52 and the second strainer 53, by water Filtering is clean, and water is made to enter the inside of water tank 4 through the water inlet pipe 72 of 4 side wall of water tank, water tank 4 is opened, by water tank 4 Internal water discharge, can reuse.After the time of one end, by the connector sleeve 62 at 54 both ends of collecting pipe in collecting pipe 54 Side walls make connector sleeve 62 drive the spring 61 of 63 motion compresses collecting pipe of compact disk, 54 side wall, make compact disk 63 and steel ball 65 separate, and rubber rods 64 drive steel ball 65 to slip into the outside into collecting pipe 54 in the inside of collecting pipe 54, steel ball 65 with The fixed ring 66 of 72 side wall of water inlet pipe separates, then collecting pipe 54 is skidded off from the inside of water inlet pipe 72.By the bottom end of collecting pipe 54 Connector water, in the moved upward inside of collecting pipe 54, water contacts water with the side wall of the first strainer 52 and the second strainer 53, pushes the One strainer 52 and the second strainer 53 subtract the angle between the first strainer 52 and the second strainer 53 in the inner rotation of collecting pipe 54 Small, so that the inner sidewall of the side wall and collecting pipe 54 of the first strainer 52 and the second strainer 53 be made to separate, while water is by the first strainer 52 and 53 surface of the second strainer impurity between the first strainer 52 and the second strainer 53 and collecting pipe 54 gap discharge, water Impurity is discharged from the inside of collecting pipe 54 in movement.Fixing sleeve 82 is driven to turn when the first strainer 52 and the second strainer 53 rotate The side wall of axis 81 rotates, and fixing sleeve 82 makes the torque spring 83 of 81 side wall of shaft energetically, after 53 inside of collecting pipe is clear clean, receives When collector 53 is far from water source, torque spring 83 makes the first strainer 52 and the second strainer 53 invert conflict fixed block 51, makes the first filter Net 52 and the second strainer 53 contradict the inner sidewall of collecting pipe 53, and the first strainer 52 and the second strainer 53 is facilitated to filter impurities in water. The connector sleeve 62 at 54 both ends of collecting pipe is squeezed, connector sleeve 62 drives compact disk 63 to squeeze spring 61, slides collecting pipe 54, makes into water Pipe 72 and fixed ring 66 slide into the inside of collecting pipe 54, unclamp connector sleeve 62, and the elongation of spring 61 makes the movement of compact disk 63 and steel ball 65 contacts, make compact disk 63 that steel ball 65 to be pressed into the inside of collecting pipe 54, so that steel ball 65 is fixed ring 66, thus by water inlet pipe 72 are fixed on the inside of collecting pipe 54, and the diameter of fixed ring 66 is equal to the internal diameter of collecting pipe 54, and fixed ring 66 contradicts collecting pipe 54 inner sidewall improves the leakproofness that collecting pipe 54 is connect with water inlet pipe 72, facilitates water in water inlet pipe 72 and collecting pipe 54 Portion slips into the inside of water tank 4.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the description in above embodiment and specification only illustrates the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation and Improvement is both fallen in the scope of protection of present invention.The claimed scope of the invention is by appended claims and its equivalent Object defines.

Claims (7)

1. a kind of high-precision intelligent 3D printer, it is characterised in that: including cabinet (1), printing mechanism (2), cooling mechanism (3), Water tank (4), collecting mechanism (5), fixed mechanism (6), feeding mechanism (7) and position-limit mechanism (8)；The top of the cabinet (1) Internal slide connects the printing mechanism (2), and the inside of the cabinet (1) and sidewall symmetry install the cooling mechanism (3)； The inner bottom of the cabinet (1) installs the feeding mechanism (7), and the collection machine is installed in one end of the feeding mechanism (7) Structure (5), and the bottom end of the collecting mechanism (5) is connected to the water tank (4), and the water tank (4) is fixed on the cabinet (1) top surface, the collecting mechanism (5) and the feeding mechanism (7) and the junction of the water tank (4) install the fixation Mechanism (6)；The inside of the collecting mechanism (5) is mounted equidistant multiple position-limit mechanisms (8), and the position-limit mechanism (8) with The inner rotation of the collecting mechanism (5) connects.

2. a kind of high-precision intelligent 3D printer according to claim 1, it is characterised in that: printing mechanism (2) packet Transmission shaft (21), printing head (22) and supporting table (23) are included, the internal slide of the cabinet (1) connects institute's transmission shaft (21), The side walls of the transmission shaft (21) connect the printing head (22), and the inner sidewall of the cabinet (1) is slidably connected institute State supporting table (23).

3. a kind of high-precision intelligent 3D printer according to claim 1, it is characterised in that: cooling mechanism (3) packet Spraying nozzle (31) and water tank (32) are included, the sidewall symmetry of the cabinet (1) installs the water tank (32), the water tank (32) Side wall installs the spraying nozzle (31) being equally spaced, and the spraying nozzle (31) is located at the inside of the cabinet (1).

4. a kind of high-precision intelligent 3D printer according to claim 3, it is characterised in that: feeding mechanism (7) packet Include multiple convex blocks (71), four water inlet pipes (72), multiple rubber pads (73) and third strainer (74), the inside of the cabinet (1) The third strainer (74) is installed in bottom end inclination, and the inner bottom surface of the cabinet (1) is symmetrically installed wherein two water inlet pipes (72)；The sidewall symmetry side wall of the water inlet pipe (72) is the rubber pad (73) of arc, the bottom end of the water inlet pipe (72) Sidewall symmetry installs the convex block (71), and the convex block (71) engages the inside of the rubber pad (73), and the rubber pad (73) inner bottom surface is flushed with the inner bottom surface of the water inlet pipe (72)；The top side wall of the water tank (4) is symmetrically installed Other two water inlet pipes (72).

5. a kind of high-precision intelligent 3D printer according to claim 4, it is characterised in that: collecting mechanism (5) packet Fixed block (51), the first strainer (52), the second strainer (53) and collecting pipe (54) are included, the collecting pipe (54) of semi-circular shape Top and bottom end are respectively communicated with the water inlet pipe (72) and the water tank (4), and the internal symmetry of the collecting pipe (54) is equidistant Multiple fixed blocks (51) are installed, the fixed block (51) contradicts first strainer (52) and second strainer (53), First strainer (52) and second strainer (53) are connect with the internal slide of the collecting pipe (54), and one described One strainer (52) is corresponding and second strainer (53) is combined into " V " shape structure.

6. a kind of high-precision intelligent 3D printer according to claim 5, it is characterised in that: position-limit mechanism (8) packet Shaft (81), fixing sleeve (82) and torque spring (83) are included, multiple shafts are mounted equidistant in the inside of the collecting pipe (54) (81), the side wall of shaft (81) is rotatablely connected the fixing sleeve (82), first strainer (52) and one One end of second strainer (53) is installed by two fixing sleeves (82) respectively；First strainer (52) and one described One end of two strainers (53) is rotatablely connected the shaft (81), and the side wall of the shaft (81) is set with the torque spring (83), And the torque spring (83) is fixedly connected with the fixing sleeve (82).

7. a kind of high-precision intelligent 3D printer according to claim 4, it is characterised in that: fixed mechanism (6) packet Include spring (61), connector sleeve (62), compact disk (63), rubber rods (64), steel ball (65) and fixed ring (66), the water inlet pipe (72) side wall installs the fixed ring (66), and the both ends side walls of the collecting pipe (54) connect the connector sleeve (62), institute The inside for stating connector sleeve (62) is fixedly connected the compact disk (63), and the side of the compact disk (63) and the collecting pipe (54) Wall is slidably connected, and the both ends of the spring (61) are respectively fixedly connected with the side of the compact disk (63) and the collecting pipe (54) Wall；Distribution is slidably connected the steel ball (65) inside the both ends of the collecting pipe (54), and institute is installed in one end of the steel ball (65) It states rubber rods (64), and one end of the rubber rods (64) is rotatablely connected the side wall of the collecting pipe (54)；The water inlet pipe (72) one end is connect with the internal slide of the collecting pipe (54), and the steel ball (65) contradicts the fixed ring (66).