CN205668447U - Large flat printer - Google Patents

Abstract

The open a kind of large flat printer of the utility model, it includes support, the marker's station being installed on support, the crossbeam being installed on support, the Y-axis driving means being installed on support both sides and the print head assembly being installed on crossbeam, the first driving sliding sleeve, the drive block being fixed on the first driving sliding sleeve and the first servomotor that Y-axis driving means includes the first screw mandrel, be socketed on the first screw mandrel, crossbeam lower end is installed with double team holder assembly, drive block upper end embeds in the double team space sandwiching holder assembly, and is formed with gap between it.Owing to not being fixing connection between drive block with double team holder assembly, but spacing docking, and the gap being formed between it can eliminate the first screw mandrel and drive the driving error sliding over generation during assembling with first, to improve the transmission accuracy of the first screw mandrel, the first screw mandrel work can be made equally more smooth and easy, more stable, the precision making whole cross beam movement is higher, runs more stable.

Description

Large flat printer

Technical field:

The utility model relates to printer product technical field, refers in particular to a kind of large flat printer.

Background technology:

Existing normal printer can only print paper, to plank, glass, crystal, PVC, ABS, acrylic, metal, mould The printing of the product surfaces such as material, stone material, leather, cloth is helpless, is therefore merely able to use traditional to the printing of these materials The technology such as silk-screen, transfer or bat printing realize.But due to transmit silk-screen, transfer or bat printing technology can only for simple color, And need contraposition chromatography, and need printing skilled worker to operate, the cost of raw material is high.

For solving above-mentioned technical problem, occurring in that flat-panel printer, it is not limited by any material, can be at plank, glass Glass, crystal, PVC, ABS, acrylic, metal, plastics, stone material, leather, cloth, and the surface such as other textiles carries out photochrome Level printing.Whether simple block colored pattern, full color pattern or the pattern with excessive look, can one-step print complete, Without plate-making, being not necessarily to printing down and repeating chromatography, application is widely.

Marker's station in current large flat printer does not typically move in Y direction, but drives crossbeam to carry out Mobile, in order to improve running precision, general employing servomotor coordinates screw mandrel to drive this crossbeam to move in Y direction, wherein, and silk Being provided with a driving sliding sleeve on bar, this driving sliding sleeve is fixed by screw with crossbeam, to cause driven by servomotor screw mandrel to rotate, This screw mandrel drives driving to slide over Y direction during rotating and moves, and final drive crossbeam moves in Y direction.Due to Drive can be formed unavoidably during assembling between sliding sleeve and screw mandrel and be formed with driving error, and crossbeam directly and drives sliding sleeve Fixing, drive the driving error being formed between sliding sleeve and screw mandrel to cannot get eliminating to cause, also increase this error on the contrary, big with this Reducing greatly the compactness of screw rod transmission, causing affecting the precision that the work of whole large flat printer runs, even impact is beaten Print precision and quality.

In view of this, the present inventor proposes techniques below scheme.

Utility model content:

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of large flat printer.

In order to solve above-mentioned technical problem, the utility model have employed following technical proposals: this large flat printer bag It the marker's station, the crossbeam being installed on support that include support, are installed on support, is installed on support both sides and for driving this Crossbeam is along Y direction the Y-axis driving means moving and the print head assembly being installed on crossbeam on support, and described Y-axis drives It the first screw mandrel, the first driving sliding sleeve being socketed on the first screw mandrel that device includes being installed on support side, is fixed on first and drives Move the drive block on sliding sleeve and be installed on support side the first servomotor for driving this first screw mandrel to rotate, described Crossbeam lower end is installed with double team holder assembly, and this double team holder assembly has double team space, and described drive block upper end is embedded should Sandwich in space, and be formed with gap between this drive block and double team space.

Furthermore, in technique scheme, described double team holder assembly includes a double team seat and consolidates with sandwiching seat Fixed clamping plate, this double team seat side is provided with a double team groove, and this clamping plate are installed on double team seat side, and surround double team groove described Double team space.

Furthermore, in technique scheme, described clamping plate end face forms outwardly boss portion, this boss portion Embed in this double team groove.

Furthermore, in technique scheme, described double team seat upper end is provided with spacing block set, and this double team seat upper end Being provided with screw, this screw attachment screw is fixed with described crossbeam lower end.

Furthermore, in technique scheme, described marker's station is installed on machine by a degree of balance governor motion On seat.

Furthermore, in technique scheme, Y-axis plate that described degree of balance governor motion includes being installed on support, The X-axis plate being set up on Y-axis plate and the degree of balance adjusting part being installed between X-axis plate lower end and support, this degree of balance is adjusted Joint assembly include the base being fixed on support, the screw rod being installed on base and the adjusting nut being socketed on screw rod and The footstock being connected with screw rod upper end spiral, this footstock upper surface is fixed with X-axis plate lower end.

Furthermore, in technique scheme, described crossbeam is provided with X-axis Mobile base and for driving X-axis to move The X-axis driving means that dynamic seat moves along X-direction, print head assembly is installed on X-axis Mobile base, and pacifies on this X-axis Mobile base Equipped with the Z axis driving means for driving this print head assembly to move along Z-direction.

Furthermore, in technique scheme, described crossbeam is provided with and slides along the first, second of X-direction distribution Rail, described X-axis Mobile base is socketed on first, second slide rail by first, second slide block distribution, is slidably installed on On crossbeam；Described X-axis driving means includes the driving belt being installed on crossbeam and for driving this driving belt to rotate Second servomotor, this driving belt is connected with X-axis Mobile base, and interlocks.

Furthermore, in technique scheme, described Z axis driving means includes and is installed on X-axis Mobile base and along Z Second screw mandrel of direction of principal axis distribution and the 3rd servomotor for driving this second screw mandrel to rotate, sheathed on this second screw mandrel Second driving sliding sleeve fix with described print head assembly.

Furthermore, in technique scheme, described print head assembly includes and the assembling of described Z axis driving means Printing head support part and the printing head being installed on printing head support part, this printing head support part is one-body molded by aluminium, this printing It is provided with some installation positions installed for printing head on head bracket.

After using technique scheme, the utility model has the advantages that compared with prior art

1st, due to the fixing double team holder assembly in drive block and the crossbeam lower end installed on the first screw mandrel in Y-axis driving means it Between be not fixing connection, but what sandwiching in spacing docking, and this double team holder assembly was formed between space and drive block Gap can eliminate the first screw mandrel and first and drive and slide over the driving error producing during assembling, to improve the biography of the first screw mandrel Dynamic precision, can make the first screw mandrel work more smooth and easy equally, and more stable, the precision making whole cross beam movement is higher, and runs More stable, print quality of the present utility model can be improved with this.

2nd, the utility model can regulate the flat of whole marker's station according to actual conditions by degree of balance governor motion Weighing apparatus degree, requires with satisfied printing, and whole degree of balance governor motion structure is relatively simple, and cost of manufacture is low, and regulation operation is relatively For simplicity.

3rd, after the printing head support part in print head assembly is formed by aluminium integrally casting, then made by finishing, to protect The uniformity of card product and high precision, to cause printing head when assembling without adjusting position, once assembling puts in place, precisely Property high, installation effectiveness can be effectively improved.

Brief description:

Fig. 1 is stereogram of the present utility model；

Fig. 2 is the stereogram after the utility model dismantles crossbeam；

Fig. 3 is the structural representation after Fig. 2 dismantles marker's station；

Fig. 4 is the installation diagram of the utility model middle cross beam and X-axis driving means, print head assembly and Z axis driving means；

Fig. 5 is the stereogram of Y-axis driving means in the utility model；

Fig. 6 is the three-dimensional exploded view of Y-axis driving means in the utility model；

Fig. 7 is the stereogram of degree of balance adjusting part in the utility model.

Detailed description of the invention:

Below in conjunction with specific embodiments and the drawings, the utility model is further illustrated.

As shown in Fig. 1-7, for a kind of large flat printer, it includes the print job that the 1st, support is installed on support 1 The 2nd, platform is installed on crossbeam on support 1 and the 3rd, is installed on support 1 both sides and for driving this crossbeam 3 to move along Y direction on support 1 The 6th, the X-axis Mobile base that the 4th, dynamic Y-axis driving means is installed on crossbeam 3 is installed on crossbeam 3 and for driving X-axis Mobile base 6 7th, the print head assembly 5 that is installed on X-axis Mobile base 6 along the X-axis driving means that X-direction moves and be installed on X-axis and move Z axis driving means 8 on seat 6 and for driving this print head assembly 5 to move along Z-direction.

Described Y-axis driving means 4 includes that the 41st, the first screw mandrel being installed on support 1 side is socketed on the first screw mandrel 41 The 42nd, first driving sliding sleeve is fixed on the drive block 43 on the first driving sliding sleeve 42 and is installed on support 1 side and for driving The first servomotor 44 that this first screw mandrel 41 rotates, described crossbeam 3 lower end is installed with double team holder assembly 45, and this double team Holder assembly 45 has double team space, and described drive block 43 upper end embeds in this double team space, and this drive block 43 and double team space Between be formed with gap, this gap size is less.It is to say, sandwiching between holder assembly 45 and drive block 43 is not fixing company Connect, but sandwiching the gap being formed between space and drive block and can eliminate the in spacing docking, and this double team holder assembly 45 The driving error that one screw mandrel 41 and the first driving sliding sleeve 42 produce during assembling, to improve the transmission essence of the first screw mandrel 41 Degree, can make the first screw mandrel 41 work more smooth and easy equally, and more stable, the precision making whole cross beam movement is higher, and runs more Add stable, print quality of the present utility model can be improved with this.

Described double team holder assembly 45 includes a double team seat 451 and the clamping plate 452 fixed with double team seat 451, this double team Seat 451 sides are provided with a double team groove 401, and this clamping plate 452 are installed on double team seat 451 side, and surround double team groove 401 described Double team space.Wherein, described clamping plate 452 end face forms outwardly boss portion 402, and this boss portion 402 embeds this bag In clip slot 401, the stability of this double team seat 451 and clamping plate 452 assembling can be ensured with this, and this double team seat 451 leads to clamping plate 452 Cross screw locking.In addition, described double team seat 451 upper end is provided with spacing block set 403, and this double team seat 451 upper end is provided with spiral shell Hole 404, this screw 404 attachment screw is fixed with described crossbeam 3 lower end.

Described marker's station 2 is installed on support 1 by a degree of balance governor motion 21, say, that this practicality is new Type can regulate the degree of balance of whole marker's station 2 according to actual conditions, requires with satisfied printing.Specifically, described balance Degree governor motion 21 includes X-axis plate 212 that the 211st, the Y-axis plate being installed on support 1 be set up on Y-axis plate 211 and is installed on X Degree of balance adjusting part 213 between axillare 212 lower end and support 1, this degree of balance adjusting part 213 includes and is fixed on support The 201st, base on 1 is installed on the screw rod 202 on base 201 and the adjusting nut 203 being socketed on screw rod 202 and and screw rod The footstock 204 that 203 upper end spirals connect, this footstock 204 upper surface and X-axis plate 212 lower end are fixed.Regulate print job at needs During the degree of balance of platform 2, the adjusting nut 203 in adjustable and balancing degree adjusting part 213, make the relative screw rod 203 of footstock 204 increase Or decline a certain distance, so that can be by regulating the degree of balance of X-axis plate 212 indirectly to reach to regulate whole marker's station 2 The purpose of the degree of balance, and whole degree of balance governor motion 2 structure is relatively simple, and cost of manufacture is low, and regulation operation more letter Just.

Being provided with first, second slide rail the 31st, 32 along X-direction distribution on described crossbeam 3, described X-axis Mobile base 6 passes through First, second slide block distribution is socketed on first, second slide rail the 31st, on 32, is slidably installed on crossbeam 3；Described X-axis Driving means 7 includes the driving belt 71 being installed on crossbeam 3 and the second servo for driving this driving belt 71 to rotate Motor 72, this driving belt 71 is connected with X-axis Mobile base 6, and interlocks.

Described Z axis driving means 8 include be installed on X-axis Mobile base 6 and along Z-direction distribution the second screw mandrel 81 with And the 3rd servomotor 82 for driving this second screw mandrel 81 to rotate, the second driving sliding sleeve 83 sheathed on this second screw mandrel 81 Fix with described print head assembly 5, owing to Z axis driving means 8 uses the 3rd servomotor 82 to coordinate the second screw mandrel 81 to drive, its Running precision is high, and good stability, improves print quality of the present utility model further.

Described print head assembly 5 include with described Z axis driving means 8 assembling printing head support part 51 and be installed on beat Printing head 53 on print head bracket 51 and the housing 52 being installed on printing head support part 51 periphery, this printing head support part 51 is by aluminium One-body molded, this printing head support part 51 is provided with some installation positions 511 installed for printing head 53, specifically, prints After head bracket 51 is formed by aluminium integrally casting, then made by finishing, to ensure the uniformity of product and high precision, with Causing printing head when assembling without adjusting position, once assembling puts in place, and accuracy is high, can effectively improve installation effectiveness.

In sum, drive block 43 owing to installing on the first screw mandrel 41 in Y-axis driving means 4 is fixing with crossbeam lower end Sandwiching between holder assembly 45 is not fixing connection, but the double team space in spacing docking, and this double team holder assembly 45 with The gap being formed between drive block can eliminate the first screw mandrel 41 and the transmission of first driving sliding sleeve 42 generation during assembling misses Difference, to improve the transmission accuracy of the first screw mandrel 41, can make the first screw mandrel 41 work more smooth and easy equally, more stable, and order is whole The precision of cross beam movement is higher, and runs more stable, can improve print quality of the present utility model with this.In addition, this practicality The novel degree of balance that can be regulated whole marker's station 2 according to actual conditions by degree of balance governor motion, with satisfied printing Requiring, and whole degree of balance governor motion 2 structure being relatively simple, cost of manufacture is low, and regulation operation is relatively simple.Furthermore, beat After printing head support part 51 in print head assembly is formed by aluminium integrally casting, then made by finishing, to ensure the one of product Cause property and high precision, to cause printing head when assembling without adjusting position, once assembling puts in place, and accuracy is high, can have Effect improves installation effectiveness.

Certainly, the foregoing is only specific embodiment of the utility model, not limit the utility model and implement Scope, all equivalence changes done according to construction, feature and principle described in the utility model claim or modify, all should wrap Include in the utility model claim.

Claims (10)

1. large flat printer, it includes support (1), marker's station (2) of being installed on support (1), be installed on support (1) it crossbeam (3) on, is installed on support (1) both sides and is used for driving this crossbeam (3) to move along Y direction on support (1) Y-axis driving means (4) and the print head assembly (5) being installed on crossbeam (3), it is characterised in that: described Y-axis driving means (4) Including be installed on first screw mandrel (41) of support (1) side, the first driving sliding sleeve (42) of being socketed on the first screw mandrel (41), solid Drive block (43) in the first driving sliding sleeve (42) and be installed on support (1) side and be used for driving this first screw mandrel (41) the first servomotor (44) rotating, described crossbeam (3) lower end is installed with double team holder assembly (45), and this double team seat Assembly (45) has double team space, and described drive block (43) upper end embeds in this double team space, and this drive block (43) and double team It is formed gap between space.

2. large flat printer according to claim 1, it is characterised in that: described double team holder assembly (45) includes one Sandwiching seat (451) and the clamping plate (452) fixing with sandwiching seat (451), this double team seat (451) side is provided with a double team groove (401), this clamping plate (452) are installed on double team seat (451) side, and double team groove (401) is surrounded described double team space.

3. large flat printer according to claim 2, it is characterised in that: the shaping of described clamping plate (452) end face is oriented The boss portion (402) of outer protrusion, this boss portion (402) embeds in this double team groove (401).

4. large flat printer according to claim 3, it is characterised in that: described double team seat (451) upper end is provided with Spacing block set (403), and this double team seat (451) upper end is provided with screw (404), this screw (404) attachment screw and described horizontal stroke Beam (3) lower end is fixed.

5. large flat printer according to claim 1, it is characterised in that: described marker's station (2) is flat by one Weighing apparatus degree governor motion (21) is installed on support (1).

6. large flat printer according to claim 5, it is characterised in that: described degree of balance governor motion (21) is wrapped Include the Y-axis plate (211) being installed on support (1), the X-axis plate (212) being set up on Y-axis plate (211) and be installed on X-axis plate (212) degree of balance adjusting part (213) between lower end and support (1), this degree of balance adjusting part (213) includes and is fixed on Base (201) on support (1), the screw rod (202) being installed on base (201) and the regulation being socketed on screw rod (202) Under nut (203) and the footstock (204) being connected with screw rod (202) upper end spiral, this footstock (204) upper surface and X-axis plate (212) End is fixing.

7. large flat printer according to claim 1, it is characterised in that: on described crossbeam (3), X-axis is installed and moves Seat (6) and be used for the X-axis driving means (7) driving X-axis Mobile base (6) to move along X-direction, print head assembly (5) is installed It on X-axis Mobile base (6), and is provided with for driving this print head assembly (5) to move along Z-direction on this X-axis Mobile base (6) Z axis driving means (8).

8. large flat printer according to claim 7, it is characterised in that: described crossbeam is provided with along X-axis side on (3) To first, second slide rail (the 31st, 32) of distribution, the firstth, described X-axis Mobile base (6) is socketed on by first, second slide block distribution It on second slide rail (the 31st, 32), is slidably installed on crossbeam (3)；Described X-axis driving means (7) includes being installed on horizontal stroke Driving belt (71) on beam (3) and be used for the second servomotor (72) driving this driving belt (71) to rotate, this transmission Belt (71) is connected with X-axis Mobile base (6), and interlocks.

9. large flat printer according to claim 7, it is characterised in that: described Z axis driving means (8) includes peace It is loaded on that X-axis Mobile base (6) is upper and the second screw mandrel (81) along Z-direction distribution and be used for driving this second screw mandrel (81) to rotate The 3rd servomotor (82), upper the second sheathed driving sliding sleeve (83) of this second screw mandrel (81) and described print head assembly (5) Fixing.

10. large flat printer according to claim 7, it is characterised in that: described print head assembly (5) include with Printing head support part (51) that described Z axis driving means (8) is assembled and the printing head being installed on printing head support part (51), This printing head support part (51) is one-body molded by aluminium, and this printing head support part (51) is provided with some peaces installed for printing head Dress position (511).