CN208101416U - A kind of digital inkjet printer for tube surfaces printing - Google Patents
A kind of digital inkjet printer for tube surfaces printing Download PDFInfo
- Publication number
- CN208101416U CN208101416U CN201820575475.7U CN201820575475U CN208101416U CN 208101416 U CN208101416 U CN 208101416U CN 201820575475 U CN201820575475 U CN 201820575475U CN 208101416 U CN208101416 U CN 208101416U
- Authority
- CN
- China
- Prior art keywords
- tubing
- belt
- printing
- trolley
- driving motor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
- B41J3/407—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for marking on special material
- B41J3/4073—Printing on three-dimensional objects not being in sheet or web form, e.g. spherical or cubic objects
- B41J3/40733—Printing on cylindrical or rotationally symmetrical objects, e. g. on bottles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J25/00—Actions or mechanisms not otherwise provided for
- B41J2025/008—Actions or mechanisms not otherwise provided for comprising a plurality of print heads placed around a drum
Abstract
The utility model discloses a kind of digital inkjet printers for tube surfaces printing, are related to tubular object extruding technical field.Including pipe support, belt support frame, grating scale, print trolley and control cabinet, tubing is mounted on pipe support, it is rotated under the drive of tubing driving motor, printing trolley bottom surface is fixed on the tooth belt being installed on belt support frame, it is operated by belt driving motor drive belt, and then drive printing trolley mobile, grating scale is located at immediately below printing trolley, piezo jets and print cartridge are installed on printing trolley, there is single-chip microcontroller and control circuit in control cabinet, single-chip microcontroller is connect with host computer, single-chip microcontroller passes through control circuit and tubing driving motor simultaneously, belt driving motor, Grating examinations circuit is connected with nozzle driving circuit, it is printed image on tubing with controlling piezo jets.By the way of direct ink jet printing, solve the problems, such as that current printing machine for pipe is low using low efficiency caused by transfer modes and printing quality.
Description
Technical field
The utility model relates to tubular object extruding technical field, in particular to a kind of digital ink-jet for tube surfaces printing
Printing machine.
Background technique
Tube surfaces printing provides extensive stock information and installation alignment mark for product.Existing tube surfaces print
There are mainly three types of methods for brush.The first is to obtain text and simple graph template with engraving process, then spray color with pneumatic spray gun
Paint is completed tubing and is bitten.Second is that method for printing screen is locally printed in tubing.The third is with ink jet numbering machine in tubing part
Spray printing text and simple graph.First method can only printing word and simple graph, color is single, because template is fixed so not
The product coding for facilitating printing to change.Second method can only locally implement printing in a side surface of tubing, because needing to make a plate
So being equally inconvenient to print the product coding of variation, production efficiency is low.The nozzle of the third method ink jet numbering machine is along tubing
One side surface is axially moved, and can only implement local text and simple graph printing.One kind is researched and developed to be widely used, do not have to plate-making, print
Map brushing case and rich in color, tube surfaces can be very necessary with the tube surfaces printing equipment of all standing, high production efficiency.
Utility model content
The utility model embodiment provides a kind of digital inkjet printer for tube surfaces printing, existing to solve
There is the problem of technology.
A kind of digital inkjet printer for tube surfaces printing, including pipe support, belt support frame, grating scale and print
Brush trolley;The pipe support includes left support and right support, and the left support is oppositely arranged with the right support, the left branch
Tubing driven voller, the right support side opposite with the left support are rotatably equipped on the frame side opposite with the right support
Tubing drive roll is rotatably equipped on face, tubing both ends are socketed in respectively on the tubing driven voller and tubing drive roll, described
Tubing driving motor is fixedly mounted on right support, the shaft of the tubing driving motor is connect with the tubing drive roll;It is described
The quantity of belt support frame is two, and is oppositely arranged, and tooth belt, one of institute are equipped between two belt support frames
It states and is fixedly installed with belt driving motor on belt support frame, to drive the tooth belt to operate;The tooth belt is located at
The side of the tubing, and it is parallel with the axis of the tubing, the grating scale is parallel with the tooth belt, the gear skin
Band is between the tubing and grating scale;The printing trolley is located above the tooth belt and grating scale, and the print
Brush trolley bottom is fixedly mounted on the tooth belt;The printing car top is fixedly mounted close to one end of the tubing
Multiple piezo jets, the lateral surface of tubing described in the piezo jets face are installed on the leading flank of the printing trolley multiple
Print cartridge, the quantity of the print cartridge is identical as the quantity of the piezo jets, and each piezo jets pass through hose and one
The print cartridge connection;The printing machine further includes control cabinet, and single-chip microcontroller and control circuit, the list are equipped in the control cabinet
Piece machine is communicated to connect by USB interface and host computer, the grating scale and Grating examinations circuit connection, the piezo jets
Connect with nozzle driving circuit, the single-chip microcontroller by the control circuit and the tubing driving motor, belt driving motor,
Grating examinations circuit and nozzle driving circuit are all connected with.
Preferably, the tubing driven voller is rotatably installed on the left support by bearing, the tubing drive roll
It is rotatably installed on the right support by bearing.
Preferably, being mounted on a rotatable roller bearing, the gear skin on two belt support frame opposite flanks
Respectively on two roller bearings, the shaft of the belt driving motor is connect with roller bearing described in one of them at band both ends,
To drive the roller bearing to rotate, and then drive the tooth belt operating.
Preferably, further including trolley track, the other end of the printing trolley bottom is slidably mounted on the trolley track
On.
Preferably, opening up the sliding slot of strip on the trolley track top surface, the other end of the printing trolley bottom has
With the matched sliding block of the sliding slot, the sliding block is inserted into the sliding slot.
A kind of digital inkjet printer for tube surfaces printing provided by the embodiment of the utility model, including tubing branch
Frame, belt support frame, grating scale, printing trolley and control cabinet, tubing are mounted on pipe support, in the drive of tubing driving motor
Lower rotation, printing trolley bottom surface are fixed on the tooth belt being installed on belt support frame, pass through belt driving motor drive belt
Operating, and then drive printing trolley mobile, grating scale is located at immediately below printing trolley, print be equipped on trolley piezo jets and
Print cartridge has single-chip microcontroller and control circuit in control cabinet, and single-chip microcontroller connect with host computer, while single-chip microcontroller is electric by controlling
Road is connect with tubing driving motor, belt driving motor, Grating examinations circuit and nozzle driving circuit, will to control piezo jets
Image printing is on tubing.The printing machine is solved current printing machine for pipe use and is turned by the way of direct ink jet printing
Low efficiency caused by India side formula and the low problem of printing quality.
Detailed description of the invention
Fig. 1 is that a kind of digital inkjet printer structure for tube surfaces printing provided by the embodiment of the utility model is shown
It is intended to.
Description of symbols:
100- left support, 101- tubing driven voller, 110- right support, 111- tubing drive roll, 200- tubing, 210- tubing
Driving motor, 300- belt support frame, 310- tooth belt, 320- belt driving motor, 400- grating scale, 500- trolley track,
510- sliding slot, 600- print trolley, 610- piezo jets, 620- print cartridge.
Specific embodiment
With reference to the accompanying drawing, a specific embodiment of the utility model is described in detail, it is to be understood that this
The protection scope of utility model is not limited by the specific implementation.
Referring to Fig.1, the utility model provides a kind of digital inkjet printer for tube surfaces printing, including tubing
Bracket, belt support frame 300, grating scale 400, trolley track 500 and printing trolley 600.The pipe support includes left support 100
With right support 110, the left support 100 is oppositely arranged with the right support 110, the left support 100 and the right support 110
Tubing driven voller 101 is rotatably equipped on opposite side, on the right support 110 side opposite with the left support 100
It is rotatably equipped with tubing drive roll 111,200 both ends of tubing are socketed in the tubing driven voller 101 and tubing drive roll 111 respectively
On, tubing driving motor 210, the shaft of the tubing driving motor 210 and the tubing are fixedly mounted on the right support 110
Drive roll 111 connects.In the present embodiment, the tubing driven voller 101 is rotatably installed in the left support 100 by bearing
On, the tubing drive roll 111 is rotatably installed on the right support 110 also by bearing.It is understood that the tubing
Driven voller 101 and tubing drive roll 111 can also use other modes to be rotatably installed in the left support 100 and right support 110
On, such as shaft insertion turn hole etc..
Certainly, for the ease of installing and removing the tubing 200, the left support 100 can be set to can be close or remote
It is set as to slide close to or far from the left support 100 from the right support 110 sliding or the right support 110.
The quantity of the belt support frame 300 is two, and is oppositely arranged, and is equipped between two belt support frames 300
Tooth belt 310 is fixedly installed with belt driving motor 320, the belt driving electricity on one of them described belt support frame 300
Machine 320 is to drive the tooth belt 310 to operate.Specifically, it is respectively mounted on two 300 opposite side sides of belt support frame
There is a rotatable roller bearing, respectively on two roller bearings, the belt driving is electric at 310 both ends of tooth belt
The shaft of machine 320 is connect with roller bearing described in one of them, to drive the roller bearing to rotate, and then drives the tooth belt 310
Operating.
The tooth belt 310 is located at the side of the tubing 200, and parallel with the axis of the tubing 200.The light
Grid ruler 400 is parallel with the tooth belt 310, and the tooth belt 310 is between the tubing and grating scale 400.It is described
Trolley track 500 is parallel with the grating scale 400, and the grating scale 400 is located at the tooth belt 310 and trolley track
Between 500.
The printing trolley 600 is located at 500 top of the tooth belt 310, grating scale 400 and trolley track, and described
Printing 600 bottom end of trolley is fixedly mounted on the tooth belt 310, the grating scale 400 and the printing trolley 600
Bottom surface have gap, it is described printing 600 bottom of trolley the other end be slidably mounted on the trolley track 500.In this reality
It applies in example, the bottom of the printing trolley 600 can be fixedly mounted on the tooth belt by way of gluing or snapping
On 310, the sliding slot 510 of strip is opened up on 500 top surface of trolley track, the other end of printing 600 bottom of trolley has
With the matched sliding block of the sliding slot 510, the sliding block is inserted into the sliding slot 510.
Multiple piezo jets 610 are fixedly mounted close to one end of the tubing 200 in 600 top of printing trolley, described
The lateral surface of tubing 200 described in 610 face of piezo jets.Multiple print cartridges 620 are installed on the leading flank of the printing trolley 600,
The quantity of the print cartridge 620 is identical as the quantity of the piezo jets 610, and each piezo jets 610 are soft by one
The Guan Yuyi print cartridges 620 are connected to.
The printing machine further includes control cabinet, and single-chip microcontroller and control circuit, the single-chip microcontroller are equipped in the control cabinet
It is communicated to connect by USB (universal serial bus) interface and host computer.The grating scale 400 and a Grating examinations circuit
Connection, the piezo jets 610 are connect with a nozzle driving circuit, and the single-chip microcontroller passes through the control circuit and the pipe
Material driving motor 210, belt driving motor 320, Grating examinations circuit and nozzle driving circuit are all connected with.The tubing driving electricity
Machine 210 and belt driving motor 320 are stepper motor.Above-mentioned control circuit can be found in Liaoning Normal University's master's degree opinion
Text, 2006, " the ink-jet printer Interface design based on USB2.0 ", Li Huiming, Grating examinations circuit can be found in《Micro computer with
Using》, the 8th phases of volume 34 in 2015, and " based on pid algorithm spray drawing machine trolley control system application ", Liu Jin, Su Chen, Jin Yu
Contain, walk sub- male, nozzle driving circuit can be found in《Micro computer and application》, 01 phase in 2015 is " based on STM32 in spray head in spray-painting device control
The design and realization of system processed ", Liu Jin, Su Chen.
The single-chip microcontroller has buffer, the image that the host computer transmission needs to print to the buffer, institute
It states single-chip microcontroller and image is subjected to stretch processing, control the piezo jets after the signal for receiving the Grating examinations electronic feedback
Driving circuit, tubing driving motor 210 and belt driving motor 320 work, and the image after stretching is printed to the tubing 200
On.
In conclusion a kind of digital inkjet printer for tube surfaces printing provided by the embodiment of the utility model,
It is mounted on pipe support including pipe support, belt support frame, grating scale, printing trolley and control cabinet, tubing, is driven in tubing
It is rotated under the drive of motor, printing trolley bottom surface is fixed on the tooth belt being installed on belt support frame, drives electricity by belt
The operating of machine drive belt, and then drive printing trolley mobile, grating scale is located at immediately below printing trolley, prints and is equipped on trolley
Piezo jets and print cartridge have single-chip microcontroller and control circuit in control cabinet, and single-chip microcontroller is connect with host computer, while single-chip microcontroller
It is connect by control circuit with tubing driving motor, belt driving motor, Grating examinations circuit and nozzle driving circuit, with control
Piezo jets print image on tubing.The printing machine solves current tubing print by the way of direct ink jet printing
The brush machine problem low using low efficiency caused by transfer modes and printing quality.
Disclosed above is only several specific embodiments of the utility model, and still, the utility model embodiment is not office
It is limited to this, the changes that any person skilled in the art can think of should all fall into the protection scope of the utility model.
Claims (5)
1. a kind of digital inkjet printer for tube surfaces printing, which is characterized in that including pipe support, belt support frame
(300), grating scale (400) and printing trolley (600);The pipe support includes left support (100) and right support (110), institute
It states left support (100) to be oppositely arranged with the right support (110), the left support (100) and the right support (110) are opposite
It is rotatably equipped on side tubing driven voller (101), on the right support (110) and the left support (100) opposite side
It is rotatably equipped with tubing drive roll (111), tubing (200) both ends are socketed in the tubing driven voller (101) and tubing master respectively
On dynamic roller (111), tubing driving motor (210) are fixedly mounted on the right support (110), the tubing driving motor (210)
Shaft connect with the tubing drive roll (111);The quantity of the belt support frame (300) is two, and is oppositely arranged, two
Tooth belt (310) are installed between the belt support frame (300), are fixedly mounted on one of them described belt support frame (300)
There are belt driving motor (320), to drive the tooth belt (310) to operate;The tooth belt (310) is located at the pipe
The side of material (200), and, the grating scale (400) and the tooth belt (310) parallel with the axis of the tubing (200)
In parallel, the tooth belt (310) is between the tubing (200) and grating scale (400);Printing trolley (600) position
Above the tooth belt (310) and grating scale (400), and printing trolley (600) bottom is fixedly mounted on the tooth
It takes turns on belt (310);Multiple piezo jets are fixedly mounted in one end at the top of printing trolley (600) close to the tubing (200)
Head (610), the lateral surface of tubing (200) described in piezo jets (610) face, the leading flank of printing trolley (600)
The upper multiple print cartridges (620) of installation, the quantity of the print cartridge (620) is identical as the quantity of the piezo jets (610), and each institute
Piezo jets (610) are stated to be connected to by hose with a print cartridge (620);The printing machine further includes control cabinet, the control
Single-chip microcontroller and control circuit are installed, the single-chip microcontroller is communicated to connect by USB interface and host computer, the light in case processed
Grid ruler (400) and Grating examinations circuit connection, the piezo jets (610) connect with nozzle driving circuit, and the single-chip microcontroller is logical
It crosses the control circuit and the tubing driving motor (210), belt driving motor (320), Grating examinations circuit and spray head drives
Dynamic circuit is all connected with.
2. printing machine as described in claim 1, which is characterized in that the tubing driven voller (101) is rotatablely installed by bearing
On the left support (100), the tubing drive roll (111) is rotatably installed on the right support (110) also by bearing.
3. printing machine as described in claim 1, which is characterized in that pacify on two belt support frame (300) opposite flanks
Equipped with a rotatable roller bearing, respectively on two roller bearings, the belt is driven at tooth belt (310) both ends
The shaft of dynamic motor (320) is connect with roller bearing described in one of them, to drive the roller bearing to rotate, and then drives the gear skin
Band (310) operates.
4. printing machine as described in claim 1, which is characterized in that further include trolley track (500), the printing trolley
(600) other end of bottom is slidably mounted on the trolley track (500).
5. printing machine as claimed in claim 4, which is characterized in that open up the cunning of strip on trolley track (500) top surface
Slot (510), the other end of described printing trolley (600) bottom has to be inserted with the sliding slot (510) matched sliding block, the sliding block
Enter in the sliding slot (510).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820575475.7U CN208101416U (en) | 2018-04-20 | 2018-04-20 | A kind of digital inkjet printer for tube surfaces printing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820575475.7U CN208101416U (en) | 2018-04-20 | 2018-04-20 | A kind of digital inkjet printer for tube surfaces printing |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208101416U true CN208101416U (en) | 2018-11-16 |
Family
ID=64119502
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820575475.7U Expired - Fee Related CN208101416U (en) | 2018-04-20 | 2018-04-20 | A kind of digital inkjet printer for tube surfaces printing |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208101416U (en) |
-
2018
- 2018-04-20 CN CN201820575475.7U patent/CN208101416U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181116 Termination date: 20190420 |