CN102756561B - Fluid detection jig - Google Patents

Abstract

A fluid detection jig is suitable for detecting a cleaning device and comprises a base, a testing platform, a transmission shaft, a positioning fixture and a detection device, wherein the testing platform, the transmission shaft, the positioning fixture and the detection device are arranged on the base, and the testing platform is suitable for moving between an assembling position and a testing position relative to the base. The transmission shaft is provided with a first tail end, a second tail end and a gear, wherein the gear is arranged at the first tail end relatively close to the testing platform. The positioning fixture corresponds to a positioning structure of the cleaning device. The detection device comprises a positioning body, a pneumatic cylinder and a detection unit, wherein the positioning body is arranged on the base and positioned on a moving path of the testing platform, the pneumatic cylinder is arranged on the positioning body, and the detection unit is arranged on one side of the pneumatic cylinder relatively close to the base.

Description

Fluid detection tool

Technical field

The present invention relates to a kind of detection tool, and be particularly related to a kind of fluid detection tool for detection of a cleaning device.

Background technology

Along with the ever-growing use of computer and Internet, the demand of printing off file with printer or transaction machine increases day by day.Based on considering of price, compared to the comparatively expensive laser printer of price, the current transaction machine taking ink-jetting style is still as the more common selection of family.Ink jet type transaction machine is mainly to utilize setting ink gun in the inner that ink is injected into the assigned address on paper (or other carriers) exactly, to show word or image on paper.But in the process of ink-jet printing, remaining ink droplet is very easily accumulated by the surrounding of the nozzle of ink gun, or can gather powder or the paper dirt from paper surface.Therefore, the nozzle of ink gun is easy to stop up, and causes the deteriorated of the quality of prining.Specifically, the so-called quality badness of prining, comprises that ink-jet density unevenness, mass colour service life inaccurate or ink gun is shorter etc.So, guarantee nozzle clean of ink gun, be very important the service life of prining quality and extending ink gun for raising.

For this reason, the nozzle of ink gun, before ink-jet printing, can first be carried out one and shoot out program, ink droplet or the paper dirt of the surrounding that accumulates on nozzle are removed by ink.In current ink jet type transaction machine, one gathering-device is generally all specially set, to collect the ink waste liquid that nozzle was shootd out out of ink gun, and this gathering-device is often independent of the attending device setting of ink gun, and need extra collocation that ink waste collection pipeline is set, cause known ink jet maintener structure comparatively complicated.

On the other hand, in the time that ink gun is printd state in waiting for, the ink droplet of the nozzle periphery of ink gun is easy to dry and forms residual China ink, causes nozzle blockage.So ink gun needs in addition moisturizing and maintenance, to avoid the dry and stopped nozzles of ink droplet or to be infected with dust.Therefore, in printer, be provided with at present sealing mechanism, in order at ink gun in waiting for the state of prining, jet of sealed head and scrape the residual ink of inhaling on ink gun, to keep the cleaning of ink gun.

But, in ink jet type transaction machine now, assembler often needs cleaning device to be first assembled in the housing of transaction machine, and with other module produce associated after, can detect cleaning device, detect it and whether there is satisfactory cleaning capacity.But if the testing result of cleaning device when undesirable, assembler needs spended time to follow energy cleaning device to be disassembled from transaction machine to the action of changing or repairing.

Summary of the invention

The invention provides a kind of fluid detection tool for detection of cleaning device.

For reaching above-mentioned or other objects, the present invention proposes a kind of fluid detection tool that is suitable for detecting cleaning device, comprises a pedestal, a test platform, a power transmission shaft, multiple positioning fixture and a checkout gear.Test platform, power transmission shaft, positioning fixture and checkout gear are all arranged on pedestal, and wherein test platform is suitable for moving between an assembling position and a test position relative to pedestal.Power transmission shaft has one first end, one second end and a gear, and gear is arranged at relatively the first end near test platform, and gear is suitable for engaging with a gear train of cleaning device.Multiple location structure settings of the corresponding cleaning device of positioning fixture, to be fixed on cleaning device on test platform.Checkout gear comprises a location body, one first pneumatic cylinder and a detecting unit.Location body is arranged on pedestal, and be positioned on the mobile route of test platform, and the first pneumatic cylinder is arranged on the body of location, and detecting unit is arranged at a side of the relatively close pedestal of the first pneumatic cylinder, and when the first pneumatic cylinder start, detecting unit is subject to the first pneumatic cylinder drive and move in a normal direction of pedestal.

In an embodiment of fluid detection tool of the present invention, the first above-mentioned pneumatic cylinder comprises one first pneumatic cylinder body and one first push rod, wherein the first push rod is arranged in the first pneumatic cylinder body, and detecting unit is arranged at the first push rod relatively away from an end of the first pneumatic cylinder body.

In an embodiment of fluid detection tool of the present invention, each above-mentioned positioning fixture comprises a base, a locating clip and a locating dowel.Base is arranged on test platform, and locating clip is arranged on base, and location accompanies an articulated section, an operating portion and a linkage part, wherein operating portion and linkage part are connected in respectively articulated section, and articulated section is hubbed at base, so that operating portion and linkage part are suitable for relative base pivots centered by articulated section.Locating dowel is arranged at linkage part, and locating dowel being suitable in a latched position location cleaning device.The height difference of above-mentioned base in the normal direction of pedestal.

In an embodiment of fluid detection tool of the present invention, also comprise an encoder, and the second end of power transmission shaft connects encoder.

In an embodiment of fluid detection tool of the present invention, above-mentioned checkout gear also comprises multiple sensors, these sensor settings in detecting unit relatively away from a side of pedestal.

In an embodiment of fluid detection tool of the present invention, above-mentioned test platform also has an assembling district, between positioning fixture, with accommodating cleaning device.

In an embodiment of fluid detection tool of the present invention, also comprise and be arranged at the second pneumatic cylinder of 1 on pedestal, and be connected with test platform, and the second pneumatic cylinder is suitable for passing test platform and moves relative to pedestal.This second pneumatic cylinder comprises one second pneumatic cylinder body and one second push rod, and this second push rod is arranged in the second pneumatic cylinder body, and test platform is connected in the second push rod relatively away from an end of the second pneumatic cylinder body.

In an embodiment of fluid detection tool of the present invention, also comprise a pair of slide rail being arranged on pedestal, and test platform is arranged on slide rail, and test platform is suitable for moving on slide rail.

Based on above-mentioned, fluid detection tool of the present invention can be assembled to transaction machine at cleaning device, and whether the front effect that first detects cleaning device is normal.Must will after cleaning device group device transaction machine, just can detect compared to known, use fluid detection tool of the present invention can detect in advance cleaning device, after reaching standard, the test result of cleaning device again cleaning device is assembled to transaction machine, so can save assembling manpower and man-hour, and then effectively reduce costs.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate accompanying drawing to be described in detail below.

Brief description of the drawings

Fig. 1 is a kind of schematic diagram that is applied in the cleaning device in printer or transaction machine.

Fig. 2 is the schematic diagram of a kind of fluid detection tool of the cleaning device of the corresponding Fig. 1 of detection.

Fig. 3 is the schematic diagram that the cleaning device of Fig. 1 is installed in the fluid detection tool of Fig. 2.

Fig. 4 is the schematic diagram that the positioning fixture of the fluid detection tool of Fig. 3 fastens the location structure of cleaning device.

Test platform is passed the schematic diagram to test position by Fig. 5.

Fig. 6 is the schematic diagram that omits the checkout gear of Fig. 5.

Fig. 7 A is the schematic diagram that the clutch of Fig. 6 is withstood by push rod.

Fig. 7 B is after the clutch of Fig. 7 A is withstood by push rod, the schematic diagram of wheel and rack engagement.

Fig. 8 is the schematic diagram that chi bar drives cleaner to move.

Fig. 9 is that pneumatic cylinder is passed the schematic diagram of cleaner to detecting unit below.

Figure 10 is the closely sealed schematic diagram of cleaner and detecting unit.

Main element symbol description:

100: cleaning device

110: device body

120: pipeline to be measured

130: clutch

132: gear

140: location structure

150: gear train

152: tooth bar

160: cleaner

200: fluid detection tool

210: pedestal

220: test platform

222: assembling district

230: power transmission shaft

232: the first ends

234: the second ends

236: gear

240: positioning fixture

242: base

244: locating clip

244a: articulated section

244b: operating portion

244c: linkage part

246: locating dowel

250: checkout gear

252: location body

254: the first pneumatic cylinders

254a: the first pneumatic cylinder body

254b: the first push rod

256: detecting unit

258: sensor

260: encoder

270: slide rail

280: the three pneumatic cylinders

290: the four pneumatic cylinders

N: normal direction

D1: first direction

D2: second direction

Detailed description of the invention

Fluid detection tool of the present invention is for before in cleaning device arranges ink-jet printer (or transaction machine), and whether test this cleaning device can start and meet the demand setting.Cleaning device installing is being put to ink-jet printer (or transaction machine) before, first utilize fluid detection tool of the present invention to detect this cleaning device, after device to be cleaned passes through to detect, then cleaning device is installed up to ink-jet printer (or transaction machine).First cleaning device is installed and in ink-jet printer (or transaction machine), just can be carried out the test of cleaning device compared to known needs, use fluid detection tool of the present invention in advance cleaning device to be detected, device to be cleaned reinstalls in ink-jet printer (or transaction machine) after detecting, if therefore can save cleaning device not by the dismounting of detection and assembling manpower and the man-hour of replacing or reparation, and then effectively reduce costs.Following embodiment illustrates fluid detection tool of the present invention, those skilled in the art can be according to actual demand the convection cell parts that arrange that detect tool make an amendment, for example arrange for corresponding selected parts and the position thereof of revising fluid detection tool of cleaning device of different size, but still do not violate spirit of the present invention.

Fig. 1 is a kind of schematic diagram that is applied in the cleaning device in printer or transaction machine, and Fig. 2 is the schematic diagram of a kind of fluid detection tool of the cleaning device of the corresponding Fig. 1 of detection.Please also refer to Fig. 1 and Fig. 2, fluid detection tool 200 use of the present embodiment detect the cleaning device 100 showing as Fig. 1.Cleaning device 100 is suitable for being installed up in a transaction machine or ink-jet printer, and it comprises a device body 110, many pipelines 120 to be measured (only illustrating 2 in Fig. 1), a clutch 130, multiple location structure 140, a gear train 150 and a cleaner 160.Pipeline 120 to be measured, clutch 130, location structure 140 and cleaner 160 are all arranged on device body 110, and gear train 150 is arranged on a side of device body 110.Cleaner 160 is positioned at the centre of device body 110, and wherein cleaner 160 is a lid, while prining state, is sealed at ink gun in order to the ink gun at ink-jet printer (or transaction machine) in waiting for.Pipeline 120 to be measured is communicated with cleaner 160, and be pulled to the lateral margin of device body 110, wherein in the time that cleaning device 100 is installed up in transaction machine or ink-jet printer, pipeline 120 to be measured can join with a gang of Pu (not shown) being arranged in transaction machine or ink-jet printer, and side Pu is done in order to air in cleaner 160 is taken away by pipeline 120 to be measured or air is injected to cleaner 160 by pipeline 120 to be measured.Clutch 130 is between cleaner 160 and gear train 150, and location structure 140 is around the edge setting of device body 110.

Please continue the while with reference to figure 1 and Fig. 2, fluid detection tool 200 comprises a pedestal 210, a test platform 220, a power transmission shaft 230, multiple positioning fixture 240 and a checkout gear 250.Test platform 220, power transmission shaft 230, positioning fixture 240 and checkout gear 250 are all arranged on pedestal 210, and wherein test platform 220 moves on pedestal 210 between an assembling position (showing as Fig. 2) and a test position (showing as Fig. 5).Power transmission shaft 230 has one first end 232, one second end 234 and a gear 236 (as Fig. 6 shows), and gear 236 is arranged at the first end 232 near test platform 220 relatively.Multiple location structures 140 of the corresponding cleaning device 150 of positioning fixture 240 arrange.Checkout gear 250 comprises a location body 252, one first pneumatic cylinder 254 and a detecting unit 256, wherein locating body 252 is arranged on pedestal 210, and be positioned on the mobile route of test platform 220, with the displacement of backstop test platform 220, and the first pneumatic cylinder 254 is arranged on the body 252 of location, and detecting unit 256 is arranged at a side of the relatively close pedestal 210 of the first pneumatic cylinder 254, and when the first pneumatic cylinder 254 start, detecting unit 256 is subject to the drive of the first pneumatic cylinder 254 and upper mobile in the normal direction N of pedestal 210.

Based on above-mentioned, test platform 220 also has the assembling district 222 in order to accommodating cleaning device 100, the structure of this assembling in district 222 and element setting be with cleaning device to be measured 100 be about to install into corresponding transaction machine or structure and the element of ink-jet printer arrange identical.This assembling district 222 is between positioning fixture 240.

In addition, the first pneumatic cylinder 254 comprises one first pneumatic cylinder body 254a and one first push rod 254b, wherein the first push rod 254b is arranged in the first pneumatic cylinder body 254a, and detecting unit 256 is arranged at the first push rod 254b relatively away from an end of the first pneumatic cylinder body 254a.

Each above-mentioned positioning fixture 240 comprises a base 242, a locating clip 244 and a locating dowel 246.Base 242 is arranged on test platform 220, and locating clip 244 is arranged on base 242, and locating clip 244 has an articulated section 244a, an operating portion 244b and a linkage part 244c, wherein operating portion 244b and linkage part 244c are connected to articulated section 244a, and operating portion 244b and linkage part 244c slightly V-shaped.Articulated section 244a is hubbed at base 242, so that operating portion 244b and linkage part 244c are suitable for rotating relative to base 242 centered by the 244a of articulated section.Locating dowel 246 is arranged at linkage part 244c, and operating portion 244b and linkage part 244c centered by the 244a of articulated section in the time that base 242 rotates to a latched position, locating dowel 246 can be fastened on the location structure 140 of cleaning device 100, so that cleaning device 100 is fixed on test platform 220.In the present embodiment, in response to the global design of cleaning device 100, the height of the base 242 of positioning fixture 240 on the normal direction N of pedestal 210 is also incomplete same.

Moreover fluid detection tool 200 also comprises an encoder 260, and the second end 234 of power transmission shaft 230 connects encoder 260.

Checkout gear 250 also comprises multiple sensors 258 (2 sensors 258 are only shown in Fig. 2), and these sensors 258 are arranged at the relative side away from pedestal 210 of detecting unit 256.

In addition, in order to make test platform 220 can be relative to pedestal 210 smooth and move relative to pedestal 210 glibly, fluid detection tool 200 can also comprise a pair of slide rail 270 being arranged on pedestal 210, and test platform 220 is arranged on slide rail 270.So, user just can pass test platform 220 more effortlessly compared with not being provided with slide rail 270, and test platform 220 is moved relative to pedestal 210 on slide rail 270.

Fig. 3 is the schematic diagram that the cleaning device of Fig. 1 is installed in the fluid detection tool of Fig. 2.Please refer to Fig. 3, in the time that wish detects cleaning device 100, cleaning device 100 is installed up in the assembling district 222 of test platform 220 of fluid detection tool 200.Fig. 4 is the schematic diagram that the positioning fixture of the fluid detection tool of Fig. 3 fastens the location structure of cleaning device.Then as Fig. 4 shows, user pulls the operating portion 244b of the locating clip 244 of positioning fixture 240 with hand, operating portion 224b is rotated relative to base 242 taking articulated section 224a as pivot, and linkage part 224c is while being subject to driven rotary to latched position, the locating dowel 246 that is arranged on linkage part 224c buckles in the location structure 140 of cleaning device 100.So, cleaning device 100 is fixed on test platform 220.

Test platform is passed the schematic diagram to test position by Fig. 5, and Fig. 6 is the schematic diagram that omits the checkout gear of Fig. 5.Please also refer to Fig. 5 and Fig. 6, then, user moves to test position by test platform 220 along a pair of slide rail 270 self assembly positions (as Fig. 2 shows) that are arranged on pedestal 210 with hand.In other embodiments, in order to save manpower or to avoid allowing test platform 220 move relative to pedestal 210 on pedestal 210 swimmingly, fluid detection tool 200 can also comprise the one second pneumatic cylinder (not shown) being arranged on pedestal 210, and be connected with test platform 220, and the second pneumatic cylinder is suitable for passing test platform 220 and moves relative to pedestal 210.The structure of this second pneumatic cylinder and the first pneumatic cylinder 254 are roughly the same, and its difference is that the push rod of the second pneumatic cylinder is to be connected to test platform 220.

Based on above-mentioned, while moving to test position in test platform 220 self assembly positions (as Fig. 2 shows), the gear 236 of power transmission shaft 230 engages with one of them gear (not indicating) of the gear train 150 of cleaning device 100.Fig. 7 A is the schematic diagram that the clutch of Fig. 6 is withstood by push rod, and after the clutch that Fig. 7 B is Fig. 7 A withstood by push rod, the schematic diagram of wheel and rack engagement.The situation of being withstood by push rod in order clearly to present clutch, therefore Fig. 7 A and Fig. 6 present with different visual angles.Please also refer to Fig. 7 A and Fig. 7 B, fluid detection tool 200 also has one the 3rd pneumatic cylinder 280, is arranged on pedestal 210, and is positioned at the intersection of test platform 220 and power transmission shaft 230.This 3rd pneumatic cylinder 280 is in order to withstand the clutch 130 of cleaning device 100, and clutch 130 is while being withstood by the 3rd pneumatic cylinder 280, and a gear 132 of clutch 130 engages with the tooth bar 152 in gear train 150, the object of transmitting to reach power.In other embodiments, the 3rd pneumatic cylinder 280 also can replace with fixed rod member, equally also can reach the object of withstanding clutch 130.

Fig. 8 is the schematic diagram that chi bar drives cleaner to move, and Fig. 9 is the schematic diagram of pneumatic cylinder passing cleaner to detecting unit below.Please also refer to Fig. 6, Fig. 7 B and Fig. 8, power transmission shaft 230 rotates, driven gear 236 also and then rotates the gear of the gear train 150 of cleaning device 100, and the tooth bar 152 being meshed with the gear 132 of clutch 130 also impels cleaner 160 to move towards a first direction D1.Fluid detection tool 200 also has one the 4th pneumatic cylinder 290, is arranged on test platform 220 and with checkout gear 250 and is positioned at the relative both sides of assembling district 222.Therefore can show as Fig. 9, the 4th pneumatic cylinder 290 starts move to the below of detecting unit 256 along second direction D2 to pass cleaner 160.

Figure 10 is the closely sealed schematic diagram of cleaner and detecting unit.Then as Figure 10 shows, the first pneumatic cylinder 254 starts, make its first push rod 254b drive detecting unit 256 to move to seal cleaner 160 towards cleaner 160.Now, the push rod (not indicating) of the 3rd pneumatic cylinder 280 (as Fig. 7 A shows) leaves clutch 130 (as Fig. 7 A shows), and move to original position, and separate with tooth bar 152 with tooth bar 152 meshed gears 132 (as Fig. 7 B shows).Then, a gang of Pu (not shown) vacuumizes detection to cleaner 160, and this side Pu can be to be arranged in fluid detection tool 200, or with external form setting, determines according to actual demand.Now, user can be simply by whether having gas to discharge in pipeline 120 to be measured or whether whether have gas to be inhaled into carry out perception cleaning device 100 in pipeline 120 to be measured can normally act on.Certainly can be also to carry out sensing by sensor 258.What is more, sensor 258 can also be electrically connected with a circuit, so that measured sensing result is passed to computer or display screen to show or to store by circuit, determines according to demand.

After having tested, then according to the inverted sequence of above-mentioned flow process by each element playback and return, then flow automatically on health check-up measurement fixture 200 and take off detecting complete cleaning device 100.Then, just can be installed up in transaction machine or ink-jet printer detecting complete cleaning device 100, and not need cleaning device 100 again to detect.

In sum, in fluid detection tool of the present invention, can be in cleaning device be installed up to ink-jet printer (or transaction machine) before, test in advance this cleaning device and whether can meet demand ground start.First utilize fluid detection tool of the present invention to detect this cleaning device, device to be cleaned is by after detecting, again cleaning device is installed up to ink-jet printer (or transaction machine), its advantage is to be first cleaning device to be installed and in ink-jet printer (or transaction machine), just can be carried out the test of cleaning device compared to known needs, use fluid detection tool of the present invention in advance cleaning device to be detected, if need assembling manpower and the man-hour of the heavy industrys such as dismounting, replacing or reparation can save cleaning device not by detection time, and then effectively reduce costs.

Although the present invention discloses as above with embodiment, so it is not in order to limit the present invention, and the those of ordinary skill in any affiliated technical field, when doing a little change and retouching, and is not departing from the spirit and scope of the present invention.

Claims (10)

1. a fluid detection tool, is suitable for detecting a cleaning device, comprising:

One pedestal;

One test platform, is arranged on this pedestal, and is suitable for moving between an assembling position and a test position relative to this pedestal;

One power transmission shaft, is arranged on this pedestal, has one first end, one second end and a gear, and this gear is arranged at relatively this first end near this test platform, and this gear is suitable for engaging with a gear train of this cleaning device;

Multiple positioning fixtures, to multiple location structure settings that should cleaning device, so that this cleaning device is fixed on this test platform;

One checkout gear, comprising:

One location body, is arranged on this pedestal, and is positioned on the mobile route of this test platform;

One first pneumatic cylinder, is arranged on this location body; And

One detecting unit, is arranged at this first pneumatic cylinder relatively near a side of this pedestal, and when this first pneumatic cylinder start, this detecting unit is subject to this first pneumatic cylinder drive and move in a normal direction of this pedestal.

2. fluid detection tool according to claim 1, wherein this first pneumatic cylinder comprises:

One first pneumatic cylinder body; And

One first push rod, is arranged in this first pneumatic cylinder body, and wherein this detecting unit is arranged at this first push rod relatively away from an end of this first pneumatic cylinder body.

3. fluid detection tool according to claim 1, wherein each positioning fixture comprises:

One base, is arranged on this test platform;

One locating clip, be arranged on this base, and this location accompanies an articulated section, an operating portion and a linkage part, wherein this operating portion and this linkage part are connected in respectively this articulated section, and this articulated section is hubbed at this base, so that this operating portion and this linkage part are suitable for relative this base pivots centered by this articulated section; And

One locating dowel, is arranged at this linkage part, and is suitable for a latched position and locates this cleaning device.

4. fluid detection tool according to claim 3, wherein the height difference of those bases in this normal direction of this pedestal.

5. fluid detection tool according to claim 1, also comprise an encoder, and this second end of this power transmission shaft connects this encoder.

6. fluid detection tool according to claim 1, wherein this checkout gear also comprises multiple sensors, is arranged at this detecting unit relatively away from a side of this pedestal.

7. fluid detection tool according to claim 1, wherein this test platform also has an assembling district, between those positioning fixtures, is suitable for accommodating this cleaning device.

8. fluid detection tool according to claim 1, also comprises one second pneumatic cylinder, be arranged on this pedestal, and be connected with this test platform, and this second pneumatic cylinder is suitable for passing this test platform and moves relative to this pedestal.

9. fluid detection tool according to claim 8, wherein this second pneumatic cylinder comprises:

One second pneumatic cylinder body; And

One second push rod, is arranged in this second pneumatic cylinder body, and wherein this test platform is connected in this second push rod relatively away from an end of this second pneumatic cylinder body.

10. fluid detection tool according to claim 1, also comprises a pair of slide rail, be arranged on this pedestal, and this test platform is arranged at this on slide rail, and is suitable for moving on to slide rail at this.