CN101658849B - Suction nozzle cleaning tool and using method thereof - Google Patents

Abstract

The invention discloses a suction nozzle cleaning tooling, which comprises a framework group and a sealing layer, wherein the framework group comprises a first framework and a second framework, each framework consist of a plurality of framework supporting strips, and a hollow area is formed in the middle of the two frameworks; and the peripheral edges of the sealing layer are clamped between the first framework and the second framework, a middle area is exposed through the hollow area of the framework group, and the middle area of the sealing layer is provided with a hole which allows a suction nozzle to insert in from a first surface of the sealing layer and penetrate out to a second surface of the sealing layer. The invention also discloses a using method of the suction nozzle cleaning tooling. By using the suction nozzle cleaning tooling, the processing time is greatly reduced. Besides, in the suction nozzle cleaning tooling, the framework group is used for supporting the suction nozzle, and the sealing layer is used for preventing a washing liquid from staining a reflecting plate of the suction nozzle so as to achieve the aim of reducing the nozzle loss, and simultaneously reduce the use cost of consumptive materials of a nozzle cleaner.

Description

Suction nozzle cleaning tooling and using method thereof

Technical field

The present invention relates to a kind of suction nozzle cleaning tooling and using method thereof, particularly relevant a kind of framework that utilizes holds up to prevent suction nozzle impaired cleaning tooling and using method thereof in cleaning process.

Background technology

Along with development in science and technology, electronics and IT products miscellaneous are generally in daily life, for example: mobile phone has pluralistic function and frivolous volume because of possessing, and becomes the most general device for mobile communication at present already.And, along with relevant dealer constantly expands function of cellular phone, the mobile phone that staff is one has almost become a computer of being convenient to move, and various previous calculation machines are exercisable network building-out function, can carry out associative operation in the mobile phone of majority.

The inside of above-mentioned electronic installation is all controlled and is operated via precision components.Yet, because the volume of this electronic installation is more and more littler, function relatively also becomes increasingly complex, make in the electronic installation the circuit board volume must with dwindle, simultaneously also represented the parts density on the circuit board more and more higher, the difficulty of assembling these assemblies also with lifting.Therefore, be to solve the predicament in the practical operation, (Source mountedtechnology SMT) realizes the configuration and the assembling of high density part surface mount technology to have occurred.

The SMT technology, for sticking together interface, (Surface Mount Device SMD) is welded in printed circuit board (PCB) or substrate surface with surface sticking assembly with tin cream.Further specify, the SMT processing procedure is earlier via sending the plate machine that printed circuit board (PCB) is sent into, again by stencil printer tin cream in the position printing that will go up part.Then, send into via conveyer belt and to put the part machine, the basic principle of putting part is exactly to draw part in the mode that vacuumizes, and moves on to the position that will put part then, then part is placed on the tin cream.Subsequently, in modes such as hot blast or infrared rays tin cream is heated to fusing point and dissolves the back cooling to finish the welding between part and circuit board.At last, the circuit board that welding is finished is accepted.Wherein, putting the part machine utilizes suction nozzle (Nozzle) to carry out the action of drawing part, and high speed machine, middling speed machine and general with differences such as machines are arranged, usually by part in high speed machine collocation finding, the collocation of middling speed machine and generally handle with the arrange in pairs or groups mode of the part that big part or precision have relatively high expectations of machine.

The clean-up performance that must be noted that above-mentioned suction nozzle can directly cause the processing procedure of SMT high speed machine to be slipped up, for example: material casting, fall part or inhale less than situations such as material, and reason often all to be obstruction because of suction nozzle cause.Therefore, in general factory all can carry out the cleaning of suction nozzle every day, decreases to reduce material.

Please refer to Fig. 1, it is the suction nozzle cleaning method schematic diagram of prior art.As shown in the figure, suction nozzle 1 is made up of reflecting plate 11 and upright thereon suction pipe 12.Wherein, suction nozzle 1 also has fastener 13, is communicated with and is arranged at the another side of reflecting plate 11 with described suction pipe, and be connected with the part machine of putting of SMT processing procedure.The mode manually of factory's cleaning suction nozzle employing in the past is with the suction pipe 12 of cleansing pin 2 insertion suction nozzles 1, so that the foul in the suction pipe 12 is removed.

Yet prior art adopts the mode of cleaning suction nozzle 1 manually that operation fatigue not only takes place easily so that damages the situation of suction nozzle 1, and whole efficiency is low also to be an inevitable predicament.In addition, existing method also can't be removed the foul in the tube wall of suction pipe 12 totally, also will pay huge consumptive material expense extraly, for example: one 80 yuan of cleansing pins, about 1.3 of loss every day.

For improving the problems that above-mentioned artificial cleaning suction nozzle 1 method is derived, follow-up developments go out to utilize the method for ultrasonic cleaning suction nozzle 1.This method is directly put into suction nozzle 1 the ultrasonic cleaning machine that cleaning fluid is housed, with the foul in ultrasonic concussion removing suction pipe 12 tube walls.Empirical tests finds that though utilize the effect of ultrasonic cleaning suction nozzle 1 good, ultrasonic can make the reflecting plate 11 of suction nozzle 1 split, and suction nozzle 1 directly is immersed in the loss that also can cause reflecting plate 11 in the cleaning fluid, causes whole suction nozzle all can't use and scraps.

Therefore, how solving the difficulty that is faced effectively in the process of present cleaning suction nozzle, and take into account SMT processing procedure prerequisite following of advantage such as enhance productivity and reduce cost, also is the problem that present industry is desired most ardently solution.

Summary of the invention

For overcoming the deficiency of above-mentioned prior art, the technical problem to be solved in the present invention provides a kind of suction nozzle cleaning tooling and using method thereof, and it is impaired in cleaning process to prevent suction nozzle to utilize framework to hold up.

For solving the problems of the technologies described above, technical scheme of the present invention is:

A kind of suction nozzle cleaning tooling comprises:

Frame set comprises first framework and second framework, and two frameworks are made up of a plurality of mouldings respectively, forms hollow region in the middle of it;

Sealant, its edge clamping are between first framework and second framework, and expose through the hollow region of frame set in zone in the middle of it;

Wherein, the zone line of sealant is provided with hole, and the tolerable suction nozzle inserts and passes to its second surface from the first surface of described sealant.

Frame set is a rectangular frame, and first framework is arranged at second framework top, and has handle and be arranged at first framework wherein on one side the moulding.

Second framework also has a support, and the end points of support is connected in second framework, and hollow region is separated into a plurality of blocks.

Second framework and support are the member of once-forming.

Support is a cross bracket.

Has spaced a plurality of hole in the block of sealant respectively.

First framework also has support, and the support of first framework faces the support of second framework.

Each moulding of first framework is provided with perforate.

Each moulding of second framework also is provided with perforate, and its position can see through perforate with two frameworks of screw locking corresponding to the perforate of first framework.

Suction nozzle is made up of plate and upright thereon suction pipe, and when in the hole of suction pipe insertion sealant, plate is smooth in the first surface of sealant.

Frame set is a metal framework.

Sealant is a rubber.

The using method of said suction nozzle cleaning tooling comprises the following steps:

The Supersonic wave trough is provided;

Inject cleaning fluid to the Supersonic wave trough;

Suction nozzle is inserted the hole of sealant;

The cleaning tooling that is mounted with suction nozzle is immersed in the cleaning fluid in the Supersonic wave trough; And

Clean the tube wall of suction nozzle.

Employed ultrasonic frequency can be controlled to be certain value in the cleaning step.

Cleaning tooling is immersed in the step of cleaning fluid, the liquid level of cleaning fluid is lower than the upper limb of frame set.

Compared with prior art, the invention has the beneficial effects as follows:

(1) suction nozzle cleaning tooling of the present invention is made up of frame set and sealant, and a plurality of holes can be set with a plurality of suction nozzles of planting on the sealant.Hence one can see that, but a plurality of suction nozzles of cleaning tooling single treatment of the present invention when increasing work efficiency, have also reduced manually-operated time and human cost.Illustrate that for an embodiment with the foul in the cleansing pin removing suction pipe, time of a suction nozzle of its cleaning is about 2 minutes, is 24 seconds/but utilize the processing time of cleaning tooling of the present invention in the prior art.

(2) the present invention is dipped to cleaning tooling in the cleaning fluid in the Supersonic wave trough, and utilizes the ultrasonic concussion to clean the tube wall of suction pipe, and the effect of the existing artificial cleaning of its cleaning effect is good.And, utilize frame set that suction nozzle is held up among the present invention, and utilized sealant to avoid cleaning fluid to be stained with the reflecting plate of suction nozzle, reach the purpose that reduces the suction nozzle loss, also reduced the use cost of cleansing pin consumptive material simultaneously.

Description of drawings

Fig. 1 is a prior art suction nozzle cleaning method schematic diagram;

Fig. 2 is the assembly explosive view of the suction nozzle cleaning tooling of the embodiment of the invention;

Fig. 3 is the assembling schematic diagram of the suction nozzle cleaning tooling of the embodiment of the invention; And

Fig. 4 utilizes suction nozzle cleaning tooling of the present invention to clean the using method schematic diagram of suction nozzle.

[primary clustering symbol description]

1 suction nozzle

11 reflecting plates

12 suction pipes

13 fasteners

2 cleansing pins

3 suction nozzle cleaning toolings

31 frame set

311 first frameworks

312 second frameworks

311a, 312a moulding

311b, 312b hollow region

3111 handles

3112,3121 supports

3113,3122 perforates

32 sealants

321 holes

4 screws

5 Supersonic wave troughs

6 cleaning fluids

The specific embodiment

Specific embodiments of the present invention are further described in detail below in conjunction with drawings and Examples, but should not limit protection scope of the present invention with this.

Please refer to the assembly explosive view of the suction nozzle cleaning tooling of Fig. 2 embodiment of the invention.As shown in the figure, this suction nozzle cleaning tooling comprises frame set 31 and sealant 32 at least.Frame set 31 comprises first framework 311 and second framework 312, and described two frameworks 311,312 are made up of many moulding 311a, 312a respectively, forms a hollow region 311b, 312b in the middle of it.

And the edge clamping of sealant 32 is in 312 of first framework 311 and second frameworks, and expose through hollow region 311b, the 312b of frame set 31 in zone in the middle of it, and being provided with hole 321, the first surface 32a of tolerable suction nozzle 1 self-closing layer 32 inserts and passes to its second surface 32b.In preferred embodiment, the material of sealant 32 is selected rubber for use.

Wherein, frame set 31 is a rectangular frame, and first framework 311 is arranged at second framework, 312 tops, and has handle 3111 and be arranged at first framework 311 wherein on one side the moulding 311a.It should be noted that in preferred embodiment, be provided with handle 3111 on the relative two moulding 311a of first framework 311, provide user one to grip mode comparatively easily.Yet, handle position, mode and quantity are set only to reach this purpose for sufficient, do not desire to exceed with the foregoing description.In addition, the member that first framework and second framework are one of the forming, and be metal framework.

Further specify, second framework 312 also has support 3121, and the end points of support is connected in second framework 312, and hollow region 312b is separated into a plurality of blocks.As shown in the figure, in preferred embodiment, second framework 312 is the member of once-forming with support 3121, and support 3121 is cross bracket, and the hollow region 312b of second framework 312 is separated into four blocks.Yet mandatory declaration is, one of them purposes that support 3121 is set is in order to support the zone line of sealant 32, make it be difficult for subsiding and produce the slit, and make cleaning fluid infiltrate, but its planform and the number of blocks that may separate thereof not with exceed.In addition, first framework 311 also can be provided with a support 3112, and the planform of the support of first framework and the support 3121 of position corresponding to second framework 312 is set.

Please continue with reference to shown in Figure 2, each moulding 311a of first framework 311 is equipped with perforate 3113.And each moulding 312a of second framework 312 also is provided with perforate 3122, its position is corresponding to the perforate 3113 of first framework 311, can see through perforate 3113,3122 with described two frameworks 311,312 of screw 4 lockings, and with sealant 32 clampings in wherein, assemble shown in Figure 3.

According to above description, just can know the structure of understanding each assembly and be oppositely arranged relation, and cleaning tooling 3 that these assemblies constituted and using method thereof all can be further as follows with reference to the schematic view illustrating of figure 3 collocation Fig. 4.

At first, please refer to the assembling schematic diagram of the suction nozzle cleaning tooling 3 of Fig. 3 embodiment of the invention.Fig. 3 assembles according to each assembly of being introduced among Fig. 2, and associated component has all illustrated as preamble as the thin portion structure and the configuration mode of first framework 311, second framework 312 and sealant 32, do not repeated them here.

As shown in the figure, in preferred embodiment, a plurality of blocks that marked off through the support 3112 of aforesaid first framework 311 in the sealant 32 have spaced a plurality of hole 321 respectively, can hold a plurality of suction nozzles 1 and be inserted in wherein.Wherein, as previously mentioned, suction nozzle 1 by reflecting plate 11 and upright thereon suction pipe 12 and form, when suction pipe 12 inserted in the hole 321 of sealants 32, reflecting plate 11 was smooth in the first surface 32a of sealant 32.It should be noted that, the thickness of sealant 32 look suction nozzle 1 suction pipe 12 length and be provided with, thickness that can sealant 32 is set to slightly be shorter than the length of suction pipe 12, directly be soaked in the cleaning fluid 6 and make it expose one section, or the thickness of sealant 32 also can just equal the length of suction pipe 12.Moreover needs that the set-up mode of the hole 321 on the sealant 32 and number are looked closely the user and being provided with are not as limit.

Then, as shown in Figure 4, provide Supersonic wave trough 5, and inject cleaning fluid 6 to Supersonic wave trough 5.Then, the suction pipe 12 of a plurality of suction nozzles 1 is inserted in the hole (not illustrating) of sealants 32, its second surface 32b from described sealant is passed, the cleaning tooling 3 that will above-mentionedly be mounted with suction nozzle 1 again immerses in the interior cleaning fluid 6 of Supersonic wave troughs 5.At last, the power supply of unlatching Supersonic wave trough 5 cleans the tube wall of the suction pipe 12 of suction nozzle 1 in the mode of ultrasonic concussion.In preferred embodiment, employed ultrasonic frequency can be controlled to be certain value in the above-mentioned cleaning step.In addition, should be noted that the liquid level of cleaning fluid 6 is lower than the upper limb of frame set 31 when cleaning tooling 3 immerses cleaning fluid 6.

The above is preferred embodiment of the present invention only, is not to be used for limiting practical range of the present invention.Be that all equivalences of doing according to the content of the present patent application claim change and modification, all should be technology category of the present invention.

Claims (15)

1. suction nozzle cleaning tooling is characterized in that comprising:

Frame set comprises first framework and second framework, and described two frameworks are made up of a plurality of mouldings respectively, forms hollow region in the middle of the described frame set;

Sealant, its edge clamping are between described first framework and described second framework, and expose through the hollow region of described frame set in zone in the middle of it;

Wherein, the zone line of described sealant is provided with at least one hole, and tolerable one suction nozzle inserts and passes to its second surface from the first surface of described sealant.

2. suction nozzle cleaning tooling according to claim 1 is characterized in that described frame set is a rectangular frame, and described first framework is arranged at described second framework top, and has at least one handle and be arranged at described first framework wherein on one side the described moulding.

3. suction nozzle cleaning tooling according to claim 1 is characterized in that described second framework also has a support, and the end points of described support is connected in described second framework, and described hollow region is separated into a plurality of blocks.

4. suction nozzle cleaning tooling according to claim 3 is characterized in that described second framework and described support are the member of once-forming.

5. suction nozzle cleaning tooling according to claim 3 is characterized in that described support is a cross bracket.

6. suction nozzle cleaning tooling according to claim 3 is characterized in that having spaced a plurality of hole respectively in the block of described sealant.

7. suction nozzle cleaning tooling according to claim 3 it is characterized in that described first framework also has a support, and the support of described first framework faces the support of described second framework.

8. suction nozzle cleaning tooling according to claim 1 is characterized in that each moulding of described first framework is provided with at least one perforate.

9. suction nozzle cleaning tooling according to claim 8 is characterized in that each moulding of described second framework also is provided with a perforate, and its position is corresponding to the described perforate of described first framework, can see through described perforate with screw described two frameworks that lock.

10. suction nozzle cleaning tooling according to claim 1 is characterized in that described suction nozzle is made up of a plate and upright thereon a suction pipe, and when described suction pipe inserted in the hole of described sealant, described plate was smooth in the first surface of described sealant.

11. suction nozzle cleaning tooling according to claim 1 is characterized in that described frame set is a metal framework.

12. suction nozzle cleaning tooling according to claim 1 is characterized in that described sealant is a rubber.

13. the using method according to the suction nozzle cleaning tooling described in each in the claim 1～12 is characterized in that comprising the following steps:

One Supersonic wave trough is provided;

Inject cleaning fluid to described Supersonic wave trough;

Described suction nozzle is inserted the hole of described sealant;

The cleaning tooling that is mounted with described suction nozzle is immersed in the cleaning fluid in the described Supersonic wave trough; And

Clean the tube wall of described suction nozzle.

14. the using method of suction nozzle cleaning tooling according to claim 13 is characterized in that employed ultrasonic frequency can be controlled to be certain value in the described cleaning step.

15. the using method of suction nozzle cleaning tooling according to claim 13 is characterized in that described cleaning tooling is immersed in the step of cleaning fluid, the liquid level of described cleaning fluid is lower than the upper limb of described frame set.

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