CN204338491U - Self-operated type device for cleaning dust - Google Patents

Abstract

The utility model provides a kind of self-operated type device for cleaning dust relating to device for cleaning dust technical field, and for travel mechanism, travel mechanism is connected with testing agency, and testing agency is provided with and need cleans face, and testing agency is connected with connector; Connector is connected with self-operated type device for cleaning dust, and self-operated type device for cleaning dust comprises: air-flow pooled portion, fluidic vectoring thrust portion and jet guiding channel; Be provided with tubaeform air-flow in air-flow pooled portion and collect hole; Be provided with tubaeform jet orifice in fluidic vectoring thrust portion, the end that front end and the tubaeform air-flow of tubaeform jet orifice collect hole is communicated with; The end of tubaeform jet orifice is communicated with jet guiding channel; The end of jet guiding channel is aimed at described need and is cleaned face.Of the present utility model without the need to manpower intervention, do not contact and damage the surface that need clean, not the original serviceability of interference part, additionally not increasing power and energy consumption.

Description

Self-operated type device for cleaning dust

Technical field

The utility model relates to device for cleaning dust technical field, particularly relates to a kind of self-operated type device for cleaning dust.

Background technology

Dust cleaning mode at present for surface travel mechanism having tidiness require mainly contains following several:

1) travel mechanism's manually cleaning under stopped status: this dust cleaning mode needs manpower intervention, and need implement under travel mechanism's stopped status, otherwise there is larger potential safety hazard.Be not suitable for the region that the continuous service requirement of travel mechanism is higher.

2) install the cleaning device with the surface contact that need clean: as brush roll, hairbrush row etc., such cleaning device can be used for cleaning when equipment runs, but can damage the surface that need clean, and is not suitable for the parts that requirement surface must not have process to disturb.

3) install and the discontiguous cleaning device in surface that need clean: as pressed sky to purge cleaning device, vacuum cleaning cleaning device etc., such cleaning device installation difficulty in travel mechanism is larger; And need extra energy supply, produce energy consumption, cost is larger.

How to design a kind of structure simple, with low cost, without the need to manpower intervention, do not contact and damage the surface that need clean, the not original serviceability of interference part, the device for cleaning dust additionally not increasing equipment dynamic and energy consumption is the problem that those skilled in the art need to solve.

Utility model content

The shortcoming of prior art in view of the above, it is simple that the technical problem that the utility model solves is to provide a kind of structure, with low cost, without the need to manpower intervention, do not contact and damage the surface that need clean, the not original serviceability of interference part, does not additionally increase the self-operated type device for cleaning dust of power and energy consumption.

For achieving the above object and other relevant objects, the utility model provides a kind of self-operated type device for cleaning dust, and for travel mechanism, described travel mechanism is connected with testing agency, and described testing agency is provided with and need cleans face, and described testing agency is connected with connector; Described connector is connected with self-operated type device for cleaning dust, and described self-operated type device for cleaning dust comprises: air-flow pooled portion, fluidic vectoring thrust portion and jet guiding channel; Be provided with tubaeform air-flow in described air-flow pooled portion and collect hole, the size that described tubaeform air-flow collects the front end in hole is greater than the size that described tubaeform air-flow collects the end in hole; Be provided with tubaeform jet orifice in described fluidic vectoring thrust portion, the size of the front end of described tubaeform jet orifice is greater than the size of the end of described tubaeform jet orifice, and the end that front end and the described tubaeform air-flow of described tubaeform jet orifice collect hole is communicated with; The end of described tubaeform jet orifice is communicated with described jet guiding channel; The end of described jet guiding channel is aimed at described need and is cleaned face.

Preferably, described jet guiding channel is for being obliquely installed, the angle of inclination that described need clean angle between face to horizontal plane and described jet guiding channel is corresponding, and described jet guiding channel is inserted in described testing agency, and described jet guiding channel is placed on described need and cleans on face.

Preferably, the bottom of described testing agency is provided with dust tap.

Preferably, described need clean face is minute surface.

Preferably, the end that described tubaeform air-flow collects front end, hole and described tubaeform air-flow collects hole is square orifice.

Preferably, the front end of described tubaeform jet orifice and the end of described tubaeform jet orifice are square orifice.

Preferably, forward, the front end that described tubaeform air-flow collects hole is consistent with the moving direction of described travel mechanism for the moving direction of described travel mechanism.

Preferably, be ventilation vertical plane perpendicular to horizontal plane and by the plane that described tubaeform air-flow collects the axis in hole, the angle being in lower end on described ventilation vertical plane and horizontal plane of described jet guiding channel is 45 degree, and the angle being in upper end on described ventilation vertical plane and horizontal plane of described jet guiding channel is 53 degree.

Preferably, the translational speed of described travel mechanism is for being greater than 100m/min.

As mentioned above, self-operated type device for cleaning dust described in the utility model, has following beneficial effect:

When the utility model uses, travel mechanism is in quick moving process, air-flow enters fluidic vectoring thrust portion from the air-flow pooled portion of device for cleaning dust, air-flow is made to convert jet to, jet is aimed at need be cleaned face by jet guiding channel under the effect of wall attachment effect, and jet, under the effect of wall attachment effect, has impulsive force, this impulsive force makes jet do the motion of attached wall with the dust that need clean on face, plays the clean effect that need clean face dust.The utility model, without the need to manpower intervention, does not contact and damages and need clean face, not the original serviceability of interference part, does not additionally increase power and energy consumption.

Accompanying drawing explanation

Fig. 1 is shown as the main TV structure schematic diagram of self-operated type device for cleaning dust of the present utility model.

Fig. 2 is shown as the plan structure schematic diagram of self-operated type device for cleaning dust of the present utility model.

Drawing reference numeral explanation

100 travel mechanisms

200 testing agencies

201 need clean face

202 dust outlet

300 connectors

400 device for cleaning dusts

401 air-flow pooled portion

410 tubaeform air-flows collect hole

4011 tubaeform air-flows collect the front end in hole

4012 tubaeform air-flows collect the end in hole

402 fluidic vectoring thrust portions

420 tubaeform jet orifices

The front end of 4021 tubaeform jet orifices

The end of 4022 tubaeform jet orifices

403 jet guiding channels

α jet guiding channel be in lower end on ventilation vertical plane and level

The angle in face

β jet guiding channel be in upper end on ventilation vertical plane and level

The angle in face

Detailed description of the invention

By particular specific embodiment, embodiment of the present utility model is described below, person skilled in the art scholar the content disclosed by this description can understand other advantages of the present utility model and effect easily.

Refer to accompanying drawing.Notice, structure, ratio, size etc. that this description institute accompanying drawings illustrates, content all only in order to coordinate description to disclose, understand for person skilled in the art scholar and read, and be not used to limit the enforceable qualifications of the utility model, therefore the not technical essential meaning of tool, the adjustment of the modification of any structure, the change of proportionate relationship or size, do not affecting under effect that the utility model can produce and the object that can reach, still all should drop on technology contents that the utility model discloses and obtain in the scope that can contain.Simultaneously, quote in this description as " on ", D score, "left", "right", " centre " and " one " etc. term, also only for ease of understanding of describing, and be not used to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, under changing technology contents without essence, when being also considered as the enforceable category of the utility model.

As shown in Figure 1 to Figure 2, self-operated type device for cleaning dust of the present utility model, for travel mechanism 100, described travel mechanism 100 is connected with testing agency 200, and testing agency 200 is provided with and need cleans face 201, and testing agency 200 is connected with connector 300;

Connector 300 is connected with self-operated type device for cleaning dust 400, and self-operated type device for cleaning dust 400 comprises: air-flow pooled portion 401, fluidic vectoring thrust portion 402 and jet guiding channel 403; Be provided with tubaeform air-flow in air-flow pooled portion 401 and collect hole 410, the size that tubaeform air-flow collects the front end 4011 in hole 410 is greater than the size that tubaeform air-flow collects the end 4012 in hole 410, and the front end 4011 that air-flow pooled portion 401 collects hole 410 by tubaeform air-flow is carried out air-flow drainage and collects; Tubaeform jet orifice 420 is provided with in fluidic vectoring thrust portion 402, the size of the front end 4021 of tubaeform jet orifice 420 is greater than end 4022 size of tubaeform jet orifice 420, and the end 4012 that front end 4021 and the tubaeform air-flow of tubaeform jet orifice 420 collect hole 410 is communicated with; The end 4022 of tubaeform jet orifice 420 is communicated with jet guiding channel 403; The end of jet guiding channel 403 is aimed at and need be cleaned face 201.

In the present embodiment, when the translational speed of travel mechanism 100 is for being greater than 100m/min, travel mechanism 100 is mobile fast, need clean the device surface that face 201 need be cleaned exactly.When travel mechanism 100 is fast mobile, device for cleaning dust 400 collects and guides air-flow to carry out dust to the surface need cleaning face 201 and cleans, and this cleaning course distinguishes three phases:

First stage: when mobile device runs fast, by air-flow pooled portion 401 and fluidic vectoring thrust portion 402, air-flow is collected and converts jet to, travel mechanism 100 movement fast, the front end 4011 that air-flow collects hole 410 from the tubaeform air-flow of air-flow pooled portion 401 enters, the end 4012 collecting hole 410 by tubaeform air-flow after collecting enters the front end 4021 of tubaeform jet orifice 420, because the aperture of fluidic vectoring thrust portion 402 from front end to end reduces gradually, namely gas channel from the coarse to fine, pressure and the speed of air-flow are strengthened fast, when air-flow enters jet guiding channel 403 in end 4022 discharge of tubaeform jet orifice 420, form the jet with certain pressure and speed,

Second stage: under the effect of the wall attachment effect of air-flow in fluidics, the jet with certain pressure and speed guides to cleaning face 201 through jet guiding channel 403, jet through need clean face 201 time, can be carried under one's arms and need clean dust on face 201 and make attached wall move along cleaning face 201;

Phase III: jet, can by dust from cleaning face 201 sur-face peeling in time need cleaning face 201; After the jet of dust carried under one's arms enters dust outlet 202, can by dust thoroughly, discharge.

Face 201 need be cleaned for being obliquely installed, face 201 need be cleaned corresponding to the angle of inclination of the angle between horizontal plane and jet guiding channel 403, jet guiding channel 403 is inserted in testing agency 200, the need that jet guiding channel 403 is placed on testing agency 200 clean on face 201, the jet that this structure is convenient to produce contacts to greatest extent and need clean face 201, improves the efficiency of clean dust.

Tubaeform air-flow collects the end 4012 that front end, hole 410 4011 and tubaeform air-flow collect hole 410 and is square orifice, and this structure is convenient to air-flow and is guided and collect.

The front end 4021 of tubaeform jet orifice 420 and the end 4021 of tubaeform jet orifice 420 are square orifice, and this structure promotes fluidic vectoring thrust.

The axis of jet guiding channel 403 is in the plane that need clean place, face 201, this arrangement enhances the cleaning efficiency of device for cleaning dust.

Forward, the front end 4011 that tubaeform air-flow collects hole 410 is consistent with the moving direction of travel mechanism 100 for the moving direction of travel mechanism 100.

Be ventilation vertical plane perpendicular to horizontal plane and by the plane that described tubaeform air-flow collects the axis in hole 410, the angle being in lower end on ventilation vertical plane and horizontal plane of jet guiding channel 403 is 45 degree, and the angle being in upper end on ventilation vertical plane and horizontal plane of jet guiding channel 403 is 53 degree.When this structure makes the translational speed of travel mechanism 100 for being greater than 100m/min, the jet that device for cleaning dust 400 produces can effectively remove the dust that need clean on face 201.

In the present embodiment, face 201 need be cleaned for minute surface.By this application of installation in the pipe tobacco logistic warehouse of cigar mill, piler in pipe tobacco logistic warehouse is higher owing to being elevated delivery platform positioning precision demand, adopt the detection control mode of laser ranging detection and localization, it is exactly optical signal refraction minute surface that need in testing agency 200 clean face 201, because pipe tobacco logistic warehouse overall operation ambient dust is more, dust on piler also can drop to and need clean on face 201, cause and need clean face 201 dust stratification and cause detection data-bias, cause lifting delivery platform location cancel closedown, and the chain shutdown of forward-backward correlation processing apparatus, affect the overall operation efficiency of logistic warehouse system.

Adopting the artificial clean mode that need clean face 201 to need higher shutdown frequency, and cannot ensure the cleaning effect duration, also there is personal safety hidden danger in cleaning course.The cleaning device installing contact can disturb laser ranging detection and localization process, causes equipment downtime.And conventional contactless type cleaning device installation difficulty is large, cost is high, also needs human at periodic intervals to safeguard.

Adopt device of the present utility model: according to this piler for being elevated the testing process of the laser range finder of detection and localization, establishing optical signal refraction minute surface is exactly have the need that dust cleans requirement to clean face 201.According to the traffic direction of piler, establish the installation direction of this device.According to the mounting structure of laser range finder, determine the dimensions design of this device; Finally design, processing and fabricating and this device of installation, and carried out using test.

Before this device of installation, this piler brings out because of lifting delivery platform detection and localization data-bias disorderly closedown every day about 12 ~ 18 times, about about 5 minutes each downtime, artificial interference is needed to dispose.After having installed this device, in practice, the speed of travel of piler is 160m/min, stroke distances 60m, and translational speed and the stroke distances of travel mechanism 100 are corresponding to piler.It is many that this piler runs half a year, piler brings out because of lifting delivery platform detection and localization data-bias disorderly closedown every day 0 time, ensured the continuous service performance that piler equipment is reliable and stable, and put things right once and for all.

This device utilizes the air-flow in travel mechanism 100 fast moving process to clean, and reaches the order ground of automated cleaning dust in equipment running process.This apparatus structure is easy, with low cost, and it is convenient to install; Without the need to manpower intervention and maintenance, effect is lasting; Do not contact and damage clean face; The not original serviceability of interference part; Additionally do not increase equipment dynamic and energy consumption; Can automated cleaning dust, meet equipment continuous service demand.

To sum up, the utility model effectively overcomes various shortcoming of the prior art and tool high industrial utilization.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all without prejudice under spirit of the present utility model and category, can modify above-described embodiment or changes.Therefore, such as have in art and usually know that the knowledgeable modifies or changes not departing from all equivalences completed under the spirit and technological thought that the utility model discloses, must be contained by claim of the present utility model.

Claims (9)

1. a self-operated type device for cleaning dust, it is characterized in that, for travel mechanism (100), described travel mechanism (100) is connected with testing agency (200), described testing agency (200) is provided with and need cleans face (201), and described testing agency (200) is connected with connector (300);

Described connector (300) is connected with self-operated type device for cleaning dust (400), and described self-operated type device for cleaning dust (400) comprising: air-flow pooled portion (401), fluidic vectoring thrust portion (402) and jet guiding channel (403);

Be provided with tubaeform air-flow in described air-flow pooled portion (401) and collect hole (410), the size that described tubaeform air-flow collects the front end (4011) of hole (410) is greater than the size that described tubaeform air-flow collects the end (4012) of hole (410);

Tubaeform jet orifice (420) is provided with in described fluidic vectoring thrust portion (402), the size of the front end (4021) of described tubaeform jet orifice (420) is greater than the size of the end (4022) of described tubaeform jet orifice (420), and the end (4012) that front end (4021) and the described tubaeform air-flow of described tubaeform jet orifice (420) collect hole (410) is communicated with; The end (4022) of described tubaeform jet orifice (420) is communicated with described jet guiding channel (403);

The end of described jet guiding channel (403) is aimed at described need and is cleaned face (201).

2. self-operated type device for cleaning dust according to claim 1, it is characterized in that: described jet guiding channel (403) is for being obliquely installed, it is corresponding to the angle of inclination of the angle between horizontal plane and described jet guiding channel (403) that described need clean face (201), described jet guiding channel (403) is inserted in described testing agency (200), and described jet guiding channel (403) is placed on described need and cleans on face (201).

3. self-operated type device for cleaning dust according to claim 1, is characterized in that: the bottom of described testing agency (200) is provided with dust tap (202).

4. self-operated type device for cleaning dust according to claim 1, is characterized in that: it is minute surface that described need clean face (201).

5. self-operated type device for cleaning dust according to claim 1, is characterized in that: described tubaeform air-flow collects the end (4012) that hole (410) front end (4011) and described tubaeform air-flow collect hole (410) and is square orifice.

6. self-operated type device for cleaning dust according to claim 1, is characterized in that: the front end (4021) of described tubaeform jet orifice (420) and the end (4022) of described tubaeform jet orifice (420) are square orifice.

7. self-operated type device for cleaning dust according to claim 1, it is characterized in that: forward, the front end (4011) that described tubaeform air-flow collects hole (410) is consistent with the moving direction of described travel mechanism (100) for the moving direction of described travel mechanism (100).

8. self-operated type device for cleaning dust according to claim 1, it is characterized in that: perpendicular to horizontal plane and the plane being collected the axis in hole (410) by described tubaeform air-flow is ventilation vertical plane, the angle being in lower end on described ventilation vertical plane and horizontal plane of described jet guiding channel (403) is 45 degree, and the angle being in upper end on described ventilation vertical plane and horizontal plane of described jet guiding channel (403) is 53 degree.

9. self-operated type device for cleaning dust according to claim 1, is characterized in that: the translational speed of described travel mechanism (100) is for being greater than 100m/min.