CN207653981U - A kind of dust-proof insulation foot pad of intelligent industrial - Google Patents

Abstract

The utility model is related to a kind of dust-proof insulation foots pad of intelligent industrial, in foot pad ontology（2）Middle design side has the ventilation cavity of the through-hole of connection exterior space（9）, and coordinate foot pad ontology（2）It is each through ventilation cavity designed by surface（9）Air hole（10）, realize and be directed to foot pad ontology（2）Longitudinal dustproof function of upper surface, has been effectively ensured foot pad ontology（2）The cleaning of upper surface, at the same time, based on ventilation cavity（9）In designed micro air pump（6）, draw ventilation cavity（9）In air through designed each exhaust manifolds（8）, realize and be directed to foot pad ontology（2）Lateral dustproof function, thus, it is possible to ensure foot pad ontology to greatest extent（2）The cleaning on surface.

Description

A kind of dust-proof insulation foot pad of intelligent industrial

Technical field

The utility model is related to a kind of dust-proof insulation foots pad of intelligent industrial, belong to intelligent industrial insulation foot pad technical field.

Background technology

Utility model content

Brand-new design structure is used the technical problem to be solved by the utility model is to provide a kind of, with discharge in insulation While, it can realize the dust-proof insulation foot pad of the intelligent industrial of multi-angle dust removing effects.

In order to solve the above-mentioned technical problem the utility model uses following technical scheme：The utility model devises a kind of intelligence Energy industrial anti-dust insulation foot pad includes foot pad ontology, gas-guide tube, the vibration-sensing of the interior ventilation cavity for setting covering whole region Device, at least an exhaust manifolds and control module, and be connected respectively with control module power supply, micro air pump, filtered electrical Road, the filtered circuit of shock sensor are connected with control module；Power supply is powered by control module for micro air pump, together When, power supply passes through control module successively, filter circuit is powered for shock sensor；Foot pad ontology uses rubber material system At；At least one air hole is arranged in foot pad body upper surface, and each air hole is respectively communicated with sky above foot pad body upper surface Between with ventilation inside cavity space, at least one through-hole is set on foot pad ontology side, and each through-hole is respectively communicated with foot pad sheet Body exterior space and ventilation inside cavity space；Control module, power supply, shock sensor, micro air pump and filter circuit are fixed It is arranged in the intrinsic ventilation cavity of foot pad, filter circuit includes transport and placing device A1, first resistor R1, second resistance R2, third Resistance R3, the 4th resistance R4, the first capacitance C1 and the second capacitance C2；Wherein, shock sensor is connected with filter circuit input terminal It connects, filter circuit input terminal is sequentially connected in series the noninverting input of first resistor R1, second resistance R2, transport and placing device A1, transport and placing device A1 Output end connect filter circuit output end, filter circuit output end is connected with control module；Wherein the one of first capacitance C1 End is connected with the conducting wire between first resistor R1, second resistance R2, and the other end is connected with the output end of transport and placing device A1；Second Wherein one end of capacitance C2 is connected with the noninverting input of transport and placing device A1, other end ground connection；The reverse input end of transport and placing device A1 Connect 3rd resistor R3, and is grounded；4th resistance R4 is connected between the reverse input end and output end of transport and placing device A1；Each row One end of airway is fixedly installed on the marginal position of foot pad body upper surface respectively, and the other end of each exhaust manifolds is directed toward foot Pad body intermediate region；The air admission hole of micro air pump is located in ventilation lumen body, and the venthole of micro air pump is distinguished by gas-guide tube Side through each exhaust manifolds is connected with each exhaust manifolds inner space.

A kind of optimal technical scheme as the utility model：Each air hole array distribution is arranged in the foot pad The upper surface of ontology.

A kind of optimal technical scheme as the utility model：The motor of the micro air pump is brushless motor.

A kind of optimal technical scheme as the utility model：The control module is microcontroller.

A kind of optimal technical scheme as the utility model：The power supply is button cell.

The dust-proof insulation foot pad of a kind of intelligent industrial described in the utility model uses above technical scheme is compared with the prior art, It has the following technical effects：

（1）The dust-proof insulation foot pad of intelligent industrial designed by the utility model designs side with company in foot pad ontology The ventilation cavity of the through-hole of logical exterior space, and coordinate each air hole through ventilation cavity designed by foot pad body surface, It realizes longitudinal dustproof function for foot pad body upper surface, the cleaning of foot pad body upper surface has been effectively ensured, at the same time, Based on micro air pump designed in ventilation cavity, draws the air in ventilation cavity through designed each exhaust manifolds, realize needle To foot pad ontology transverse direction dustproof function, thus, it is possible to ensure the cleaning of foot pad body surface to greatest extent；

（2）In the dust-proof insulation foot pad of intelligent industrial designed by the utility model, designed by foot pad body upper surface Each air hole, further design each air hole array distribution and be arranged in the upper surface of the foot pad ontology, can cover More spaces of foot pad body upper surface, so as to further increase the dust removing effects for being directed to foot pad body upper surface；

（3）In the dust-proof insulation foot pad of intelligent industrial designed by the utility model, for the motor of micro air pump, further Design use brushless motor so that the dust-proof insulation foot pad of intelligent industrial designed by the utility model in practical work process, It can realize mute work, not only ensure that the dust-proof insulation foot pad of designed intelligent industrial has efficient dust removing effects, but also can protect It demonstrate,proves its course of work and influence of noise is not generated to ambient enviroment, embody the human oriented design in design process；

（4）In the dust-proof insulation foot pad of intelligent industrial of the utility model design, for control module, further design uses On the one hand microcontroller can be suitable for extension demand of the later stage for the dust-proof insulation foot pad of designed intelligent industrial, on the other hand, Succinct control architecture mode can be convenient for the maintenance in later stage；

（5）In the dust-proof insulation foot pad of intelligent industrial of the utility model design, for power supply, further design uses button Battery, the volume based on button cell can effectively control the whole occupied space of designed intelligence structure, and then can obtain While obtaining high-effective dust-removing effect, itself and the apparent consistency of existing foot pad ensure that greatest extent.

Description of the drawings

Fig. 1 is the structural schematic diagram of the dust-proof insulation foot pad of intelligent industrial designed by the utility model；

Fig. 2 is filter circuit schematic diagram in the dust-proof insulation foot pad of intelligent industrial designed by the utility model.

Wherein, 2. foot pad ontology, 3. control modules, 4. power supplys, 5. shock sensors, 6. micro air pumps, 8. rows Airway, 9. ventilation cavitys, 10. air holes, 11. through-holes, 12. gas-guide tubes, 13. filter circuits.

Specific implementation mode

Specific embodiment of the present utility model is described in further detail with reference to the accompanying drawings of the specification.

As shown in Figure 1, the utility model devises a kind of dust-proof insulation foot pad of intelligent industrial, including interior set covers whole areas The foot pad ontology 2 of the ventilation cavity 9 in domain, gas-guide tube 12, shock sensor 5, at least an exhaust manifolds 8 and control module 3, with And power supply 4, micro air pump 6, the filter circuit 13 being connected respectively with control module 3,5 filtered circuit 13 of shock sensor with Control module 3 is connected；Power supply 4 is powered by control module 3 for micro air pump 6, meanwhile, power supply 4 is successively by control Module 3, filter circuit 13 are that shock sensor 5 is powered；Foot pad ontology 2 is made of rubber material；2 upper table of foot pad ontology At least one air hole 10 is arranged in face, and each air hole 10 is respectively communicated with 2 upper surface superjacent air space of foot pad ontology and ventilation lumen At least one through-hole 11 is arranged on 2 side of foot pad ontology in 9 inner space of body, and each through-hole 11 is respectively communicated with outside foot pad ontology 2 Portion space and 9 inner space of ventilation cavity；Control module 3, power supply 4, shock sensor 5, micro air pump 6 and filter circuit 13 are solid It is arranged in the ventilation cavity 9 in foot pad ontology 2 calmly, filter circuit 13 includes transport and placing device A1, first resistor R1, second resistance R2,3rd resistor R3, the 4th resistance R4, the first capacitance C1 and the second capacitance C2；Wherein, shock sensor 5 and filter circuit 13 Input terminal is connected, and 13 input terminal of filter circuit is sequentially connected in series the input in the same direction of first resistor R1, second resistance R2, transport and placing device A1 The output end at end, transport and placing device A1 connects 13 output end of filter circuit, and 13 output end of filter circuit is connected with control module 3；The Wherein one end of one capacitance C1 is connected with the conducting wire between first resistor R1, second resistance R2, and the other end is with transport and placing device A1's Output end is connected；Wherein one end of second capacitance C2 is connected with the noninverting input of transport and placing device A1, other end ground connection；Amplifier The reverse input end series connection 3rd resistor R3 of device A1, and be grounded；4th resistance R4 be connected on the reverse input end of transport and placing device A1 with Between output end；One end of each exhaust manifolds 8 is fixedly installed on the marginal position of 2 upper surface of foot pad ontology, each row respectively The other end of airway 8 is directed toward 2 intermediate region of foot pad ontology；The air admission hole of micro air pump 6 is located in ventilation cavity 9, miniature gas Side of the venthole by gas-guide tube 12 respectively through each exhaust manifolds 8 of pump 6 is connected with each 8 inner space of exhaust manifolds It is logical；The dust-proof insulation foot pad of intelligent industrial designed by above-mentioned technical proposal, design side has outside connection in foot pad ontology 2 The ventilation cavity 9 of the through-hole in space, and coordinate each air hole 10 through ventilation cavity 9 designed by 2 surface of foot pad ontology, it is real It is now directed to longitudinal dustproof function of 2 upper surface of foot pad ontology, the cleaning of 2 upper surface of foot pad ontology has been effectively ensured, at the same time, Based on micro air pump 6 designed in ventilation cavity 9, draw the air in ventilation cavity 9 through designed each exhaust manifolds 8, in fact It is now directed to the lateral dustproof function of foot pad ontology 2, thus, it is possible to ensure the cleaning on 2 surface of foot pad ontology to greatest extent.

On basis based on the dust-proof insulation foot pad technical solution of above-mentioned design intelligent industrial, the utility model is also further Devise following optimal technical scheme：For each air hole 10 designed by 2 upper surface of foot pad ontology, further design each More skies that 2 upper surface of foot pad ontology can be covered in the upper surface of the foot pad ontology 2 are arranged in 10 array distribution of air hole Between, so as to further increase the dust removing effects for being directed to 2 upper surface of foot pad ontology；And it is directed to the motor of micro air pump 6, into The design of one step uses brushless motor so that the dust-proof insulation foot pad of intelligent industrial designed by the utility model is in practical work process In, it can realize mute work, not only ensure that the dust-proof insulation foot pad of designed intelligent industrial has efficient dust removing effects, but also energy Ensure that its course of work does not generate influence of noise to ambient enviroment, embodies the human oriented design in design process；And it is directed to Control module 3, further design use microcontroller, on the one hand can be suitable for the later stage for the dust-proof insulation of designed intelligent industrial The extension demand of foot pad, on the other hand, succinct control architecture mode can be convenient for the maintenance in later stage；Moreover, for electricity Source 4, further design use button cell, the volume based on button cell that can effectively control the whole of designed intelligence structure Body occupied space, and then it can be ensure that with existing foot pad in appearance to greatest extent while obtaining high-effective dust-removing effect Consistency.

The utility model devises the dust-proof insulation foot pad of intelligent industrial in actual application, specifically includes interior set and covers Foot pad ontology 2, gas-guide tube 12, shock sensor 5, at least an exhaust manifolds 8 and the monolithic of the ventilation cavity 9 of lid whole region Machine, and the button cell, micro air pump 6, the filter circuit 13 that are connected respectively with microcontroller, 5 filtered electricity of shock sensor Road 13 is connected with microcontroller；Button cell is powered by microcontroller for micro air pump 6, meanwhile, button cell passes through successively Cross microcontroller, filter circuit 13 is that shock sensor 5 is powered；Foot pad ontology 2 is made of rubber material；Foot pad ontology 2 Upper surface is arranged at least one air hole 10, and 10 array distribution of each air hole is arranged in the upper surface of foot pad ontology 2, and each Air hole 10 is respectively communicated with 2 upper surface superjacent air space of foot pad ontology and 9 inner space of ventilation cavity, and foot pad ontology is set on 2 side At least one through-hole 11 is set, and each through-hole 11 is respectively communicated with 2 exterior space of foot pad ontology and 9 inner space of ventilation cavity；It is single Piece machine, button cell, shock sensor 5, micro air pump 6 and filter circuit 13 are fixed at the ventilation lumen in foot pad ontology 2 In body 9, the motor of micro air pump 6 is brushless motor；Filter circuit 13 include transport and placing device A1, first resistor R1, second resistance R2, 3rd resistor R3, the 4th resistance R4, the first capacitance C1 and the second capacitance C2；Wherein, shock sensor 5 is inputted with filter circuit 13 End is connected, and 13 input terminal of filter circuit is sequentially connected in series the noninverting input of first resistor R1, second resistance R2, transport and placing device A1, The output end of transport and placing device A1 connects 13 output end of filter circuit, and 13 output end of filter circuit is connected with microcontroller；First capacitance Wherein one end of C1 is connected with the conducting wire between first resistor R1, second resistance R2, the output end of the other end and transport and placing device A1 It is connected；Wherein one end of second capacitance C2 is connected with the noninverting input of transport and placing device A1, other end ground connection；Transport and placing device A1's Reverse input end series connection 3rd resistor R3, and be grounded；4th resistance R4 is connected on the reverse input end and output end of transport and placing device A1 Between；One end of each exhaust manifolds 8 is fixedly installed on the marginal position of 2 upper surface of foot pad ontology, each exhaust manifolds 8 respectively The other end be directed toward 2 intermediate region of foot pad ontology；The air admission hole of micro air pump 6 is located in ventilation cavity 9, and micro air pump 6 goes out Side of the stomata by gas-guide tube 12 respectively through each exhaust manifolds 8 is connected with each 8 inner space of exhaust manifolds.It is practical In, 5 real-time working of shock sensor being fixed in foot pad ontology 2, detection obtains shock detection as a result, and through filter Wave circuit 13 is uploaded in microcontroller in real time, wherein obtained shock detection result is uploaded to by shock sensor 5 in real time first In filter circuit 13, filter circuit 13 carries out Real-Time Filtering processing for received shock detection result, filters out wherein Noise data, to obtain more accurate shock detection as a result, then, filter circuit 13 examines the vibrations of filtered processing It is uploaded in microcontroller when surveying fructufy, then, microcontroller is analyzed for received shock detection result, and is made Go out corresponding control, when operator station is in foot pad 2 upper surface of ontology, microcontroller is according to the vibrations inspection obtained more than predetermined threshold value It surveys as a result, judging that operator station is on foot pad ontology 2 at this time, then microcontroller controls connected micro air pump 6 immediately It starts to work, during micro air pump 6 works, the air admission hole of micro air pump 6 is by 9 draw gas of ventilation cavity, then by going out Stomata diameter gas-guide tube 12 enters in each exhaust manifolds 8, and is blown out by the other end of each exhaust manifolds 8, realizes and is directed to foot The lateral dedusting of pad body 2, at the same time, when operator station is in foot pad 2 upper surface of ontology, due to staff foot Mobile and foot pad ontology 2 is made of rubber material, has certain flexibility, therefore can cause squeezing for ventilation cavity 9 Pressure, then the air in exterior space will be by each 2 exterior space of connection foot pad ontology in 2 side of foot pad ontology and ventilation cavity 9 The through-hole 11 of inner space enters in ventilation cavity 9, and based on the 2 upper surface array distribution setting of foot pad ontology, connection foot pad Each air hole 10 of 2 upper surface superjacent air space of ontology and ventilation cavity 9 inner space, the then air in cavity 9 of taking a breath It is blown out upwards by each air hole 10, realizes longitudinal dustproof function for 2 upper surface of foot pad ontology, ensure foot to greatest extent The salubrious cleaning of 2 upper surface of pad body；While the above process executes, when the shock detection result that microcontroller is obtained is less than Or when equal to predetermined threshold value, then microcontroller judges the unmanned standing in 2 upper surface of foot pad ontology at this time, then microcontroller controls therewith immediately The micro air pump 6 being connected is stopped.

The embodiment of the utility model is explained in detail above in conjunction with attached drawing, but the utility model is not limited to The above embodiment can also not depart from the utility model within the knowledge of a person skilled in the art It is made a variety of changes under the premise of objective.

Claims (5)

1. a kind of dust-proof insulation foot pad of intelligent industrial, it is characterised in that：Including the interior ventilation cavity for setting covering whole region（9）'s Foot pad ontology（2）, gas-guide tube（12）, shock sensor（5）, an at least exhaust manifolds（8）And control module（3）, Yi Jifen Not and control module（3）The power supply being connected（4）, micro air pump（6）, filter circuit（13）, shock sensor（5）Filtered electricity Road（13）With control module（3）It is connected；Power supply（4）By control module（3）For micro air pump（6）It is powered, meanwhile, electricity Source（4）Pass through control module successively（3）, filter circuit（13）For shock sensor（5）It is powered；Foot pad ontology（2）Using Rubber material is made；Foot pad ontology（2）At least one air hole is arranged in upper surface（10）, and each air hole（10）It is respectively communicated with Foot pad ontology（2）Upper surface superjacent air space and ventilation cavity（9）Inner space, foot pad ontology（2）It is arranged on side at least one Through-hole（11）, and each through-hole（11）It is respectively communicated with foot pad ontology（2）Exterior space and ventilation cavity（9）Inner space；Control Module（3）, power supply（4）, shock sensor（5）, micro air pump（6）And filter circuit（13）It is fixed at foot pad ontology（2） Interior ventilation cavity（9）In, filter circuit（13）Including transport and placing device A1, first resistor R1, second resistance R2,3rd resistor R3, 4th resistance R4, the first capacitance C1 and the second capacitance C2；Wherein, shock sensor（5）With filter circuit（13）Input terminal is connected It connects, filter circuit（13）Input terminal is sequentially connected in series the noninverting input of first resistor R1, second resistance R2, transport and placing device A1, amplifier The output end of device A1 connects filter circuit（13）Output end, filter circuit（13）Output end and control module（3）It is connected；First Wherein one end of capacitance C1 is connected with the conducting wire between first resistor R1, second resistance R2, and the other end is defeated with transport and placing device A1's Outlet is connected；Wherein one end of second capacitance C2 is connected with the noninverting input of transport and placing device A1, other end ground connection；Transport and placing device The reverse input end series connection 3rd resistor R3 of A1, and be grounded；4th resistance R4 be connected on the reverse input end of transport and placing device A1 with it is defeated Between outlet；Each exhaust manifolds（8）One end be fixedly installed on foot pad ontology respectively（2）The marginal position of upper surface, each Exhaust manifolds（8）The other end be directed toward foot pad ontology（2）Intermediate region；Micro air pump（6）Air admission hole be located at ventilation cavity（9） It is interior, micro air pump（6）Venthole pass through gas-guide tube（12）Respectively through each exhaust manifolds（8）Side, lead with each exhaust Pipe（8）Inner space is connected.

2. the dust-proof insulation foot pad of a kind of intelligent industrial according to claim 1, it is characterised in that：Each air hole（10） Array distribution is arranged in the foot pad ontology（2）Upper surface.

3. the dust-proof insulation foot pad of a kind of intelligent industrial according to claim 1, it is characterised in that：The micro air pump（6）'s Motor is brushless motor.

4. the dust-proof insulation foot pad of a kind of intelligent industrial according to claim 1, it is characterised in that：The control module（3）For Microcontroller.

5. the dust-proof insulation foot pad of a kind of intelligent industrial according to claim 1, it is characterised in that：The power supply（4）For button Battery.