阅读说明：本技术 一种煤矿机电设备 (Coal mine electromechanical equipment ) 是由 杨迎加 于 2021-07-26 设计创作，主要内容包括：本发明公开了一种煤矿机电设备,具体包括：设备箱,该设备箱具有箱体,且设置在所述箱体内腔底部的传送带装置；防潮机构,该防潮机构安装在所述箱体底部,以及安装在所述防潮机构底部的导流水盘板,且固定在所述导流水盘板底部的防滑脚,所述防潮机构包括：防潮箱,该防潮箱具有方形箱体,以及安装在所述方形箱体内表面的导流机构,且固定在所述方形箱体底部的防逆流环板,本发明涉及煤矿机电技术领域。通过设备自身的能源供给产生的加热线圈高频加热,同时利用导热板将热量传输至地面,对地面的积水进行有效的烘干,避免煤矿矿洞内积水,同时干燥蒸发的水分被收集后,不会造成环境的湿热,有效的避免对设备产生锈蚀的现象,延长使用寿命。(The invention discloses a coal mine electromechanical device, which specifically comprises: the equipment box is provided with a box body, and the conveyor belt device is arranged at the bottom of the inner cavity of the box body; dampproofing mechanism, this dampproofing mechanism installs bottom half, and install the water guide plate of dampproofing mechanism bottom, and fix the antiskid foot of water guide plate bottom, dampproofing mechanism includes: the invention relates to the technical field of coal mine electromechanical, and discloses a moisture-proof box which is provided with a square box body, a flow guide mechanism arranged on the inner surface of the square box body and an anti-reflux ring plate fixed at the bottom of the square box body. Heating coil high-frequency heating that the energy supply through equipment self produced utilizes the heat-conducting plate to transmit the heat to ground simultaneously, carries out effectual stoving to the ponding on ground, avoids ponding in the colliery mine hole, and the moisture of dry evaporation is collected the back simultaneously, can not cause the damp and hot of environment, and the effectual phenomenon of avoiding producing the corrosion to equipment, increase of service life.)

1. A coal mine electromechanical device specifically comprises:

the equipment box (1) is provided with a box body, a box door (2) arranged on the left side of the box body, a conveying belt device (3) arranged at the bottom of an inner cavity of the box body, and an access opening (4) formed in the top of the front surface and the back surface of the box body;

dampproofing mechanism (5), this dampproofing mechanism (5) are installed bottom half, and install water guide plate (6) of dampproofing mechanism (5) bottom, and fix water guide plate (6) the antiskid foot (7) of bottom, its characterized in that: the moisture-proof mechanism (5) includes:

the damp-proof box (51), this damp-proof box (51) have square box, and install water conservancy diversion mechanism (52) at square box internal surface, and fix prevent against current ring board (53) of square bottom of the case portion, and set up in outlet (54) of square four corners bottom of the case portion, and set up and be in prevent against current drying mechanism (55) of ring board (53) inner chamber.

2. The coal mine electromechanical apparatus of claim 1, wherein: the conveyor belt device (3) is positioned between the inlet and the outlet (4), the top of the conveyor belt device (3) is flush with the bottom of the inlet and the outlet (4), and the diversion mechanism (52) is installed at the bottom of the equipment box (1).

3. The coal mine electromechanical apparatus of claim 1, wherein: the flow guide mechanism (52) comprises an arc-shaped top plate (521), flow guide columns (522) arranged at the bottom of the arc-shaped top plate (521), an arc-shaped flow collecting plate (523) arranged between the flow guide columns (522), and through holes (524) formed in the top end and the bottom end of the arc-shaped flow collecting plate (523).

4. A coal mine electromechanical apparatus as claimed in claim 3 wherein: the bottom end of the arc-shaped current collecting plate (523) is arranged at the corner of the moisture-proof box (51), the through hole (524) penetrates through the arc-shaped current collecting plate (523) and extends to the top and the bottom of the arc-shaped current collecting plate (523), and the bottom end of the arc-shaped current collecting plate (523) is positioned above the anti-reflux annular plate (53).

5. The coal mine electromechanical apparatus of claim 4, wherein: the drying mechanism (55) comprises a heating coil (551), a heat energy rod (552) arranged in an inner cavity of the heating coil (551), a heat conducting plate (553) arranged at the bottom of the heat energy rod (552), an insulating ring (554) arranged in the middle of the heat conducting plate (553), and an induction mechanism (555) arranged in the inner cavity of the insulating ring (554).

6. The coal mine electromechanical apparatus of claim 5, wherein: the heating coil (551) is installed on energy supply equipment of the equipment box (1), the heat energy rod (552) is installed at the top end of the arc-shaped current collecting plate (523), and the top ends of the heating coil (551) and the heat energy rod (552) are arranged in the inner cavity of the through hole (524).

7. The coal mine electromechanical apparatus of claim 6, wherein: the induction mechanism (555) comprises a center pillar (a1), a magnetic ball (a2) mounted at the bottom of the center pillar (a1), and a U-shaped vibrating rod (a3) mounted at the bottom of the outer surface of the magnetic ball (a2), wherein a magnet (a4) with the magnetic pole opposite to that of the magnetic ball (a2) is arranged on one side, away from the magnetic ball (a2), of the U-shaped vibrating rod (a 3).

8. The coal mine electromechanical apparatus of claim 7, wherein: the center pillar (a1) is installed on the top of the inner cavity of the heat insulation ring (554), and the magnetic ball (a2) and the U-shaped vibrating rod (a3) are arranged in the inner cavity of the heat insulation ring (554).

Technical Field

The invention relates to the technical field of coal mine electromechanical devices, in particular to a coal mine electromechanical device.

Background

The existing coal mining needs watering, so that spontaneous combustion of a coal mine is avoided, construction safety is guaranteed, however, a large amount of moisture can lead to wet and slippery coal mine ground, and construction equipment can generate position deviation due to self vibration when in use, so that safety of the equipment or peripheral personnel is damaged.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides coal mine electromechanical equipment, which solves the problems that water needs to be sprayed in the existing coal mining, so that spontaneous combustion of a coal mine is avoided, construction safety is ensured, but the ground of the coal mine is wet and slippery due to a large amount of water, and the construction equipment generates position deviation due to self vibration when in use, so that the safety of the equipment or surrounding personnel is damaged.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a coal mine electromechanical device specifically comprises:

the equipment box is provided with a box body, a box door arranged on the left side of the box body, a conveyor belt device arranged at the bottom of the inner cavity of the box body, and an inlet and an outlet which are arranged at the tops of the front surface and the back surface of the box body;

dampproofing mechanism, this dampproofing mechanism installs bottom half, and install the water tray board that leads of dampproofing mechanism bottom, and fix the antiskid foot of leading water tray board bottom utilizes and leads the water tray board to collect the moisture of colliery ground drying evaporation, avoids leading the ponding that produces in the water tray board to lead to repeatedly to cause the humidity to colliery ground, and the moisture of drying evaporation is collected the back simultaneously, can not cause the damp and hot of environment, and the effectual phenomenon of avoiding producing the corrosion to equipment prolongs life, dampproofing mechanism includes:

dampproofing case, this dampproofing case have square box, and install the water conservancy diversion mechanism of square box inner surface, and fix the ring plate is prevented flowing backward in the prevention of square bottom of the case portion, through the gradient that changes ring plate self is prevented flowing backward, carries out the direction of impact force to the drop of water condensation when dripping, avoids the inner member surface that the drop splashes, carries out the drainage gathering with the water droplet simultaneously, utilizes the outlet to carry out the water conservancy diversion to the drop of water and discharges, prevents flowing backward the change of ring plate self gradient still to be favorable to concentrating the moisture of evaporation, and sets up the outlet of square bottom of the case four corners bottom, and set up the drying mechanism of ring plate inner chamber is prevented flowing backward.

Preferably, the conveyor belt device is positioned between the inlet and the outlet, the top of the conveyor belt device is flush with the bottom of the inlet and the outlet, and the diversion mechanism is installed at the bottom of the equipment box.

Preferably, the flow guide mechanism comprises an arc-shaped top plate, flow guide columns arranged at the bottom of the arc-shaped top plate, an arc-shaped flow collecting plate arranged between the flow guide columns, and through holes formed in the top end and the bottom end of the arc-shaped flow collecting plate. Through the sphere design of arc roof self, carry out homodisperse with the motion impact force that the equipment box produced, protect the bottom component, avoid the impact force to cause the damage to the bottom component, the interior sphere design of arc roof self can carry out the water conservancy diversion to the moisture of evaporation simultaneously, with on its drainage to the water conservancy diversion post, realize condensing and the water conservancy diversion of moisture.

Preferably, the bottom end of the arc-shaped flow collecting plate is arranged at the corner of the moisture-proof box, the through hole penetrates through the arc-shaped flow collecting plate and extends to the top and the bottom of the arc-shaped flow collecting plate, and the bottom end of the arc-shaped flow collecting plate is positioned above the anti-backflow ring plate. Through the arc design of arc collection board self, prolong the moving path on self surface, increase evaporation moisture's movement time, ensure that evaporation moisture is whole to condense into the water droplet, avoid producing the infiltration to equipment, guarantee the safety and the life of self and equipment.

Preferably, the drying mechanism comprises a heating coil and a heat energy rod arranged in the inner cavity of the heating coil, the heat energy rod is arranged on a heat conducting plate at the bottom of the heat energy rod, a heat insulation ring is arranged at the middle position of the heat conducting plate, and the induction mechanism is arranged in the inner cavity of the heat insulation ring. The heating coil high-frequency heating of production is supplied with to the energy through equipment self, utilizes the heat-conducting plate to transmit the heat to ground simultaneously, carries out effectual stoving to the ponding on ground, avoids ponding in the colliery mine hole.

Preferably, the heating coil is installed on the energy supply equipment of the equipment box, the heat energy rod is installed at the top end position of the arc-shaped current collecting plate, and the heating coil and the heat energy rod are arranged in the inner cavity of the through hole.

Preferably, the induction mechanism comprises a center pillar, a magnetic ball arranged at the bottom of the center pillar, and a U-shaped vibration rod arranged at the bottom of the outer surface of the magnetic ball, wherein a magnet with a magnetic pole opposite to that of the magnetic ball is arranged on one side of the U-shaped vibration rod far away from the magnetic ball. Utilize the vibrations that equipment produced at the during operation, U type shake the pole and because of self tuning fork design, form the response to vibrations, drive the skew that the magnet produced the position, form the change in magnetic field, utilize electromagnetic induction to make heating coil produce the electric current, realize the supplementary supply of energy.

Preferably, the center pillar is installed on the top of the inner cavity of the heat insulation ring, and the magnetic ball and the U-shaped vibrating rod are arranged in the inner cavity of the heat insulation ring. Simultaneously, the vibration of the U-shaped vibration rod can drive the flow of the air inside, and the evaporated steam is promoted to be cooled and condensed quickly.

(III) advantageous effects

The invention provides coal mine electromechanical equipment. The method has the following beneficial effects:

(one), this colliery electromechanical device collects colliery ground drying evaporation's moisture through utilizing to lead the flowing water tray board, avoids leading the ponding that produces in the flowing water tray board to lead to relapse to cause the humidity to colliery ground, and the moisture of dry evaporation is collected the back simultaneously, can not cause the damp and hot of environment, and the effectual phenomenon of avoiding producing the corrosion to equipment, increase of service life.

(II), this colliery electromechanical device prevents the gradient of flowing back crown plate self through the change, carries out the direction of impact force to the drop of water when the moisture that evaporates condenses and drips, avoids the internals surface that the drop of water splashes, carries out the drainage gathering with the water droplet simultaneously, utilizes the outlet to carry out the water conservancy diversion to the drop of water and discharges, prevents still being favorable to concentrating the moisture that evaporates against the change of flowing back crown plate self gradient.

(III), this colliery electromechanical device through the sphere design of arc roof self, carries out homodisperse with the motion impact force that the equipment box produced, protects the bottom component, avoids the impact force to cause the damage to the bottom component, and the interior sphere design of arc roof self can carry out the water conservancy diversion to the moisture of evaporation simultaneously, with on its drainage to the water conservancy diversion post, realizes condensing and the water conservancy diversion of moisture.

(IV), this colliery electromechanical device gathers through the arc design of class board self of arc, prolongs the moving path on self surface, increases the motion time of evaporation moisture, ensures that evaporation moisture is whole to condense into the water droplet, avoids producing the infiltration to equipment, guarantees the safety and the life of self and equipment.

According to the coal mine electromechanical equipment, through the utilization of vibration generated when the equipment works, the U-shaped vibration rod induces the vibration due to the tuning fork design of the U-shaped vibration rod, the magnet is driven to generate position deviation, the change of a magnetic field is formed, the electromagnetic induction is utilized to enable the heating coil to generate current, and the auxiliary energy supply is realized.

(VI), this colliery electromechanical device can drive the flow of inside air through the vibrations of U type pole self that shakes, promotes the vapor of evaporation and cools down fast condensing.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the moisture barrier mechanism of the present invention;

FIG. 3 is a schematic structural view of a flow guide mechanism according to the present invention;

FIG. 4 is a schematic structural view of a drying mechanism according to the present invention;

FIG. 5 is a schematic structural diagram of an induction mechanism according to the present invention;

in the figure: the device comprises a device box 1, a box door 2, a conveyor belt device 3, a4 entrance, a 5 moisture-proof mechanism, a 51 moisture-proof box, a 52 flow guide mechanism, a 521 arc-shaped top plate, a 522 flow guide column, a 523 arc-shaped flow collection plate, a 524 through hole, a 53 anti-backflow ring plate, a 54 water outlet, a 55 drying mechanism, a 551 heating coil, a 552 heat energy rod, a 553 heat conduction plate, a 554 heat insulation ring, a 555 induction mechanism, a1 center column, a2 magnetic ball, a3U type vibrating rod, a4 magnet, a 6 flow guide water tray plate and 7 anti-skid feet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, 2 and 4, the present invention provides a technical solution: a coal mine electromechanical device specifically comprises:

the equipment box 1 is provided with a box body, a box door 2 arranged on the left side of the box body, a conveyor belt device 3 arranged at the bottom of an inner cavity of the box body, and an access 4 arranged at the top of the front side and the back side of the box body;

dampproofing mechanism 5, this dampproofing mechanism 5 is installed in the bottom half, and install water conservancy diversion water tray board 6 in dampproofing mechanism 5 bottoms, and fix the anti-skidding foot 7 in water conservancy diversion water tray board 6 bottoms, utilize water conservancy diversion water tray board 6 to collect the moisture of colliery ground drying evaporation, the ponding of avoiding producing in the water conservancy diversion water tray board 6 repeatedly causes humidity to colliery ground, the moisture of drying evaporation is collected the back simultaneously, can not cause the damp and hot of environment, the effectual phenomenon of avoiding producing the corrosion to equipment, prolonged service life, dampproofing mechanism 5 includes:

the damp-proof box 51, this damp-proof box 51 has square box, and install the water conservancy diversion mechanism 52 in the internal surface of square box, and fix the ring board 53 of preventing flowing backwards in the square bottom of the box, and open the outlet 54 in the square bottom of the box four corners, and set up the drying mechanism 55 in the ring board 53 cavity of preventing flowing backwards. Through the gradient that changes and prevent against current ring plate 53 self, the water droplet carries out the direction of impact force when the moisture that evaporates condenses and drips, avoids the internals surface that the water droplet splashes, carries out the drainage gathering with the water droplet simultaneously, utilizes outlet 54 to carry out the water conservancy diversion to the water droplet and discharges, and the change of preventing against current ring plate 53 self gradient still is favorable to concentrating the moisture that evaporates.

The conveyor means 3 is located between the doorway 4 with the top of the conveyor means 3 flush with the bottom of the doorway 4 and the deflector mechanism 52 is mounted at the bottom of the equipment cabinet 1.

The drying mechanism 55 comprises a heating coil 551, a heat energy rod 552 arranged in the cavity of the heating coil 551, a heat conducting plate 553 arranged at the bottom of the heat energy rod 552, an insulating ring 554 arranged in the middle of the heat conducting plate 553, and an induction mechanism 555 arranged in the cavity of the insulating ring 554.

The heating coil 551 is installed on the energy supply device of the device case 1, the heat energy rod 552 is installed at the top end of the arc-shaped current collecting plate 523, and the heating coil 551 and the heat energy rod 552 are disposed in the inner cavity of the through hole 524. Heating coil 551 high-frequency heating that produces is supplied with through the energy of equipment self, utilizes heat-conducting plate 553 to carry out effectual stoving to the ponding on ground simultaneously, avoids ponding in the coal mine hole.

During the use, supply energy to equipment box 1 through outside energy supply equipment, start conveyer belt device 3 self and start and transport the colliery, supply with to heating coil 551 through the energy for heating coil 551 realizes high-frequency heating to heat energy stick 552, and transmit the heat through inserting the heat-conducting plate 553 on ground, realize drying.

Example two:

referring to fig. 1-4, on the basis of the first embodiment, the present invention provides a technical solution:

the flow guiding mechanism 52 comprises an arc-shaped top plate 521, flow guiding columns 522 mounted at the bottom of the arc-shaped top plate 521, arc-shaped flow collecting plates 523 arranged between the flow guiding columns 522, and through holes 524 formed at the top end and the bottom end of the arc-shaped flow collecting plates 523. Through the sphere design of arc roof 521 self, carry out homodisperse with the motion impact force that equipment box 1 produced, protect the bottom component, avoid the impact force to cause the damage to the bottom component, the interior sphere design of arc roof 521 self can carry out the water conservancy diversion to the moisture of evaporation simultaneously, on drainage to water conservancy diversion post 522, realizes condensing and the water conservancy diversion of moisture.

The bottom end of the arc-shaped current collecting plate 523 is installed at the corner of the moisture-proof box 51, and the through hole 524 penetrates through the arc-shaped current collecting plate 523 and extends to the top and the bottom of the arc-shaped current collecting plate 523, and the bottom end of the arc-shaped current collecting plate 523 is located above the anti-reflux annular plate 53. Through the arc design of arc class board 523 self, prolong the moving path on self surface, increase evaporation moisture's movement time, ensure that evaporation moisture is whole to condense into the water droplet, avoid producing the infiltration to equipment, guarantee the safety and the life of self and equipment.

On the basis of the first embodiment, the evaporated water rises and passes through the through holes 524 to contact the arc top plate 521 and the arc current collecting plate 523 and adhere to the arc top plate 521 and the arc current collecting plate 523, and the water vapor is condensed on the arc top plate 521 and the arc current collecting plate 523 to form water drops and slides along the arc top plate 521 and the arc current collecting plate 523 away from a heat source, so that the water drops are collected on the anti-backflow ring plate 53 through the flow guide columns 522 and the arc current collecting plate 523.

Example three:

referring to fig. 1, 2, 4 and 5, on the basis of the first embodiment and the second embodiment, the present invention provides a technical solution: the sensing mechanism 555 comprises a center pillar a1, a magnetic ball a2 mounted at the bottom of the center pillar a1, and a U-shaped vibrating rod a3 mounted at the bottom of the outer surface of the magnetic ball a2, and a magnet a4 with a magnetic pole opposite to that of the magnetic ball a2 is arranged at one side of the U-shaped vibrating rod a3 away from the magnetic ball a 2. By means of vibration generated when the equipment works, the U-shaped vibration rod a3 induces the vibration due to the tuning fork design of the U-shaped vibration rod, drives the magnet a4 to generate position deviation, changes of a magnetic field are formed, and the heating coil 551 generates current by means of electromagnetic induction, so that auxiliary energy supply is realized.

The center pillar a1 is mounted on the top of the inner cavity of the heat insulation ring 554, and the magnetic ball a2 and the U-shaped vibrating rod a3 are arranged in the inner cavity of the heat insulation ring 554. Meanwhile, the U-shaped vibration rod a3 can drive the flow of the air inside, and the evaporated steam is promoted to cool and be condensed quickly.

On the basis of the first embodiment and the second embodiment, when the drying device is used and drying operation is not performed, the U-shaped vibration rod a3 drives the magnet a4 to generate position deviation due to vibration to form change of a magnetic field, and the heating coil 551 generates current by utilizing electromagnetic induction to realize energy auxiliary supply;

when the drying operation is carried out, the flow of the internal air is driven, and the evaporated steam is promoted to be cooled and condensed quickly.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.