CN212449416U - Electromechanical transportation transmission in colliery - Google Patents

Abstract

The utility model provides a colliery electromechanical transportation transmission, including conveying frame, shock-absorbing structure and regulation structure, screw and feed inlet fixed connection are passed through to conveying frame one side, and the conveyer belt is installed to conveying frame top, and the baffle is installed respectively through the screw to conveying frame both sides, and conveying frame one side can be dismantled with the motor case through the screw and be connected, and conveying frame passes through screw and shock-absorbing structure fixed connection in the below, and the shock-absorbing structure surface glues with the non-woven fabrics mutually, passes through connecting plate and regulation structure fixed connection in the shock-absorbing structure below. The utility model provides a pair of colliery electromechanical transportation transmission passes through conveying frame, shock-absorbing structure, regulation structure and other structures, and it is not good to have the shock attenuation effect to have solved current colliery electromechanical transportation transmission, and during transmission transported the coal charge, often can receive the collision extrusion, influences the life of device, and the most unevenness in ground of mine cave, causes the installation of device unstable easily, influences the problem of device work.

Description

Electromechanical transportation transmission in colliery

Technical Field

The utility model relates to a colliery electromechanical device technical field especially relates to a colliery electromechanical transportation transmission.

Background

Coal is the most main solid fuel and is one of combustible organic rocks, the coal mine is an area where people mine coal resources in a coal-rich mining area, and is generally divided into a mineworker coal mine and an open-pit coal mine, when a coal seam is far away from the ground surface, the coal mine is generally selected to dig a roadway to the underground, the mineworker coal mine is the mineworker coal mine, most coal mines in China belong to the mineworker coal mine, the coal mine range comprises a large area of the ground underground and related facilities, the coal mine is a reasonable space which is excavated when people dig a geological layer rich in coal, the coal mine generally comprises the roadway, the underground and a digging surface and the like, and the coal is conveyed through an electromechanical transportation transmission device, but the electromechanical transportation transmission device of the coal mine in the current market has some problems.

At present, current colliery electromechanical transportation transmission has the shock attenuation effect not good, and when transmission transported the coal charge, often can receive the collision extrusion, influences the life of device, and the ground of mine opening is the most unevenness, causes the installation of device unstable easily, influences the problem of device work.

Therefore, it is necessary to provide a coal mine electromechanical transportation transmission device to solve the technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a colliery electromechanical transportation transmission has solved current colliery electromechanical transportation transmission and has had the shock attenuation effect not good, and during transmission transported the coal charge, often can receive the collision extrusion, influences the life of device, and the most unevenness in ground of ore deposit hole, causes the installation of device unstable easily, influences the problem of device work.

For solving above-mentioned technical problem, a colliery electromechanical transportation transmission, including conveying frame, shock-absorbing structure and regulation structure, screw and feed inlet fixed connection are passed through to conveying frame one side, the conveyer belt is installed to conveying frame top, the baffle is installed respectively through the screw to conveying frame both sides, conveying frame one side can be dismantled with the motor case through the screw and be connected, conveying frame below is passed through screw and shock-absorbing structure fixed connection, the shock-absorbing structure surface glues with the non-woven fabrics mutually, shock-absorbing structure below is passed through the connecting plate and is adjusted structure fixed connection, it is connected with the gyro wheel structure rotation to adjust structure one side, it glues with the protection pad mutually to adjust structure below.

Preferably, the shock-absorbing structure further comprises a first shock-absorbing plate, a second shock-absorbing plate, a third shock-absorbing plate, a first shock-absorbing spring and a second shock-absorbing spring, the first shock-absorbing plate is fixedly connected with the conveying frame through screws, the first shock-absorbing plate is welded with the first shock-absorbing spring below, the first shock-absorbing spring is welded with the second shock-absorbing plate below, the second shock-absorbing plate is welded with the second shock-absorbing spring below, the second shock-absorbing spring is welded with the third shock-absorbing plate below, and the third shock-absorbing plate is fixedly connected with the connecting plate through screws.

Preferably, adjust the structure and still include dwang, rotation case, base, screw thread and screw hole, the dwang surface is provided with the screw thread, the incasement portion of rotating is seted up threaded hole, screw thread and screw hole looks adaptation, dwang top and link plate welding mutually, dwang below and rotation case threaded connection, rotate the case below and pass through screw and base fixed connection, the base below glues with the protection pad mutually.

Preferably, the motor box is electrically connected with one side of the control switch through a wire, and the motor box is electrically connected with one side of the plug through a wire.

Preferably, the roller structure still includes carousel, connecting rod and universal wheel, the carousel passes through screw and base one side fixed connection, connecting rod one end welds with the carousel mutually, the connecting rod other end welds with the universal wheel mutually.

Preferably, the first damping spring and the second damping spring are respectively provided with three groups, and each group is respectively provided with seven damping springs.

Preferably, connecting plate one side is through screw and third shock attenuation board fixed connection, the connecting plate opposite side welds mutually with the dwang, it is provided with four altogether to adjust the structure, the baffle is provided with two altogether, and the gyro wheel structure is provided with four altogether.

Compared with the prior art, the utility model provides a pair of colliery electromechanical transportation transmission has following beneficial effect:

the utility model provides a colliery electromechanical transportation transmission, through shock-absorbing structure, when the device receives the collision extrusion, first shock attenuation board receives the partly impact force of extrusion buffering, later first damping spring receives the extrusion of first shock attenuation board and produces a bounce and further reduce the impact force, then the second shock attenuation board receives the partly impact force of extrusion buffering, later second damping spring receives the extrusion of second shock attenuation board and produces a bounce again and reduce the impact force, it is used for weakening the last part impact force to reach the third shock attenuation board at last, realize five shockproof effects, it is not good to have solved current colliery electromechanical transportation transmission, when transmission transports the coal charge, often can receive the collision extrusion, influence the life's of device problem.

The utility model provides a colliery electromechanical transportation transmission, through four regulation structures, place the ground unevenness when the device, when needing adjustment structure height, rotate in the rotation case of set up threaded hole through the dwang of taking the screw thread, adjust the height of dwang in the rotation case, change the height of adjusting the structure, through changing the height of four regulation structures, make the device be in the level, when having solved the ground most unevenness in ore deposit hole, cause the installation of device unstable easily, influence the problem of device work.

The utility model provides a colliery electromechanical transportation transmission, through the gyro wheel structure, when the device needs to be removed, accessible control connecting rod rotates four universal wheels to the base below under the effect of carousel, makes things convenient for the device to remove, when removing suitable position, again with the universal wheel rotate original position can, made things convenient for the removal of device.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of an electromechanical transportation transmission device for a coal mine provided by the present invention;

FIG. 2 is a partial schematic view of the adjustment mechanism of FIG. 1;

FIG. 3 is a partial schematic view of the roller structure shown in FIG. 1;

FIG. 4 is a side schematic view of the shock absorbing structure shown in FIG. 2;

fig. 5 is a partial schematic view of the rotary case of fig. 1.

Reference numbers in the figures: 1. conveying frame, 2, shock-absorbing structure, 3, adjust the structure, 4, the feed inlet, 5, the conveyer belt, 6, the baffle, 7, the motor case, 8, the gyro wheel structure, 9, the connecting plate, 10, the non-woven fabrics, 11, the protection pad, 201, first shock attenuation board, 202, second shock attenuation board, 203, third shock attenuation board, 204, first damping spring, 205, second damping spring, 31, dwang, 32, the case that rotates, 33, the base, 34, the screw thread, 35, the screw hole, 71, control switch, 72, the plug, 81, the carousel, 82, the connecting rod, 83, the universal wheel.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, wherein fig. 1 is a schematic structural view of a preferred embodiment of an electromechanical transportation transmission device for a coal mine according to the present invention; FIG. 2 is a partial schematic view of the adjustment mechanism of FIG. 1; FIG. 3 is a partial schematic view of the roller structure shown in FIG. 1; FIG. 4 is a side schematic view of the shock absorbing structure shown in FIG. 1; fig. 5 is a partial schematic view of the rotary case of fig. 1. The utility model provides a colliery electromechanical transportation transmission, including conveying frame 1, shock-absorbing structure 2 and regulation structure 3, conveying frame 1 one side is through screw and 4 fixed connection of feed inlet, conveying frame 1 installs the top conveyer belt 5, conveying frame 1 both sides are installed baffle 6 respectively through the screw, conveying frame 1 one side is passed through the screw and can be dismantled with motor case 7 and be connected, conveying frame 1 below is through screw and 2 fixed connection of shock-absorbing structure, 2 surfaces of shock-absorbing structure glue 10 mutually with non-woven fabrics, shock-absorbing structure 2 below is passed through connecting plate 9 and regulation structure 3 fixed connection, regulation structure 3 one side rotates with gyro wheel structure 8 and is connected, regulation structure 3 below glues 11 mutually with protection pad, can prevent that the coal charge from scattering from 5 both sides of conveyer belt through baffle 6, can control conveyer belt 5 work through motor case 7.

The damping structure 2 further comprises a first damping plate 201, a second damping plate 202, a third damping plate 203, a first damping spring 204 and a second damping spring 205, wherein the upper part of the first damping plate 201 is fixedly connected with the conveying frame 1 through screws, the lower part of the first damping plate 201 is welded with the first damping spring 204, the lower part of the first damping spring 204 is welded with the second damping plate 202, the lower part of the second damping plate 202 is welded with the second damping spring 205, the lower part of the second damping spring 205 is welded with the third damping plate 203, the lower part of the third damping plate 203 is fixedly connected with the connecting plate 9 through screws, when the device is extruded by collision, the first damping plate 201 is extruded to buffer a part of impact force, then the first damping spring 204 is extruded by the first damping plate 201 to generate a counter-elastic force to further reduce the impact force, then the second damping plate 202 is extruded to buffer a part of impact force, then the second damping spring 205 is pressed by the second damping plate 202 to generate a rebound force to reduce the impact force, and finally reaches the third damping plate 203 to weaken the last part of the impact force, so as to realize the five-fold anti-vibration effect.

Regulation structure 3 still includes dwang 31, rotate case 32, base 33, screw thread 34 and screw hole 35, dwang 31 surface is provided with screw thread 34, the inside screw hole 35 of seting up of case 32 rotates, screw thread 34 and screw hole 35 looks adaptation, dwang 31 top welds with connecting plate 9 mutually, dwang 31 below and rotation case 32 threaded connection, it passes through screw and base 33 fixed connection to rotate case 32 below, base 33 below and protection pad 11 glue mutually, it is uneven when the device places the ground, when needing adjustment regulation structure 3 height, dwang 31 through having screw thread 34 rotates in the rotation case 32 of screw hole 35, adjust the height of dwang 31 in rotating case 32, change regulation structure 3's height, through changing four regulation structure 3's height, make the device be in the level.

The motor box 7 is electrically connected with one side of the control switch 71 through a lead, the motor box 7 is electrically connected with one side of the plug 72 through a lead, the motor box 7 is controlled to work through the control switch 71, and the power is switched on through the plug 72.

Roller structure 8 still includes carousel 81, connecting rod 82 and universal wheel 83, carousel 81 passes through screw and base 33 one side fixed connection, connecting rod 82 one end welds mutually with carousel 81, the connecting rod 82 other end welds mutually with universal wheel 83, when the device needs to remove, accessible control connecting rod 82 rotates four universal wheels 83 to base 33 below under the effect of carousel 81, make things convenient for the device to remove, when removing suitable position, it can to rotate original position with universal wheel 83 again.

Three groups of the first damping springs 204 and the second damping springs 205 are arranged, and seven damping springs are arranged in each group.

Connecting plate 9 one side is through screw and third shock attenuation board 203 fixed connection, and connecting plate 9 opposite side welds mutually with dwang 31, and regulation structure 3 is provided with four altogether, and baffle 6 is provided with two altogether, and gyro wheel structure 8 is provided with four altogether.

The utility model provides a pair of colliery electromechanical transportation transmission's theory of operation as follows:

when the device is used, the coal is poured from the feeding hole 4, the coal is conveyed to the other end through the conveyor belt 5, the coal can be prevented from scattering from two sides of the conveyor belt 5 through the baffle 6, the conveyor belt 5 can be controlled to work through the motor box 7, when the device is extruded by collision, the first damping plate 201 is extruded and buffered with a part of impact force, then the first damping spring 204 is extruded by the first damping plate 201 to generate a bounce force to further reduce the impact force, then the second damping plate 202 is extruded and buffered with a part of impact force, then the second damping spring 205 is extruded by the second damping plate 202 to generate a bounce force to reduce the impact force, finally the bounce force reaches the third damping plate 203 to weaken the last part of impact force, so that the five-fold shockproof effect is realized, when the device is placed on uneven ground and the height of the adjusting structure 3 needs to be adjusted, the rotating rod 31 with the screw threads 34 rotates in the rotating box 32 with the threaded hole 35, adjust the height of dwang 31 in rotating case 32, change the height of adjusting structure 3, through changing four height of adjusting structure 3 for the device is in the level, and when the device need remove, accessible control connecting rod 82 rotates four universal wheels 83 to base 33 below under the effect of carousel 81, makes things convenient for the device to remove, when removing suitable position, again with the universal wheel 83 rotate original position can, made things convenient for the removal of device.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a colliery electromechanical transportation transmission, includes transport frame (1), shock-absorbing structure (2) and regulation structure (3), its characterized in that: conveying frame (1) one side is through screw and feed inlet (4) fixed connection, conveyer belt (5) are installed to conveying frame (1) top, baffle (6) are installed respectively through the screw to conveying frame (1) both sides, conveying frame (1) one side is passed through the screw and can be dismantled with motor case (7) and be connected, conveying frame (1) below is through screw and shock-absorbing structure (2) fixed connection, shock-absorbing structure (2) surface and non-woven fabrics (10) glue mutually, shock-absorbing structure (2) below is through connecting plate (9) and regulation structure (3) fixed connection, regulation structure (3) one side is rotated with gyro wheel structure (8) and is connected, regulation structure (3) below and protection pad (11) glue mutually.

2. The coal mine electromechanical haulage transmission of claim 1, wherein: shock-absorbing structure (2) still include first shock attenuation board (201), second shock attenuation board (202), third shock attenuation board (203), first damping spring (204) and second damping spring (205), screw and conveying frame (1) fixed connection are passed through to first shock attenuation board (201) top, first shock attenuation board (201) below welds with first damping spring (204), first damping spring (204) below welds with second shock attenuation board (202), second shock attenuation board (202) below welds with second damping spring (205), second damping spring (205) below welds with third shock attenuation board (203), third shock attenuation board (203) below passes through screw and connecting plate (9) fixed connection.

3. The coal mine electromechanical haulage transmission of claim 1, wherein: adjust structure (3) and still include dwang (31), rotation case (32), base (33), screw thread (34) and screw hole (35), dwang (31) surface is provided with screw thread (34), the inside screw hole (35) of seting up of rotation case (32), screw thread (34) and screw hole (35) looks adaptation, dwang (31) top welds with connecting plate (9) mutually, dwang (31) below and rotation case (32) threaded connection, rotate case (32) below through screw and base (33) fixed connection, base (33) below and protection pad (11) glue mutually.

4. The coal mine electromechanical haulage transmission of claim 1, wherein: the motor box (7) is electrically connected with one side of the control switch (71) through a lead, and the motor box (7) is electrically connected with one side of the plug (72) through a lead.

5. The coal mine electromechanical haulage transmission of claim 1, wherein: roller structure (8) still include carousel (81), connecting rod (82) and universal wheel (83), carousel (81) pass through screw and base (33) one side fixed connection, connecting rod (82) one end welds mutually with carousel (81), the connecting rod (82) other end welds mutually with universal wheel (83).

6. A coal mine electromechanical haulage transmission as claimed in claim 2, wherein: the first damping spring (204) and the second damping spring (205) are respectively provided with three groups, and each group is respectively provided with seven damping springs.

7. The coal mine electromechanical haulage transmission of claim 1, wherein: connecting plate (9) one side is through screw and third shock attenuation board (203) fixed connection, connecting plate (9) opposite side and dwang (31) weld mutually, it is provided with four altogether to adjust structure (3), baffle (6) are provided with two altogether, and gyro wheel structure (8) are provided with four altogether.

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