CN112193739A - Coal carrying equipment - Google Patents

Abstract

The invention relates to the field of coal carrying, in particular to coal carrying equipment. The device can realize the adjustment of the coal transportation speed. Including delivery subassembly, power component, input motor, in order to adapt to the deformation that transport area two and transport area one produced under the coal cinder action of gravity, through the relative slip between tapered roller four and the tapered roller three for produce the displacement between bottom plate one and the bottom plate two, and then through the displacement that produces between bottom plate one and the bottom plate two, carry out the displacement release to the deformation that transport area two and transport area one produced under the coal cinder action of gravity, and then make the stability when the device moves increase. When the conveying belt II and the conveying belt I do not have coal blocks, the sliding column I moves upwards under the pushing of the elastic force of the pushing spring I, and then the transmission relation is carried out, so that the bevel gear II is separated from the bevel gear I, the load of the input motor is reduced, and the energy-saving effect is achieved.

Description

Coal carrying equipment

Technical Field

The invention relates to the field of coal carrying, in particular to coal carrying equipment.

Background

Coal carrying is a common device in the field of coal carrying, and the types of coal carrying are different according to different site conditions or different actual conditions, so that common coal carrying devices are distinguished by purposes or functions;

the patent number is CN201922226363.8 two-way conveying discharge device, including the body frame, feed divider, first discharge apparatus and second discharge apparatus; the material distribution device is arranged on the main frame, and the input end of the first discharging device and the input end of the second discharging device are both arranged on the main frame; the first discharging device and the second discharging device are respectively arranged at two output ends of the material distributing device and are used for transporting the coal material output by the output ends of the material distributing device; the first discharging device and the second discharging device are respectively arranged at two opposite sides of the main frame, but the technical scheme has the defect that the adjustment of the coal transportation speed cannot be realized.

Disclosure of Invention

The invention aims to provide coal carrying equipment which can adjust the coal conveying speed.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a coal material carrying equipment, includes carrying subassembly, power component, input motor, its characterized in that: the carrying assembly is connected with the power assembly, and the power assembly is connected with the input motor;

the carrying assembly comprises a first bottom plate, a first sealing cover, a second bottom plate, a second sealing cover, a base, a first bevel gear, a second bevel gear, a push rod, a first connecting belt, a first rectangular slider, a first connecting belt wheel, a first inner end sliding column, a second connecting belt wheel, a second connecting belt, a first conical roller, a second conical roller, a first driving sliding column, a first pushing spring, a first sliding plate, a first conveying belt, a second conveying belt, a third rectangular slider, a first matching belt wheel, a third pushing spring, a second matching belt wheel, a fourth rectangular slider, a fourth pushing spring, a second driving sliding column, a second pushing spring, a fifth pushing spring, a first inner end clamping rod pushing spring, a first inner end clamping groove, a second sliding plate, a second inner end sliding column, a second rectangular slider, a sixth pushing spring, a third sliding plate, a second inner end clamping rod, a second inner end clamping groove, a third conical roller, a fourth matching belt wheel and a fourth matching bevel gear, wherein the first bottom plate is fixedly, the second sealing cover is fixedly connected with the second bottom plate, the base is fixedly connected with the second bottom plate, the second bevel gear is rotatably connected with the bevel gear shaft A, the bevel gear shaft A is slidably connected with the second bottom plate, the push rod is hinged with the bevel gear shaft A, the push rod is hinged with the first driving sliding column, the first driving sliding column is slidably connected with the second bottom plate, the first connecting belt is in fit connection with the first connecting belt wheel, the first matching belt wheel and the fourth matching belt wheel, the first connecting belt wheel is rotatably connected with the first rectangular sliding wheel, the first rectangular sliding wheel is slidably connected with the first inner end sliding column, the first inner end sliding column is fixedly connected with the first sliding plate, the fifth pushing spring is arranged between the first rectangular sliding column and the first inner end sliding column, the second connecting belt is connected with the second connecting belt wheel, the second matching belt wheel and the third matching belt wheel, the second connecting belt wheel is rotatably connected with the second rectangular sliding column, the second rectangular sliding column is slidably connected with the second inner end sliding column, an inner end sliding post II is fixedly connected with a sliding plate II, an inner end clamping rod I is connected with the sliding plate I in a sliding manner, an inner end clamping rod pushing spring I is arranged between the two inner end clamping rods I, an inner end clamping groove I is arranged on a bottom plate II, the inner end clamping rod I is connected with the inner end clamping groove I in a matching manner, the inner end clamping rod II is connected with the inner end clamping rod II in a sliding manner, the inner end clamping rod II is arranged between the two inner end clamping rods II, the inner end clamping rod II is connected with the inner end clamping groove II in a matching manner, the inner end clamping groove II is arranged on the bottom plate I, the pushing spring I is arranged between the driving sliding post I and the bottom plate II, a conical roller II is rotatably connected with a driving sliding post, the other conical roller II is rotatably connected with the bottom plate II, the driving sliding post II is slidably connected with the bottom plate I, the pushing spring II is arranged between the driving sliding post II and the bottom plate I, the third conical roller is fixedly connected with the fourth matching belt wheel, the fourth matching belt wheel is rotatably connected with the second base plate, the fourth conical roller is fixedly connected with the third matching belt wheel, the third matching belt wheel is rotatably connected with the first base plate, the first conveying belt is connected between the second conical roller and the fourth conical roller in a matching manner, the second conveying belt is connected between the third conical roller and the first conical roller in a matching manner, the third conical roller is slidably connected with the fourth conical roller, and the conical teeth of the matching belt wheel are fixedly connected with the fourth matching belt wheel;

the power assembly comprises a power bottom plate, a first clutch rod, a second clutch rod, a clutch sliding rod, a clutch push spring, a middle end support, a first friction disk push spring, a second friction disk, a first driving sliding frame, a second driving sliding frame, a first middle rotating column, a first middle end rotor, a second friction disk push spring, a second middle end rotor, a second middle end clamping groove, a first clamp push spring, a second clamp and a second clamp push spring, wherein the first clutch rod is rotatably connected with the power bottom plate, the first clutch rod is connected with the second clutch rod in a matching way, the second clutch rod is slidably connected with the clutch sliding rod, the clutch push spring is connected with the clutch sliding rod in a sleeving way, the clutch push spring is arranged between the power bottom plate and the second clutch rod, the middle end support is fixedly connected with the power bottom plate, the first friction disk is rotatably connected with the middle end support, the first friction disk push spring is arranged between the first friction disk and the middle end support, a friction disc II is rotationally connected with the middle end support, a friction disc push spring II is arranged between the friction disc II and the middle end support, a driving sliding frame I and a driving sliding frame II are slidably connected with the middle end support, a middle end rotary column I is fixedly connected with a clutch sliding rod, a middle end rotor I is connected with the middle end rotary column I in a sliding fit manner, a middle end rotary column II is connected with the middle end rotary column I in a rotating fit manner, a middle end rotor II is connected with the middle end rotary column II in a sliding fit manner, a middle end rotor I is connected with the driving sliding frame I in a rotating manner, a clip push spring I is arranged between two clips I and is slidably connected with the driving sliding frame II, a clip push spring II is arranged between two clips II, a middle end clamping groove is arranged on the middle end support, the clip I and the clip II are connected with the middle end clamping groove in a sliding manner, an input motor is fixedly connected with the middle end rotary column II, the input motor is fixedly connected with the power bottom plate, the first clutch rod is fixedly connected with the first bevel gear, and the power bottom plate is fixedly connected with the base.

As further optimization of the technical scheme, the first conveyor belt and the second conveyor belt are identical in shape and specification.

As a further optimization of the technical scheme, the first friction disc and the second friction disc are coaxially arranged.

The coal carrying equipment has the beneficial effects that:

1. the first driving sliding frame and the second driving sliding frame slide along the middle end support, and further enable the first driving sliding frame and the second driving sliding frame to drive the first middle end rotor and the second middle end rotor to change in positions on the first middle end rotating column and the second middle end rotating column respectively, and further enable the first middle end rotor and the second middle end rotor to change in use positions between the first friction disc and the second friction disc, and further enable the rotation speed output by the first clutch rod to change through the transmission relation disclosed above, and further enable the carrying speed of the second conveying belt and the conveying belt to change.

2. In order to adapt to the deformation of the conveying belt II and the conveying belt I under the action of the gravity of the coal briquette, the conveying belt II and the conveying belt I are displaced under the action of the gravity of the coal briquette through relative sliding between the conical roller IV and the conical roller III, and further displacement release is carried out on the deformation of the conveying belt II and the conveying belt I under the action of the gravity of the coal briquette through displacement between the base plate I and the base plate II, so that the stability of the device during operation is increased.

3. When the conveying belt II and the conveying belt I do not have coal blocks, the sliding column I moves upwards under the pushing of the elastic force of the pushing spring I, and further the transmission relation is disclosed, so that the bevel gear II is separated from the bevel gear I, the load of the input motor is reduced, and the energy-saving effect is achieved.

And through the action of the first friction disk push spring and the second friction disk push spring, the first friction disk and the second friction disk are tightly attached to the first middle end rotor and the second middle end rotor, and the first middle end rotor and the second middle end rotor are prevented from slipping.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of the carrying assembly of the present invention;

FIG. 4 is a second schematic view of the carrier assembly of the present invention;

FIG. 5 is a third schematic view of the carrier assembly of the present invention;

FIG. 6 is a fourth schematic view of the carrier assembly of the present invention;

FIG. 7 is a fifth schematic view of the carrier assembly of the present invention;

FIG. 8 is a sixth schematic view of the carrier assembly of the present invention;

FIG. 9 is a first schematic view of the power assembly of the present invention;

FIG. 10 is a schematic view of the power assembly of the present invention;

fig. 11 is a third schematic structural diagram of the power assembly of the present invention.

In the figure: a first bottom plate 1-1; 1-2 parts of a first sealing cover; a second bottom plate 1-3; 1-4 parts of a second sealing cover; 1-5 of a base; 1-6 parts of a first bevel gear; 1-7 parts of a second bevel gear; 1-8 of a push rod; 1-9 of a connecting belt I; 1-10 of a rectangular slider I; connecting belt wheels 1-11; 1-12 inner end sliding columns; connecting a second belt wheel 1-13; connecting belts II 1-14; 1-15 parts of a conical roller; conical rollers II 1-16; 1-17 of the driving sliding column; a first push spring 1-18; 1-19 of a first sliding plate; 1-21 parts of a conveyor belt; a second conveyor belt 1-22; three rectangular sliders 1 to 23; 1-24 of a matching belt wheel; push spring three 1-25; a second matching belt wheel 1-26; 1-27 of rectangular slider; push spring four 1-28; driving the sliding columns II 1 to 29; a second push spring 1-30; push springs five 1-31; the inner end clamping rod I is 1-32; the inner end clamping rod pushes the spring 1-33; the inner end of the clamping groove I is 1-34; 1-35 parts of a second sliding plate; inner end sliding columns II 1-36; a second rectangular slider 1-37; push springs six 1-38; 1-39 parts of a sliding plate; the inner end of the clamping rod II is 1-40; the inner end clamping rod pushes a second spring 1-41; a second inner end clamping groove 1-42; tapered rollers three 1-43; tapered rollers four 1-44; a third belt wheel 1-45 is matched; a matching belt wheel four 1-46; matching with belt wheel bevel gears 1-47; a power assembly 2; a power bottom plate 2-1; a first clutch lever 2-2; 2-3 of a clutch lever II; 2-4 of a clutch slide bar; clutch push spring 2-5; 2-6 of a middle bracket; 2-7 parts of a friction disc; a first friction disc push spring 2-8; 2-9 of a second friction disc; driving the first sliding frame 2-10; driving the second sliding frame 2-11; 2-12 of a middle-end rotating column I; 2-13 of a middle-end rotor; a second friction disc push spring 2-14; 2-15 of a middle-end rotating column II; 2-16 parts of a middle-end rotor II; middle end clamping grooves 2-17; a first clip 2-18; a clip push spring I2-19; 2-20 parts of a second clip; 2-21 parts of a second clip push spring; input to the motor 3.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 11, and a coal carrying apparatus includes a carrying assembly 1, a power assembly 2, and an input motor 3, and is characterized in that: the carrying assembly 1 is connected with the power assembly 2, and the power assembly 2 is connected with the input motor 3;

the carrying assembly 1 comprises a first base plate 1-1, a first sealing cover 1-2, a second base plate 1-3, a second sealing cover 1-4, a base 1-5, a first bevel gear 1-6, a second bevel gear 1-7, a push rod 1-8, a first connecting belt 1-9, a first rectangular slider 1-10, a first connecting belt wheel 1-11, a first inner end sliding column 1-12, a second connecting belt wheel 1-13, a second connecting belt 1-14, a first conical roller 1-15, a second conical roller 1-16, a first driving sliding column 1-17, a first push spring 1-18, a first sliding plate 1-19, a first conveying belt 1-21, a second conveying belt 1-22, a third rectangular slider 1-23, a first matching belt wheel 1-24, a third push spring 1-25, a second matching belt wheel 1-26, 1-27 parts of rectangular slider four, 1-28 parts of push spring four, 1-29 parts of driving sliding column two, 1-30 parts of push spring two, 1-31 parts of push spring five, 1-32 parts of inner end clamping rod one, 1-33 parts of inner end clamping rod push spring one, 1-34 parts of inner end clamping groove one, 1-35 parts of sliding plate two, 1-36 parts of inner end sliding column two, 1-37 parts of rectangular slider two, 1-38 parts of push spring six, 1-39 parts of sliding plate three, 1-40 parts of inner end clamping rod two, 1-41 parts of inner end clamping rod push spring two, 1-42 parts of inner end clamping groove two, 1-43 parts of conical roller three, 1-44 parts of conical roller four, 1-45 parts of matching belt wheel three, 1-46 parts of matching belt wheel four and 1-47 parts of matching belt wheel conical teeth, 1-1 parts of bottom plate one is fixedly connected with 1-2 parts of sealing cover one, 1-4 parts, the base 1-5 is fixedly connected with the bottom plate II 1-3, the bevel gear II 1-7 is rotatably connected with the bevel gear shaft A, the bevel gear shaft A is slidably connected with the bottom plate II 1-3, the push rod 1-8 is hinged with the bevel gear shaft A, the push rod 1-8 is hinged with the driving sliding column I1-17, the driving sliding column I1-17 is slidably connected with the bottom plate II 1-3, the connecting belt I1-9 is in fit connection with the connecting belt wheel I1-11, the matching belt wheel I1-24 and the matching belt wheel IV 1-46, the connecting belt wheel I1-11 is rotatably connected with the rectangular sliding column I1-10, the rectangular sliding column I1-10 is slidably connected with the inner end sliding column I1-12, the inner end sliding column I1-12 is fixedly connected with the sliding plate I1-19, the push spring V1-31 is arranged between the rectangular sliding column I1-10 and the inner end sliding column I1-12, the connecting belt II 1-14 is connected with the connecting belt wheel II 1-13, the matching belt wheel II 1-26 and the matching belt wheel III 1-45, the connecting belt wheel II 1-13 is rotatably connected with the rectangular sliding sub II 1-37, the rectangular sliding sub II 1-37 is slidably connected with the inner end sliding post II 1-36, the push spring six 1-38 is arranged between the rectangular sliding sub II 1-37 and the inner end sliding post II 1-36, the inner end sliding post II 1-36 is fixedly connected with the sliding plate II 1-35, the inner end clamping rod I1-32 is slidably connected with the sliding plate I1-19, the inner end clamping rod push spring I1-33 is arranged between the two inner end clamping rods I1-32, the inner end clamping groove I1-34 is arranged on the bottom plate II 1-3, the inner end clamping rod I1-32 is in fit connection with the inner end clamping groove I1-34, the inner end clamping rods II 1-40 are connected with the inner end clamping rods II 1-40 in a sliding mode, the inner end clamping rod pushing springs II 1-41 are arranged between the two inner end clamping rods II 1-40, the inner end clamping rods II 1-40 are connected with the inner end clamping grooves II 1-42 in a matching mode, the inner end clamping grooves II 1-42 are arranged on the bottom plate I1-1, the pushing springs I1-18 are arranged between the driving sliding columns I1-17 and the bottom plate II 1-3, the conical rollers II 1-16 are rotatably connected with the driving sliding columns I1-17, the other conical rollers II 1-16 are rotatably connected with the bottom plate II 1-3, the driving sliding columns II 1-29 are connected with the bottom plate I1-1 in a sliding mode, the pushing springs II 1-30 are arranged between the driving sliding columns II 1-29 and the bottom plate I1-1, the conical rollers I1-15 are rotatably connected with the driving sliding columns II 1-29, the other conical roller I1-15 is rotationally connected with the base plate I1-1, the conical roller III 1-43 is fixedly connected with the matching belt wheel IV 1-46, the matching belt wheel IV 1-46 is rotationally connected with the base plate II 1-3, the conical roller IV 1-44 is fixedly connected with the matching belt wheel III 1-45, the matching belt wheel III 1-45 is rotationally connected with the base plate I1-1, the conveyer belt I1-21 is connected between the conical roller II 1-16 and the conical roller IV 1-44 in a matching way, the conveyer belt II 1-22 is connected between the conical roller III 1-43 and the conical roller I1-15 in a matching way, the conical roller III 1-43 is connected with the conical roller IV 1-44 in a sliding way, and the matching belt wheel conical teeth 1-47 are fixedly connected with the matching belt wheel IV 1-46;

the power assembly 2 comprises a power bottom plate 2-1, a clutch rod I2-2, a clutch rod II 2-3, a clutch slide rod 2-4, a clutch push spring 2-5, a middle end support 2-6, a friction disk I2-7, a friction disk push spring I2-8, a friction disk II 2-9, a driving carriage I2-10, a driving carriage II 2-11, a middle end rotary column I2-12, a middle end rotor I2-13, a friction disk push spring II 2-14, a middle end rotary column II 2-15, a middle end rotor II 2-16, a middle end clamping groove 2-17, a clamp I2-18, a clamp push spring I2-19, a clamp II 2-20 and a clamp push spring II 2-21, wherein the clutch rod I2-2 is rotatably connected with the power bottom plate 2-1, the clutch rod I2-2 is connected with the clutch rod II 2-3 in a matching way, a clutch slide rod 2-4 is rotationally connected with a power bottom plate 2-1, a clutch rod II 2-3 is slidably connected with the clutch slide rod 2-4, a clutch push spring 2-5 is connected with the clutch slide rod 2-4 in a sleeved mode, the clutch push spring 2-5 is arranged between the power bottom plate 2-1 and the clutch rod II 2-3, a middle end support 2-6 is fixedly connected with the power bottom plate 2-1, a friction disc I2-7 is rotationally connected with a middle end support 2-6, a friction disc I2-8 is arranged between the friction disc I2-7 and the middle end support 2-6, a friction disc II 2-9 is rotationally connected with the middle end support 2-6, a friction disc push spring II 2-14 is arranged between the friction disc II 2-9 and the middle end support 2-6, and a driving carriage I2-10, A driving sliding frame II 2-11 is connected with a middle end bracket 2-6 in a sliding way, a middle end rotary column I2-12 is fixedly connected with a clutch sliding rod 2-4, a middle end rotor I2-13 is connected with the middle end rotary column I2-12 in a sliding way in a matching way, a middle end rotary column II 2-15 is connected with a middle end rotary column I2-12 in a rotating way, a middle end rotor II 2-16 is connected with the middle end rotary column II 2-15 in a sliding way in a matching way, a middle end rotor I2-13 is connected with a driving sliding frame I2-10 in a rotating way, a middle end rotor II 2-16 is connected with a driving sliding frame II 2-11 in a rotating way, a clamp I2-18 is connected with the driving sliding frame I2-10 in a sliding way, a clamp push spring I2-19 is arranged between the two clamps I2-18, and a clamp II 2-20 is, the second clamp push spring 2-21 is arranged between the second two clamps 2-20, the middle-end clamping groove 2-17 is arranged on the middle-end support 2-6, the first two clamps 2-18 and the second two clamps 2-20 are matched and connected with the middle-end clamping groove 2-17, the input motor 3 is fixedly connected with the middle-end rotary post 2-15, the input motor 3 is fixedly connected with the power bottom plate 2-1, the first clutch lever 2-2 is fixedly connected with the first conical tooth 1-6, and the power bottom plate 2-1 is fixedly connected with the base 1-5;

the input motor 3 is started, the middle rotating post 2-15 is driven to rotate by the input motor 3, the middle rotating post 2-16 is driven to rotate by the middle rotating post 2-15, the friction disc 2-7 and the friction disc 2-9 are driven to rotate simultaneously by the middle rotating post 2-16, the middle rotating post 2-13 is driven to rotate by the friction disc 2-7 and the friction disc 2-9, the middle rotating post 2-12 is driven to rotate by the middle rotating post 2-12, the clutch slide bar 2-4 is driven to rotate by the middle rotating post 2-12, the clutch slide bar 2-3 is driven to rotate by the clutch slide bar 2-4, and the clutch bar 2-2 is driven to rotate by the clutch bar 2-3, thereby facilitating power output;

and meanwhile, the friction discs I2-7 and the friction discs II 2-9 are tightly attached to the middle end rotors I2-13 and the middle end rotors II 2-16 through the action of the friction disc I2-8 and the friction disc II 2-14 on the friction discs I2-7 and the friction discs II 2-9, so that the middle end rotors I2-13 and the middle end rotors II 2-16 are prevented from slipping between the friction discs I2-7 and the friction discs II 2-9.

The second embodiment is as follows:

the first embodiment will be described with reference to fig. 1 to 11, and the first embodiment will be further described, in which the first conveyor belts 1 to 21 and the second conveyor belts 1 to 22 have the same shape and the same specification.

The third concrete implementation mode:

the first embodiment will be described with reference to fig. 1 to 11, and the first embodiment will be further described with reference to the first embodiment, in which the first friction discs 2 to 7 and the second friction discs 2 to 9 are coaxially arranged.

The invention relates to coal carrying equipment, which has the working principle that:

when in use, the input motor 3 is started, the middle rotating column II 2-15 is driven to rotate by the input motor 3, the middle rotating column II 2-15 is driven to rotate, the middle rotor II 2-16 is driven to rotate by the middle rotor II 2-16, the friction disc I2-7 and the friction disc II 2-9 are driven to rotate simultaneously by the middle rotor II 2-16, the middle rotor I2-13 is driven to rotate by the friction disc I2-7 and the friction disc II 2-9, the middle rotating column I2-12 is driven to rotate by the middle rotor I2-13, the clutch slide bar 2-4 is driven to rotate by the middle rotating column I2-12, the clutch slide bar II 2-3 is driven to rotate by the clutch slide bar 2-4, and the clutch bar I2-2 is driven to rotate by the clutch slide bar II 2-3, further conveniently outputting power, simultaneously, rotating the clutch rod I2-2 to further drive the bevel gear I1-6 to rotate, placing the coal material fragments to be carried on the conveyor belt I1-21 and the conveyor belt II 1-22, driving the conical rollers II 1-16 and the conical rollers I1-15 to slide downwards under the action of the gravity of the coal material fragments, driving the driving sliding column I1-17 to move through the conical rollers II 1-16, further driving the push rod 1-8 to move through the driving sliding column I1-17, further driving the bevel gear shaft A to move through the push rod 1-8, further driving the bevel gear II 1-7 to be meshed with the bevel gear I1-6 and the bevel gear 1-47 of the matching belt wheel through the bevel gear shaft A to drive the bevel gear I1-6 to rotate, further driving the bevel gear I1-47 of the matching belt wheel to rotate through the bevel gear II 1-7, and then the conical rollers 1-47 of the belt wheel are matched to drive the conical rollers 1-43 to rotate, the conical rollers 1-43 drive the conveyer belts 1-22 to move, meanwhile, the conical rollers 1-43 rotate, the conical rollers four 1-44 are driven to rotate, the conical rollers four 1-44 drive the conveyer belts 1-21 to move, the conveyer belts 1-21 and the conveyer belts two 1-22 move, the transportation of the coal fragments is realized, meanwhile, in order to adapt to the deformation of the conveyer belts two 1-22 and the conveyer belts one 1-21 under the action of the gravity of the coal blocks, the displacement between the base plates one 1-1 and the base plates two 1-3 is generated through the relative sliding between the conical rollers four 1-44 and the conical rollers three 1-43, and further, the deformation of the two conveying belts 1-22 and the one conveying belts 1-21 under the action of the gravity of the coal blocks is subjected to displacement release by the displacement generated between the first base plate 1-1 and the second base plate 1-3, so that the stability of the device in operation is improved, when no coal blocks exist on the two conveying belts 1-22 and the first conveying belts 1-21, the sliding columns 1-17 move upwards under the pushing of the first pushing springs 1-18, further, the transmission relation disclosed above is realized, further, the second conical teeth 1-7 are separated from the first conical teeth 1-6, further, the load of the input motor 3 is reduced, further, the energy-saving effect is realized, and meanwhile, the first middle-end rotor 2-13 and the second middle-end rotor 2-11 are respectively driven by the first driving carriage 2-10 and the second driving carriage 2-11 along the middle-end support 2-6, and further, the first middle-end rotor 2-13 and the second middle-end rotor 2-11 are respectively driven by the 16 on the middle end rotating column I2-12 and the middle end rotating column II 2-15, so that the use positions of the middle end rotor I2-13 and the middle end rotor II 2-16 between the friction disc I2-7 and the friction disc II 2-9 are changed, and further, the rotating speed output by the clutch rod I2-2 is changed through the disclosed transmission relation, and further, the carrying speed of the coal blocks by the conveying belt II 1-22 and the conveying belt I1-21 is changed; and meanwhile, the friction discs I2-7 and the friction discs II 2-9 are tightly attached to the middle end rotors I2-13 and the middle end rotors II 2-16 through the action of the friction disc I2-8 and the friction disc II 2-14 on the friction discs I2-7 and the friction discs II 2-9, so that the middle end rotors I2-13 and the middle end rotors II 2-16 are prevented from slipping between the friction discs I2-7 and the friction discs II 2-9.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (3)

1. The utility model provides a coal material carrying equipment, includes carrying subassembly (1), power component (2), input motor (3), its characterized in that: the carrying assembly (1) is connected with the power assembly (2), and the power assembly (2) is connected with the input motor (3);

the carrying assembly (1) comprises a first base plate (1-1), a first sealing cover (1-2), a second base plate (1-3), a second sealing cover (1-4), a base (1-5), a first bevel gear (1-6), a second bevel gear (1-7), a push rod (1-8), a first connecting belt (1-9), a first rectangular slider (1-10), a first connecting belt wheel (1-11), a first inner end sliding column (1-12), a second connecting belt wheel (1-13), a second connecting belt (1-14), a first conical roller (1-15), a second conical roller (1-16), a first driving sliding column (1-17), a first push spring (1-18), a first sliding plate (1-19), a first conveying belt (1-21), a second conveying belt (1-22), A rectangular slider III (1-23), a first matching belt wheel (1-24), a third push spring (1-25), a second matching belt wheel (1-26), a rectangular slider IV (1-27), a fourth push spring (1-28), a second driving strut (1-29), a second push spring (1-30), a fifth push spring (1-31), a first inner end clamping rod (1-32), a first inner end clamping rod push spring (1-33), a first inner end clamping groove (1-34), a second sliding plate (1-35), a second inner end sliding column (1-36), a second rectangular slider (1-37), a sixth push spring (1-38), a third sliding plate (1-39), a second inner end clamping rod (1-40), a second inner end clamping rod push spring (1-41), a second inner end clamping groove (1-42), a third conical roller (1-43), The conical roller four (1-44), the matching belt wheel three (1-45), the matching belt wheel four (1-46) and the matching belt wheel conical teeth (1-47), the base plate one (1-1) is fixedly connected with the sealing cover one (1-2), the sealing cover two (1-4) is fixedly connected with the base plate two (1-3), the base (1-5) is fixedly connected with the base plate two (1-3), the conical tooth two (1-7) is rotatably connected with the conical tooth shaft A, the conical tooth shaft A is slidably connected with the base plate two (1-3), the push rod (1-8) is hinged with the conical tooth shaft A, the push rod (1-8) is hinged with the driving sliding column one (1-17), the driving sliding column one (1-17) is slidably connected with the base plate two (1-3), and the connecting belt one (1-9) is connected with the connecting belt wheel one (1-11), The first matching belt wheel (1-24) and the fourth matching belt wheel (1-46) are connected in a matching way, the first connecting belt wheel (1-11) is rotatably connected with the first rectangular slider (1-10), the first rectangular slider (1-10) is slidably connected with the first inner end sliding column (1-12), the first inner end sliding column (1-12) is fixedly connected with the first sliding plate (1-19), the fifth push spring (1-31) is arranged between the first rectangular slider (1-10) and the first inner end sliding column (1-12), the second connecting belt (1-14) is connected with the second connecting belt wheel (1-13), the second matching belt wheel (1-26) and the third matching belt wheel (1-45), the second connecting belt wheel (1-13) is rotatably connected with the second rectangular slider (1-37), and the second rectangular slider (1-37) is slidably connected with the second inner end sliding column (1-36), a push spring six (1-38) is arranged between the rectangular slider two (1-37) and the inner end sliding column two (1-36), the inner end sliding column two (1-36) is fixedly connected with the sliding plate two (1-35), the inner end clamping rod one (1-32) is connected with the sliding plate one (1-19) in a sliding way, the inner end clamping rod push spring one (1-33) is arranged between the two inner end clamping rods one (1-32), the inner end clamping groove one (1-34) is arranged on the bottom plate two (1-3), the inner end clamping rod one (1-32) is connected with the inner end clamping groove one (1-34) in a matching way, the inner end clamping rod two (1-40) is connected with the inner end clamping rod two (1-40) in a sliding way, the inner end clamping rod push spring two (1-41) is arranged between the two inner end clamping rod two (1-40), the inner end clamping rod two (1-40) is connected with the inner end clamping groove two (1-42) in a matching way, the inner end clamping groove II (1-42) is arranged on the bottom plate I (1-1), the pushing spring I (1-18) is arranged between the driving sliding column I (1-17) and the bottom plate II (1-3), the conical roller II (1-16) is rotationally connected with the driving sliding column I (1-17), the other conical roller II (1-16) is rotationally connected with the bottom plate II (1-3), the driving sliding column II (1-29) is slidably connected with the bottom plate I (1-1), the pushing spring II (1-30) is arranged between the driving sliding column II (1-29) and the bottom plate I (1-1), the conical roller I (1-15) is rotationally connected with the driving sliding column II (1-29), the other conical roller I (1-15) is rotationally connected with the bottom plate I (1-1), the conical roller III (1-43) is fixedly connected with the belt wheel IV (1-46), the matching belt wheel IV (1-46) is rotationally connected with the bottom plate II (1-3), the conical roller IV (1-44) is fixedly connected with the matching belt wheel III (1-45), the matching belt wheel III (1-45) is rotationally connected with the bottom plate I (1-1), the conveyer belt I (1-21) is connected between the conical roller II (1-16) and the conical roller IV (1-44) in a matching way, the conveyer belt II (1-22) is connected between the conical roller III (1-43) and the conical roller I (1-15) in a matching way, the conical roller III (1-43) is connected with the conical roller IV (1-44) in a sliding way, and the matching belt wheel conical teeth (1-47) are fixedly connected with the matching belt wheel IV (1-46);

the power assembly (2) comprises a power bottom plate (2-1), a first clutch rod (2-2), a second clutch rod (2-3), a clutch slide rod (2-4), a clutch push spring (2-5), a middle end support (2-6), a first friction disc (2-7), a first friction disc push spring (2-8), a second friction disc (2-9), a first driving sliding frame (2-10), a second driving sliding frame (2-11), a first middle end rotating column (2-12), a first middle end rotor (2-13), a second friction disc push spring (2-14), a second middle end rotating column (2-15), a second middle end rotor (2-16), a middle end clamping groove (2-17), a first clamp (2-18), a first clamp push spring (2-19), a second clamp (2-20), A clutch rod I (2-2) is rotationally connected with the power bottom plate (2-1), the clutch rod I (2-2) is connected with the clutch rod II (2-3) in a matching way, a clutch sliding rod (2-4) is rotationally connected with the power bottom plate (2-1), the clutch rod II (2-3) is slidably connected with the clutch sliding rod (2-4), a clutch push spring (2-5) is connected with the clutch sliding rod (2-4) in a sleeved way, the clutch push spring (2-5) is arranged between the power bottom plate (2-1) and the clutch rod II (2-3), a middle end support (2-6) is fixedly connected with the power bottom plate (2-1), a friction disc I (2-7) is rotationally connected with a middle end support (2-6), and a friction disc push spring I (2-8) is arranged between the friction disc I (2-7) and the middle end support (2-6) A second friction disk (2-9) is rotationally connected with the middle end support (2-6), a second friction disk push spring (2-14) is arranged between the second friction disk (2-9) and the middle end support (2-6), a first drive sliding frame (2-10), a second drive sliding frame (2-11) is slidably connected with the middle end support (2-6), a first middle end rotating column (2-12) is fixedly connected with a clutch sliding rod (2-4), a first middle end rotor (2-13) is slidably connected with the first middle end rotating column (2-12), a second middle end rotating column (2-15) is rotationally connected with the first middle end rotating column (2-12), a second middle end rotor (2-16) is slidably connected with the second middle end rotating column (2-15), and a first middle end rotor (2-13) is rotationally connected with the first drive sliding frame (2-10), a middle-end rotor II (2-16) is rotationally connected with a driving sliding frame II (2-11), a clamp I (2-18) is slidably connected with the driving sliding frame I (2-10), a clamp push spring I (2-19) is arranged between two clamps I (2-18), a clamp II (2-20) is slidably connected with the driving sliding frame II (2-11), a clamp push spring II (2-21) is arranged between the two clamps II (2-20), a middle-end clamping groove (2-17) is arranged on a middle-end bracket (2-6), the clamp I (2-18) and the clamp II (2-20) are matched and connected with the middle-end clamping groove (2-17), an input motor (3) is fixedly connected with the middle-end rotating column II (2-15), the input motor (3) is fixedly connected with a power bottom plate (2-1), the clutch rod I (2-2) is fixedly connected with the bevel gear I (1-6), and the power bottom plate (2-1) is fixedly connected with the base (1-5).

2. A coal carrying facility as claimed in claim 1, wherein: the shape and the specification of the first conveyer belt (1-21) and the second conveyer belt (1-22) are the same.

3. A coal carrying facility as claimed in claim 1, wherein: the first friction disk (2-7) and the second friction disk (2-9) are coaxially arranged.

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