CN108837891B

CN108837891B - Continuous dry ball mill with ultrahigh filling rate

Info

Publication number: CN108837891B
Application number: CN201810760990.7A
Authority: CN
Inventors: 梁杏辉
Original assignee: Dongyang Xingjinian Industry And Trade Co Ltd
Current assignee: Dongyang xingjinian industry and Trade Co., Ltd
Priority date: 2018-07-12
Filing date: 2018-07-12
Publication date: 2020-08-11
Anticipated expiration: 2038-07-12
Also published as: CN108837891A

Abstract

The invention discloses an ultrahigh filling rate continuous dry ball mill, which structurally comprises: the intelligent movable control grinding ball device comprises an intelligent movable control grinding ball device, a controller, a device shell, a joint frame, a feeding pipe, a support frame, a fixed base and a movable plate, wherein the movable plate is positioned on the upper side surface of the fixed base and is fixedly connected with the fixed base to form an integrated structure, the device shell is arranged on the upper side surface of the fixed base, the device shell and the fixed base are combined to form the integrated structure in a welding mode, the support frame is arranged on the left side end surface of the device shell, the support frame and the device shell are matched and connected together, the feeding pipe is perpendicular to the upper side surface of the support frame, the joint frame is arranged on the front end surface of the feeding pipe, the feeding pipe and the device shell are matched and, simultaneously can make the ball mill can fix the raw materials and carry out the running-in respectively to reach the purpose that makes the device intelligent more that can.

Description

Continuous dry ball mill with ultrahigh filling rate

Technical Field

The invention relates to the field of ball mills, in particular to a continuous dry-process ball mill with an ultrahigh filling rate.

Background

The ball mill is the key equipment for crushing the materials after the materials are crushed. It is widely used in cement, silicate products, new building material 52555, refractory material, chemical fertilizer, black and non-ferrous metal ore dressing and glass ceramic production industries, and can be used for dry or wet grinding of various ores and other grindable materials. The ball mill is suitable for grinding various ores and other materials, is widely used in the industries of mineral separation, building materials, chemical industry and the like, and can be divided into a dry type ore grinding mode and a wet type ore grinding mode. According to different ore discharge modes, the method can be divided into a lattice type and an overflow type.

The ball mill is the key equipment for crushing the materials after the materials are crushed.

The ball mill is one of high-fine grinding machines widely used in industrial production, has a plurality of types,

such as a tube ball mill, a rod ball mill, a cement ball mill, an ultra-fine lamination mill, a hand ball mill, a horizontal ball mill,

ball mill bush, energy-saving ball mill, overflow ball mill, ceramic ball mill and lattice ball mill

The ball mill is suitable for grinding various ores and other materials, is widely used in the industries of mineral separation, building materials, chemical industry and the like, and can be divided into a dry type ore grinding mode and a wet type ore grinding mode. According to different ore discharge modes, the method can be divided into a lattice type and an overflow type. The ball mill can be divided into a short-cylinder ball mill, a long-cylinder ball mill, a tube mill and a cone mill according to the shape of the cylinder.

But the ball mill of prior art can't make the device can classify equipment when carrying out work and export the raw materials, can't make the ball mill can fix the raw materials and grind in respectively simultaneously to can't make the device intelligent more that.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the continuous dry ball mill with ultrahigh filling rate has the structure as follows: an intelligent movable control grinding ball device, a controller, a device shell, a joint frame, a first feeding pipe, a supporting frame, a fixed base and a movable plate, the movable plate is positioned on the upper side surface of the fixed base and is fixedly connected with the fixed base to form an integrated structure, the device shell is arranged on the upper side surface of the fixed base, the device shell and the fixed base are jointed into an integrated structure in a welding mode, the supporting frame is arranged on the left end face of the device shell and is connected together in a matching way, the first feeding pipe is vertical to the upper side surface of the supporting frame and is communicated and connected into an integrated structure, the joint frame is arranged on the front end surface of the first feeding pipe, the two are in fit connection with each other and are simultaneously in through connection with the first feeding pipe, the intelligent activity control grinding ball device is arranged on the inner side surface of the device shell, and the two devices are assembled into an integrated structure in a welding mode, the controller is positioned on the upper side surface of the intelligent movable control grinding ball device, and the controller and the upper side surface of the intelligent movable control grinding ball device are combined into an integrated structure in a matching mode;

the intelligent movable control grinding ball device is provided with a power limiting device, a movable output device, a movable jacking device, a power output device, a first power adjusting device, a matching jacking device and a second power adjusting device; the power limiting device is located in the equipment and is simultaneously connected with the equipment into an integrated structure in a welding mode, the movable output device wraps the power limiting device and is in fit connection with the outer side surface of the power limiting device, the movable ejection device is located on the rear side surface of the movable output device and is fixedly connected with the rear side surface of the movable ejection device, the second power adjusting device is located on the upper side surface of the movable ejection device and is mechanically connected with the upper side surface of the movable ejection device, the rear side surface of the matched ejection device is perpendicular to the second power adjusting device and is fixedly connected with the second power adjusting device, the first power adjusting device is located on the front surface of the matched ejection device and is connected with the front surface of the matched ejection device in a matching mode, and the power output device is located on the lower side surface of.

As a further optimization of the technical scheme, the power limiting device is provided with a cam frame, a sliding rod, a hook frame, a ratchet shaft, a hinge rod, a fluted disc, a sliding groove frame, a matching wheel and a rack, wherein the sliding rod is positioned on the front surface of the cam frame and is hinged with the cam frame to form an integrated structure, the sliding rod is embedded into the inner side surface of the sliding groove frame and is connected with the inner side surface of the sliding groove frame in a clearance fit manner, the hook frame is arranged on the upper side and the lower side of the outer side surface of the sliding rod in parallel, the ratchet shaft is arranged on the inner side surface of the hook frame and is connected with the inner side surface of the hook frame in a clamping manner, the hinge rod is arranged on the outer side surface of the ratchet shaft and is fixedly connected with the ratchet shaft, the fluted disc is positioned on the lower end surface of the hinge rod and is connected with the hinge rod in a clearance fit manner, the rack is engaged and connected with the outer side surface of the matching wheel, and the rack is fixedly connected with the movable output device above to form an integrated structure.

As a further optimization of the technical proposal, the movable output device is provided with a coiled pipe, a second feeding pipe, a movable frame, a movable block, a matching frame, a first fixed block, a curved frame, a bracket and a limit block, the coiled pipe is positioned on the lower end surface of the second feeding pipe and is communicated with the lower end surface of the second feeding pipe to form an integrated structure, the movable frame is movably connected with the front end surface of the coiled pipe, the curved frame is arranged at one end of the bracket and the bracket are movably matched and connected together, the bracket is positioned on the rear side surface of the curved frame and the bracket are jointed together in a hinge connection way, the matching frame is arranged on the inner end surface of the bracket and the inner end surface of the bracket are jointed into an integrated structure in a hinging way, the movable block is located the inboard surface both movable fit of cooperation frame and is connected, first fixed block fixed mounting is connected at the downside surface both cooperation of movable block, the movable frame is with rack fixed connection of below.

As a further optimization of the technical scheme, the movable jacking device is provided with an electric connection terminal, a connection wire, an electromagnetic frame, a displacement frame, an electromagnet, a driving shaft, a lifting frame and an auxiliary rod, wherein the driving shaft is positioned on the inner side surface of the lifting frame and is meshed with the lifting frame to form an integrated structure, the electric connection terminal is positioned on the upper side surface of the connection wire and is electrically connected with the upper side surface of the lifting frame, the auxiliary rod is positioned on the front side surface and the rear side surface of the lifting frame and is connected together in a matching manner, the electromagnet is fixedly connected with the front end surface of the auxiliary rod to form the integrated structure, the connection wire is embedded into the outer side surface of the electromagnet and.

As the further optimization of this technical scheme, power take-off is equipped with motor frame, second fixed block, output wheel, transmission rope, well runner, drive lever, the inboard surface of drive lever embedding motor frame adopts clearance fit to joint together with the motor frame, both fixed engagements of left and right sides surface that the second fixed block is located the motor frame are in the same place, both swing joint of up end that the output wheel is located the drive lever are in the same place, the outside surface coating of output wheel has the transmission rope, the transmission rope is in the same place with well runner fixed connection of top, the transmission rope is in the same place with the first power adjusting device cooperation of top.

As the further optimization of this technical scheme, first power adjusting device is equipped with and rotates wheel, installation piece, belt, poker rod, crank, cooperation seat, articulate upside surface is equipped with poker rod both and constitutes integrated structure through welded mode, both swing joint are in the same place at the upside surface of poker rod to cooperation seat installation, both cooperations of downside surface that the belt is wrapping up the cooperation seat are linked together, both adopt clearance fit to link together simultaneously outside surface that the belt is located the rotation wheel, both agrees with to link together rotating the downside surface that the wheel is located the installation piece, the transmission rope swing joint of crank and below is in the same place.

As a further optimization of the technical scheme, the matching jacking device is provided with a jacking plate, a rotating seat, a support rod, a mounting rack, a driving wheel, a tooth groove, a toothed sheave and a matching rod, wherein the support rod is arranged on the rear side surface of the jacking plate, the rear side surface of the jacking plate and the rear side surface of the support rod are movably welded to form an integrated structure, the rotating seat is arranged on the outer side surface of the support rod and is movably connected with the support rod, the toothed sheave is arranged on the lower end surface of the support rod, the toothed sheave is arranged on the upper surface of the mounting rack and is mechanically connected with the upper surface of the mounting rack, the tooth groove is arranged in the central part of the front surface of the mounting rack and is fixedly connected with the front surface of the driving wheel, the matching rod is arranged on the outer side surface of the rotating.

As a further optimization of the technical scheme, the second power adjusting device is provided with a double-end motor, a limiting frame, a lower pressing rod, a rotating wheel, a bevel gear, a mounting seat, an electric wire and a switch, the electric wire is fixedly connected with both the upper side surfaces of the double-end motor, the switch is arranged on both the front end surfaces of the electric wire and electrically connected with each other, the bevel gear is arranged on both the right side surfaces of the double-end motor and fixedly welded into an integrated structure, the rotating wheel is arranged on both the lower side surfaces of the bevel gear and meshed together, the mounting seat is arranged on both the lower side surfaces of the rotating wheel and movably connected with each other, the limiting frame is fixedly connected with the front surface of the rotating wheel, the lower pressing rod is arranged on both the front surface of the limiting frame and.

Advantageous effects

When the ultrahigh filling rate continuous dry ball mill is used, after the equipment is connected with an external power supply in advance, the electrified motor frame 141 is electrified to rotate the front driving rod 146 by an electromagnetic induction principle, the power of the driving rod 146 is output by the output wheel 143, the equipment starts to operate, then raw materials are put into the equipment through the second feeding pipe 122, the inner coiled pipe 121 can increase the volume of the inner part, the inner raw materials can be fed into the equipment for processing by potential energy, and meanwhile, the rotation of the lower cam frame 111 enables the sliding rod 112 to displace back and forth in the sliding groove frame 117 to push the hook frame 113 to clamp the front ratchet shaft 114 so that the ratchet shaft 114 rotates, the rotating ratchet shaft 114 is clamped on the fluted disc 116 by the hinge rod 115 to be matched with the wheel 118, so that the rack 119 can effectively move the upper movable frame 123 to enter the equipment The opening and closing movement then controls the amount of raw material entering the inside of the equipment, and then when the raw material enters the inside of the equipment, the front power enables the crank 155 to rotate, the poking rod 154 enables the upper matching seat 156 to output power through the lower motor frame 141, then the raw material on the clamp inside the equipment is in running-in with the equipment in rotation, meanwhile, the matching seat 156 can drive the front driving wheel 165 to rotate, the tooth groove 166 rotates to drive the front tooth groove 166 to rotate, the tooth groove wheel 167 rotates to clamp the upper support rod 163 to lift and push the front pushing plate 161 through limiting, the pushing plate 161 opens and closes the switch 178, after the switch 178 is engaged, the wire 177 can be connected with the double-headed motor 171, the next stage of power transmission can be performed through the double-headed motor 171, the telescopic frame 137 can be expanded and contracted back through the driving shaft 136, meanwhile, the telescopic frame 137 can press the front connecting wire 132 and can connect the lower electromagnet 132 135, and the upper loose movable block 124 is pressed down and the limited block 129 is fixed, so that the upper matching frame 125 and the curved frame 127 press the raw materials, and then the running-in work is carried out.

Based on the prior art, the device can classify equipment to output raw materials when the device works, and can fix the raw materials to be respectively ground by the ball mill, so that the device can be more intelligent.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of an ultra-high filling rate continuous dry ball mill according to the present invention.

FIG. 2 is a schematic diagram of the mechanism of the ultra-high filling rate continuous dry ball mill of the present invention.

FIG. 3 is a schematic diagram of the mechanism of the ultra-high filling rate continuous dry ball mill of the present invention.

FIG. 4 is a first schematic diagram of the ultra-high packing rate continuous dry ball mill of the present invention.

FIG. 5 is a second schematic diagram of the ultra-high packing rate continuous dry ball mill according to the present invention.

FIG. 6 is an enlarged view of the structure A in FIG. 4 according to the present invention.

In the figure: an intelligent movable control grinding ball device-1, a controller-2, a device shell-3, a joint frame-4, a first feeding pipe-5, a support frame-6, a fixed base-7, a movable plate-8, a power limiting device-11, a movable output device-12, a movable jacking device-13, a power output device-14, a first power adjusting device-15, a matching jacking device-16, a second power adjusting device-17, a cam frame-111, a sliding rod-112, a clamping hook frame-113, a ratchet shaft-114, a hinge rod-115, a fluted disc-116, a sliding groove frame-117, a matching wheel-118, a rack-119, a serpentine pipe-121, a second feeding pipe-122, a movable frame-123, a movable block-124, a connecting rod-14, a first feeding pipe-5, a support frame-6, a fixed base-7, A matching frame-125, a first fixed block-126, a curved frame-127, a bracket-128, a limited block-129, an electric terminal-131, a connecting wire-132, an electromagnetic frame-133, a displacement frame-134, an electromagnet-135, a driving shaft-136, a lifting frame-137, an auxiliary rod-138, a motor frame-141, a second fixed block-142, an output wheel-143, a transmission rope-144, a middle rotating wheel-145, a driving rod-146, a rotating wheel-151, a mounting block-152, a belt-153, a poking rod-154, a crank-155, a matching seat-156, a pushing plate-161, a rotating seat-162, a bracket rod-163, a mounting frame-164, a driving wheel-165, a tooth groove-166, a tooth groove wheel-167, A matching rod-168, a double-head motor-171, a limiting frame-172, a lower pressing rod-173, a rotating wheel-174, a bevel gear-175, a mounting seat-176, an electric wire-177 and a switch-178.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1 to 5, the present invention provides an ultra-high packing rate continuous dry ball mill, which comprises: the intelligent movable control grinding ball device comprises an intelligent movable control grinding ball device 1, a controller 2, a device shell 3, a joint frame 4, a first feeding pipe 5, a support frame 6, a fixed base 7 and a movable plate 8, wherein the movable plate 8 is positioned on the upper side surface of the fixed base 7 and is fixedly connected with the fixed base 7 into an integrated structure, the device shell 3 is arranged on the upper side surface of the fixed base 7, the two are jointed into the integrated structure in a welding mode, the support frame 6 is arranged on the left side end surface of the device shell 3, the two are matched and connected together, the first feeding pipe 5 is vertical to the upper side surface of the support frame 6, the two are communicated and connected into the integrated structure, the joint frame 4 is arranged on the front end surface of the first feeding pipe 5, the two are matched and connected together and are communicated with the integrated structure, the intelligent movable control grinding ball device 1, the controller 2 is positioned on the upper side surface of the intelligent activity control grinding ball device 1, and the two parts are combined into an integrated structure in a fit mode;

the intelligent motion control grinding ball device 1 is provided with a power limiting device 11, a motion output device 12, a motion jacking device 13, a power output device 14, a first power adjusting device 15, a matching jacking device 16 and a second power adjusting device 17;

the power limiting device 11 is located inside the equipment and is jointed with the equipment into an integrated structure in a welding mode, the movable output device 12 wraps the outer side surfaces of the power limiting device 12 and is in fit connection with the outer side surfaces of the movable output device 12, the movable jacking device 13 is arranged on the rear side surface of the movable output device 12 and is fixedly connected with the rear side surface of the movable output device, the second power adjusting device 17 is located on the upper side surface of the movable jacking device 13 and is in mechanical connection with the upper side surface of the movable jacking device, the matched jacking device 16 is perpendicular to the rear side surface of the second power adjusting device 17 and is fixedly connected with the second power adjusting device 17, the first power adjusting device 15 is located on the front surface of the matched jacking device 16 and is in fit connection with the first power adjusting device 15, the power output device 14 is arranged on the lower side surface of the first power adjusting device 15 and is in fit connection with the first, The sliding rod 112 is positioned on the front surface of the cam frame 111 and is hinged with the cam frame 111 to form an integrated structure, the sliding rod 112 is embedded into the inner side surface of the sliding groove frame 117 and is connected in a clearance fit manner, the hook frame 113 is arranged on the upper side surface and the lower side surface of the outer side surface of the sliding rod 112 in parallel, the ratchet shaft 114 is arranged on the inner side surface of the hook frame 113 and is connected in a clamping manner, the hinge rod 115 is arranged on the outer side surface of the ratchet shaft 114 and is fixedly connected with the hinge rod, the fluted disc 116 is positioned on the lower end surface of the hinge rod 115 and is connected with the hinge rod 115 in a clearance fit manner, the matching wheel 118 is arranged on the outer side surface of the fluted disc 116 and is connected with the fluted disc 116 in a meshing manner to form an integrated structure, and the matching wheel 118 is arranged on the outer side surface of the fluted disc 116, the rack 119 is engaged and connected with the outer side surface of the matching wheel 118 perpendicularly, the rack 119 is fixedly connected with the upper movable output device 12 to form an integrated structure, the movable output device 12 is provided with a coiled pipe 121, a second feeding pipe 122, a movable frame 123, a movable block 124, a matching frame 125, a first fixed block 126, a curved frame 127, a support 128 and a limit block 129, the coiled pipe 121 is positioned on the lower end surface of the second feeding pipe 122 and is connected into an integrated structure in a penetrating way, the movable frame 123 is arranged on the front end surface of the coiled pipe 121 and is movably connected with the same, the curved frame 127 is arranged on one end of the support 128 and is movably connected with the same in a matching way, the support 128 is positioned on the rear side surface of the curved frame 127 and is connected together in a hinge way, the matching frame 125 is arranged on the inner end surface of the support 128 and is connected into an integrated structure in a hinge, the movable block 124 is movably connected with the inner side surface of the matching frame 125 in a matching way, the first fixed block 126 is fixedly arranged on the lower side surface of the movable block 124 in a matching way, the movable frame 123 is fixedly connected with the rack 119 below, the movable jacking device 13 is provided with an electric connection terminal 131, a connection electric wire 132, an electromagnetic frame 133, a displacement frame 134, an electromagnet 135, an driving shaft 136, an elevating frame 137 and an auxiliary rod 138, the driving shaft 136 is positioned on the inner side surface of the elevating frame 137 and is meshed with the elevating frame 137 to form an integrated structure, the electric connection terminal 131 is positioned on the upper side surface of the connection electric wire 132 and is electrically connected with the two side surfaces of the auxiliary rod 138 positioned on the front side surface and the rear side surface of the elevating frame 137 in a matching way, the electromagnet 135 is fixedly connected with the two end surfaces of the auxiliary rod 138 to form an integrated structure, the displacement frame 134 is located at the front end face of the electromagnet 135 and welded together, the power output device 14 is provided with a motor frame 141, a second fixed block 142, an output wheel 143, a transmission rope 144, a transfer wheel 145 and a drive rod 146, the drive rod 146 is embedded into the inner side surface of the motor frame 141 and is jointed with the motor frame 141 in a clearance fit manner, the second fixed block 142 is located at the left side surface and the right side surface of the motor frame 141 and is fixedly jointed together, the output wheel 143 is located at the upper end face of the drive rod 146 and is movably connected together, the outer side surface of the output wheel 143 is wrapped with the transmission rope 144, the transmission rope 144 is fixedly connected with the transfer wheel 145 above, the transmission rope 144 is connected with the first power adjusting device 15 above in a fit manner, and the first power adjusting device 15 is provided with a rotating wheel 151, an installation block 152, a belt 153, a poking rod 154, The lifting device comprises a crank 155 and a matching seat 156, wherein the upper side surface of the crank 155 is provided with a poking rod 154, the poking rod 154 and the matching seat 156 form an integrated structure in a welding mode, the matching seat 156 is arranged on the upper side surface of the poking rod 154 and is movably connected together, a belt 153 wraps the lower side surface of the matching seat 156 and is connected together in a matching mode, the belt 153 is arranged on the outer side surface of a rotating wheel 151 and is connected together in a clearance fit mode, the rotating wheel 151 is arranged on the lower side surface of an installation block 152 and is connected together in a matching mode, the crank 155 is movably connected with a transmission rope 144 below, the matching jacking device 16 is provided with a jacking plate 161, a rotating seat 162, a support rod 163, an installation frame 164, a driving wheel 165, a tooth groove 166, a tooth groove wheel 167 and a matching rod 168, the support rod 163 is, the rotating base 162 is installed on the outer side surface of the support rod 163 and movably connected with the support rod 163, the toothed wheel 167 is installed on the lower end surface of the support rod 163 and is fittingly connected with the lower end surface of the support rod 163, the toothed wheel 167 is installed on the upper surface of the mounting frame 164 and is mechanically connected with the upper surface of the mounting frame 164, the toothed groove 166 is arranged in the center of the front surface of the mounting frame 164 and is fixedly connected with the lower end surface of the mounting frame 164, the driving wheel 165 penetrates through the front surface of the mounting frame 164 and is fixedly connected with the upper surface of the rotating base 162, the engaging rod 168 is installed on the outer side surface of the rotating base 162 and is mechanically connected with the upper end surface of the pushing plate 161 and is movably connected with the second power adjusting device 17 in front, the second power adjusting device 17 is provided with a double-head motor 171, a limiting frame 172, a, the switch 178 is disposed on the front end face of the electric wire 177 and electrically connected to the front end face of the electric wire 177, the bevel gear 175 is disposed on the right side surface of the double-headed motor 171 and fixedly welded to form an integrated structure, the rotating wheel 174 is disposed on the lower side surface of the bevel gear 175 and engaged with the bevel gear 175, the mounting seat 176 is disposed on the lower side surface of the rotating wheel 174 and movably connected to the rotating wheel, the limiting frame 172 is fixedly joined to the front surface of the rotating wheel 174, the lower pressing rod 173 is disposed on the front surface of the limiting frame 172 and welded to form an integrated structure, and the switch 178 is movably connected.

The principle of the invention is as follows: when the device is used, after the device is connected with an external power supply in advance, the powered motor frame 141 is powered on to rotate the front driving rod 146 by the electromagnetic induction principle, the power of the driving rod 146 is output by the output wheel 143, the device starts to operate, then the raw material is put into the device through the second feeding pipe 122, the inner coiled pipe 121 can increase the volume of the inner part, the inner raw material can be fed into the device for processing by potential energy, and meanwhile, the rotation of the lower cam frame 111 enables the sliding rod 112 to displace back and forth in the sliding groove frame 117 to push the front ratchet shaft 114 to clamp the hook frame 113 to enable the ratchet shaft 114 to rotate, the rotating ratchet shaft 114 clamps the wheel 118 on the toothed disc 116 through the hinge rod 115 to enable the rack 119 to effectively perform the opening and closing movement by the upper movable frame 123, and then the movement is controlled to enter the device When the raw material amount is then input, the front power rotates the crank 155 to drive the upper matching base 156 to drive the power output by the lower motor frame 141 through the poking rod 154, then the raw material on the internal clamp of the equipment is rotationally run-in with the equipment, the front driving wheel 165 can be driven to rotate through the matching base 156, the tooth socket 166 is driven to rotate to drive the front tooth socket 166 to rotate to drive the upper support rod 163 to lift and lift the front top plate 161 through limiting, the switch 178 is switched on and off through the top plate 161, after the switch 178 is switched on, the electric wire 177 is switched on the double-end motor 171 to drive the next section of power transmission through the double-end motor 171, the telescopic frame 137 is driven to extend and retract back through the driving shaft 136, the telescopic frame 137 can press the front connecting wire 132 and the connecting wire 132 can drive the front electromagnetic frame 133 through the attraction force generated by electrifying the lower electromagnet 135 And the upper loose movable block 124 is pressed down and the limited block 129 is fixed, so that the upper matching frame 125 and the curved frame 127 press the raw materials, and then the running-in work is carried out.

The power output device 14 according to the present invention refers to a mechanical device in a mechanical apparatus that provides kinetic energy for the operation of the apparatus.

The ball mill can classify the equipment to output the raw materials when the ball mill works, and can fix the raw materials to be respectively milled, so that the device can not be more intelligent.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The continuous dry ball mill with ultrahigh filling rate has the structure as follows: the intelligent movable control grinding ball device (1), the controller (2), the device shell (3), the joint frame (4), the first feeding pipe (5), the support frame (6), the fixed base (7) and the movable plate (8), wherein the movable plate (8) is positioned on the upper side surface of the fixed base (7) and is fixedly connected with the fixed base (7) to form an integrated structure, the device shell (3) is arranged on the upper side surface of the fixed base (7), the two are combined to form the integrated structure in a welding mode, the support frame (6) is arranged on the left side end surface of the device shell (3), the two are matched and connected together, the first feeding pipe (5) is vertical to the upper side surface of the support frame (6), the two are communicated and connected to form the integrated structure, the joint frame (4) is arranged on the front end surface of the first feeding pipe (5), and is matched and connected with the two, the method is characterized in that:

the intelligent activity control grinding ball device (1) is arranged on the inner side surface of the device shell (3), and the two are assembled into an integrated structure in a welding mode, and the controller (2) is positioned on the upper side surface of the intelligent activity control grinding ball device (1) and is combined into the integrated structure in a fitting mode;

the intelligent motion control grinding ball device (1) is provided with a power limiting device (11), a motion output device (12), a motion ejecting device (13), a power output device (14), a first power adjusting device (15), a matching ejecting device (16) and a second power adjusting device (17);

the power limiting device (11) is positioned in the equipment and is jointed with the equipment into an integrated structure in a welding mode, the movable output device (12) wraps the outer side surfaces of the power limiting device (11) and is in fit connection with the outer side surfaces of the power limiting device (11), the movable jacking device (13) is arranged on the rear side surfaces of the movable output device (12) and is fixedly connected with the rear side surfaces of the movable output device, the second power adjusting device (17) is positioned on the upper side surfaces of the movable jacking device (13) and is in mechanical connection with the upper side surfaces of the movable jacking device (13), the matched jacking device (16) is perpendicular to the rear side surfaces of the second power adjusting device (17) and is fixedly connected with the second power adjusting device (17), the first power adjusting device (15) is positioned on the front surfaces of the matched jacking device (16) and is in fit connection with the front side surfaces of the matched jacking device (16), and the power output device (14) is arranged on, the power limiting device (11) is provided with a cam frame (111), a sliding rod (112), a clamping hook frame (113), a ratchet shaft (114), a hinge rod (115), a fluted disc (116), a sliding groove frame (117), a matching wheel (118) and a rack (119), the sliding rod (112) is positioned on the front surface of the cam frame (111) and is hinged with the cam frame (111) to form an integrated structure, the sliding rod (112) is embedded into the inner side surface of the sliding groove frame (117) to be connected in a clearance fit manner, the clamping hook frame (113) is vertically and parallelly installed on the upper side surface and the lower side surface of the outer side surface of the sliding rod (112), the ratchet shaft (114) is arranged on the inner side surface of the clamping hook frame (113) to be clamped and connected together, the hinge rod (115) is arranged on the outer side surface of the ratchet shaft (114) and is fixedly connected with the hinge shaft, the fluted disc (116) is positioned on the lower end surface of the hinge rod (115) and is connected with, the matching wheel (118) is arranged on the outer side surface of the fluted disc (116) and is meshed with the fluted disc (116) to form an integrated structure, the matching wheel (118) is arranged on the outer side surface of the fluted disc (116), the rack (119) is perpendicular to the outer side surface of the matching wheel (118) and is meshed together, the rack (119) and the movable output device (12) above are fixedly connected to form the integrated structure, the movable output device (12) is provided with a coiled pipe (121), a second feeding pipe (122), a movable frame (123), a movable block (124), a matching frame (125), a first fixed block (126), a curved frame (127), a support (128) and a limiting block (129), the coiled pipe (121) is positioned on the lower end surface of the second feeding pipe (122) and is communicated to form the integrated structure, the movable frame (123) is arranged on the front end surface of the coiled pipe (121) and is movably connected with the same, the device is characterized in that the curved frame (127) is arranged at one end of the support (128) and movably matched and connected together, the support (128) is positioned on the rear side surface of the curved frame (127), the two sides of the rear side surface of the curved frame (127) are connected together in a hinge connection mode, the matching frame (125) is arranged on the inner end surface of the support (128), the two sides of the inner end surface of the support (128) are connected into an integrated structure in a hinge connection mode, the movable block (124) is positioned on the inner side surface of the matching frame (125) and movably matched and connected with each other, the first fixed block (126) is fixedly arranged on the lower side surface of the movable block (124) and connected with each other in a matching mode, the movable frame (123) is fixedly connected with the rack (119) below, the movable jacking device (13) is provided with an electric terminal (131), a connecting wire (132), an electromagnetic frame (133), a displacement frame, the power output device is characterized in that the driving shaft (136) is located on the inner side surface of the lifting frame (137) and meshed with the lifting frame (137) to form an integrated structure, the electric connection terminal (131) is located on the upper side surface of the connection electric wire (132) and is electrically connected with the upper side surface of the connection electric wire (132), the auxiliary rod (138) is located on the front side surface and the rear side surface of the lifting frame (137) and is connected with the front side surface and the rear side surface in a matched mode, the electromagnet (135) is located on the front end surface of the auxiliary rod (138) and is fixedly connected to form the integrated structure, the connection electric wire (132) is embedded into the outer side surface of the electromagnet (135) in an electrically connected mode, the displacement frame (134) is located on the front end surface of the electromagnet (135) in a welded mode, the power output device (14) is provided with a motor frame (141), a second fixing block (142), an output wheel (143), a transmission The second fixing block (142) is positioned on the left side surface and the right side surface of the motor frame (141), the output wheel (143) is positioned on the upper end surface of the driving rod (146) and is movably connected together, the outer side surface of the output wheel (143) is wrapped by a transmission rope (144), the transmission rope (144) is fixedly connected with a middle rotating wheel (145) above the output wheel, the transmission rope (144) is connected with a first power adjusting device (15) above the output wheel in a matching way, the first power adjusting device (15) is provided with a rotating wheel (151), an installation block (152), a belt (153), a poking rod (154), a crank (155) and a matching seat (156), the upper side surface of the crank (155) is provided with a poking rod (154) and forms an integrated structure in a welding way, the matching seat (156) is arranged on the upper side surface of the poking rod (154) and is movably connected together, the belt (153) wraps the lower side surface of the matching seat (156) and is connected in a matching mode, the belt (153) is located on the outer side surface of the rotating wheel (151) and is connected with the outer side surface of the rotating wheel (151) in a clearance matching mode, the rotating wheel (151) is located on the lower side surface of the mounting block (152) and is connected with the lower side surface of the mounting block in a matching mode, the crank (155) is movably connected with a transmission rope (144) below the crank (155), the matching jacking device (16) is provided with a jacking plate (161), a rotating seat (162), a support rod (163), a mounting frame (164), a driving wheel (165), a tooth groove wheel (166), a tooth groove wheel (167) and a matching rod (168), the support rod (163) is arranged on the rear side surface of the jacking plate (161) and is movably welded into an integrated structure, the rotating seat (162) is mounted on the outer, the gear wheel (167) is arranged on the lower end face of the support rod (163) and is connected with the lower end face of the support rod in a matched mode, the gear wheel (167) is arranged on the upper surface of the mounting frame (164) and is mechanically connected with the upper surface of the mounting frame, the tooth groove (166) is arranged on the center of the front surface of the mounting frame (164) and is fixedly connected with the center of the front surface of the mounting frame, the driving wheel (165) penetrates through the front surface of the mounting frame (164) and is fixedly connected with the front surface of the mounting frame, the matching rod (168) is arranged on the outer side surface of the rotating seat (162) and is mechanically connected with the outer side surface of the rotating seat (162), the jacking plate (161) is movably connected with the second power adjusting device (17) in front, the second power adjusting device (17) is provided with a double-head motor (171), a limiting frame (172), a lower pressing rod (173), a rotating wheel (, the switch (178) is arranged on the front end face of the electric wire (177), the front end face of the electric wire is electrically connected with the front end face of the electric wire, the bevel gear (175) is arranged on the right side surface of the double-head motor (171), the rotating wheel (174) is arranged on the lower side surface of the bevel gear (175), the mounting seat (176) is arranged on the lower side surface of the rotating wheel (174), the limiting frame (172) is fixedly connected with the front surface of the rotating wheel (174), the lower pressing rod (173) is arranged on the front surface of the limiting frame (172), the front surface of the limiting frame (172) is welded into an integrated structure, and the switch (178) is movably connected with the top moving plate (161) on the right side.