CN109696230B - Automatic metering, outputting and determining goods quantity device for mine - Google Patents

Abstract

The invention provides an automatic measuring, outputting and determining cargo capacity device for a mine. The automatic mine metering and output cargo quantity determining device comprises an outer frame; a weighing plate; a weighing spring; a hydraulic lever; a drive rod; a belt; a clockwork spring; an observation tank; the weighing mechanism is fixed on the weighing mechanism protective shell on one side of the observation tank and comprises a fourth weighing dial, a third weighing dial, a second weighing dial, a first weighing dial and a first rotating shaft; statistics mechanism, statistics mechanism is including statistics mechanism protecting crust, fourth statistics calibrated scale, third statistics calibrated scale, dead lever, fifth pivot, first statistics calibrated scale, drive belt and second statistics calibrated scale, first statistics calibrated scale the second statistics calibrated scale the third statistics calibrated scale the fourth statistics calibrated scale with statistics mechanism protecting crust rotates and connects. The automatic mine metering, outputting and cargo quantity determining device provided by the invention adopts pure mechanical weighing and counting, does not depend on electric energy, and is slightly influenced by environmental factors.

Description

Automatic metering, outputting and determining goods quantity device for mine

Technical Field

The invention relates to the technical field of mine output measurement, in particular to an automatic mine measurement and output cargo quantity determination device.

Background

With the rapid development of science and technology and the progress of science and technology, the mining industry is also developed, the mechanization of the mining industry replaces the traditional manual operation, the working efficiency is greatly improved, the statistics of the mining amount and the use of a measuring device of the weight of the mining amount after mining are very important, and the daily average yield and the labor efficiency of mineral substance calculation are convenient.

However, the traditional automatic mine metering and output determining device has high requirement on electric energy in a mine area and is greatly influenced by environmental factors when being applied to various places of the mine area.

Therefore, there is a need for a new automatic mine measuring and output determining device that solves the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a green and environment-friendly automatic mine metering and output goods quantity determining device which is slightly influenced by environmental factors.

In order to solve the technical problem, the invention provides an automatic mine metering, output and cargo quantity determining device, which comprises: an outer frame; the weighing plate is connected with the outer frame in a sliding manner; a plurality of weighing springs are arranged, and the weighing springs are uniformly arranged between the outer frame and the weighing plate; at least four hydraulic rods are arranged and are arranged between the outer frame and the weighing plate; three driving rods are arranged and fixed on the weighing plate; two belts are arranged, and both the two belts are fixed on the driving rod; three spring bars are arranged, and two spring bars are respectively in rotary connection with the belt; the weighing mechanism protective shells are fixed on the outer frame, the number of the weighing mechanism protective shells is two, and the two spring springs are respectively fixed on the two weighing mechanism protective shells; the observation groove is arranged on the weighing mechanism protective shell; the weighing mechanism is fixed on the weighing mechanism protective shell on one side of the observation tank and comprises a fourth weighing dial, a third weighing dial, a second weighing dial, a first weighing dial and a first rotating shaft, the first rotating shaft is rotatably connected with the belt, the first weighing dial, the second weighing dial, the third weighing dial and the fourth weighing dial are fixed on the weighing mechanism protective shell along one side of the direction deviating from the first rotating shaft, and the first weighing dial, the second weighing dial, the third weighing dial and the fourth weighing dial are rotatably connected with the weighing mechanism protective shell; statistical mechanism, statistical mechanism includes statistical mechanism protecting crust, fourth statistics calibrated scale, third statistics calibrated scale, dead lever, fifth pivot, first statistics calibrated scale, drive belt and second statistics calibrated scale, statistical mechanism protecting crust is fixed in outer frame, another the clockwork spring is fixed in statistical mechanism protecting crust, drive belt and another the clockwork spring rotates to be connected, drive belt and another the drive lever is connected, drive belt with the fifth pivot rotates to be connected, the fifth pivot with the dead lever rotates to be connected, the dead lever with statistical mechanism protecting crust sliding connection, first statistics calibrated scale, the second statistics calibrated scale, the third statistics calibrated scale, the fourth statistics calibrated scale is fixed in statistical mechanism protecting crust along deviating from direction one side of the fifth pivot, and the first statistical dial, the second statistical dial, the third statistical dial and the fourth statistical dial are rotationally connected with the protective shell of the statistical mechanism.

Preferably, the bottom end of the outer frame is provided with at least eight fixing seats, the fixing seats are telescopic, and the telescopic length of each fixing seat is 3-6 cm.

Preferably, one of the top ends of the outer frame and the weighing mechanism protective shell is provided with two gradienters, and the other gradienter is fixed on the weighing plate.

Preferably, two inclined plates are arranged at two ends of the outer frame, anti-skid protrusions are arranged on the surfaces of the inclined plates, and the inclined plates are rotatably connected with the outer frame.

Preferably, the weighing mechanism further comprises a fourth gear, a second rotating shaft, two second gears, a third rotating shaft, a third gear and a fourth rotating shaft, an outer tooth socket is arranged at one end of the first rotating shaft, the second gears penetrate through the second gear and the second weighing dial, the second gear is meshed with the first rotating shaft, and the second rotating shaft is rotatably connected with the first rotating shaft through the second gear.

Preferably, the third pivot run through in the third graduated disk of weighing reaches the third gear, the third graduated disk of weighing with the second graduated disk of weighing rotates and connects, the second pivot both ends the second gear respectively with first pivot and third gear engagement, the third gear is equipped with two, another the third gear with fourth gear engagement.

Preferably, the counting mechanism further comprises a seventh gear, an eighth rotating shaft, two eighth gears, two sixth gears, a nut, a sixth rotating shaft and a seventh rotating shaft, wherein an outer tooth socket is arranged at one end of the fifth rotating shaft, the sixth rotating shaft penetrates through the sixth gear and the second counting dial, the sixth gear is meshed with the fifth rotating shaft, the sixth rotating shaft is rotatably connected with the fifth rotating shaft through the sixth gear, the seventh rotating shaft penetrates through the third counting dial and the seventh gear, the third counting dial is rotatably connected with the second counting dial, the sixth gears at two ends of the sixth rotating shaft are respectively meshed with the fifth rotating shaft and the seventh gear, the seventh gears are provided with two seventh gears, the other seventh gear is meshed with the eighth gear, and threads are arranged at the top end of the fixing rod, and the nut is in threaded connection with the fixing rod.

Preferably, the statistics mechanism still includes fixing bolt, the one end of fifth pivot is equipped with outer tooth's socket, the sixth gear is equipped with two, the top of dead lever is the rectangle structure, just fixing bolt run through in statistics mechanism protecting crust extends to the dead lever.

Preferably, the statistical mechanism further comprises a return spring, an outer tooth socket is arranged at one end of the fifth rotating shaft, two sixth gears are arranged, and the return spring is fixed between the fixed rod and the statistical mechanism protective shell.

Preferably, the top end corner of the outer frame is of a circular arc structure, the two driving rods of the weighing plate in the outer frame are perpendicular to the belt between the two first rotating shafts, and the driving belt between the other driving rod of the weighing plate in the outer frame and the fifth rotating shaft is perpendicular to the outer frame.

Compared with the related art, the automatic mine metering and output goods quantity determining device provided by the invention has the following beneficial effects:

the invention provides a device for automatically metering, outputting and determining the quantity of goods in a mine, wherein a first weighing dial scale, a second weighing dial scale, a third weighing dial scale and a fourth weighing dial scale are fixed on a weighing mechanism protective shell along one side of the direction deviating from a first rotating shaft, the first weighing dial scale, the second weighing dial scale, the third weighing dial scale and the fourth weighing dial scale are rotationally connected with the weighing mechanism protective shell, a driving belt is connected with another driving rod, the driving belt is rotationally connected with a fifth rotating shaft, the fifth rotating shaft is rotationally connected with a fixed rod, the fixed rod is slidably connected with the statistical mechanism protective shell, the first statistical dial scale, the second statistical dial scale, the third statistical dial scale and the fourth statistical dial scale are rotationally connected with the statistical mechanism protective shell, the mine automatic metering, outputting and determining device provided by the invention adopts pure mechanical weighing and counting, does not depend on electric energy, is slightly influenced by environmental factors, has good social and economic benefits, and is suitable for popularization and use.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of an automatic mine metering, output and cargo quantity determining device provided by the present invention;

FIG. 2 is a schematic view of the weighing plate and the outer frame shown in FIG. 1;

FIG. 3 is a schematic view of the weighing mechanism of FIG. 2;

FIG. 4 is a schematic structural diagram of a statistical mechanism of a first embodiment of the automatic mine measuring and output cargo quantity determining device provided by the invention;

FIG. 5 is a schematic structural diagram of a statistical mechanism of a second embodiment of the automatic mine measuring and output cargo quantity determining device provided by the invention;

fig. 6 is a schematic structural diagram of a statistical mechanism of a third embodiment of the automatic mine metering and output load determining device provided by the invention.

Reference numbers in the figures: 1. swash plate, 2, weighing mechanism shield, 3, weighing plate, 4, outer frame, 5, statistical mechanism, 51, statistical mechanism shield, 52, seventh gear, 53, eighth shaft, 54, eighth gear, 55, fourth statistical scale, 56, third statistical scale, 57, sixth gear, 58, fixing rod, 59, nut, 60, fifth shaft, 61, first statistical scale, 62, driving belt, 63, second statistical scale, 64, sixth shaft, 65, seventh shaft, 66, fixing bolt, 67, return spring, 6, fixing base, 7, level, 8, weighing spring, 9, driving rod, 10, observation tank, 11, weighing mechanism, 111, fourth weighing scale, 112, fourth gear, 113, third weighing scale, 114, second weighing scale, 115, second shaft, 116, second gear, 117, statistical mechanism shield, 52, seventh shaft, 62, driving belt, 63, second statistical scale, 64, sixth shaft, 65, seventh shaft, 66, fixing bolt, 67, return spring, 6, fixing base, 7, level, weighing spring, 9, driving rod, 10, observation tank, 11, a first weighing scale disc 118, a first rotating shaft 119, a third rotating shaft 120, a third gear 121, a fourth rotating shaft 12, a clockwork spring 13, a belt 14 and a hydraulic rod.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

The first embodiment is as follows:

referring to fig. 1, fig. 2, fig. 3 and fig. 4, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of an automatic mine measuring, outputting and cargo quantity determining device according to the present invention; FIG. 2 is a schematic view of the weighing plate and the outer frame shown in FIG. 1; FIG. 3 is a schematic view of the weighing mechanism of FIG. 2; fig. 4 is a schematic structural diagram of a statistical mechanism of a first embodiment of the automatic mine metering and output load determining device provided by the invention. Mine automatic measurement, output confirm cargo capacity device includes: an outer frame 4; the weighing plate 3 is connected with the outer frame 4 in a sliding manner; a plurality of weighing springs 8 are arranged, and the weighing springs 8 are uniformly arranged between the outer frame 4 and the weighing plate 3; at least four hydraulic rods 14 are arranged, and the hydraulic rods 14 are arranged between the outer frame 4 and the weighing plate 3; three driving rods 9 are arranged, and the three driving rods 9 are fixed on the weighing plate 3; two belts 13 are arranged, and the two belts 13 are fixed on the driving rod 9; three spiral springs 12 are arranged, and the two spiral springs 12 are respectively in rotary connection with the belt 13; the weighing mechanism protective shell 2 is fixed on the outer frame 4, two weighing mechanism protective shells 2 are arranged, and the two springs 12 are respectively fixed on the two weighing mechanism protective shells 2; the observation groove 10 is arranged on the weighing mechanism protective shell 2; the weighing mechanism 11, the weighing mechanism 11 is fixed to the weighing mechanism shielding case 2 on one side of the observation tank 10, the weighing mechanism 11 includes a fourth weighing dial 111, a third weighing dial 113, a second weighing dial 114, a first weighing dial 117 and a first rotating shaft 118, the first rotating shaft 118 is rotatably connected to the belt 13, the first weighing dial 117, the second weighing dial 114, the third weighing dial 113 and the fourth weighing dial 111 are fixed to the weighing mechanism shielding case 2 along one side of the direction deviating from the first rotating shaft 118, and the first weighing dial 117, the second weighing dial 114, the third weighing dial 113 and the fourth weighing dial 111 are rotatably connected to the weighing mechanism shielding case 2; statistics mechanism 5, statistics mechanism 5 includes statistics mechanism protecting crust 51, fourth statistics dial 55, third statistics dial 56, dead lever 58, fifth pivot 60, first statistics dial 61, driving belt 62 and second statistics dial 63, statistics mechanism protecting crust 51 is fixed in outer frame 4, another clockwork spring 12 is fixed in statistics mechanism protecting crust 51, driving belt 62 and another clockwork spring 12 rotates and connects, driving belt 62 and another driving rod 9 is connected, driving belt 62 with fifth pivot 60 rotates and connects, fifth pivot 60 with dead lever 58 rotates and connects, dead lever 58 with statistics mechanism protecting crust 51 sliding connection, first statistics dial 61 second statistics dial 63 third statistics dial 56 fourth statistics dial 55 is along deviating from direction one side of fifth pivot 60 is fixed in statistics mechanism prevents that the dial 61 is prevented to statistics mechanism The protective shell 51, just first statistics calibrated scale 61 the second statistics calibrated scale 63 the third statistics calibrated scale 56 the fourth statistics calibrated scale 55 with statistics mechanism protective shell 51 rotates and is connected.

In order to enable the structure to be more stable, the bottom end of the outer frame 4 is provided with at least eight fixing seats 6, the fixing seats 6 are telescopic, and the telescopic length of the fixing seats 6 is 3-6 cm.

In order to make the measurement more accurate, one of the top ends of the outer frames 4 and the top end of the weighing mechanism protective shell 2 are provided with a level meter 7, two level meters 7 are arranged, and the other level meter 7 is fixed on the weighing plate 3.

In order to facilitate the weighing of vehicles, two sloping plates 1 are arranged at two ends of the outer frame 4, anti-skid protrusions are arranged on the surfaces of the sloping plates 1, and the sloping plates 1 are rotatably connected with the outer frame 4.

In order to make the weighing more accurate, the weighing mechanism 11 further includes a fourth gear 112, a second rotating shaft 115, a second gear 116, a third rotating shaft 119, a third gear 120 and a fourth rotating shaft 121, one end of the first rotating shaft 118 is provided with an external tooth socket, the number of the second gear 116 is two, the second rotating shaft 115 penetrates through the second gear 116 and the second weighing scale disc 114, the second gear 116 is engaged with the first rotating shaft 118, the second rotating shaft 115 is rotatably connected with the first rotating shaft 118 through the second gear 116, the third rotating shaft 119 penetrates through the third weighing scale disc 113 and the third gear 120, the third weighing scale disc 113 is rotatably connected with the second weighing scale disc 114, the second gears 116 at two ends of the second rotating shaft 115 are respectively engaged with the first rotating shaft 118 and the third gear 120, the number of the third gears 120 is two, the other of the third gears 120 meshes with the fourth gear 112.

In order to facilitate the statistics of the total ore amount, the statistics mechanism 5 further includes a seventh gear 52, an eighth rotating shaft 53, an eighth gear 54, a sixth gear 57, a nut 59, a sixth rotating shaft 64 and a seventh rotating shaft 65, wherein one end of the fifth rotating shaft 60 is provided with an external tooth socket, two sixth gears 57 are provided, the sixth rotating shaft 64 penetrates through the sixth gear 57 and the second statistics dial 63, the sixth gear 57 is engaged with the fifth rotating shaft 60, the sixth rotating shaft 64 is rotatably connected with the fifth rotating shaft 60 through the sixth gear 57, the seventh rotating shaft 65 penetrates through the third statistics dial 56 and the seventh gear 52, the third statistics dial 56 is rotatably connected with the second statistics dial 63, the sixth gears 57 at two ends of the sixth rotating shaft 64 are respectively engaged with the fifth rotating shaft 60 and the seventh gear 52, two seventh gears 52 are provided, the other seventh gear 52 is engaged with the eighth gear 54, the top end of the fixing rod 58 is threaded, and the nut 59 is threadedly coupled to the fixing rod 58.

Example two:

referring to fig. 1, fig. 2, fig. 3 and fig. 5, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of an automatic mine measuring, outputting and cargo quantity determining device according to the present invention; FIG. 2 is a schematic view of the weighing plate and the outer frame shown in FIG. 1; FIG. 3 is a schematic view of the weighing mechanism of FIG. 2; fig. 5 is a schematic structural diagram of a statistical mechanism of a second embodiment of the automatic mine metering and output load determining device provided by the invention. Mine automatic measurement, output confirm cargo capacity device includes: an outer frame 4; the weighing plate 3 is connected with the outer frame 4 in a sliding manner; a plurality of weighing springs 8 are arranged, and the weighing springs 8 are uniformly arranged between the outer frame 4 and the weighing plate 3; at least four hydraulic rods 14 are arranged, and the hydraulic rods 14 are arranged between the outer frame 4 and the weighing plate 3; three driving rods 9 are arranged, and the three driving rods 9 are fixed on the weighing plate 3; two belts 13 are arranged, and the two belts 13 are fixed on the driving rod 9; three spiral springs 12 are arranged, and the two spiral springs 12 are respectively in rotary connection with the belt 13; the weighing mechanism protective shell 2 is fixed on the outer frame 4, two weighing mechanism protective shells 2 are arranged, and the two springs 12 are respectively fixed on the two weighing mechanism protective shells 2; the observation groove 10 is arranged on the weighing mechanism protective shell 2; the weighing mechanism 11, the weighing mechanism 11 is fixed to the weighing mechanism shielding case 2 on one side of the observation tank 10, the weighing mechanism 11 includes a fourth weighing dial 111, a third weighing dial 113, a second weighing dial 114, a first weighing dial 117 and a first rotating shaft 118, the first rotating shaft 118 is rotatably connected to the belt 13, the first weighing dial 117, the second weighing dial 114, the third weighing dial 113 and the fourth weighing dial 111 are fixed to the weighing mechanism shielding case 2 along one side of the direction deviating from the first rotating shaft 118, and the first weighing dial 117, the second weighing dial 114, the third weighing dial 113 and the fourth weighing dial 111 are rotatably connected to the weighing mechanism shielding case 2; statistics mechanism 5, statistics mechanism 5 includes statistics mechanism protecting crust 51, fourth statistics dial 55, third statistics dial 56, dead lever 58, fifth pivot 60, first statistics dial 61, driving belt 62 and second statistics dial 63, statistics mechanism protecting crust 51 is fixed in outer frame 4, another clockwork spring 12 is fixed in statistics mechanism protecting crust 51, driving belt 62 and another clockwork spring 12 rotates and connects, driving belt 62 and another driving rod 9 is connected, driving belt 62 with fifth pivot 60 rotates and connects, fifth pivot 60 with dead lever 58 rotates and connects, dead lever 58 with statistics mechanism protecting crust 51 sliding connection, first statistics dial 61 second statistics dial 63 third statistics dial 56 fourth statistics dial 55 is along deviating from direction one side of fifth pivot 60 is fixed in statistics mechanism prevents that the dial 61 is prevented to statistics mechanism The protective shell 51, just first statistics calibrated scale 61 the second statistics calibrated scale 63 the third statistics calibrated scale 56 the fourth statistics calibrated scale 55 with statistics mechanism protective shell 51 rotates and is connected.

In order to enable the structure to be more stable, the bottom end of the outer frame 4 is provided with at least eight fixing seats 6, the fixing seats 6 are telescopic, and the telescopic length of the fixing seats 6 is 3-6 cm.

In order to make the measurement more accurate, one of the top ends of the outer frames 4 and the top end of the weighing mechanism protective shell 2 are provided with a level meter 7, two level meters 7 are arranged, and the other level meter 7 is fixed on the weighing plate 3.

In order to facilitate the weighing of vehicles, two sloping plates 1 are arranged at two ends of the outer frame 4, anti-skid protrusions are arranged on the surfaces of the sloping plates 1, and the sloping plates 1 are rotatably connected with the outer frame 4.

In order to make the weighing more accurate, the weighing mechanism 11 further includes a fourth gear 112, a second rotating shaft 115, a second gear 116, a third rotating shaft 119, a third gear 120 and a fourth rotating shaft 121, one end of the first rotating shaft 118 is provided with an external tooth socket, the number of the second gear 116 is two, the second rotating shaft 115 penetrates through the second gear 116 and the second weighing scale disc 114, the second gear 116 is engaged with the first rotating shaft 118, the second rotating shaft 115 is rotatably connected with the first rotating shaft 118 through the second gear 116, the third rotating shaft 119 penetrates through the third weighing scale disc 113 and the third gear 120, the third weighing scale disc 113 is rotatably connected with the second weighing scale disc 114, the second gears 116 at two ends of the second rotating shaft 115 are respectively engaged with the first rotating shaft 118 and the third gear 120, the number of the third gears 120 is two, the other of the third gears 120 meshes with the fourth gear 112.

In order to conveniently count the total ore amount, the counting mechanism 5 further includes a seventh gear 52, an eighth rotating shaft 53, an eighth gear 54, a sixth gear 57, a fixing bolt 66, a sixth rotating shaft 64 and a seventh rotating shaft 65, one end of the fifth rotating shaft 60 is provided with an external tooth socket, two sixth gears 57 are provided, the sixth rotating shaft 64 penetrates through the sixth gear 57 and the second counting scale 63, the sixth gear 57 is meshed with the fifth rotating shaft 60, the sixth rotating shaft 64 is rotatably connected with the fifth rotating shaft 60 through the sixth gear 57, the seventh rotating shaft 65 penetrates through the third counting scale 56 and the seventh gear 52, the third counting scale 56 is rotatably connected with the second counting scale 63, the sixth gears 57 at two ends of the sixth rotating shaft 64 are respectively meshed with the fifth rotating shaft 60 and the seventh gear 52, two seventh gears 52 are provided, the other seventh gear 52 is engaged with the eighth gear 54, the top end of the fixing rod 58 is rectangular, and the fixing bolt 66 penetrates through the statistical mechanism protective case 51 and extends to the fixing rod 58.

Example three:

please refer to fig. 1, fig. 2, fig. 3 and fig. 6 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of an automatic mine measuring, outputting and cargo quantity determining apparatus according to the present invention; FIG. 2 is a schematic view of the weighing plate and the outer frame shown in FIG. 1; FIG. 3 is a schematic view of the weighing mechanism of FIG. 2; fig. 6 is a schematic structural diagram of a statistical mechanism of a third embodiment of the automatic mine metering and output load determining device provided by the invention. Mine automatic measurement, output confirm cargo capacity device includes: an outer frame 4; the weighing plate 3 is connected with the outer frame 4 in a sliding manner; a plurality of weighing springs 8 are arranged, and the weighing springs 8 are uniformly arranged between the outer frame 4 and the weighing plate 3; at least four hydraulic rods 14 are arranged, and the hydraulic rods 14 are arranged between the outer frame 4 and the weighing plate 3; three driving rods 9 are arranged, and the three driving rods 9 are fixed on the weighing plate 3; two belts 13 are arranged, and the two belts 13 are fixed on the driving rod 9; three spiral springs 12 are arranged, and the two spiral springs 12 are respectively in rotary connection with the belt 13; the weighing mechanism protective shell 2 is fixed on the outer frame 4, two weighing mechanism protective shells 2 are arranged, and the two springs 12 are respectively fixed on the two weighing mechanism protective shells 2; the observation groove 10 is arranged on the weighing mechanism protective shell 2; the weighing mechanism 11, the weighing mechanism 11 is fixed to the weighing mechanism shielding case 2 on one side of the observation tank 10, the weighing mechanism 11 includes a fourth weighing dial 111, a third weighing dial 113, a second weighing dial 114, a first weighing dial 117 and a first rotating shaft 118, the first rotating shaft 118 is rotatably connected to the belt 13, the first weighing dial 117, the second weighing dial 114, the third weighing dial 113 and the fourth weighing dial 111 are fixed to the weighing mechanism shielding case 2 along one side of the direction deviating from the first rotating shaft 118, and the first weighing dial 117, the second weighing dial 114, the third weighing dial 113 and the fourth weighing dial 111 are rotatably connected to the weighing mechanism shielding case 2; statistics mechanism 5, statistics mechanism 5 includes statistics mechanism protecting crust 51, fourth statistics dial 55, third statistics dial 56, dead lever 58, fifth pivot 60, first statistics dial 61, driving belt 62 and second statistics dial 63, statistics mechanism protecting crust 51 is fixed in outer frame 4, another clockwork spring 12 is fixed in statistics mechanism protecting crust 51, driving belt 62 and another clockwork spring 12 rotates and connects, driving belt 62 and another driving rod 9 is connected, driving belt 62 with fifth pivot 60 rotates and connects, fifth pivot 60 with dead lever 58 rotates and connects, dead lever 58 with statistics mechanism protecting crust 51 sliding connection, first statistics dial 61 second statistics dial 63 third statistics dial 56 fourth statistics dial 55 is along deviating from direction one side of fifth pivot 60 is fixed in statistics mechanism prevents that the dial 61 is prevented to statistics mechanism The protective shell 51, just first statistics calibrated scale 61 the second statistics calibrated scale 63 the third statistics calibrated scale 56 the fourth statistics calibrated scale 55 with statistics mechanism protective shell 51 rotates and is connected.

In order to enable the structure to be more stable, the bottom end of the outer frame 4 is provided with at least eight fixing seats 6, the fixing seats 6 are telescopic, and the telescopic length of the fixing seats 6 is 3-6 cm.

In order to make the measurement more accurate, one of the top ends of the outer frames 4 and the top end of the weighing mechanism protective shell 2 are provided with a level meter 7, two level meters 7 are arranged, and the other level meter 7 is fixed on the weighing plate 3.

In order to facilitate the weighing of vehicles, two sloping plates 1 are arranged at two ends of the outer frame 4, anti-skid protrusions are arranged on the surfaces of the sloping plates 1, and the sloping plates 1 are rotatably connected with the outer frame 4.

In order to make the weighing more accurate, the weighing mechanism 11 further includes a fourth gear 112, a second rotating shaft 115, a second gear 116, a third rotating shaft 119, a third gear 120 and a fourth rotating shaft 121, one end of the first rotating shaft 118 is provided with an external tooth socket, the number of the second gear 116 is two, the second rotating shaft 115 penetrates through the second gear 116 and the second weighing scale disc 114, the second gear 116 is engaged with the first rotating shaft 118, the second rotating shaft 115 is rotatably connected with the first rotating shaft 118 through the second gear 116, the third rotating shaft 119 penetrates through the third weighing scale disc 113 and the third gear 120, the third weighing scale disc 113 is rotatably connected with the second weighing scale disc 114, the second gears 116 at two ends of the second rotating shaft 115 are respectively engaged with the first rotating shaft 118 and the third gear 120, the number of the third gears 120 is two, the other of the third gears 120 meshes with the fourth gear 112.

In order to facilitate the statistics of the total ore amount, the statistics mechanism 5 further includes a seventh gear 52, an eighth rotating shaft 53, an eighth gear 54, a sixth gear 57, a nut 59, a sixth rotating shaft 64, a seventh rotating shaft 65, and a return spring 67, wherein one end of the fifth rotating shaft 60 is provided with two external tooth sockets, the sixth gear 57 is provided with two sixth rotating shafts 64, the sixth rotating shaft 64 penetrates through the sixth gear 57 and the second statistics dial 63, the sixth gear 57 is engaged with the fifth rotating shaft 60, the sixth rotating shaft 64 is rotatably connected with the fifth rotating shaft 60 through the sixth gear 57, the seventh rotating shaft 65 penetrates through the third statistics dial 56 and the seventh gear 52, the third statistics dial 56 is rotatably connected with the second statistics dial 63, the sixth gear 57 at two ends of the sixth rotating shaft 64 is respectively engaged with the fifth rotating shaft 60 and the seventh gear 52, two seventh gears 52 are provided, the other seventh gear 52 is meshed with the eighth gear 54, the top end of the fixing rod 58 is provided with threads, the nut 59 is in threaded connection with the fixing rod 58, and the return spring 67 is fixed between the fixing rod 58 and the statistical mechanism protective shell 51. The top end corner of the outer frame 4 is of a circular arc-shaped structure, the two driving rods 9 of the weighing plate 3 in the outer frame 4 are perpendicular to the belt 13 between the two first rotating shafts 118, and the driving belt 62 between the driving rod 9 of the weighing plate 3 in the outer frame 4 and the fifth rotating shaft 60 is perpendicular to the outer frame 4.

The automatic mine metering and output determining device of the first embodiment, the second embodiment and the third embodiment is respectively made into 10 pieces, then the automatic mine metering and output goods quantity determining devices of the first embodiment, the second embodiment and the third embodiment are randomly arranged in a mine area and put into the same working environment with ordinary mine quantity weighing equipment for use, and the results are obtained through multiple experiments, the mine automatic metering and output determining device of the first embodiment, the second embodiment and the third embodiment has the installation efficiency 30 percent higher than that of the common ore weighing equipment, the influence rate of the automatic mine metering and output goods determining device of the first embodiment, the second embodiment and the third embodiment on the environment is 50 percent less than that of the common ore weighing equipment, the energy consumption rate of the automatic mine metering and output goods quantity determining device in the first embodiment, the second embodiment and the third embodiment is 100% lower than that of a common ore quantity weighing device.

When the device is used, the device is firstly installed on a traffic road of a mining area, the device is adjusted to a horizontal position through the fixing base 6, the hydraulic rod 14 is firstly adjusted to enable the weighing plate 3 and the outer frame 4 to be horizontal, mineral aggregate is placed on the weighing plate 3, then the hydraulic rod 14 is decompressed to enable the weighing plate 3 to slide under the elastic force of the weighing spring 8, the driving rod 9 of the weighing plate 3 drives the belt 13 and the driving belt 62 to slide downwards respectively, the belt 13 and the driving belt 62 drive the first rotating shaft 118 and the fifth rotating shaft 60 to rotate, the fourth statistical dial 55, the third statistical dial 56, the first statistical dial 61 and the second statistical dial 63 of the statistical mechanism rotate respectively, and the fourth statistical dial 55, the first statistical dial 61 and the second statistical dial 63 of the statistical mechanism rotate respectively, The scales of the third statistical dial 56, the first statistical dial 61 and the second statistical dial 63 are weighing weights, the scales of the fourth weighing dial 111, the third weighing dial 113, the second weighing dial 114 and the first weighing dial 117 are total weights, then the fixing rod 58 is screwed to separate the driving belt 62 from the fifth rotating shaft 60, and after the weighing plate 3 is reset, the fixing rod 58 is fixed to realize accumulated counting.

Compared with the related art, the automatic mine metering and output goods quantity determining device provided by the invention has the following beneficial effects:

the invention provides a mine automatic metering, output and cargo quantity determining device, wherein the first weighing dial disc 117, the second weighing dial disc 114, the third weighing dial disc 113 and the fourth weighing dial disc 111 are fixed on the weighing mechanism protective shell 2 along one side of the direction deviating from the first rotating shaft 118, the first weighing dial disc 117, the second weighing dial disc 114, the third weighing dial disc 113 and the fourth weighing dial disc 111 are rotationally connected with the weighing mechanism protective shell 2, the driving belt 62 is connected with the other driving rod 9, the driving belt 62 is rotationally connected with the fifth rotating shaft 60, the fifth rotating shaft 60 is rotationally connected with the fixing rod 58, the fixing rod 58 is slidably connected with the statistics protective shell 51, and the first statistics dial disc 61, the second statistics dial disc 63 and the third statistics dial disc 56 are slidably connected, The fourth statistical dial 55 is rotationally connected with the statistical mechanism protective shell 51, the automatic mine metering, outputting and cargo quantity determining device provided by the invention adopts a purely mechanical type for weighing and counting, does not depend on electric energy, is slightly influenced by environmental factors, has good social and economic benefits, and is suitable for popularization and use.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. Mine automatic measurement, output confirm cargo capacity device, its characterized in that includes:

an outer frame;

the weighing plate is connected with the outer frame in a sliding manner;

a plurality of weighing springs are arranged, and the weighing springs are uniformly arranged between the outer frame and the weighing plate;

at least four hydraulic rods are arranged and are arranged between the outer frame and the weighing plate;

three driving rods are arranged and fixed on the weighing plate;

two belts are arranged, and both the two belts are fixed on the driving rod;

three spring bars are arranged, and two spring bars are respectively in rotary connection with the belt;

the weighing mechanism protective shells are fixed on the outer frame, the number of the weighing mechanism protective shells is two, and the two spring springs are respectively fixed on the two weighing mechanism protective shells;

the observation groove is arranged on the weighing mechanism protective shell;

the weighing mechanism is fixed on the weighing mechanism protective shell on one side of the observation tank and comprises a fourth weighing dial, a third weighing dial, a second weighing dial, a first weighing dial and a first rotating shaft, the first rotating shaft is rotatably connected with the belt, the first weighing dial, the second weighing dial, the third weighing dial and the fourth weighing dial are fixed on the weighing mechanism protective shell along one side of the direction deviating from the first rotating shaft, and the first weighing dial, the second weighing dial, the third weighing dial and the fourth weighing dial are rotatably connected with the weighing mechanism protective shell;

statistical mechanism, statistical mechanism includes statistical mechanism protecting crust, fourth statistics calibrated scale, third statistics calibrated scale, dead lever, fifth pivot, first statistics calibrated scale, drive belt and second statistics calibrated scale, statistical mechanism protecting crust is fixed in outer frame, another the clockwork spring is fixed in statistical mechanism protecting crust, drive belt and another the clockwork spring rotates to be connected, drive belt and another the drive lever is connected, drive belt with the fifth pivot rotates to be connected, the fifth pivot with the dead lever rotates to be connected, the dead lever with statistical mechanism protecting crust sliding connection, first statistics calibrated scale, the second statistics calibrated scale, the third statistics calibrated scale, the fourth statistics calibrated scale is fixed in statistical mechanism protecting crust along deviating from direction one side of the fifth pivot, and the first statistical dial, the second statistical dial, the third statistical dial and the fourth statistical dial are rotationally connected with the protective shell of the statistical mechanism.

2. The automatic mine metering, outputting and cargo quantity determining device according to claim 1, wherein the bottom end of the outer frame is provided with at least eight fixed seats, the fixed seats are telescopic, and the telescopic length of the fixed seats is 3-6 cm.

3. The automatic mine metering, output and cargo quantity determining device of claim 1, wherein one of the weighing mechanism shielding shells at the top end of the outer frame is provided with a level meter at the top end, two of the level meters are provided, and the other level meter is fixed on the weighing plate.

4. The automatic mine metering, output and cargo quantity determining device of claim 1, wherein two sloping plates are arranged at two ends of the outer frame, anti-skid protrusions are arranged on the surfaces of the sloping plates, and the sloping plates are rotatably connected with the outer frame.

5. The automatic mine metering, outputting and cargo quantity determining device according to claim 1, wherein the weighing mechanism further comprises a fourth gear, a second rotating shaft, a second gear, a third rotating shaft, a third gear and a fourth rotating shaft, an external tooth socket is arranged at one end of the first rotating shaft, two second gears are arranged on the second rotating shaft, the second rotating shaft penetrates through the second gear and the second weighing dial, the second gear is meshed with the first rotating shaft, and the second rotating shaft is rotatably connected with the first rotating shaft through the second gear.

6. The automatic mine metering, output and cargo quantity determining device according to claim 5, wherein the third rotating shaft penetrates through the third weighing dial and the third gear, the third weighing dial is rotatably connected with the second weighing dial, the second gears at two ends of the second rotating shaft are respectively meshed with the first rotating shaft and the third gear, two third gears are arranged, and the other third gear is meshed with the fourth gear.

7. The automatic mine metering, outputting and determining device according to claim 1, wherein the counting mechanism further comprises a seventh gear, an eighth rotating shaft, an eighth gear, a sixth gear, a nut, a sixth rotating shaft and a seventh rotating shaft, wherein one end of the fifth rotating shaft is provided with an external tooth socket, the number of the sixth gear is two, the sixth rotating shaft penetrates through the sixth gear and the second counting dial, the sixth gear is meshed with the fifth rotating shaft, the sixth rotating shaft is rotatably connected with the fifth rotating shaft through the sixth gear, the seventh rotating shaft penetrates through the third counting dial and the seventh gear, the third counting dial is rotatably connected with the second counting dial, the sixth gears at two ends of the sixth rotating shaft are respectively meshed with the fifth rotating shaft and the seventh gear, the number of the seventh gears is two, the other seventh gear is meshed with the eighth gear, threads are arranged at the top end of the fixing rod, and the nut is in threaded connection with the fixing rod.

8. The mine automatic metering, output and cargo quantity determining device of claim 7, wherein the statistical mechanism further comprises a fixing bolt, the top end of the fixing rod is of a rectangular structure, and the fixing bolt penetrates through the protective shell of the statistical mechanism and extends to the fixing rod.

9. The mine automatic metering, output and cargo quantity determining device of claim 7, wherein the statistical mechanism further comprises a return spring fixed between the fixed rod and the statistical mechanism protective shell.

10. The mine automatic metering, outputting and cargo quantity determining device according to claim 9, wherein a top corner of the outer frame is in a circular arc structure, two driving rods of the weighing plate inside the outer frame are perpendicular to the outer frame with the belt between the two first rotating shafts, and the driving belt between the other driving rod of the weighing plate inside the outer frame and the fifth rotating shaft is perpendicular to the outer frame.

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