CN108067435A - Ore screening installation and its transmitting device and ore transmission method - Google Patents

Abstract

The present invention provides an ore screening installation and its transmitting device and ore transmission method, wherein described transmitting device includes an at least separator, wherein described separator has at least one separation groove, the separation groove extends between the inlet end and an outlet end of the separator, and the height of the input end of the separator is higher than the height of the port of export, ore stream is formed when wherein ore enters the separation groove from the input end of the separator, and each ore of composition ore stream is made to depart from the separation groove one by one from the port of export of the separator, to transmit ore.

Description

Ore screening installation and its transmitting device and ore transmission method

Technical field

The present invention relates to an ores to sort field, more particularly to an ore screening installation and its transmission of transmitting device and ore Method.

Background technology

Mining industry is a kind of industrial classification of exploitated ore, is capable of providing very important ore raw materials.According to ore deposit Ore roughly can be divided into rich ore block and lean ore block by the economic implications of stone, such as can according to the difference of metal containing ratio The higher ore of metal containing ratio is defined as rich ore block and the relatively low ore of metal containing ratio is defined as lean ore block.It can be with Understand, in the process after ore is produced, rich ore block ratio shared in ore is higher, can more reduce ore dressing Cost.And actual situation is, after ore is extracted, rich ore block and lean ore block be adulterate together with and cause Rich ore block ratio shared in ore is not high, therefore, by rich ore block and lean ore block respectively from ore after ore is produced In distinguish, beneficiation cost can be effectively reduced.

It will be appreciated by those skilled in the art that in order to improve the efficiency that ore is divided into rich ore block and lean ore block With reliability, it is necessary to be detected respectively to ore one by one, after ore is produced out after be typically stacked together, because This, it is necessary to which each ore being stacked is respectively transmitted to examine before the economic implications to each ore is detected Region is surveyed to be detected to it, still, currently on the market there are no the equipment for realizing this function, also without providing for this The solution and resolving ideas of one problem, if ore in heaps manually is lined up ore stream, due to manually can not Long-time process, does not only result in that mining efficiency is very low, but also can increase artificial work burden, and it is substantial amounts of manually The significantly increase of mining cost can also be caused by participating in this process.In addition, between the adjacent ore of manual alignment Spacing is not easy to be controlled, and further results in the reliability decrease when being subsequently detected respectively to each ore.

The content of the invention

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device can make ore in heaps form ore stream, subsequently to be carried out respectively to each ore for forming ore stream Detection, rich ore block and lean ore block are divided by ore.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device can control the flowing velocity of ore stream, to ensure fully to detect each ore, so as to ensure to examine Survey the reliability of result.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device is when making ore form ore stream, it may not be necessary to driving device, therefore the transmitting device can be reduced Operating cost.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device makes the distance between adjacent ore of composition ore stream controllable, in order to subsequently to each ore respectively into Row detection.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device provides a separator, and the separator makes ore in heaps form ore stream.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The separator forms at least one separation groove between the inlet end and an outlet end of the separator, when ore is from the separation The input end of device is slided into the separation groove and along the separation groove from the input end of the separator to the port of export During, the separation groove makes ore form stable ore stream.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The separator can clear up the sundries being mixed in ore, such as ore chip while ore forms ore stream.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device provides a transmission main body, and the transmission main body and the separator are disposed adjacently, and the transmission Ore can be transmitted to the separator by main body, by the separator ore to be made to form ore stream.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmission main body and the separator are set with being inclined by respectively, so that ore can be according to gravity principle automatically by the biography Defeated main body is transferred to the separator and the port of export from the separator departs from the separator.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device provides at least one first vibrator, and first vibrator is arranged at the transmission main body, with by institute It states the first vibrator driving transmission main body and generates shake, so that ore is transferred to the separation from the transmission main body Device.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device includes at least one second vibrator, and second vibrator is arranged at the separator, with by described Second vibrator drives the separator to generate shake and ore is made to form ore stream.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device provides an at least comb formula sieve component, wherein the comb formula sieve component be maintained at the transmission main body and Between the separator, so as to depart from the ore of the transmission main body described in comb formula sieve component filtering entrance afterwards Separator, mode in this way, the comb formula sieve component can remove the sundries being mixed in ore, such as ore is broken Bits.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The comb formula sieve component is arranged at the separator so that the comb formula sieve component be maintained at it is described transmission main body and Between the separator.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The separator forms an extraction channel, and the extraction channel corresponds to the comb formula sieve component, will be by the comb formula The sundries that sieve component is removed from ore is directed out the separator by the extraction channel.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device provides a feed bin, and ore can be stored and be added to the feed bin, and from the discharge port of the feed bin Into the transmission main body.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The speed of ore from discharge port into the transmission main body of the feed bin can be controlled by the sluice gate for being formed at the feed bin System.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein After ore is from the discharge port of the feed bin into the input end of the transmission main body, it can be shakeout in the transmission main body On.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The transmitting device provides a connector, and the connector is arranged at the discharge port of the feed bin, in ore via described When the discharge port of feed bin is into the transmission main body, the connector can remove the hair ore deposit being mixed in ore.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The ore screening installation being made of the transmitting device provides a detection device, and the detection device is in the separator The port of export forms an at least detection zone, when each ore of composition ore stream departs from institute from the port of export of the separator one by one State separation groove and enter the detection zone when, the detection device respectively to each ore positioned at the detection zone into Row detection, to judge the grade of ore.

It is an object of the present invention to provide an ore screening installation and its transmitting device and ore transmission method, wherein The ore screening installation provides a sorting plant, and the sorting plant is according to the grade sorting of ore of ore, to distinguish rich ore Block and lean ore block.

One side under this invention, the present invention provides the transmitting device of an ore screening installation, including at least one point From device, wherein the separator has at least one separation groove, input end and outlet of the separation groove in the separator Extend between end, and the height of the input end of the separator is higher than the height of the port of export, wherein ore from the separator Input end into the separation groove when form ore stream, and make each ore going out from the separator of composition ore stream Mouth end departs from the separation groove one by one.

According to one embodiment of present invention, the transmitting device further comprises at least one transmission main body, wherein described Transmission main body and the separator are disposed adjacently, and the input end of the separator corresponds to going out for the transmission main body Mouth end.

According to one embodiment of present invention, the transmitting device further comprises an at least comb formula sieve component, wherein The comb formula sieve component is maintained between the port of export of the transmission main body and the input end of the separator.

According to one embodiment of present invention, the comb formula sieve component is arranged at the separator, so that the comb Formula sieve component is maintained between the port of export of the transmission main body and the input end of the separator.

According to one embodiment of present invention, the transmitting device further comprises at least one first vibrator, wherein institute It states the first vibrator and is arranged at the transmission main body, to drive the transmission body vibration by first vibrator.

According to one embodiment of present invention, first vibrator is arranged at the input end of the transmission main body.

According to one embodiment of present invention, the transmitting device further comprises at least one second vibrator, wherein institute It states the second vibrator and is arranged at the separator.

According to one embodiment of present invention, the transmitting device further comprises an at least damper, wherein each institute State the both sides that damper respectively symmetrically is arranged at the separator.

According to one embodiment of present invention, the separator forms an at least extraction channel, the extraction channel it is upper End corresponds to the comb formula sieve component.

According to one embodiment of present invention, the transmitting device further comprises a feed bin, wherein the feed bin has One storing space and the discharge port for being communicated in the storing space, wherein the discharge port corresponds to the institute of the transmission main body State input end.

According to one embodiment of present invention, the feed bin includes a storehouse main body and a cover, and the cover is movable Ground is arranged at the storehouse main body, and the storehouse main body has the storing space, formed between the storehouse main body and the cover The discharge port.

According to one embodiment of present invention, the cover by axis connection in the storehouse main body, and the cover from By holding the port of export towards the transmission main body.

According to one embodiment of present invention, the transmitting device further comprises a connector, wherein the connector The discharge port is maintained at, to enter the input end of the transmission main body from the discharge port by connector filtering Hair ore deposit in ore.

Other side under this invention, the present invention further provides an ore screening installation, including：

An at least detection device；

An at least sorting plant；And

An at least transmitting device, wherein the detection device forms a detection zone in the port of export of the separator, when When ore departs from the separation groove from the port of export of the separator and enters the detection zone, the detection device is to ore deposit Stone is detected, and to judge the grade of ore, the sorting plant chooses ore according to the grade of ore, to distinguish richness Nugget and lean ore block.

Other side under this invention, the present invention further provides an ore transmission method, wherein the transmission method Include the following steps：

(a) an at least separator of the height higher than the height of the port of export of input end is provided；With

(b) separator is made to be formed in at least splitter box extended between the inlet end and an outlet end of the separator Slot wherein forming ore stream when ore is from the input end of the separator into the separation groove, and forms ore stream Each ore depart from the separation groove one by one from the port of export of the separator, to transmit ore.

According to one embodiment of present invention, the transmission method further comprises step：

A transmission main body adjacent with the separator is provided, and makes the port of export of the transmission main body and the separation The input end of device corresponds, so that after the port of export of ore from the transmission main body departs from the transmission main body, from described point Input end from device enters the separation groove.

According to one embodiment of present invention, the transmission method further comprises step：

When ore is slided from the input end of the transmission main body to outlet extreme direction, ore is shakeout in the transmission master Body.

According to one embodiment of present invention, the transmission method further comprises step：

Before ore is from the input end of the separator into the separation groove, ore is cleared up.

According to one embodiment of present invention, the transmission method further comprises step：

Before ore is from the input end of the separator into the separation groove, ore is cleared up.

According to one embodiment of present invention, in the above-mentioned methods, the port of export in the transmission main body and the separation An at least comb formula sieve component is set between the input end of device, to be mixed in by comb formula sieve component cleaning in ore Sundries.

According to one embodiment of present invention, in the above-mentioned methods, by a connector in ore from the discharging of a feed bin When mouth enters the input end of the transmission main body, cleaning is mixed in the hair ore deposit in ore.

Description of the drawings

Fig. 1 is the stereoscopic schematic diagram of an ore screening installation of a preferred embodiment under this invention.

Fig. 2 is illustrated according to the three-dimensional of a transmitting device of the ore screening installation of the above-mentioned preferred embodiment of invention Figure.

Fig. 3 is shown according to the decomposition of the transmitting device of the ore screening installation of the above-mentioned preferred embodiment of invention It is intended to.

Fig. 4 A and Fig. 4 B are the transmission of the ore screening installation of above-mentioned preferred embodiment under this invention respectively The relation schematic diagram of one separator of device and one second vibrator.

Fig. 5 A and Fig. 5 B are the transmission of the ore screening installation of above-mentioned preferred embodiment under this invention respectively One transmission main body of device and the relation schematic diagram of one first vibrator.

Fig. 6 is a feed bin of the transmitting device of the ore screening installation of above-mentioned preferred embodiment under this invention Stereoscopic schematic diagram.

Fig. 7 A and Fig. 7 B are the transmission of the ore screening installation of above-mentioned preferred embodiment under this invention respectively Device transmits the process schematic of ore.

Fig. 8 is an ore transmission method flow diagram of a preferred embodiment under this invention.

Specific embodiment

It is described below to disclose the present invention so that those skilled in the art can realize the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description The present invention basic principle can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back Other technologies scheme from the spirit and scope of the present invention.

It will be understood by those skilled in the art that the present invention exposure in, term " longitudinal direction ", " transverse direction ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", the orientation of the instructions such as " outer " or position close System is based on orientation shown in the drawings or position relationship, is for only for ease of the description present invention and simplifies description, without referring to Show or imply signified device or element there must be specific orientation, with specific azimuth configuration and operation, therefore above-mentioned art Language is not considered as limiting the invention.

It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment, The quantity of one element can be one, and in a further embodiment, the quantity of the element can be multiple, and term " one " is no It is understood that as the limitation to quantity.

With reference to Fig. 2 to Fig. 7 B of the Figure of description of the present invention, the ore sorting of a preferred embodiment under this invention One transmitting device 10 of equipment is set forth, wherein the transmitting device 10 can make ore form ore stream, subsequently to distinguish The each ore for forming ore stream is detected, so as to judge the grade of ore, to distinguish ore as rich ore block and lean ore block. Specifically, the transmitting device 10 includes an at least separator 12, wherein the separator 12 has at least one separation groove 121, the separation groove 121 extends between the inlet end and an outlet end of the separator 12, when ore is from the separator For 12 input end into the separation groove 121 and along during separation groove 121 slip, ore can form ore stream, And the separation groove 121 can one by one be departed from from the port of export of the separator 12 by forming each ore of ore stream, Refer to the attached drawing 4A and Fig. 4 B.

That is, the separation groove 121 of the separator 12 can not only make ore form ore stream, Er Qiesuo Track can also be formed to guide each ore for forming ore stream respectively from the import of the separator 12 by stating separation groove 121 It holds to outlet extreme direction and slides, so as to subsequently make each ore of composition ore stream one by one from the outlet of the separator 12 End departs from the separation groove 121.

Preferably, the height of the input end of the separator 12 is higher than the height of the port of export of the separator 12, i.e. institute It states separator 12 to set with being inclined by, so as to enter the ore energy of the separation groove 121 from the input end of the separator 12 It is enough automatically to separate 121 slide downward of groove along described according to gravity principle, and finally taken off from the port of export of the separator 12 From the separation groove 121.Nevertheless, it will be appreciated by those skilled in the art that, the separator 12 can also be by Flatly set so that the ore driven device into the input end of the separator 12 drive and along the separation groove 121 slide from the input end of the separator 12 to outlet extreme direction.

Further, the transmitting device 10 includes at least one second vibrator 14, wherein second vibrator 14 are arranged at the separator 12, so that second vibrator 14 is capable of providing driving force and the separator 12 is driven to tremble It is dynamic, so that the ore from input end into the separation groove 121 of the separator 12 can be along the separation groove 121 slide to the outlet extreme direction of the separator 12.It is understood that the power by controlling second vibrator 14 Mode can control the vibration frequency of the separator 12, so as to control ore along the separation groove 121 to described point The speed that outlet extreme direction from device 12 slides.

Preferably, second vibrator 14 is arranged at the input end of the separator 12, so that second vibration When device 14 provides driving force in the input end of the separator 12 and the separator 12 is made to generate shake, ore is by the separation The separation groove 121 of device 12 forms ore stream.In addition, second vibrator 14 may be implemented as inertia vibrator.

With further reference to attached drawing 5A and Fig. 5 B, the transmitting device 10 further comprises a transmission main body 11, wherein described Transmission main body 11 and the separator 12 are disposed adjacently, and the port of export of the transmission main body 11 corresponds to the separation The input end of device 12, so that the ore positioned at the transmission main body 11 can be from described in the port of export disengaging for transmitting main body 11 After transmitting main body 11, enter the separation groove 121 from the input end of the separator 12 to form ore stream.

That is, the transmission main body 11 is used to ore being transmitted to the separator 12, and by the separator 12 make ore form ore stream, so as to follow-up, when each ore of composition ore stream is respectively from the outlet of the separator 12 After end one by one departs from the separation groove 121, each ore can be detected respectively, to ensure the reliable of testing result Property.

It is understood that when ore enters the transmission main body 11 from the input end of the transmission main body 11, it is more A ore can be stacked or the distance between adjacent ore is closer, when ore going out from the transmission main body 11 Mouth end departs from the transmission main body 11 and from after the input end of the separator 12 enters the separation groove 121, can be formed Continuous ore stream, and ensure to form the distance between adjacent ore of ore stream, subsequently to be carried out respectively to each ore Detection.

Preferably, the transmission main body 11 and the separator 12 are set with being all inclined by, so as to be led into the transmission The ore of body 11 can from top to down slide according to gravity principle and enter the separator 12, and on the separator 12 Also can slide to depart from the separator 12 from top to down.That is, the separator 12 is arranged at the transmission The port of export of main body 11.

It is noted that the angle of inclination of the transmission main body 11 and the separator 12 is unrestricted and described The angle of inclination of transmission main body 11 and the separator 12 may be the same or different.Preferably, in the ore deposit of the present invention In stone screening installation one embodiment, the angle of inclination of the transmission main body 11 and the separator 12 can be 10 degree to 60 Degree.It is highly preferred that in a specific example of the ore screening installation of the present invention, it is described to transmit main body 11 and described point Angle of inclination from device 12 is 25 degree.

That is, the input end of the separator 12 corresponds to the port of export of the transmission main body 11, and the biography The height of the input end of defeated main body 11 is higher than the height of the port of export, and the height of the input end of the separator 12 is higher than the port of export Highly, so that ore automatically can enter the separator 12 according to gravity principle from the transmission main body 11.

It will be appreciated by those skilled in the art that a separator 12 can form a separation groove 121, multiple separation grooves 121 can also be formed, wherein when a separator 12 forms multiple separation grooves When 121, the input end of each separation groove 121 of the separator 12 can correspond to a transmission main body simultaneously 11 port of export.It will also be appreciated that the separation groove 121 prolongs between the inlet end and an outlet end of the separator 12 It stretches, so that ore can be along the track that the separation groove 121 is formed from the input end of the separator 12 to port of export side To slip.

The transmitting device 10 further comprises one group of damper 16, wherein each damper 16 is arranged at respectively The both sides of the separator 12, with the separator 12 by second vibrator 14 drive and generate shake make ore along When the separation groove 121 slides and forms ore stream, each damper 16 makes the separator 12 freely swing and protect Protect the separator 12.In addition, each damper 16 can also be arranged at the both sides of the transmission main body 11 respectively, with The input end of the transmission main body 11 is dropped down onto under ore and in first vibrator 13 the transmission main body 11 is driven to shake When, each damper 16 can protect the transmission main body 11 while ensureing that the transmission main body 11 generates shake. It is understood that the damper 16 can also form the damping of the ore screening installation, to ensure the ore Reliability of the screening installation in the continuous course of work.

Further, the transmission main body 11 and the separator 12 can be set respectively there are four the damper 16, refer to the attached drawing 4A to Fig. 5 B, such as two dampers 16 are symmetrically disposed on the input end of the separator 12 Both sides, other two described damper 16 are symmetrically disposed on the both sides of the port of export of the separator 12, the separator Two dampers 16 of 12 each side can be connected with each other by a shock cord, to improve the damper 16 Damping effect.Preferably, shock cord can be steel wire rope, to ensure the ore screening installation in the lasting course of work Reliability.

Refer to the attached drawing 2 and Fig. 3, the transmitting device 10 includes a comb formula sieve component 15, wherein the comb formula sieve structure Part 15 is maintained between the transmission main body 11 and the separator 12.Such as the comb formula sieve component 15 can be set The import of the separator 12 can be arranged in the port of export of the transmission main body 11 or the comb formula sieve component 15 End or the comb formula sieve component 15 can be arranged between the transmission main body 11 and the separator 12, so that de- Ore from the transmission main body 11 is filtered before the separator 12 is entered via the comb formula sieve component 15, from And remove the sundries being mixed in ore.

In other words, the comb formula sieve component 15 can be maintained at the port of export of the transmission main body 11 and the separation Between the input end of device 12 so that ore from it is described transmission main body 11 the port of export depart from it is described transmission main body 11 when, ore energy Just enter the input end of the separator 12 after enough being filtered by the comb formula sieve component 15.In addition, the comb formula sieve component 15 can also control the ore for departing from the transmission main body 11 to separate groove 121 into described from the input end of the separator 12 Speed, occur stacking or the bad phenomenon of hypotelorism in the separation groove 121 to avoid ore.

Further, the input end of the separator 12 has an extraction channel 122, wherein the extraction channel 122 Upper end correspond to the comb formula sieve component 15, wherein ore pass through the comb formula sieve component 15 when, the comb formula The sundries cleaned out from ore can be guided out the separator 12, example by sieve component 15 by the extraction channel 122 Broken small sundries can be cleaned out from ore such as the comb formula sieve component 15, such as ore chip, and these sundries are passed through The extraction channel 122 is guided out the separator 12.

The ore screening installation further comprises a collection device 60, wherein there are one collect for the tool of the collection device 60 Space 61, the collection space 61 are communicated in the extraction channel 122, so as to be exported described point from the extraction channel 122 Sundries from device 12 is further collected to the collection space 61.

With further reference to attached drawing 1 to Fig. 3, the transmitting device 10 further comprises a feed bin 17, wherein the feed bin 17 Including a storehouse main body 171 and a cover 172, wherein the storehouse main body 171 of the feed bin 17 has a storing space 173, institute The lower end that cover 172 is movably disposed in the storehouse main body 171 is stated, in the storehouse main body 171 and the cover 172 Between form a discharge port 174, wherein the discharge port 174 correspond to it is described transmission main body 11 input end.Preferably, it is described 172 axis connection of cover is in the storehouse main body 171.

Ore is stored in the storing space 173, and ore according to gravity principle from top to down via it is described go out Material mouth 174 slides, and with the entrance transmission main body 11, when ore passes through the discharge port 174, the cover 172 can incite somebody to action The ore slid in the transmission main body 11 is shakeout in the transmission main body 11, to avoid ore in the transmission main body 11 There is the bad phenomenon stacked in input end.It will be appreciated by those skilled in the art that the cover 172 can need not drive The driving of dynamic device, and will be shakeout via the ore of the discharge port 174 in the input end for transmitting main body 11.In addition, institute Stating discharge port 174 allows to be conditioned as needed by the ability of ore, can be by changing 172 He of cover The assembling of the storehouse main body 171 can be implemented.That is, the storehouse main body 171 and the cover 172 of the feed bin 17 A sluice gate can be formed, and the sluice gate allows to be adjusted by the ability of ore.

Further, the transmitting device 10 further comprises a connector 18, wherein the connector 18 can be set It is placed in the storehouse main body 171 of the feed bin 17.Preferably, the connector 18 is arranged at the discharging of the feed bin 17 Mouth 174, in this way, the ore from the discharge port 174 of the feed bin 17 can be filtered by the connector 18, with by described Connector 18 removes the hair ore deposit being mixed in ore, in this way, the effect of the ore screening installation sorting of ore can not only be improved Rate, but also the pressure caused by being arranged at first vibrator 13 for transmitting main body 11 can be mitigated, so as to Improve the stability and reliability of the ore screening installation.

In addition, the connector 18 allow by the ability of ore can also be regulated to control from the feed bin 17 into Enter the size and speed of the ore of the transmission main body 11.In a preferable examples of the ore screening installation of the present invention In, the connector 18 allows can be by realizing the regulative mode of the ability of ore by way of adjusting rotary valve.

Attached drawing 7A and Fig. 7 B show the process that the transmitting device 10 makes ore form ore stream, wherein by ore storage Or add in the storing space 173 of the feed bin 17, when ore is communicated in described in the storing space 173 certainly When material mouth 174 is from the feed bin 17 into the input end of the transmission main body 11, the connector 18 is to being mixed in ore Hair ore deposit is purged, and the connector 18 can also control ore to transmit main body 11 from the discharge port 174 into described Input end speed.The input end of the transmission main body 11 is fallen under ore and along the main body 11 of transmitting from the transmission The input end of main body 11 to the port of export slide when, by can axis connection can make ore in the cover 172 of the storehouse main body 171 It shakeouts in the transmission main body 11, the bad phenomenon stacked occurs in the transmission main body 11 to avoid ore.Work as ore When departing from the transmission main body 11 from the port of export of the transmission main body 11, the comb formula sieve component 15, which can be removed, to be mixed in Sundries in ore, such as ore chip etc., and these ore chips are guided out the separator from the extraction channel 122 12, so as to which ore only be made to separate groove 121, and the comb formula sieve component into described from the input end of the separator 12 15 can also control the ore for departing from the transmission main body 11 to separate groove 121 into described from the input end of the separator 12 Speed.It is understood that the sundries cleared by the comb formula sieve component 15 from ore can be by the extraction Passage 122 is guided and is collected into the collection space 61 of the collection device 60.When ore along separation groove 121 from The input end of the separator 12 to the port of export slide when, it is described separation groove 121 ore is made to form continuous ore stream, and energy The port of export of each ore from the separator 12 of composition ore stream is enough made one by one to depart from the separation groove 121, so as to Subsequently each ore is being detected respectively.

It is noted that the transmission main body 11 and the gradient of the separator 12 can control ore to form ore The speed of stream.In addition, transmission 11 He of main body is respectively driven by first vibrator 13 and second vibrator 14 The separator 12 generates shake, and ore can also be controlled to form the speed of ore stream.

Refer to the attached drawing 1, the ore screening installation that the transmitting device 10 forms further comprise at least one detection dress 20 are put, wherein the detection device 20 forms an at least detection zone 210 in the port of export of the separator 12, when composition ore Each ore of stream can one by one enter the inspection from after the port of export of the separator 12 departs from the separation groove 121 Region 210 is surveyed, so as to be detected to judge the grade of ore to it by the detection device 20.

Preferably, the detection device 20 forms the detection zone 210 in the lower part of the port of export of the separator 12.

With further reference to attached drawing 1, the transmitting device 10 further includes an at least sorting plant 30, wherein the sorting plant 30 choose ore according to the grade of ore, to distinguish rich ore block and lean ore block.Preferably, the sorting plant 30 is set The lower part of the detection zone 210 is placed in, is detected with the ore that the detection zone 210 is dropped down onto under by the detection device 20 And after obtaining the grade of ore, the sorting plant 30 selectively can be moved to or be rolled over the whereabouts of ore On path, to change the descent path of ore, so as to distinguish rich ore block and lean ore block.

Further, the ore screening installation further comprises a processing unit 40, wherein the transmitting device 10, institute It states detection device 20 and the sorting plant 30 is connected to the processing unit 40 respectively, to be controlled by the processing unit 40 Make the transmitting device 10, the detection device 20 and the sorting plant 30.

In addition, the ore screening installation further comprises a rack 50, wherein the transmitting device 10, the detection dress It puts the 20, sorting plant 30 and the processing unit 40 is arranged at the rack 50 respectively, to be incited somebody to action by the rack 50 The transmitting device 10, the detection device 20, the sorting plant 30 and the processing unit 40 are combined as a whole.

Refer to the attached drawing 8, other side under this invention, the present invention further provides an ore transmission method 800, wherein The ore transmission method 800 includes the following steps：

Step 810, (a) provides an at least separator 12 of the height higher than the height of the port of export of input end；With

Step 820, (b) make the separator 12 be formed between the inlet end and an outlet end of the separator extend to Few separation groove 121, wherein forming ore when ore is from the input end of the separator 12 into the separation groove 121 Stream, and the port of export for forming each ore from the separator 12 of ore stream departs from the separation groove 121 one by one, to pass Defeated ore.

It will be understood by those skilled in the art that foregoing description and attached the embodiment of the present invention shown in figure be only used as citing and It is not intended to limit the present invention.

The purpose of the present invention has been fully and effectively achieved.The function and structural principle of the present invention is opened up in embodiment Show and illustrate, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims (22)

1. the transmitting device of an ore screening installation, which is characterized in that including：

An at least separator, wherein the separator has at least one separation groove, the separation groove is in the separator Extend between inlet end and an outlet end, and the height of the input end of the separator is higher than the height of the port of export, wherein ore Ore stream is formed during from the input end of the separator into the separation groove, and makes each ore of composition ore stream from institute The port of export for stating separator departs from the separation groove one by one.

2. transmitting device according to claim 1, further comprise at least one transmission main body, wherein the transmission main body and The separator is disposed adjacently, and the input end of the separator corresponds to the port of export of the transmission main body.

3. transmitting device according to claim 2 further comprises an at least comb formula sieve component, wherein the comb formula is sieved Sub- component is maintained between the port of export of the transmission main body and the input end of the separator.

4. transmitting device according to claim 3, wherein the comb formula sieve component is arranged at the separator, so that The comb formula sieve component is maintained between the port of export of the transmission main body and the input end of the separator.

5. transmitting device according to claim 4 further comprises at least one first vibrator, wherein first vibration Device is arranged at the transmission main body, to drive the transmission body vibration by first vibrator.

6. transmitting device according to claim 5, wherein first vibrator be arranged at the transmission main body into Mouth end.

7. transmitting device according to claim 5 further comprises at least one second vibrator, wherein second vibration Device is arranged at the separator.

8. transmitting device according to claim 5 further comprises an at least damper, wherein each damper point The both sides of the separator are not symmetrically disposed on.

9. transmitting device according to claim 4, wherein the separator forms an at least extraction channel, described draw is led to The upper end in road corresponds to the comb formula sieve component.

10. according to any transmitting device in claim 2 to 9, further comprise a feed bin, wherein the feed bin has One storing space and the discharge port for being communicated in the storing space, wherein the discharge port corresponds to the institute of the transmission main body State input end.

11. transmitting device according to claim 10, wherein the feed bin includes a storehouse main body and a cover, the cover The storehouse main body is movably disposed in, the storehouse main body has the storing space, in the storehouse main body and the cover Between form the discharge port.

12. transmitting device according to claim 11, wherein the cover by axis connection in the storehouse main body, it is and described The free end of cover towards it is described transmission main body the port of export.

13. transmitting device according to claim 10, further comprises a connector, wherein the connector is maintained at The discharge port, in by connector filtering from the discharge port into the ore of the input end of the transmission main body Hair ore deposit.

14. transmitting device according to claim 12, further comprises a connector, wherein the connector is maintained at The discharge port, in by connector filtering from the discharge port into the ore of the input end of the transmission main body Hair ore deposit.

A 15. ore screening installation, which is characterized in that including：

An at least detection device；

An at least sorting plant；And

According to any at least one transmitting device in claim 1 to 14, wherein the detection device is described The port of export of separator forms a detection zone, enters when ore departs from the separation groove from the port of export of the separator During the detection zone, the detection device is detected ore, and to judge the grade of ore, the sorting plant is according to ore deposit The grade of stone chooses ore, to distinguish rich ore block and lean ore block.

A 16. ore transmission method, which is characterized in that the transmission method includes the following steps：

(a) an at least separator of the height higher than the height of the port of export of input end is provided；With

(b) separator is made to be formed in at least one separation groove extended between the inlet end and an outlet end of the separator, Ore stream wherein is formed when ore is from the input end of the separator into the separation groove, and forms the every of ore stream A ore departs from the separation groove one by one from the port of export of the separator, to transmit ore.

17. transmission method according to claim 16, further comprises step：

Adjacent with separator transmission main body is provided, and makes the port of export for transmitting main body and the separator Input end corresponds, so that after the port of export of ore from the transmission main body departs from the transmission main body, from the separator Input end enter the separation groove.

18. transmission method according to claim 17, further comprises step：

When ore is slided from the input end of the transmission main body to outlet extreme direction, ore is shakeout in the transmission main body.

19. transmission method according to claim 17, further comprises step：

Before ore is from the input end of the separator into the separation groove, ore is cleared up.

20. transmission method according to claim 18, further comprises step：

Before ore is from the input end of the separator into the separation groove, ore is cleared up.

21. transmission method according to claim 20, wherein in the above-mentioned methods, the transmission main body the port of export and An at least comb formula sieve component is set between the input end of the separator, to be mixed in by comb formula sieve component cleaning Sundries in ore.

22. transmission method according to claim 21, wherein in the above-mentioned methods, by a connector in ore from a material When the discharge port in storehouse enters the input end of the transmission main body, cleaning is mixed in the hair ore deposit in ore.