CN214107919U - Discharge port of high-voltage electric separator - Google Patents

Abstract

The utility model provides a discharge gate of high-tension electricity selection machine, including the electricity selection machine main part, receiving mechanism, height detection mechanism, electric putter and alarm, height detection mechanism includes infrared emission pipe, infrared receiving tube and controller, receiving mechanism is including connecing the workbin, it falls into first cavity and second cavity through the baffle to connect the workbin inside, electricity selection machine main part carries out the electricity selection back to the material, the material of selecting separately falls into first cavity and second cavity from the discharge opening of electricity selection machine main part bottom, when the material in one of them cavity highly reachs the height of infrared emission pipe, the controller can control electric putter and promote the baffle and remove, thereby adjust the volume size of two cavities, make electricity selection work can continuously go on, improve electricity selection efficiency.

Description

Discharge port of high-voltage electric separator

Technical Field

The utility model relates to a mineral processing electricity selects technical field, in particular to discharge gate of high-voltage electric selection machine.

Background

The high-voltage electric separator is a mineral separation method for separating minerals according to different electrical properties of the minerals and differences of electric power and mechanical force acting on the minerals when the minerals pass through a high-voltage electric field, so at least two different materials are generally obtained at a discharge port of the electric separator.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a discharge gate of high-tension electricity selection machine can receive the capacity of the internal cavity of workbin according to highly adjusting of material, improves the efficiency of electricity selection.

The technical scheme of the utility model is realized like this:

a discharge port of a high-voltage electric separator comprises an electric separator main body, a material receiving mechanism, a height detection mechanism, an electric push rod and an alarm, wherein a discharge opening is formed in the bottom of the electric separator main body; height detection mechanism includes infrared transmitting tube, infrared receiving tube and controller, infrared transmitting tube sets up on the side that connects workbin inside not to contact with the baffle, infrared receiving tube sets up on the baffle lateral wall, and is relative with infrared transmitting tube, electric putter sets up inside first cavity, and its output shaft is connected with the baffle, the alarm sets up and is connecing the workbin outer wall, the controller sets up in the baffle to be connected with infrared transmitting tube, infrared receiving tube, electric putter and alarm electricity respectively.

Preferably, the bottom of the partition plate is provided with a sliding block, the bottom surface inside the material receiving box is provided with a sliding groove, and the sliding block is located in the sliding groove.

Preferably, receiving mechanism still includes first swash plate and second swash plate, first swash plate sets up at the workbin lateral wall top that connects to keeping away from the slope of baffle direction, the symmetry of second swash plate sets up in the baffle top, and to the slope of the vertical axis direction of baffle.

Preferably, the first inclined plate and the second inclined plate are provided with buffering sponge cushions.

Preferably, the side wall of the material receiving box is provided with a control panel, and the controller is electrically connected with the control panel.

Preferably, the side wall of the material receiving box is provided with a groove, the groove is communicated with the inside of the material receiving box, an electric control door body is arranged in the groove, the electric control door body is hinged with the groove, and the controller is electrically connected with the electric control door body.

Preferably, the electrically controlled door body includes closing plate and rotating electrical machines, closing plate lateral wall bottom is provided with the pivot, the recess lateral wall is provided with the through-hole, the closing plate is arranged in the recess, the pivot stretches into in the through-hole, rotating electrical machines sets up inside the workbin lateral wall that connects, and its output shaft is connected with the pivot, the controller is connected with the rotating electrical machines electricity.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a discharge gate of high-tension electricity selection machine, electricity selection machine main part carries out the electricity selection back to mineral, carry out the ejection of compact from the discharge opening of its bottom, the material after the selection separately falls into respectively in first cavity and the second cavity, height that high detection mechanism through setting up can detect material in first cavity and the second cavity, when the material reaches the specified height, can promote the baffle, adjust the volume of first cavity and second cavity, can make the more cavity volume of material increase, thereby electricity selection machine can continue the electricity selection work, avoid the shutdown and cause the sorting efficiency to reduce.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a first embodiment of a discharge port of a high-voltage electric separator according to the present invention;

fig. 2 is a schematic structural diagram of a material receiving box according to a first embodiment of a discharge port of a high-voltage electric separator according to the present invention;

fig. 3 is a schematic circuit diagram of a first embodiment of a discharge port of a high-voltage electric separator according to the present invention;

fig. 4 is a schematic view of a connection structure between an electric control door body and a material receiving box according to a second embodiment of a discharge port of the high-voltage electric separator of the present invention;

in the figure, 1 is the electronic selection machine main part, 2 is electric putter, 3 is the alarm, 4 is ejection of compact opening, 5 is the material receiving box, 6 is the baffle, 7 is first cavity, 8 is the second cavity, 9 is the infrared emission pipe, 10 is the infrared receiving tube, 11 is the controller, 12 is the slider, 13 is the spout, 14 is first swash plate, 15 is the second swash plate, 16 is the buffering foam-rubber cushion, 17 is control panel, 18 is the recess, 19 is the closing plate, 20 is the rotating electrical machines, 21 is the pivot, 22 is the through-hole.

Detailed Description

In order to better understand the technical content of the present invention, a specific embodiment is provided below, and the present invention is further described with reference to the accompanying drawings.

Referring to fig. 1 to 3, the utility model provides a discharge port of high-voltage electric separator, including electric separator main part 1, receiving mechanism, height detection mechanism, electric putter 2 and alarm 3, the bottom of electric separator main part 1 is provided with discharge opening 4, receiving mechanism includes material receiving box 5 and baffle 6, material receiving box 5 is located discharge opening 4 below, baffle 6 and the inside bottom surface sliding connection of material receiving box 5, and separate into first cavity 7 and second cavity 8 with material receiving box 5 inside, first cavity 7 and second cavity 8 are located discharge opening 4 below; height detection mechanism includes infrared transmitting tube 9, infrared receiving tube 10 and controller 11, infrared transmitting tube 9 sets up on the side that connects 5 inside not contacts with baffle 6 of workbin, infrared receiving tube 10 sets up on 6 lateral walls of baffle, and is relative with infrared transmitting tube 9, electric putter 2 sets up inside first cavity 7, and its output shaft is connected with baffle 6, alarm 3 sets up and connects 5 outer walls of workbin, controller 11 sets up in baffle 6 to be connected with infrared transmitting tube 9, infrared receiving tube 10, electric putter 2 and 3 electricity of alarm respectively.

The discharge gate of a high-voltage electric selection machine of this embodiment, a material for sorting the electric selection machine is collected, wherein electric selection machine main part 1 is sorted mineral material under the high-voltage electric field effect, the material after sorting falls out from ejection of compact opening 4 of electric selection machine main part 1 bottom, and fall into and connect workbin 5, first cavity 7 and second cavity 8 have been divided into through baffle 6 in connecing workbin 5, a discharge opening 4 for corresponding the difference, high detection mechanism has all been set up in first cavity 7 and second cavity 8 simultaneously, a height for detect the interior material of cavity, when material arrives predetermined height, electric putter 2 through setting up can drive baffle 6 and remove, adjust the volume size of two cavities, thereby can continue the electric selection work, need not to stop electric selection machine main part 1, the efficiency of electric selection sorting is improved.

To the height detection mechanism of this embodiment, adopt the infrared light to be sheltered from the form of judging, set up infrared emission pipe 9 at the 5 inner walls of material receiving box, set up infrared receiving tube 10 on baffle 6, all have a set of infrared emission pipe 9 and infrared receiving tube 10 in first cavity 7 and the second cavity 8 promptly, when the height that highly reachs infrared emission pipe 9 place of material, can cut off the propagation of infrared light, infrared receiving tube 10 loses the unable signal of telecommunication that produces of infrared light this moment, controller 11 loses behind the signal of telecommunication that infrared receiving tube 10 produced control electric putter 2 and drive baffle 6 and remove, in order to adjust the volume size of two cavities, thereby can continue the electricity and select work, guarantee the efficiency of electricity selection.

Because the quantity of the material that contains in the material is inequality, when carrying out the electricity selection, can there is some material many, the condition that part material is few, when increasing the volume of one of them cavity, the volume of another cavity can reduce, when the material height in the cavity that reduces has also arrived infrared emission pipe 9 highly, controller 11 can control alarm 3 and report to the police, in time handle with the suggestion staff, prevent that the material from piling up too high and causing and spill over and influence normal electricity selection, in order to guarantee the normal implementation of this embodiment, infrared emission pipe 9 and infrared receiving pipe 10 choose the infrared geminate transistors that the model is LHI778, controller 11 model chooses the singlechip for use as STM32F101V 8.

Preferably, the bottom of the partition plate 6 is provided with a sliding block 12, the bottom surface inside the material receiving box 5 is provided with a sliding groove 13, and the sliding block 12 is positioned in the sliding groove 13.

When the electric push rod 2 pushes the partition board 6, the sliding block 12 at the bottom of the partition board will slide along the sliding groove 13 at the bottom inside the material receiving box 5, so as to prevent the partition board 6 from shifting in the sliding process.

Preferably, receiving mechanism still includes first swash plate 14 and second swash plate 15, first swash plate 14 sets up at 5 lateral wall tops of workbin that connect to keeping away from 6 direction slopes of baffle, second swash plate 15 symmetry sets up in 6 tops of baffle, and to the slope of 6 vertical axis directions of baffle, be provided with buffering foam-rubber cushion 16 on first swash plate 14 and the second swash plate 15.

The first inclined plate 14 and the second inclined plate 15 are arranged to ensure that the material falling from the discharge opening 4 does not splash to the outside of the material receiving box 5 or other cavities, and the buffering sponge cushion 16 is arranged to prevent the material from impacting and damaging the inclined plates.

Preferably, the side wall of the material receiving box 5 is provided with a control panel 17, and the controller 11 is electrically connected with the control panel 17.

The alarm of the alarm 3 can be relieved through the arranged control panel 17, and meanwhile, a reset signal can be sent to the controller 11 through the control panel 17, so that the controller 11 can control the electric push rod 2 to drive the partition board 6 to return to the initial position.

Referring to the second embodiment shown in fig. 4, a groove 18 is formed in the side wall of the material receiving box 5, the groove 18 is communicated with the inside of the material receiving box 5, an electric control door body is arranged in the groove 18 and is hinged to the groove 18, the controller 11 is electrically connected with the electric control door body, the electric control door body comprises a sealing plate 19 and a rotating motor 20, a rotating shaft 21 is arranged at the bottom of the side wall of the sealing plate 19, a through hole 22 is formed in the side wall of the groove 18, the sealing plate 19 is located in the groove 18, the rotating shaft 21 extends into the through hole 22, the rotating motor 20 is arranged inside the side wall of the material receiving box 5, an output shaft of the rotating motor is connected with the rotating shaft 21, and the controller 11 is electrically connected with the rotating motor 20.

After material receiving is completed, a starting signal can be sent to the controller 11 through the control panel 17, the controller 11 controls the rotating motor 20 to work, the rotating motor 20 drives the rotating shaft 21 to rotate, the sealing plate 19 rotates by taking the rotating shaft 21 as a shaft, and therefore materials in the material receiving box 5 can fall out from the groove 18, and collection of the materials in the material receiving box 5 is achieved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The discharge port of the high-voltage electric separator is characterized by comprising an electric separator main body, a material receiving mechanism, a height detection mechanism, an electric push rod and an alarm, wherein a discharge opening is formed in the bottom of the electric separator main body; height detection mechanism includes infrared transmitting tube, infrared receiving tube and controller, infrared transmitting tube sets up on the side that connects workbin inside not to contact with the baffle, infrared receiving tube sets up on the baffle lateral wall, and is relative with infrared transmitting tube, electric putter sets up inside first cavity, and its output shaft is connected with the baffle, the alarm sets up and is connecing the workbin outer wall, the controller sets up in the baffle to be connected with infrared transmitting tube, infrared receiving tube, electric putter and alarm electricity respectively.

2. The discharge hole of the high-voltage electric separator according to claim 1, wherein a sliding block is arranged at the bottom of the partition plate, a sliding groove is arranged on the bottom surface inside the material receiving box, and the sliding block is positioned in the sliding groove.

3. The discharge hole of the high-voltage electric separator according to claim 1, wherein the receiving mechanism further comprises a first inclined plate and a second inclined plate, the first inclined plate is arranged on the top of the side wall of the receiving box and inclined in the direction away from the partition plate, and the second inclined plate is symmetrically arranged above the partition plate and inclined in the direction of the vertical axis of the partition plate.

4. The discharging hole of the high-voltage electric separator according to claim 3, wherein the first inclined plate and the second inclined plate are provided with buffering sponge cushions.

5. The discharge hole of the high-voltage electric separator as claimed in claim 1, wherein a control panel is arranged on the side wall of the material receiving box, and the controller is electrically connected with the control panel.

6. The discharge hole of the high-voltage electric separator according to claim 1, wherein a groove is formed in the side wall of the material receiving box, the groove is communicated with the inside of the material receiving box, an electric control door body is arranged in the groove, the electric control door body is hinged to the groove, and the controller is electrically connected with the electric control door body.

7. The discharge hole of the high-voltage electric separator according to claim 6, wherein the electric control door body comprises a sealing plate and a rotating motor, a rotating shaft is arranged at the bottom of the side wall of the sealing plate, a through hole is formed in the side wall of the groove, the sealing plate is positioned in the groove, the rotating shaft extends into the through hole, the rotating motor is arranged inside the side wall of the material receiving box, an output shaft of the rotating motor is connected with the rotating shaft, and the controller is electrically connected with the rotating motor.

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