CN105728338A - Abrasion-resisting ball detecting and screening device - Google Patents

Abstract

The invention discloses an abrasion-resisting ball detecting and screening device. The abrasion-resisting ball detecting and screening device comprises a main channel, first sensors, second sensors, a first drive device, a second drive device, a third drive device, a fourth drive device and a control device. The main channel is provided with a feeding end and a discharging end. A first branch channel and a second branch channel arranged in a spaced manner are arranged on one side of the main channel. A first stop block is arranged in the main channel and located on one side, close to the second branch channel, of the first branch channel. A second stop block is arranged in the main channel and located on one side, close to the discharging end of the main channel, of the second branch channel. A third stop block is arranged at the communication position of the first branch channel and the main channel. A fourth stop block is arranged at the communication position of the second branch channel and the main channel. The control device controls the actions of the first drive device, the second drive device, the third drive device and the fourth drive device according to detection signals of the first sensors and the second sensors, and the first stop block, the second stop block, the third stop block and the fourth stop block are driven to conduct the corresponding actions.

Description

A kind of wear-resistant ball detection screening plant

Technical field

The present invention relates to wear-resistant ball processing technique field, particularly relate to a kind of wear-resistant ball detection screening plant.

Background technology

Wear-resistant ball, is a kind of for the crushing medium in ball mill, for the material in crushing mill, Yi Zhongshi, is called for short chrome alloy cast iron with the white cast-iron that chromium is main alloy element, is called chromium alloy iron casting abrading ball with the cast grinding ball that chrome alloy cast iron is material；Another kind is, is called ductile iron abrading-ball with the cast grinding ball that spheroidal graphite cast-iron is material, and the matrix wherein obtained by heat treatment is mainly the ductile iron abrading-ball of bainite and is called for short bainite ductile iron abrading-ball；The matrix obtained by heat treatment is mainly the ductile iron abrading-ball of martensite and is called for short martensite nodular cast iron grinding ball.In large batch of production process, it is necessary to it is carried out detection to select qualified products, this needs special cubing just can complete work.

Summary of the invention

Based on the technical problem that above-mentioned background technology exists, the present invention proposes a kind of wear-resistant ball detection screening plant.

The present invention proposes a kind of wear-resistant ball detection screening plant, including: main channel, first sensor, the second sensor, the first driving device, the second driving device, the 3rd driving device, four-drive device and control device, wherein:

Main channel is in tilted layout, and main channel has feed end and discharge end, and main channel is provided with the first branched bottom and the second branched bottom by feed end to discharge end direction successively interval；

In main channel and be positioned at the first branched bottom and be provided with the first block near the side of the second branched bottom, first block has primary importance and the second position, and when the first block is in primary importance, the feed end of main channel is closed with discharge end, when the first block is in the second position, the feed end of main channel turns on discharge end；

In main channel and be positioned at the second branched bottom and be provided with the second block near the side of main channel discharge end, second block has primary importance and the second position, and when the second block is in primary importance, the feed end of main channel is closed with discharge end, when the second block is in the second position, the feed end of main channel turns on discharge end；

First branched bottom and main channel connectivity part are provided with third gear block, third gear block has primary importance and the second position, and when third gear block is in primary importance, the first branched bottom turns on main channel, when third gear block is in the second position, the first branched bottom is closed with main channel；

Second branched bottom and main channel connectivity part are provided with fourth gear block, fourth gear block has primary importance and the second position, and when fourth gear block is in primary importance, the second branched bottom turns on main channel, when fourth gear block is in the second position, the second branched bottom is closed with main channel；

First driving device is used for driving the first block to switch between primary importance and the second position；

Second driving device is used for driving the second block to switch between primary importance and the second position；

3rd driving device is used for driving third gear block to switch between primary importance and the second position；

Four-drive device is used for driving fourth gear block to switch between primary importance and the second position；

First sensor is positioned at first branched bottom side near main channel feed end, and first sensor is connected with controlling device, and first sensor is for detecting the wear-resistant ball surface of this section of traverse in main channel；

Second sensor is between the first branched bottom and the second branched bottom, and the second sensor is connected with controlling device, and the second sensor is for detecting the wear-resistant ball surface of this section of traverse in main channel；

Control device to be connected with the first driving device, the second driving device, the 3rd driving device and four-drive device respectively；

Control device and control the first driving device and the 3rd driving device action according to the detection signal of first sensor, the first block is driven to enter primary importance or the second position, third gear block is driven to enter primary importance or the second position, main channel is made to be under closed state at its feed end and discharge end, first branched bottom and main channel conducting, or making main channel under its feed end and discharge end are in the conduction state, the first branched bottom is closed with main channel；

Control device and control the second driving device and four-drive device action according to the detection signal of the second sensor, the second block is driven to enter primary importance or the second position, fourth gear block is driven to enter primary importance or the second position, main channel is made to be under closed state at its feed end and discharge end, second branched bottom and main channel conducting, or making main channel under its feed end and discharge end are in the conduction state, the second branched bottom is closed with main channel.

Preferably, first sensor is for detecting whether the wear-resistant ball surface of this section of traverse in main channel has crackle；If detecting when there is crackle on wear-resistant ball surface, first sensor sends signal T1 to controlling device, controls device and controls the first driving device action, drives the first block to enter primary importance, makes the feed end of main channel and discharge end close；Meanwhile, control device and control the 3rd driving device action, drive third gear block to enter primary importance, make the first branched bottom and main channel conducting；If detecting when wear-resistant ball surface does not have crackle, first sensor sends signal T0 to controlling device, controls device and controls the first driving device action, drives the first block to enter the second position, makes feed end and the discharge end conducting of main channel；Meanwhile, control the 3rd driving device action, drive third gear block to enter the second position, make the first branched bottom close with main channel.

Preferably, the quantity of first sensor is multiple, and each first sensor is arranged by the interval, side of laterally closer first branched bottom near main channel feed end, and each first sensor is connected with control device respectively；When controlling device and receiving the signal T1 that arbitrary first sensor sends, control device controls the first driving device and the 3rd driving device makes corresponding actions, drive the first block and third gear block to simultaneously enter primary importance, make the first branched bottom and main channel conducting.

Preferably, the second sensor is for detecting whether the wear-resistant ball surface of this section of traverse in main channel has protruding block；If detecting when there is protruding block on wear-resistant ball surface, the second sensor sends signal T11 to controlling device, controls device and controls the second driving device action, drives the second block to enter primary importance, makes the feed end of main channel and discharge end close；Meanwhile, control device and control four-drive device action, drive fourth gear block to enter primary importance, make the second branched bottom and main channel conducting；If detecting when wear-resistant ball surface does not have protruding block, the second sensor sends signal T01 to controlling device, controls device and controls the second driving device action, drives the second block to enter the second position, makes feed end and the discharge end conducting of main channel；Meanwhile, control four-drive device action, drive fourth gear block to enter the second position, make the second branched bottom close with main channel.

Preferably, the quantity of the second sensor is multiple, and each second sensor is arranged by the interval, side of laterally closer second branched bottom near the first branched bottom, and each second sensor is connected with control device respectively；When controlling device and receiving the signal T11 that arbitrary second sensor sends, control device controls the second driving device and four-drive device makes corresponding actions, drive the second block and fourth gear block to simultaneously enter primary importance, make the second branched bottom and main channel conducting.

Preferably, the first branched bottom and the second branched bottom are positioned at the same side of main channel.

Preferably, the first branched bottom is in tilted layout, and first branched bottom one end level height near main channel is more than its other end level height.

Preferably, the second branched bottom is in tilted layout, and second branched bottom one end level height near main channel is more than its other end level height.

Preferably, being provided with the first wave section and the second wave section in main channel, first wave section position in main channel is correspondingly arranged according to first sensor position, and second wave section position in main channel is correspondingly arranged according to the second sensor position；First wave section and the second wave section are parallel to each other and along being perpendicular to the horizontal stripe composition that main channel bearing of trend extends by some.

Preferably, the quantity of the first wave section is consistent with the quantity of first sensor.

Preferably, the quantity of the second wave section is consistent with the quantity of the second sensor.

In the present invention, main channel is in tilted layout, and main channel has feed end and discharge end, and main channel is provided with the first branched bottom and the second branched bottom by feed end to discharge end direction successively interval；In main channel and be positioned at the first branched bottom and be provided with the first block near the side of the second branched bottom；In main channel and be positioned at the second branched bottom and be provided with the second block near the side of main channel discharge end；First branched bottom and main channel connectivity part are provided with third gear block；Second branched bottom and main channel connectivity part are provided with fourth gear block；First block, the second block, third gear block and fourth gear block are respectively provided with primary importance and the second position；First driving device, the second driving device, the 3rd driving device and four-drive device are respectively used to drive the first block, the second block, third gear block and fourth gear block to enter and switch between primary importance and the second position；First sensor and the second sensor are respectively used to the surface of the wear-resistant ball through its detection section is carried out just detection；At work, the wear-resistant ball of screening to be detected is entered by the feed end of main channel, when it is through first sensor position, its surface is carried out just detection by first sensor, when just detection is defective for it, first sensor sends defective signal to controlling device, control device and control the first driving device and the 3rd driving device action, the first block and third gear block is driven to simultaneously enter primary importance, main channel is made to be under closed state at its feed end and discharge end, first branched bottom and main channel conducting, the underproof wear-resistant ball of initial survey is made to be entered the first branched bottom by main channel, and discharged by the first branched bottom；When detecting qualified at the beginning of first sensor, first sensor sends qualifying signal to controlling device, control device and control the first driving device and the 3rd driving device action, the first block and third gear block is driven to simultaneously enter the second position, make main channel under its feed end and discharge end are in the conduction state, first branched bottom is closed with main channel so that the wear-resistant ball that initial survey is qualified enters the detection position at the second sensor place and again detects；When the second sensor detects defective again, second sensor sends defective signal to controlling device, control device and control the second driving device and four-drive device action, the second block and fourth gear block is driven to simultaneously enter primary importance, main channel is made to be under closed state at its feed end and discharge end, second branched bottom and main channel conducting so that examine underproof wear-resistant ball again and entered the second branched bottom by main channel, and discharged by the second branched bottom；When detecting qualified at the beginning of the second sensor, second sensor sends qualifying signal to controlling device, control device and control the second driving device and four-drive device action, the second block and fourth gear block is driven to simultaneously enter the second position, make main channel under its feed end and discharge end are in the conduction state, second branched bottom is closed with main channel so that examines qualified wear-resistant ball again and is discharged by the discharge end of main channel.

In sum, the wear-resistant ball detection screening plant that the present invention proposes, achieve wear-resistant ball detection and screening by cooperating between main channel, the first branched bottom, the second branched bottom, first sensor, the second sensor, the first driving device, the second driving device, the 3rd driving device, four-drive device and control device, and simple in construction, input cost is low, is suitable to promote the use of.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of wear-resistant ball detection screening plant that the present invention proposes.

Detailed description of the invention

Below, by specific embodiment, technical scheme is described in detail.

As it is shown in figure 1, the structural representation of a kind of wear-resistant ball detection screening plant that Fig. 1 is the present invention to be proposed.

With reference to Fig. 1, a kind of wear-resistant ball detection screening plant that the embodiment of the present invention proposes, including: main channel 1, first sensor the 2, second sensor the 3, first driving device the 4, second driving device the 5, the 3rd driving device 6, four-drive device 7 and control device, wherein:

Main channel 1 is in tilted layout, main channel 1 has feed end and discharge end, main channel 1 is provided with the first branched bottom 8 and the second branched bottom 9 by feed end to discharge end direction successively interval, and the first branched bottom 8 and the second branched bottom 9 are positioned at the same side of main channel 1.

In main channel 1 and be positioned at the first branched bottom 8 and be provided with the first block 10 near the side of the second branched bottom 9, first block 10 has primary importance and the second position, and when the first block 10 is in primary importance, the feed end of main channel 1 is closed with discharge end, when the first block 10 is in the second position, the feed end of main channel 1 turns on discharge end；In main channel 1 and be positioned at the second branched bottom 9 and be provided with the second block 11 near the side of main channel 1 discharge end, second block 11 has primary importance and the second position, and when the second block 11 is in primary importance, the feed end of main channel 1 is closed with discharge end, when the second block 11 is in the second position, the feed end of main channel 1 turns on discharge end；First branched bottom 8 and main channel 1 connectivity part are provided with third gear block 12, third gear block 12 has primary importance and the second position, and when third gear block 12 is in primary importance, first branched bottom 8 turns on main channel 1, when third gear block 12 is in the second position, the first branched bottom 8 is closed with main channel 1；Second branched bottom 9 and main channel 1 connectivity part are provided with fourth gear block 13, fourth gear block 13 has primary importance and the second position, and when fourth gear block 13 is in primary importance, second branched bottom 9 turns on main channel 1, when fourth gear block 13 is in the second position, the second branched bottom 9 is closed with main channel 1.

First driving device 4 is used for driving the first block 10 to switch between primary importance and the second position, and the first driving device 4 is connected with controlling device and is controlled by action；Second driving device 5 is used for driving the second block 11 to switch between primary importance and the second position, and the second driving device 5 is connected with controlling device and is controlled by action；3rd driving device 6 is used for driving third gear block 12 to switch between primary importance and the second position, and the 3rd driving device 6 is connected with controlling device and is controlled by action；Four-drive device 7 is used for driving fourth gear block 13 to switch between primary importance and the second position, and four-drive device 7 is connected with controlling device and is controlled by action.

First sensor 2 is positioned at the first branched bottom 8 near the side of main channel 1 feed end, and first sensor 2 is connected with controlling device, and first sensor 2 is for detecting whether the wear-resistant ball surface of this section of traverse in main channel 1 has crackle；If detecting when there is crackle on wear-resistant ball surface, first sensor 2 sends signal T1 to controlling device, controls device and controls the first driving device 4 action, drives the first block 10 to enter primary importance, makes the feed end of main channel 1 and discharge end close；Meanwhile, control device and control the 3rd driving device 6 action, drive third gear block 12 to enter primary importance, make the first branched bottom 8 turn on main channel 1, make to enter with the wear-resistant ball of crackle in the first branched bottom 8, and discharged by the first branched bottom 8；If detecting when wear-resistant ball surface does not have crackle, first sensor 2 sends signal T0 to controlling device, controls device and controls the first driving device 4 action, drives the first block 10 to enter the second position, makes feed end and the discharge end conducting of main channel 1；Meanwhile, control the 3rd driving device 6 action, drive third gear block 12 to enter the second position, make the first branched bottom 8 close with main channel 1, make do not have in wear-resisting entrance the second sensor detection region of crackle and carry out secondary detection.

Second sensor 3 is connected with controlling device, and the second sensor 3 is for detecting whether the wear-resistant ball surface of this section of traverse in main channel 1 has protruding block；If detecting when there is protruding block on wear-resistant ball surface, the second sensor 3 sends signal T11 to controlling device, controls device and controls the second driving device 5 action, drives the second block 11 to enter primary importance, makes the feed end of main channel 1 and discharge end close；Meanwhile, control device and control four-drive device 7 action, drive fourth gear block 13 to enter primary importance, make the second branched bottom 9 turn on main channel 1 so that surface enters in the second branched bottom 9 with the wear-resistant ball of protruding block, and is discharged by the second branched bottom 9；If detecting when wear-resistant ball surface does not have protruding block, the second sensor 3 sends signal T01 to controlling device, controls device and controls the second driving device 5 action, drives the second block 11 to enter the second position, makes feed end and the discharge end conducting of main channel 1；Meanwhile, control four-drive device 7 action, drive fourth gear block 13 to enter the second position, make the second branched bottom 9 close with main channel 1 so that surface had not both had protruding block, did not have again the wear-resistant ball of crackle directly to be discharged by the discharge end of main channel 1.

In the present invention, the quantity of first sensor 2 is multiple, and each first sensor 2 is arranged by the interval, side of laterally closer first branched bottom 8 near main channel 1 feed end, and each first sensor 2 is connected with control device respectively；When controlling device and receiving the signal T1 that arbitrary first sensor 2 sends, control device controls the first driving device 4 and the 3rd driving device 6 makes corresponding actions, drive the first block 10 and third gear block 12 to simultaneously enter primary importance, make the first branched bottom 8 turn on main channel 1；The quantity of the second sensor 3 is multiple, and each second sensor 3 is arranged by the interval, side of laterally closer second branched bottom 9 near the first branched bottom 8, and each second sensor 3 is connected with control device respectively；When controlling device and receiving the signal T11 that arbitrary second sensor 3 sends, control device controls the second driving device 5 and four-drive device 7 makes corresponding actions, drive the second block 11 and fourth gear block 13 to simultaneously enter primary importance, make the second branched bottom 9 turn on main channel 1；By the setting of multiple first sensors 2 and multiple second sensor 3, to improve the reliability to the wear-resistant ball detection in rolling, it is to avoid the generation at detection dead angle, improve the comprehensive of detection.

In the present embodiment, the first branched bottom 8 is in tilted layout, and first branched bottom 8 one end level height near main channel 1 is more than its other end level height；Second branched bottom 9 is in tilted layout, and second branched bottom 9 one end level height near main channel 1 is more than its other end level height；Arranged by said structure, facilitate being automatically drained out of wear-resistant ball.

In the present embodiment, the first wave section consistent with first sensor 2 quantity and the second wave section consistent with the second sensor 3 quantity it is provided with in main channel 1, first wave section position in main channel 1 is correspondingly arranged according to first sensor 2 position, and second wave section position in main channel 1 is correspondingly arranged according to the second sensor 3 position；First wave section and the second wave section are parallel to each other and along being perpendicular to the horizontal stripe composition that main channel 1 bearing of trend extends by some；By arranging the first wave section and the second wave section in the detection section of first sensor 2 and the second sensor 3, when making wear-resistant ball enter wave section, by the horizontal stripe barrier effect in wave section, rolling speed is slowed down, simultaneously, upspring, thus facilitating first sensor 2 and the second sensor 3 accurately to detect.

As from the foregoing, the wear-resistant ball detection screening plant that the present invention proposes, achieve wear-resistant ball detection and screening by cooperating between main channel the 1, first branched bottom the 8, second branched bottom 9, first sensor the 2, second sensor the 3, first driving device the 4, second driving device the 5, the 3rd driving device 6, four-drive device 7 and control device, and simple in construction, input cost is low, is suitable to promote the use of.

Above; it is only the present invention preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; any those familiar with the art is in the technical scope that the invention discloses; it is equal to replacement according to technical scheme and inventive concept thereof or is changed, all should be encompassed within protection scope of the present invention.

Claims (10)

1. a wear-resistant ball detection screening plant, it is characterized in that, including: main channel (1), first sensor (2), the second sensor (3), the first driving device (4), the second driving device (5), the 3rd driving device (6), four-drive device (7) and control device, wherein:

Main channel (1) is in tilted layout, main channel (1) has feed end and discharge end, and main channel (1) is provided with the first branched bottom (8) and the second branched bottom (9) by feed end to discharge end direction successively interval；

In main channel (1) and be positioned at the first branched bottom (8) and be provided with the first block (10) near the side of the second branched bottom (9), first block (10) has primary importance and the second position, and when the first block (10) is in primary importance, the feed end of main channel (1) is closed with discharge end, when the first block (10) is in the second position, the feed end of main channel (1) turns on discharge end；

In main channel (1) and be positioned at the second branched bottom (9) and be provided with the second block (11) near the side of main channel (1) discharge end, second block (11) has primary importance and the second position, and when the second block (11) is in primary importance, the feed end of main channel (1) is closed with discharge end, when the second block (11) is in the second position, the feed end of main channel (1) turns on discharge end；

First branched bottom (8) and main channel (1) connectivity part are provided with third gear block (12), third gear block (12) has primary importance and the second position, and when third gear block (12) is in primary importance, first branched bottom (8) and main channel (1) conducting, when third gear block (12) is in the second position, the first branched bottom (8) is closed with main channel (1)；

Second branched bottom (9) and main channel (1) connectivity part are provided with fourth gear block (13), fourth gear block (13) has primary importance and the second position, and when fourth gear block (13) is in primary importance, second branched bottom (9) and main channel (1) conducting, when fourth gear block (13) is in the second position, the second branched bottom (9) is closed with main channel (1)；

First driving device (4) is used for driving the first block (10) to switch between primary importance and the second position；

Second driving device (5) is used for driving the second block (11) to switch between primary importance and the second position；

3rd driving device (6) is used for driving third gear block (12) to switch between primary importance and the second position；

Four-drive device (7) is used for driving fourth gear block (13) to switch between primary importance and the second position；

First sensor (2) is positioned at the first branched bottom (8) side near main channel (1) feed end, first sensor (2) is connected with controlling device, and first sensor (2) is for detecting the wear-resistant ball surface of this section of traverse in main channel (1)；

Second sensor (3) is positioned between the first branched bottom (8) and the second branched bottom (9), second sensor (3) is connected with controlling device, and the second sensor (3) is for detecting through the wear-resistant ball surface of this section of traverse in main channel (1)；

Control device to be connected with the first driving device (4), the second driving device (5), the 3rd driving device (6) and four-drive device (7) respectively；

Control device and control the first driving device (4) and the 3rd driving device (6) action according to the detection signal of first sensor (2), the first block (10) is driven to enter primary importance or the second position, third gear block (12) is driven to enter primary importance or the second position, main channel (1) is made to be under closed state at its feed end and discharge end, first branched bottom (8) and main channel (1) conducting, or make main channel (1) under its feed end and discharge end are in the conduction state, first branched bottom (8) is closed with main channel (1)；

Control device and control the second driving device (5) and four-drive device (7) action according to the detection signal of the second sensor (3), the second block (11) is driven to enter primary importance or the second position, fourth gear block (13) is driven to enter primary importance or the second position, main channel (1) is made to be under closed state at its feed end and discharge end, second branched bottom (9) and main channel (1) conducting, or make main channel (1) under its feed end and discharge end are in the conduction state, second branched bottom (9) is closed with main channel (1).

2. wear-resistant ball according to claim 1 detection screening plant, it is characterised in that first sensor (2) is used for detecting whether the interior wear-resistant ball surface through this section, main channel (1) has crackle；If detecting when there is crackle on wear-resistant ball surface, first sensor (2) sends signal T1 to controlling device, control device and control the first driving device (4) action, drive the first block (10) to enter primary importance, make the feed end of main channel (1) and discharge end close；Meanwhile, control device and control the 3rd driving device (6) action, drive third gear block (12) to enter primary importance, make the first branched bottom (8) and main channel (1) conducting；If detecting when wear-resistant ball surface does not have crackle, first sensor (2) sends signal T0 to controlling device, control device and control the first driving device (4) action, drive the first block (10) to enter the second position, make feed end and the discharge end conducting of main channel (1)；Meanwhile, control the 3rd driving device (6) action, drive third gear block (12) to enter the second position, make the first branched bottom (8) close with main channel (1).

3. wear-resistant ball according to claim 2 detection screening plant, it is characterized in that, the quantity of first sensor (2) is multiple, each first sensor (2) is arranged by the interval, side of laterally closer first branched bottom (8) near main channel (1) feed end, and each first sensor (2) is connected with control device respectively；When controlling device and receiving the signal T1 that arbitrary first sensor (2) sends, control device controls the first driving device (4) and the 3rd driving device (6) makes corresponding actions, drive the first block (10) and third gear block (12) to simultaneously enter primary importance, make the first branched bottom (8) and main channel (1) conducting.

4. wear-resistant ball according to claim 1 detection screening plant, it is characterised in that the second sensor (3) is used for detecting whether the interior wear-resistant ball surface through this section, main channel (1) has protruding block；If detecting when there is protruding block on wear-resistant ball surface, second sensor (3) sends signal T11 to controlling device, control device and control the second driving device (5) action, drive the second block (11) to enter primary importance, make the feed end of main channel (1) and discharge end close；Meanwhile, control device and control four-drive device (7) action, drive fourth gear block (13) to enter primary importance, make the second branched bottom (9) and main channel (1) conducting；If detecting when wear-resistant ball surface does not have protruding block, second sensor (3) sends signal T01 to controlling device, control device and control the second driving device (5) action, drive the second block (11) to enter the second position, make feed end and the discharge end conducting of main channel (1)；Meanwhile, control four-drive device (7) action, drive fourth gear block (13) to enter the second position, make the second branched bottom (9) close with main channel (1).

5. wear-resistant ball according to claim 4 detection screening plant, it is characterized in that, the quantity of the second sensor (3) is multiple, each second sensor (3) is arranged by the interval, side of laterally closer second branched bottom (9) near the first branched bottom (8), and each second sensor (3) is connected with control device respectively；When controlling device and receiving the signal T11 that arbitrary second sensor (3) sends, control device controls the second driving device (5) and four-drive device (7) makes corresponding actions, drive the second block (11) and fourth gear block (13) to simultaneously enter primary importance, make the second branched bottom (9) and main channel (1) conducting.

6. wear-resistant ball according to claim 1 detection screening plant, it is characterised in that the first branched bottom (8) and the second branched bottom (9) are positioned at the same side of main channel (1).

7. wear-resistant ball according to claim 1 detection screening plant, it is characterized in that, first branched bottom (8) is in tilted layout, and the first branched bottom (8) one end level height near main channel (1) is more than its other end level height.

8. wear-resistant ball according to claim 1 detection screening plant, it is characterized in that, second branched bottom (9) is in tilted layout, and the second branched bottom (9) one end level height near main channel (1) is more than its other end level height.

9. the wear-resistant ball detection screening plant according to any one of claim 1-8, it is characterized in that, the first wave section and the second wave section it is provided with in main channel (1), first wave section position in main channel (1) is correspondingly arranged according to first sensor (2) position, and second wave section position in main channel (1) is correspondingly arranged according to the second sensor (3) position；First wave section and the second wave section are parallel to each other and along being perpendicular to the horizontal stripe composition that main channel (1) bearing of trend extends by some.

10. wear-resistant ball according to claim 9 detection screening plant, it is characterised in that the quantity of the first wave section is consistent with the quantity of first sensor (2)；Preferably, the quantity of the second wave section is consistent with the quantity of the second sensor (3).