CN201555816U

CN201555816U - Mining steel rope core conveying belt cross section monitoring device

Info

Publication number: CN201555816U
Application number: CN2009202785631U
Authority: CN
Inventors: 秦志松; 吴宏天; 徐正松
Original assignee: Yangzhou Sanxin Mining Equipments Co Ltd
Current assignee: Yangzhou Sanxin Mining Equipments Co Ltd
Priority date: 2009-11-11
Filing date: 2009-11-11
Publication date: 2010-08-18
Anticipated expiration: 2019-11-11

Abstract

The utility model relates to a structural improvement for the existing steel rope core conveying belt cross section monitoring device, which is mainly characterized in that an X-ray source, an X-ray receiving board, a computer and a switch group are respectively placed inside an explosion-proof box body provided with a wiring cavity, the X-ray source and the X-ray receiving board which are arranged inside the explosion-proof box body are connected with the computer via optical cables, and then the mining steel rope core conveying belt cross section monitoring device not only can be explosion-proof, but also can realize remote transmission. The mining steel rope core conveying belt cross section monitoring device meets technical requirements of mine application, reduces maintenance cost and time of belt conveyors, is favorable for safety detection of mine conveying belts, and can increase mine production efficiency over 10%.

Description

Steel rope core conveying belt cross-section monitoring device for mines

Technical field

The utility model relates to a kind of steel rope core conveying belt cross-section monitoring device for mines, belongs to mining checkout equipment technical field.

Background technology

The application scenario of belt feeder is very extensive, but the conveying belt in the belt feeder certainly will cause conveying to interrupt in case appearance is ruptured, and influence production also can bring potential safety hazard.For meeting the needs of, the pick-up unit that utilizes X ray to carry out the perspective flaw detection of conveying belt has been arranged now, by retrieval, application number is that 01130952.0 " a kind of device for monitoring lateral broke of steel wire enhanced conveying belt " discloses correlation technique, this device is mainly by x-ray source, with the corresponding dash receiver of x-ray source, what comprise pixel control panel, processes pixel plate, display screen, printer is the processing section of core with the PC microcomputer, adopts cable to be connected between the x-ray source in the device, pixel control panel, processes pixel plate and PC microcomputer.This device can solve the detection to the perspective flaw detection of conveying belt, in time find relevant issues, help initiatively taking the necessary technology measure to be removed a hidden danger, but this device can't be in a large amount of underground mines application of using conveying belt, crucial problem is not have the flame proof function.

Summary of the invention

The purpose of this utility model provides a kind of steel rope core conveying belt cross-section monitoring device for mines, the solution application number is " a kind of device for monitoring lateral broke of steel wire enhanced conveying belt " existing can't application at a large amount of underground mines of conveying belt that use of 01130952.0, crucial problem is the deficiency with flame proof function, the utility model satisfies the technical requirement of mine application, the safety detection that helps mine conveyer belt, the production efficiency of raising mine.

The purpose of this utility model is achieved through the following technical solutions, a kind of steel rope core conveying belt cross-section monitoring device for mines, comprise support, be fixed on the x-ray source on the support, the X ray dash receiver of corresponding x-ray source, computing machine and control circuit, it is characterized in that, switches set is set, described x-ray source, the X ray dash receiver, computing machine, control circuit and switches set place respectively in the flameproof cabinet with wire connection cavity, place the x-ray source in the flameproof cabinet, the X ray dash receiver is connected through optical cable with intercomputer, in the flameproof cabinet respective switch of switches set respectively with x-ray source, X line dash receiver, computing machine connects.

Described flameproof cabinet wire connection cavity has some outlets, and the outlet inwall is provided with the buffering flame-retardant layer.

The flameproof cabinet of described x-ray source is made of main chamber, wire connection cavity, and x-ray source places in the main chamber, and main chamber one end outer wall is through welding link chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer, link post on the wall between main chamber and wire connection cavity.

The flameproof cabinet of described X ray dash receiver is made of main chamber, wire connection cavity, and the X ray dash receiver places in the main chamber, and an end outer wall in main chamber is through welding link chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer.

The flameproof cabinet of described computing machine is made of main chamber and wire connection cavity, and computing machine places in the main chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer.

Described switches set flameproof cabinet is made of main chamber and wire connection cavity, and switches set places in the main chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer.

In the flameproof cabinet of X ray dash receiver, in the flameproof cabinet of x-ray source with in the flameproof cabinet of computing machine photoelectricity signal converter and power supply adaptor are set respectively, each photoelectricity signal converter connects X ray dash receiver, x-ray source, computing machine respectively, x-ray source, X ray dash receiver through separately photoelectricity signal converter after optical cable be connected with the photoelectricity signal converter of computing machine.

The utility model is the improvement to existing steel rope core conveying belt cross-section monitoring structure, principal feature is with x-ray source, X line dash receiver, computing machine, switches set places respectively in the flameproof cabinet with wire connection cavity, place the x-ray source in the flameproof cabinet, X line dash receiver is connected through optical cable with intercomputer, not only can flame proof, and can realize long-distance transmissions, the utility model has satisfied the technical requirement of mine application, reduce the maintenance cost and the time of band conveyor, the safety detection that helps mine conveyer belt can improve mine production efficiency more than 10%.

Description of drawings

Fig. 1 is the utility model structural representation;

Fig. 2 is a flame-proof type x-ray source box structure synoptic diagram in the utility model;

Fig. 3 is a flame-proof type X line receiving magazine box structure synoptic diagram in the utility model;

Fig. 4 is a flame-proof type computer box structural representation in the utility model;

Fig. 5 is a flame-proof type switches set body structure synoptic diagram in the utility model;

Embodiment

Further specify the utility model in conjunction with the accompanying drawings and embodiments, as shown in Figure 1, the utility model is by support, be fixed on the x-ray source 1 on the support, the X line dash receiver 2 of corresponding x-ray source 1, computing machine 4 by optical cable 3 connections, switches set 5 constitutes, and x-ray source 1, X line dash receiver 2, computing machine 4, switches set 5 place respectively in the flameproof cabinet with wire connection cavity, places 4 in x-ray source 1 in each flameproof cabinet, X line dash receiver 2 and computing machine to be connected through optical cable 3 respectively.

The wire connection cavity of flameproof cabinet has some outlets, and each exports inwall the buffering flame-retardant layer is set.

As shown in Figure 2, the flameproof cabinet of x-ray source 1 is made of main chamber 6 and wire connection cavity 7, and x-ray source 1 places in the main chamber 6, and an end outer wall in main chamber 6 is through welding link chamber 7, the inwall that respectively exports of wire connection cavity 7 is provided with the buffering flame-retardant layer, link post on the wall that main chamber 6 and wire connection cavity are 7.

As shown in Figure 3, the flameproof cabinet of X line dash receiver 2 is made of main chamber 8 and wire connection cavity 9, and X line dash receiver 2 places in the main chamber 8, and an end outer wall in main chamber 8 is through welding link chamber 9, and the inwall that respectively exports of wire connection cavity 9 is provided with the buffering flame-retardant layer.

As shown in Figure 4, the flameproof cabinet of computing machine 4 is made of main chamber 10 and wire connection cavity 11, and computing machine 4 places in the main chamber 10, and the inwall that respectively exports of wire connection cavity 11 is provided with the buffering flame-retardant layer.

As shown in Figure 5, the flameproof cabinet of switches set 5 is made of main chamber 12 and wire connection cavity 13, and switches set 5 places in the

main chamber

12, and 13 of wire connection cavity respectively exports inwall the buffering flame-retardant layer is set.

Computing machine 4 in X line dash receiver 2 in the flameproof cabinet, the x-ray source in the flameproof cabinet 1 and the flameproof cabinet all can be provided with the photoelectricity signal converter, each photoelectricity signal converter connects X line dash receiver 2, x-ray source 1, computing machine 4 respectively, and the computing machine 4 in the X line dash receiver 2 in the flameproof cabinet, the x-ray source in the flameproof cabinet 1 and the flameproof cabinet transmits signal by optical cable.

Claims

1. steel rope core conveying belt cross-section monitoring device for mines, comprise support, be fixed on the x-ray source on the support, the X ray dash receiver of corresponding x-ray source, computing machine and control circuit, it is characterized in that, switches set is set, described x-ray source, X ray dash receiver, computing machine, control circuit and switches set place respectively in the flameproof cabinet with wire connection cavity, place x-ray source, X ray dash receiver in the flameproof cabinet to be connected through optical cable with intercomputer, the respective switch of switches set is connected with x-ray source, X line dash receiver, computing machine respectively in the flameproof cabinet.

2. steel rope core conveying belt cross-section monitoring device for mines according to claim 1 is characterized in that, described flameproof cabinet wire connection cavity has some outlets, and the outlet inwall is provided with the buffering flame-retardant layer.

3. steel rope core conveying belt cross-section monitoring device for mines according to claim 1 and 2, it is characterized in that, the flameproof cabinet of described x-ray source is made of main chamber, wire connection cavity, x-ray source places in the main chamber, main chamber one end outer wall is through welding link chamber, the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer, link post on the wall between main chamber and wire connection cavity.

4. steel rope core conveying belt cross-section monitoring device for mines according to claim 1 and 2, it is characterized in that, the flameproof cabinet of described X ray dash receiver is made of main chamber, wire connection cavity, the X ray dash receiver places in the main chamber, the one end outer wall in main chamber is through welding link chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer.

5. steel rope core conveying belt cross-section monitoring device for mines according to claim 1 and 2 is characterized in that the flameproof cabinet of described computing machine is made of main chamber and wire connection cavity, and computing machine places in the main chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer.

6. steel rope core conveying belt cross-section monitoring device for mines according to claim 1 and 2 is characterized in that, described switches set flameproof cabinet is made of main chamber and wire connection cavity, and switches set places in the main chamber, and the inwall that respectively exports of wire connection cavity is provided with the buffering flame-retardant layer.

7. steel rope core conveying belt cross-section monitoring device for mines according to claim 1, it is characterized in that, in the flameproof cabinet of X ray dash receiver, in the flameproof cabinet of x-ray source with in the flameproof cabinet of computing machine photoelectricity signal converter and power supply adaptor are set respectively, each photoelectricity signal converter connects X ray dash receiver, x-ray source, computing machine respectively, x-ray source, X ray dash receiver through separately photoelectricity signal converter after optical cable be connected with the photoelectricity signal converter of computing machine.