CN218600723U - Stone material machinery temperature monitoring device and stone material processing equipment - Google Patents

Abstract

The utility model relates to a stone machinery temperature monitoring devices and stone material processing equipment of stone material machinery technical field, stone material machinery temperature monitoring devices reaches and includes the cradling piece and install a plurality of monitoring unit on the cradling piece, a plurality of monitoring unit are according to the same orientation interval distribution on the cradling piece, monitoring unit includes an installation body, have the attached face that can be with being monitored object surface contact on the installation body, install magnetism on the attached face of installation body and inhale piece and temperature monitoring device, the installation body is provided with the connecting piece that links to each other with the cradling piece on the another side different from the attached face; this device adopts magnetism to inhale the formula, has avoided the processing of high difficulty mounting hole, has reduced the processing cost of product. The installation is convenient, and the installation can be carried out in the long and narrow hole and the groove. The temperature change can be converted into an electric potential energy signal by the thermocouple and then output to an external temperature control system, so that real-time temperature monitoring of the equipment is realized.

Description

Stone material machinery temperature monitoring devices and stone material processing equipment

Technical Field

The utility model relates to a stone material machinery temperature monitoring devices and stone material processing equipment belongs to the technical field of stone material machinery.

Background

In some parts of the stone machinery, the heat generated during working can cause the deformation of the stone machinery, and the structural damage of the stone machinery is caused. For example, in shaft parts of mine gang saws, the friction of bearings during operation is too large due to improper installation or lack of lubrication, and a large amount of heat is generated to deform and damage the parts, so that the operating temperature of the parts needs to be monitored.

The existing temperature monitoring mode is that a manual hand-held thermometer is used for temperature measurement, or a temperature sensor is arranged for temperature monitoring.

During manual measurement, due to the fact that the working environment of the stone machinery is severe, impurities such as broken stones, dust and slurry can be generated and attached to the measured part, the measurement result is affected, and the measured part can be located inside the whole machinery and is difficult to measure.

When the temperature sensor is installed for temperature monitoring, the temperature sensor needs to be fixed on a measured part, and a generally adopted fixing method is to arrange an installation hole position. However, for most stone machines, the measured part is usually an important working part (such as a mandrel), and the installation hole position can reduce the strength of the machine, so that the structure of the machine is damaged.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem existing in the prior art, the utility model provides a stone material machinery temperature monitoring device and stone material processing equipment.

The technical scheme of the utility model as follows:

the utility model provides a stone material machinery temperature monitoring devices, includes the cradling piece and install in a plurality of monitoring unit on the cradling piece, it is a plurality of monitoring unit is according to the same orientation interval distribution on the cradling piece, monitoring unit includes an installation body, the installation body on have can with by the attached face of monitoring object surface contact, install magnetism on the attached face of installation body and inhale piece and temperature monitoring device, the installation body be different from be provided with on the another side of attached face with the connecting piece that the cradling piece links to each other.

Wherein, the attachment surface of the installation body is provided with a magnetic attraction installation screw hole, and the magnetic attraction piece is in threaded connection with the installation body.

Wherein, the attached face of the installation body is provided with a temperature monitoring screw hole, and the temperature monitoring device is in threaded connection with the installation body.

The mounting body is provided with an attaching surface, wherein the attaching surface of the mounting body is provided with a connecting and mounting screw hole, and the connecting piece is in threaded connection with the mounting body.

The magnetic part comprises a permanent magnet and an external thread mounting column, the permanent magnet is fixedly embedded at the front end of the external thread mounting column, and the external thread mounting column is in threaded connection with the magnetic mounting screw hole.

The temperature monitoring device is a screw type thermocouple, and the external thread end of the screw type thermocouple is in threaded connection with the temperature monitoring screw hole.

Step external threads are arranged at two ends of the connecting piece, one end of the connecting piece is in threaded connection with the connecting and mounting screw hole, and a gasket and a nut are arranged at the other end of the connecting piece.

The bracket rod is provided with mounting holes corresponding to the mounting positions of the monitoring units, and the connecting piece penetrates through the mounting holes and keeps clearance fit.

The stone machining equipment comprises the stone mechanical temperature monitoring device, wherein the stone mechanical temperature monitoring device is used for monitoring the temperature of a bearing mounting position between a driven wheel and a driven wheel shaft in the stone machinery.

The utility model discloses following beneficial effect has:

1. the utility model discloses can turn into potential energy signal output to outside temperature control system with temperature variation through the thermocouple, realize the real-time temperature monitoring of equipment.

2. The utility model discloses a formula structure is inhaled to magnetism, can be according to the installation face of installation demand processing adjustment installation piece, makes whole temperature monitoring device laminate the testee surface better, can satisfy the installation requirement, need not to open the mounting hole at the testee surface, overcomes current temperature monitoring device and need set up the problem that the mounting hole leads to its structural damage, influences its working property.

3. The utility model discloses a long supporting structure can stretch into narrow and long slot hole, inslot portion and adsorb the installation, and the installation is simple swift, can overcome the problem that current temperature monitoring device is difficult to go deep into narrow and long slot hole, inslot portion installation.

4. The utility model discloses all monitoring unit link to each other with the cradling piece and become a whole, and the pulling cradling piece can make whole temperature monitoring device break away from the position of being surveyed, and it is convenient simple to dismantle, and the maintenance of part is changed when being convenient for the trouble.

Drawings

Fig. 1 is a schematic view of the overall structure of a stone mechanical temperature monitoring device of the present invention;

FIG. 2 is a schematic cross-sectional view of the stone mechanical temperature monitoring device of the present invention;

fig. 3 is a schematic view of a monitoring unit structure of the stone mechanical temperature monitoring device of the present invention;

FIG. 4 is a schematic view of the overall structure of a stone processing apparatus of the present invention;

fig. 5 is the utility model relates to a stone material machinery installation temperature monitoring devices schematic diagram.

The reference numbers in the figures denote:

1-a support rod, 11-an installation hole, 2-a monitoring unit, 21-an installation body, 22-an attachment surface, 23-a magnetic attraction piece, 24-a temperature monitoring device, 25-a connecting piece, 26-a magnetic attraction installation screw hole, 27-a temperature monitoring screw hole, 28-a connection installation screw hole, 29-a gasket and 210-a nut;

3-lifting mechanism, 4-frame, 5-driving wheel, 6-driven wheel, 7-driven wheel shaft, 8-upright post, 9-skip, 10-stone material and 12-beam.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

Referring to fig. 1-3, a stone machinery temperature monitoring device comprises a support rod 1 and a plurality of monitoring units 2 installed on the support rod 1, wherein the monitoring units 2 are distributed on the support rod 1 at intervals according to the same orientation, the monitoring units 2 comprise an installation body 21, and in the embodiment, the installation body 21 is a square block structure;

the mounting body 21 is provided with an attaching surface 22 capable of contacting with the surface of the monitored object, in the embodiment, the attaching surface 22 is an arc-shaped curved surface adapted to the inner wall of the mounting pipeline;

the attaching surface 22 of the mounting body 21 is provided with a magnetic attraction piece 23 and a temperature monitoring device 24, and the other side surface of the mounting body 21 different from the attaching surface 22 is provided with a connecting piece 25 connected with the bracket rod 1;

specifically, a magnetic suction mounting screw hole 26 is formed in an attachment surface 22 of the mounting body 21, the magnetic suction member 23 is in threaded connection with the mounting body 21, the magnetic suction member 23 comprises a permanent magnet and an external thread mounting post, the permanent magnet is fixedly embedded in the front end of the external thread mounting post, the external thread mounting post is in threaded connection with the magnetic suction mounting screw hole 26, the magnetic suction member 23 is slightly sunk into the magnetic suction mounting screw hole 26 after being mounted, the surface of the permanent magnet is close to the attachment surface 22, when the attachment surface 22 is in magnetic suction metal surface contact with external equipment, the surface of the permanent magnet is close to the surface of the external equipment, and the monitoring unit 2 is fixed on the surface of the external equipment by utilizing magnetic suction force generated by the permanent magnet and the surface of the external equipment; the magnetic suction pieces 23 and the magnetic suction mounting screw holes 26 are arranged in two and distributed on the diagonal angle of the mounting body 21.

Specifically, a temperature monitoring screw hole 27 is formed in an attachment surface 22 of the mounting body 21, the temperature monitoring device 24 is in threaded connection with the mounting body 21, the temperature monitoring device 24 is a screw thermocouple, an external thread end of the screw thermocouple is in threaded connection with the temperature monitoring screw hole 27, after the temperature monitoring device 24 is mounted, the external thread end of the screw thermocouple slightly falls into the temperature monitoring screw hole 27, the surface of the screw thermocouple is close to the attachment surface 22, and when the attachment surface 22 is in magnetic attraction metal surface contact with external equipment, the external thread end of the screw thermocouple is close to the surface of the external equipment, so that the temperature of the surface of the external equipment can be detected; the temperature monitoring device 24 and the temperature monitoring screw hole 27 are respectively arranged one by one and distributed on the corner at one side of the mounting body 21

Specifically, a connecting and mounting screw hole 28 is formed in an attaching surface 22 of the mounting body 21, the connecting piece 25 is in threaded connection with the mounting body 21, step external threads are arranged at two ends of the connecting piece 25, one end of the connecting piece is in threaded connection with the connecting and mounting screw hole 28, a mounting hole 11 is formed in the support rod 1 corresponding to the mounting position of each monitoring unit 2, the connecting piece 25 penetrates through the mounting hole 11 and keeps clearance fit, and a gasket 29 and a nut 210 are arranged at the other end of the connecting piece to play a role in limiting and preventing falling; through the mounting structure, each monitoring unit 2 can axially slide along the connecting piece 25 on the support rod 1, so that each monitoring unit 2 can be fully attached to the corresponding monitoring point on the surface of the equipment to be tested relatively independently, and the condition that the monitoring units 2 of individual parts cannot be fully attached to the surface of the equipment to be tested due to the fact that the surface of the equipment to be tested is uneven and position errors among the monitoring points are avoided; the connecting piece 25 and the connecting mounting screw hole 28 are provided with two, and are distributed in the middle of two sides of the mounting body 21.

Working principle of example 1:

adjust cradling piece 1 and make each monitoring unit 2 adsorb on equipment measured position surface, adjust each monitoring unit 2's interval position and make it be close to each monitoring point on equipment measured surface, utilize magnetism on the monitoring unit 2 to inhale 23 and the magnetic attraction that the external equipment surface produced, be fixed in external equipment with monitoring unit 2 on the surface, temperature monitoring device 24 on the monitoring unit 2 turns into the temperature variation of mechanical structure working process electromotive force signal output into, transmit control system, reach temperature monitoring's effect, realize temperature monitoring's automated control.

Example 2

Referring to fig. 4-5, a stone processing device, a specific location ore cutting device, includes the stone machinery temperature monitoring device of embodiment 1, specifically, the stone machinery includes a main frame of a sawing machine composed of an upright 1 and a cross beam 2, a lifting mechanism 3 is installed on the cross beam 2, the lifting mechanism 3 can drive a frame 4 to vertically move along the upright 1, a driving wheel 5 and a driven wheel 6 are installed on the frame 4, a diamond rope is installed between the driving wheel 5 and the driven wheel 6, a driven wheel shaft 7 is installed in the middle of the driven wheel 6, a stone machinery temperature monitoring device is installed in the middle of the driven wheel shaft 7, each monitoring unit 2 of the stone machinery temperature monitoring device is fixedly attached to the inner wall of the driving wheel shaft 7, a skip 9 is installed between the driving wheel 5 and the driven wheel, and stones 10 are placed on the skip.

Working principle of example 2:

when the stone cutting machine works, the skip car 9 drives the stone 10 to move back and forth, and the front and back cutting positions of the stone 10 are adjusted. The driving wheel 5 rotates to drive the diamond rope to rotate, the diamond rope drives the driven wheel 6 to rotate, the lifting mechanism 3 drives the rack 4 to descend along the stand column 1, and the diamond rope vertically downwards cuts stones 10 placed on the skip car 9 along with the driving wheel 5 and the driven wheel 6. After cutting, the lifting mechanism 3 drives the frame 4 to lift, so that the diamond rope is separated from stone.

In the working process, due to the reasons of abnormal bearing installation positions between the driven wheel 6 and the driven wheel shaft 7 or lack of lubrication and the like, the friction force can be greatly increased, and the bearing is damaged due to heating, so that the temperature of the part needs to be monitored, and through the arrangement of the stone mechanical temperature monitoring device, the temperature monitoring device 24 on the monitoring unit 2 converts the temperature change of the working process of the bearing installation positions between the driven wheel 6 and the driven wheel shaft 7 into an electromotive force signal to be output and transmitted to a control system, the temperature monitoring effect is achieved, and the automatic control of temperature monitoring is realized.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. The utility model provides a stone material machinery temperature monitoring device which characterized in that: include cradling piece (1) and install in a plurality of monitoring unit (2) on cradling piece (1), it is a plurality of monitoring unit (2) are according to the same orientation interval distribution on cradling piece (1), monitoring unit (2) include an installation body (21), have on the installation body (21) can with attached face (22) by monitoring object surface contact, install on attached face (22) of the installation body (21) and inhale piece (23) and temperature monitoring device (24), the installation body (21) be different from be provided with on the another side of attached face (22) with connecting piece (25) that cradling piece (1) links to each other.

2. A stone machine temperature monitoring device as claimed in claim 1, characterized in that: the magnetic attraction mounting device is characterized in that a magnetic attraction mounting screw hole (26) is formed in an attaching surface (22) of the mounting body (21), and the magnetic attraction piece (23) is in threaded connection with the mounting body (21).

3. A stone machine temperature monitoring device as claimed in claim 1, characterized in that: temperature monitoring screw holes (27) are formed in an attaching face (22) of the mounting body (21), and the temperature monitoring device (24) is in threaded connection with the mounting body (21).

4. A stone machine temperature monitoring device as claimed in claim 1, characterized in that: the mounting structure is characterized in that a connecting and mounting screw hole (28) is formed in an attaching surface (22) of the mounting body (21), and the connecting piece (25) is in threaded connection with the mounting body (21).

5. A stone machine temperature monitoring device as claimed in claim 2, characterized in that: the magnetic part (23) comprises a permanent magnet and an external thread mounting column, the permanent magnet is fixedly embedded at the front end of the external thread mounting column, and the external thread mounting column is in threaded connection with the magnetic mounting screw hole (26).

6. A stone machine temperature monitoring device as claimed in claim 3, characterized in that: the temperature monitoring device (24) is a screw type thermocouple, and the external thread end of the screw type thermocouple is in threaded connection with the temperature monitoring screw hole (27).

7. A stone machine temperature monitoring device as claimed in claim 4, characterized in that: step external threads are arranged at two ends of the connecting piece (25), one end of the connecting piece is in threaded connection with the connecting and mounting screw hole (28), and a gasket (29) and a nut (210) are arranged at the other end of the connecting piece.

8. A stone machine temperature monitoring device as claimed in claim 7, characterized in that: mounting holes (11) are formed in the mounting positions, corresponding to the monitoring units (2), of the support rod (1), and the connecting piece (25) penetrates through the mounting holes (11) and keeps clearance fit.

9. Stone working equipment, characterized in that it comprises a stone machine temperature monitoring device according to any one of claims 1-8, for monitoring the temperature of the bearing mounting position between the driven wheel (6) and the driven wheel shaft (7) in the stone machine.

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