CN216510787U - Accurate stop device in guipure automatic deviation rectification mechanical component stroke position - Google Patents

Abstract

The utility model discloses a mesh belt automatic deviation rectifying mechanical assembly stroke position accurate limiting device, which solves the problem of deviation rectifying accumulated errors in the prior art and is characterized in that: one end of a deviation rectifying roller (13) is fixedly installed on one side of a transmission supporting rack (5) through a spherical bearing (14), the other end of the deviation rectifying roller is installed in a deviation rectifying slide block (8) of a slide block guide rail (12), the slide block guide rail (12) is installed on the other side of the transmission supporting rack (5), a deviation rectifying motor (7) installed on the rack is connected with a screw rod in threaded fit with the deviation rectifying slide block (8) through a shaft joint, and deviation rectifying slide block limiting sensors (11) are arranged on two sides of a slide block installed in the slide block guide rail (12). The technology is practiced that the mesh belt runs in a normal range for half a year without human intervention, and the function of automatic deviation rectification is completely realized.

Description

Accurate stop device in guipure automatic deviation rectification mechanical component stroke position

Technical Field

The utility model belongs to the field of automatic deviation correction of conveying mesh belt operation, and particularly relates to a precise limiting device for a stroke position of a mesh belt automatic deviation correction mechanical assembly.

Background

The principle of the automatic deviation rectifying system is that a sensor senses the deviation distance of the mesh belt, the automatic deviation rectifying system is driven by designed software to automatically rectify the deviation, and a deviation rectifying mechanical assembly automatically moves back and forth according to a program instruction to change the tightness of one side of the mesh belt so as to realize the automatic deviation rectifying of the mesh belt. The deviation rectifying mode has the disadvantages that when the automatic deviation rectifying mechanical assembly needs to do reciprocating motion for many times due to deviation rectification and is combined under the tension of the mesh belt to exceed a proper stroke position, thereby causing error rectification of the mesh belt, and if the two sides of the mesh belt have longer bending, the deviation rectifying mechanical assembly can occasionally do deviation rectifying motion for two times in the same direction, thereby causing error rectification of the mesh belt. In the prior art, in order to ensure the normal operation of the mesh belt, workers need to reset and adjust the automatic deviation rectifying mechanical assembly once per shift or day, unfortunately, some workers often forget to reset operation for several days, so that the deviation rectification of the mesh belt is out of control, and serious economic loss is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a mesh belt automatic deviation rectifying mechanical assembly stroke accurate limiting device which is scientific in structure, stable in operation, accurate in positioning and timely in deviation rectifying and is used for the market.

The technical scheme of the utility model is as follows: the complete system comprises a mesh belt (containing other conveying belts), a transmission motor, a transmission roller wheel, a transmission carrier roller (containing other conveying belt supports), a transmission support frame, a mesh belt deviation sensor, a deviation rectification motor, a deviation rectification slide block, a correct stroke and position of the deviation rectification slide block (the stroke and the position of the deviation rectification slide block need to be manually debugged and determined on site according to the actual condition of equipment), system control software, a deviation rectification slide block limiting sensor and the like. One end of the deviation rectifying roller is fixedly arranged on one side of the transmission supporting rack through a spherical bearing, the other end of the deviation rectifying roller is arranged in a deviation rectifying slide block of the slide block guide rail, the slide block guide rail is arranged on the other side of the transmission supporting rack, a deviation rectifying motor arranged on the rack is connected with a screw rod in threaded fit with the deviation rectifying slide block through a shaft joint, and the two sides of the slide block arranged in the slide block guide rail are provided with deviation rectifying slide block limiting sensors. The control range of the system control software comprises the rotation time and positive and negative rotation of the deviation correcting motor, the left deviation or right deviation of the net belt measured by the net belt deviation sensor, the starting and stopping of the deviation correcting motor, the alarm of the excessive deviation of the net belt, the over-position emergency stop of the deviation correcting mechanical assembly, the deviation correcting stroke control and the like, and the limit sensor comprises a stroke switch, a photoelectric switch, a proximity switch and the like which can be selected optionally according to requirements.

The utility model has the beneficial effects that: aiming at the defects in the prior art, the accurate stroke position limiting of the automatic deviation rectifying slide block of the mesh belt designed by the utility model controls the stroke and the position of the deviation rectifying mechanical component by using the sensor, so that the running track of the deviation rectifying mechanical component is kept in a proper position for a long time, the mesh belt can be ensured to normally run for a long time without manual intervention on the premise of no equipment damage, the economic life of the equipment is prolonged, and the labor intensity of workers is correspondingly lightened.

The utility model will be further explained with reference to the drawings.

Drawings

FIG. 1 is a schematic top view of a portion of a belt according to the present invention;

FIG. 2 is a front alignment left view structural diagram of the present invention;

FIG. 3 is a rear alignment left view structural schematic of the present invention;

FIG. 4 is a left side view schematic diagram of the present invention showing the occurrence of an accumulated error in a misaligned state;

FIG. 5 is a front alignment left view partially enlarged view of the present invention;

FIG. 6 is a rear alignment left view partially enlarged structural view of the present invention;

FIG. 7 is a left-view partial structure diagram of the present invention showing an accumulated error due to misalignment;

FIG. 8 is a schematic top view of the deviation correcting mechanism of the present invention.

In the figure: the device comprises a mesh belt 1, a transmission motor 2, a transmission roller 3, a transmission carrier roller 4, a transmission support frame 5, a mesh belt deviation sensor 6, a deviation rectification motor 7, a deviation rectification slider 8, a deviation rectification slider 9, a correct stroke and position of the deviation rectification slider 10, system control software 11, a limit sensor 12, a slider guide rail 13, a deviation rectification roller 14 and a spherical bearing.

Detailed Description

As shown in the figure, the accurate stop device of guipure automatic deviation rectification mechanical assembly stroke position includes the kiln body, guipure 1, drive motor 2, drive running roller 3, drive carrier roller 4, drive support frame 5, guipure deviation sensor 6, deviation rectification motor 7, deviation rectification slider 8, correct stroke and position 9 of deviation rectification slider, deviation rectification roller 13, spherical bearing 14, slider guide rail 12 and system control software 10, etc. parts, one end of deviation rectification roller 13 is fixedly installed on one side of drive support frame 5 through spherical bearing 14, the other end is installed in deviation rectification slider 8 of slider guide rail 12, slider guide rail 12 is installed on the other side of drive support frame 5, deviation rectification motor 7 installed on the frame is connected with the screw rod which is in threaded fit with deviation rectification slider 8 through the shaft joint, and two sides of slider installed in slider guide rail 12 are provided with deviation rectification slider limit sensor 11. The control range of the system control software 10 comprises the rotation time and positive and negative rotation of the deviation correction motor, the left deviation or right deviation of the net belt measured by the net belt deviation sensor, the starting and stopping of the deviation correction motor, the alarm of the excessive deviation of the net belt, the over-position emergency stop of the deviation correction mechanical assembly and the deviation correction stroke control. The limit sensor 11 is any one of a travel switch, a photoelectric switch and a proximity switch. When the utility model is implemented, the deviation rectifying slide block 8 is driven by the deviation rectifying motor 7, the mesh belt 1 is supported and carried by the transmission carrier roller 4, the transmission roller wheel 3, the transmission support frame 5 and the like, the mesh belt 1 is driven by the transmission motor 2 to operate, the mesh belt 1 always moves leftwards or rightwards when in operation, the mesh belt 1 deviates from a safety range within a long time, when the mesh belt 1 deviates from the safety range, the mesh belt deviation sensor 6 generates induction, and the system control software 10 controls the deviation rectifying motor 7 to rotate forwards or backwards and rotate for enabling the deviation rectifying slide block 8 to move back and forth in a correct position according to the deviation direction and distance measured by the mesh belt deviation sensor 6, so that the mesh belt on one side is loosened or tightened to adjust the left and right deviation directions of the mesh belt, thereby realizing accurate deviation rectification. The deviation rectifying slide block 8 can leave the proper position for a long time due to the back and forth movement and the tension of the mesh belt 1, so that the mesh belt deviation rectification fails, and the error of the mesh belt deviation rectification occurs due to the error repeated movement of the deviation rectifying mechanical assembly caused by the bending of the mesh belt. The utility model utilizes a limit sensor 11 to control a deviation-correcting slide block 8 in a correct position for a long time, and the principle is that the deviation-correcting slide block 8 is clamped in a reasonable position and a reasonable stroke left and right by two limit sensors 11 (one limit sensor can be used according to different equipment), if the deviation of the deviation-correcting slide block to a certain direction occurs due to the two reasons, an automatic deviation-correcting slide block stroke position sensor immediately generates a signal, and meanwhile, a control software 10 stops rotating according to a signal instruction of a deviation-correcting motor 7 so as to ensure that the deviation-correcting slide block walks back and forth in a proper area for a long time, and through the experience of years of practice summary, as long as the deviation-correcting slide block is in the correct stroke and position, the mesh belt 1 can keep normal operation for a long time.

Claims (3)

1. The utility model provides a guipure automatic mechanical component stroke position accurate stop device that rectifies, it includes the kiln body, guipure (1), drive motor (2), drive running roller (3), drive bearing roller (4), transmission support frame (5), guipure skew sensor (6), motor (7) of rectifying, the slider (8) of rectifying, the slider exact stroke and position (9) of rectifying, roller (13) of rectifying, spherical bearing (14), slider guide rail (12) and system control software (10), its characterized in that: one end of the deviation rectifying roller (13) is fixedly installed at one side of the transmission supporting rack (5) through a spherical bearing (14), the other end of the deviation rectifying roller is installed in a deviation rectifying slide block (8) of a slide block guide rail (12), the slide block guide rail (12) is installed at the other side of the transmission supporting rack (5), a deviation rectifying motor (7) installed on the rack is connected with a screw rod in threaded fit with the deviation rectifying slide block (8) through a shaft joint, and deviation rectifying slide block limiting sensors (11) are arranged at two sides of the slide block installed in the slide block guide rail (12).

2. The accurate stop device in guipure automatic deviation rectification mechanical component stroke position of claim 1, characterized in that: the control range of the system control software (10) comprises the rotation time and the positive and negative rotation of the deviation correcting motor, the left deviation or the right deviation of the net belt measured by the net belt deviation sensor, the starting and stopping of the deviation correcting motor, the alarm of the excessive deviation of the net belt, the over-position scram of the deviation correcting mechanical assembly and the deviation correcting stroke control.

3. The accurate stop device in guipure automatic deviation rectification mechanical component stroke position of claim 1 or 2, characterized in that: the limit sensor (11) is any one of a travel switch, a photoelectric switch and a proximity switch.

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