CN209871551U - Telescopic belt automatic deviation correcting device containing sensor feedback - Google Patents

Abstract

The utility model discloses an automatic deviation correcting device of telescopic belt containing sensor feedback, including the frame of rectifying, automatic telescopic link, the rotation gasket, the slip gasket, the telescopic link head-axle, the telescopic link tail-axle, protection casing and the sensor of rectifying, the location end of the frame of rectifying is provided with a rotation axis, the rotation axis passes the locating hole in the frame and fixes a position the frame of rectifying with lock nut, the tail end of automatic telescopic link passes through the telescopic link tail-axle and is located the frame, the head end passes through the telescopic link head-axle and is located the slip of the frame of rectifying and serves, the rotation gasket is placed between the location end lower surface of the frame of rectifying and frame, the slip gasket is placed between the slip end lower surface of the frame of rectifying and frame, a belt bearing roller is fixed in the upper surface of the frame of rectifying through the bearing. The utility model discloses a high-efficient, accurate, real-time belt is automatic rectifies a deviation, and the sound construction is reliable, and mechanical strength is high.

Description

Telescopic belt automatic deviation correcting device containing sensor feedback

Technical Field

The utility model relates to a spare part of horizontal vacuum belt filter relates to an automatic deviation correcting device of telescopic belt who contains sensor feedback.

Background

Horizontal vacuum belt filters have been used in recent years for filtering sodium bicarbonate suspensions in soda ash production. In a horizontal vacuum belt filter, slurry to be filtered is distributed on filter cloth on the upper surface of an annular main belt, the annular main belt is debugged to enable the position to be centered when equipment runs in an idle load (without carrying materials), and when the equipment runs with load (carrying materials), the annular main belt often deviates from the central position due to load change and other reasons, and the main belt needs to be corrected. In the prior art, a belt deviation rectifying device containing feedback is not arranged on a horizontal vacuum belt filter, a main belt can be limited within a certain range only by a belt guide wheel with a fixed installation position, and the belt guide wheel can not meet the requirement of belt deviation rectification or needs to be adjusted manually due to the fact that the main belt deviates from different positions when in no-load and load operation, the load working condition changes and the like.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve exist among the above-mentioned prior art not enough, provide one kind and can realize high-efficient, accurate, real-time belt automatic deviation rectification, and sound construction is reliable, the telescopic belt automatic deviation rectification device who contains the sensor feedback that mechanical strength is high.

The technical scheme of the utility model: an automatic telescopic belt deviation correcting device containing sensor feedback comprises a deviation correcting frame, an automatic telescopic rod, a rotating gasket, a sliding gasket, a telescopic rod head shaft, a telescopic rod tail shaft, a protective cover and a deviation correcting sensor, the positioning end of the deviation rectifying frame is provided with a rotating shaft which passes through the positioning hole on the frame and positions the deviation rectifying frame by a locking nut, the tail end of the automatic telescopic rod is positioned on the machine frame through the tail shaft of the telescopic rod, the head end of the automatic telescopic rod is positioned on the sliding end of the deviation rectifying frame through the head shaft of the telescopic rod, the rotating gasket is placed between the lower surface of the positioning end of the deviation rectifying frame and the rack, the sliding gasket is placed between the lower surface of the sliding end of the deviation rectifying frame and the rack, a belt carrier roller is fixed on the upper surface of the deviation rectifying frame through bearing seats at two ends, and the deviation rectifying sensors are arranged on two sides of the annular main belt.

Preferably, the deviation correcting sensor feeds back real-time position deviation information of the annular main belt to the automatic telescopic rod, and the automatic telescopic rod pushes the deviation correcting frame according to the feedback information to enable the belt carrier roller to deflect a certain angle along a rotating shaft at a positioning end of the deviation correcting frame, so that the annular main belt returns to a central position.

Preferably, the deviation correcting device further comprises a protective cover arranged on the outer side of the automatic telescopic rod.

The protective cover is used for preventing electric leakage and corrosion phenomena caused by a severe operating environment.

The utility model discloses can promote the rotation end of the frame of rectifying deviation through automatic telescopic link according to the real-time skew positional information of the annular main belt of rectifying deviation sensor feedback, make the belt bearing roller of fixing on the frame of rectifying deviation clockwise or anticlockwise certain angle of deflection to make guide annular main belt return central point to put in the opposite direction, realized high-efficient, accurate, real-time belt is automatic rectifies, simultaneously, the mechanical strength of this device has also been guaranteed in the integral type design of the frame of rectifying deviation.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic side view of the present invention.

In the figure: 1 is a deviation rectifying frame; 101 is a rotating shaft; 102 is a lock nut; 2, an automatic telescopic rod; 201 is an automatic telescopic rod head end; 202 is the tail end of the automatic telescopic rod; 3 is a rotating gasket; 4 is a sliding gasket; 5 is a telescopic rod head shaft; 501, a locking nut; 6 is a tail shaft of the telescopic rod; 601 is a lock nut; 7 is a protective cover; 8 is a deviation rectifying sensor; 9 is a frame; 901 is a positioning hole; 10 is an annular main belt; 11 is a belt roller; and 1101 is a bearing seat.

Detailed Description

The following will combine the utility model discloses the telescopic belt automatic deviation rectification device who contains sensor feedback that preferred embodiment provided and its drawing is right the utility model discloses the explanation further.

The utility model discloses the telescopic belt automatic deviation correcting device who contains sensor feedback that preferred embodiment provided, as shown in figure 1, figure 2, include and be located frame 9 on rectifying frame 1, automatic telescopic link 2, place in the locating end lower surface of rectifying frame 1 and the rotation gasket 3 between frame 9 of telling through rotation axis 101 and lock nut 102, place in the slip gasket 4 between frame 9 of telling rectifying frame 1's slip end lower surface and frame 9, be fixed in through lock nut 501 the telescopic link head axle 5 of head end 201 of automatic telescopic link 2, be fixed in through lock nut 601 the telescopic link tail axle 6 of tail end 202 of automatic telescopic link 2, be fixed in on the frame 9 and be in the protection casing 7 in the automatic telescopic link 2 outside, set up in the sensor 8 of rectifying in annular main belt 10 both sides.

In this preferred embodiment, the utility model discloses an automatic deviation correcting device of telescopic belt that contains sensor feedback, rotation axis 101 passes locating hole 901 on the frame 9, thereby makes frame 1 that rectifies can carry out the circumference along rotation axis 101 and revolve, the head end 201 of automatic telescopic link 2 passes through telescopic link head 5 is located on frame 1's the slip end of rectifying, tail end 202 of automatic telescopic link 2 passes through telescopic link tail 6 is located on frame 9, and belt bearing roller 11 is fixed in through the bearing frame 1101 at both ends frame 1's upper surface of rectifying, and the lower surface of annular main belt 10 is located belt bearing roller 11's top, according to the real-time skew positional information of the main belt 10 of sensor 8 feedback of rectifying, automatic telescopic link 2 promotes through head end 201 frame 1's the slip end of rectifying makes belt bearing roller 11 with frame 1's rotation axis 101 of rectifying is certain anticlockwise rotation as the center Angle to make annular main belt 10 return to central point to put toward the opposite direction of skew, realize the belt and rectify automatically, only need install one on every horizontal vacuum belt filter the utility model discloses a this kind of telescopic belt automatic deviation rectification device who contains sensor feedback can.

In summary, the telescopic belt automatic deviation rectifying device containing the sensor feedback of the utility model is installed on the horizontal vacuum belt filter in a simple and convenient installation manner, according to the real-time offset position information of the annular main belt fed back by the offset correction sensor, the offset correction frame is pushed by the automatic telescopic rod, so that the belt carrier roller rotates for a certain angle along the rotating shaft of the offset correction frame, thereby leading the annular main belt to return to the central position, automatically correcting the belt deviation in high efficiency, accuracy and real time, solving the problems that the horizontal vacuum belt filter in the prior art does not have a belt deviation correcting device containing feedback, the belt guide wheel with fixed installation position can not meet the belt deviation correcting requirement under different working conditions and the belt guide wheel needs to be adjusted manually, meanwhile, the mechanical strength of the device is guaranteed due to the integrated design of the deviation rectifying frame, and the electric leakage and corrosion phenomena under the severe working environment are avoided due to the arrangement of the protective cover.

The above description is only a detailed description of the present invention. The scope of the present invention is not limited thereto. Any changes or substitutions which can be easily conceived by a person skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention, and therefore, the protection scope of the present invention is subject to the protection scope of the claims.

Claims (3)

1. The utility model provides a telescopic belt automatic deviation rectification device who contains sensor feedback which characterized in that: it is including rectifying frame, automatic telescopic link, rotation gasket, slip gasket, telescopic link head axle, telescopic link tail axle and the sensor of rectifying, the location end of rectifying the frame is provided with a rotation axis, the rotation axis passes the locating hole in the frame and is right with lock nut the frame of rectifying is fixed a position, the tail end of automatic telescopic link passes through telescopic link tail axle is located in the frame, the head end passes through telescopic link head axle is located the frame of rectifying is served in the slip of frame of rectifying, the rotation gasket place in between the frame of rectifying the location end lower surface of frame and the frame, the slip gasket place in between the frame of rectifying the slip end lower surface of frame and the frame, a belt bearing roller is fixed in through the bearing frame at both ends the upper surface of frame of rectifying, the sensor of rectifying sets up in the both sides.

2. The automatic belt deviation correcting device with sensor feedback as claimed in claim 1, wherein: the automatic telescopic rod pushes the deviation rectifying frame according to the feedback information to enable the belt carrier roller to deflect a certain angle along the rotating shaft at the positioning end of the deviation rectifying frame, and therefore the annular main belt returns to the central position.

3. The automatic belt deviation correcting device with sensor feedback as claimed in claim 1, wherein: the deviation correcting device further comprises a protective cover arranged on the outer side of the automatic telescopic rod.