CN201586682U

CN201586682U - Automatic straightening production line for T-shaped guide rails

Info

Publication number: CN201586682U
Application number: CN2009202956156U
Authority: CN
Inventors: 方斌华; 余忠华
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2009-12-31
Filing date: 2009-12-31
Publication date: 2010-09-22
Anticipated expiration: 2019-12-31

Abstract

The utility model discloses an automatic straightening production line for T-shaped guide rails, which mainly comprises a side face automatic straightening machine and a top face automatic straightening machine which are arranged in parallel. A first roller table, a second roller table, a third roller table and a forth roller table are respectively and axially arranged on inlet ends and outlet ends of the side face automatic straightening machine and the top face automatic straightening machine, a second chain transmission frame is arranged between the first roller table and the third roller table, a first chain transmission frame is arranged between the second roller table and the forth roller table, a chain transmission feed frame and a chain transmission discharge frame are respectively arranged on sides, opposite to the second chain transmission frame, on the first roller table and the third roller table, a tipping mechanism is respectively disposed under the third roller table and the forth roller table, a bidirectional cylinder provided with a baffle plate is arranged under the first roller table, a cylinder and a unidirectional cylinder provided with a baffle plate are respectively arranged on sides, in a chain transmission feed frame direction, on the second roller table and the forth roller table, one side on the forth roller table is provided with a roller, a linear motor equipped with a measurement device is arranged above one side of the third roller table, and the production line can be controlled by a programmable controller and a computer. The automatic straightening production line for T-shaped guide rails has the advantages of greatly saving labor and occupied space and improving production precision and efficiency.

Description

A kind of T type guide rail automatic straightening production line

Technical field

The utility model relates to automatic straightening production line, relates in particular to a kind of T type guide rail automatic straightening production line.

Background technology

T type guide rail is mainly used in the van-type elevator, continuous increase along with elevator speed and story height, and people are to the raising of elevator running stability, comfort level requirement, the quality requirement of T type guide rail is also in continuous raising, and the straightness error of T type guide rail end face and side is two key factors that influence its quality, they directly affect the elevator stationarity and the security in when operation, so T type guide rail needs to align after processing, make it meet certain standard.Yet the domestic general at present aligning operation of adopting manually, flattening precision is difficult to reach requirement, and needs more manpower; Also have enterprise to introduce external automatic straightening production line, but these line configurations are comparatively loose, floor space is big, and concerning reprocessed products, no matter is that single face is overproof or two-sided overproof, and its circulation circuit is all longer, so that production efficiency is low.

Summary of the invention

The purpose of this utility model provides a kind of T type guide rail automatic straightening production line, and it has been saved manpower greatly and has taken up room, and has improved production precision and efficient simultaneously.

The technical solution adopted in the utility model is:

The utility model is that side automatic flattening machine and end face automatic flattening machine are arranged in parallel, advancing of side automatic flattening machine, arrange first roller-way respectively on the same axis in outlet two ends, second roller-way, advancing of end face automatic flattening machine, arrange the 4th roller-way respectively on the same axis in outlet two ends, the 3rd roller-way, be provided with the second chain transmission frame between first roller-way and the 3rd roller-way, be provided with the first chain transmission frame between second roller-way and the 4th roller-way, transmit blanking rack at first roller-way with chain transmission stock shelf and the chain that the 3rd roller-way outside is respectively equipped with roller-way is vertical separately, respectively be provided with switching mechanism under the 3rd roller-way and the 4th roller-way, be provided with two two-way cylinders of band catch under first roller-way perpendicular to first roller-way, the catch at two-way cylinder two ends lays respectively at the outside of first roller-way, second roller-way and the 4th roller-way are respectively equipped with two cylinder and two unidirectional cylinders of band catch perpendicular to the 4th roller-way perpendicular to second roller-way in chain transmission stock shelf direction the same side, a side is provided with roller on the 4th roller-way, the 3rd roller-way one side top is provided with the linear electric motors of band measurement mechanism, and streamline is by Programmable Logic Controller and computer control.

Described measurement mechanism comprises that can be regulated a measurement bay, be installed on the slide block that drives by linear electric motors can regulating measurement bay, can regulate two vertical direction laser sensors and two horizontal direction laser sensors are housed on the measurement bay, two vertical direction laser sensors vertically are suspended from the 3rd roller-way axis, two horizontal direction laser sensor levels are suspended from the 3rd roller-way, and the spacing between the spacing between two vertical direction laser sensors and two the horizontal direction laser sensors is apart from equating; Adopt two-point method respectively the end face and the side linearity of T type guide rail to be measured with vertical direction laser sensor and horizontal direction laser sensor.

Described switching mechanism is respectively to connect a cam at the camshaft two ends, and the centre is provided with a sprocket wheel, drives the flip angle of two cams of chain control by stepper motor, thereby realizes the upset to T type guide rail.

The two-way cylinder of described band catch is on two-way cylinder two external parts a catch to be set respectively, described catch one side is provided with spring also can be towards compression spring direction one-directional rotation, catch installation direction on the two-way cylinder external part of band catch is catch band spring side and installs inwardly, and T type guide rail can be passed through to the cylinder body direction along two external parts of the two-way cylinder of band catch.

The unidirectional cylinder of described band catch is on a unidirectional cylinder external part catch to be set, described catch one side is provided with spring also can be towards compression spring direction one-directional rotation, catch installation direction on the unidirectional cylinder external part of band catch is that catch band spring side is installed outwardly, and T type guide rail can be passed through to the external part direction of the unidirectional cylinder of band catch along cylinder body.

The beneficial effect that the utlity model has is:

The utility model provides a kind of T type guide rail automatic straightening production line, and it has been saved manpower greatly and has taken up room, and has improved production precision and efficient simultaneously.

Description of drawings

Fig. 1 is the general structure schematic diagram of native system.

Fig. 2 is the measurement mechanism structural representation.

Fig. 3 be T type guide rail from flip horizontal to being sidelong preceding schematic diagram.

Fig. 4 be T type guide rail from flip horizontal to being sidelong schematic diagram.

Fig. 5 is from being sidelong schematic diagram before the level of being turned to T type guide rail.

Fig. 6 is turned to horizontal schematic diagram to T type guide rail from being sidelong.

Fig. 7 is that T type guide rail is through the two-way cylinder schematic diagram of band catch.

Fig. 8 is that T type guide rail is through the unidirectional cylinder schematic diagram of band catch.

Among the figure: 1, chain transmission stock shelf; 2, T type guide rail; 3, near switch; 4, side automatic flattening machine; 5, cylinder; 6, second roller-way; 7, the first chain transmission frame; 8, the unidirectional cylinder of band catch; 9, catch; 10, cam; 11, camshaft; 12, sprocket wheel; 13, roller; 14, the 4th roller-way; 15, end face automatic flattening machine; 16, computer; 17, Programmable Logic Controller; 18, measurement mechanism; 18.1, the vertical direction laser sensor; 18.2, measurement bay; 18.3, slide block; 18.4, the horizontal direction laser sensor; 19, linear electric motors; 20, chain transmission blanking rack; 21, the 3rd roller-way; 22, chain; 23, stepper motor; 24, first roller-way; 25, the two-way cylinder of band catch; 26, the second chain transmission frame.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further described.

As shown in Figure 1, the utility model is that side automatic flattening machine 4 and end face automatic flattening machine 15 are arranged in parallel, advancing of side automatic flattening machine 4, arrange first roller-way 24 respectively on the same axis in outlet two ends, second roller-way 6, advancing of end face automatic flattening machine 15, arrange the 4th roller-way 21 respectively on the same axis in outlet two ends, the 3rd roller-way 14, first roller-

way

24 and 21 of the 3rd roller-ways are provided with the second chain transmission frame 26, second roller-

way

6 and 14 of the 4th roller-ways are provided with the first chain transmission frame 7, transmit blanking rack 20 at first roller-way 24 with chain transmission stock shelf 1 and the chain that the 3rd roller-way 21 outsides are respectively equipped with roller-way is vertical separately, respectively be provided with switching mechanism under the 3rd roller-way 21 and the 4th roller-way 14, be provided with two two-way cylinders 25 of the band catch perpendicular to first roller-way 24 under first roller-way 24, the catch at two-way cylinder 25 two ends lays respectively at the outside of first roller-way 24, second roller-way 6 and the 4th roller-way 14 are respectively equipped with two cylinder 5 and two unidirectional cylinders 8 of the band catch perpendicular to the 4th roller-way 14 perpendicular to second roller-way 6 in chain transmission stock shelf 1 direction the same side, a side is provided with roller 13 on the 4th roller-way 14, the 3rd roller-way 21 1 sides top is provided with the linear electric motors (19) of band measurement mechanism 18, and streamline is by Programmable Logic Controller 17 and computer 16 controls.

As shown in Figure 2, described measurement mechanism 18 comprises that can be regulated a measurement bay 18.2, be installed on the slide block 18.3 that drives by linear electric motors 19 can regulating measurement bay 18.2, can regulate two vertical direction laser sensors 18.1 and two horizontal direction laser sensors 18.4 are housed on the measurement bay 18.2, two vertical direction laser sensors 18.1 vertically are suspended from the 3rd roller-way 21 axis, two horizontal direction laser sensor 18.4 levels are suspended from the 3rd roller-way 21, and the spacing between the spacing between two vertical direction laser sensors 18.1 and two the horizontal direction laser sensors 18.4 equates; Adopt two-point method respectively the end face and the side linearity of T type guide rail 2 to be measured with vertical direction laser sensor 18.1 and horizontal direction laser sensor 18.4.

As Fig. 3, Fig. 4, Fig. 5 and shown in Figure 6, described switching mechanism is respectively to connect a cam 10 at camshaft 11 two ends, the centre is provided with a sprocket wheel 12, drives the flip angle of two cams 10 of chain 22 controls by stepper motor 23, thereby realizes the upset to T type guide rail 2.

As shown in Figure 7, the two-way cylinder 25 of described band catch is on two-way cylinder two external parts a catch 9 to be set respectively, described catch 9 one sides are provided with spring also can be towards compression spring direction one-directional rotation, catch 9 installation directions on two-way cylinder 25 external parts of band catch are catch 9 band spring sides and install inwardly, and T type guide rail 2 can be passed through to the cylinder body direction along two external parts of the two-way cylinder 25 of band catch.

As shown in Figure 8, the unidirectional cylinder 8 of described band catch is on a unidirectional cylinder external part catch 9 to be set, described catch 9 one sides are provided with spring also can be towards compression spring direction one-directional rotation, catch 9 installation directions on unidirectional cylinder 8 external parts of band catch are that catch 9 band spring sides are installed outwardly, and T type guide rail 2 can be passed through to the external part direction of the unidirectional cylinder 8 of band catch along cylinder body.

Detailed process of the present utility model is as follows:

T type guide rail 2 transfers to first roller-way, 24 1 sides through chain transmission stock shelf 1, near switch 3 signal is passed to Programmable Logic Controller 17, two-way cylinder 25 actions of Programmable Logic Controller 17 control band catch, make its external part withdrawal towards chain transmission stock shelf 1 one sides, T type guide rail 2 is brought on first roller-way 24, and first roller-way 24 is delivered to side automatic flattening machine 4 with T type guide rail 2 and is carried out the side aligning.Aligning finishes back Programmable Logic Controller 17 and obtains on second roller-way 6 signal near switch 3, and control cylinder 5 stretches out, T type guide rail 2 is delivered on the first chain transmission frame 7, T type guide rail 2 is delivered to the 4th roller-way 14 1 sides by the first chain transmission frame 7, Programmable Logic Controller 17 obtains near behind switch 3 signals, the unidirectional cylinder 8 of control band catch stretches out, T type guide rail 2 is delivered on the 4th roller-way 14, at this moment Programmable Logic Controller 17 control step motors 23 rotate, thereby drive sprocket wheel 12 by chain 22, and then drive 10 rotations of two cams, 2 upsets of T type guide rail by camshaft 11, the side of T type guide rail 2 is leaned against on the roller 13, be horizontal plumbness.Then T type guide rail 2 is delivered to end face automatic flattening machine 15 by the 4th roller-way 14 and is carried out the end face aligning, after treating that T type guide rail 2 whole alignings finish, give Programmable Logic Controller 17 signals near switch 3 on the 3rd roller-way 21, control the switching mechanism action T type guide rail 2 of the 3rd roller-way 21 belows and get back to the horizontal positioned state, Programmable Logic Controller 17 control linear electric motors 19 actions afterwards, and two groups of laser sensors on the measurement mechanism 18 are measured respectively to the end face of T type guide rail 2 and the displacement of side by two-point method, send these measurement data to computer 16 simultaneously, computer 16 is handled by data and is calculated the straightness error of T type guide rail 2 end faces and side, and judges whether T type guide rail 2 is qualified.If judge that T type guide rail 2 is qualified, then the 3rd roller-way 21 stretches out near the unidirectional cylinder 8 of band catch of the second chain transmission frame, 26 1 sides, T type guide rail 2 is delivered on the chain transmission blanking rack 20 finished whole aligning process; If judge that T type guide rail 2 is defective, then the 3rd roller-way 21 stretches out near the unidirectional cylinder 8 of band catch of chain transmission blanking rack 20 1 sides, T type guide rail 2 is delivered on the second chain transmission frame 26, the second chain transmission frame 26 delivers to T type guide rail 2 near first roller-way, 24 1 sides, first roller-way, 24 1 sides near switch 3 signal is passed to Programmable Logic Controller 17, Programmable Logic Controller 17 is judged the T type guide rail 2 whether remain rectified on first roller-way 24 this moment, wait for if having then, on first roller-way 24 during no T type guide rail 2, two-way cylinder 25 actions of Programmable Logic Controller 17 control band catch, make its external part withdrawal, T type guide rail 2 is brought to carry out on first roller-way 24 rectifying again towards the second chain transmission frame, 26 1 sides.

The components and parts such as side automatic flattening machine, end face automatic flattening machine, computer, Programmable Logic Controller, measurement mechanism and laser sensor that the utility model adopts all can be chosen from the market and obtain.

Claims

1. T type guide rail automatic straightening production line, it is characterized in that: side automatic flattening machine (4) is arranged in parallel with end face automatic flattening machine (15), advancing of side automatic flattening machine (4), arrange first roller-way (24) respectively on the same axis in outlet two ends, second roller-way (6), advancing of end face automatic flattening machine (15), arrange the 4th roller-way (21) respectively on the same axis in outlet two ends, the 3rd roller-way (14), be provided with the second chain transmission frame (26) between first roller-way (24) and the 3rd roller-way (21), be provided with the first chain transmission frame (7) between second roller-way (6) and the 4th roller-way (14), transmit blanking rack (20) at first roller-way (24) with chain transmission stock shelf (1) and the chain that the 3rd roller-way (21) outside is respectively equipped with roller-way is vertical separately, respectively be provided with switching mechanism under the 3rd roller-way (21) and the 4th roller-way (14), be provided with two two-way cylinders of band catch (25) under first roller-way (24) perpendicular to first roller-way (24), the catch at two-way cylinder (25) two ends lays respectively at the outside of first roller-way (24), second roller-way (6) and the 4th roller-way (14) are respectively equipped with two cylinders perpendicular to second roller-way (6) (5) and two unidirectional cylinders of band catch (8) perpendicular to the 4th roller-way (14) in chain transmission stock shelf (1) direction the same side, the last side of the 4th roller-way (14) is provided with roller (13), the 3rd roller-way (21) one sides top is provided with the linear electric motors (19) of band measurement mechanism (18), and streamline is by Programmable Logic Controller (17) and computer (16) control.

2. a kind of T type guide rail automatic straightening production line according to claim 1, it is characterized in that: described measurement mechanism (18) comprises that can be regulated a measurement bay (18.2), be installed on the slide block (18.3) that drives by linear electric motors (19) can regulating measurement bay (18.2), can regulate two vertical direction laser sensors (18.1) and two horizontal direction laser sensors (18.4) are housed on the measurement bay (18.2), two vertical direction laser sensors (18.1) vertically are suspended from the 3rd roller-way (21) axis, two horizontal direction laser sensors (18.4) level is suspended from the 3rd roller-way (21), and the spacing between the spacing between two vertical direction laser sensors (18.1) and two the horizontal direction laser sensors (18.4) is apart from equating; Adopt two-point method respectively the end face and the side linearity of T type guide rail (2) to be measured with vertical direction laser sensor (18.1) and horizontal direction laser sensor (18.4).

3. a kind of T type guide rail automatic straightening production line according to claim 1, it is characterized in that: described switching mechanism is respectively to connect a cam (10) at camshaft (11) two ends, the centre is provided with a sprocket wheel (12), drive the flip angle of chain (22) two cams of control (10) by stepper motor (23), thereby realize upset T type guide rail (2).

4. a kind of T type guide rail automatic straightening production line according to claim 1, it is characterized in that: the two-way cylinder of described band catch (25) is on two-way cylinder two external parts a catch (9) to be set respectively, described catch (9) one sides are provided with spring also can be towards compression spring direction one-directional rotation, catch (9) installation direction on the band two-way cylinder of catch (25) external part is catch (9) band spring side and installs inwardly, and T type guide rail (2) can be passed through to the cylinder body direction along two external parts of the band two-way cylinder of catch (25).

5. a kind of T type guide rail automatic straightening production line according to claim 1, it is characterized in that: the unidirectional cylinder of described band catch (8) is on a unidirectional cylinder external part catch (9) to be set, described catch (9) one sides are provided with spring also can be towards compression spring direction one-directional rotation, catch (9) installation direction on the band unidirectional cylinder of catch (8) external part is that catch (9) band spring side is installed outwardly, and T type guide rail (2) can be passed through to the external part direction of the band unidirectional cylinder of catch (8) along cylinder body.