CN111017522A

CN111017522A - Adjustable guide device for assembly line

Info

Publication number: CN111017522A
Application number: CN201911260297.4A
Authority: CN
Inventors: 廖凯; 李昌; 徐晨; 周松斌
Original assignee: Guangdong Institute of Intelligent Manufacturing
Current assignee: Guangdong Institute of Intelligent Manufacturing
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-04-17
Anticipated expiration: 2039-12-10
Also published as: CN111017522B

Abstract

An adjustable guiding device for an assembly line comprises a supporting frame arranged on the assembly line, wherein a lifting mechanism is arranged on the supporting frame, one side of the lifting mechanism is connected with an extension plate, the end part of the extension plate is connected with a panel through a conversion assembly, the position of the panel is adjusted through adjusting the conversion assembly, a linear guide rail is fixed on one side of the panel, two roller sliders arranged at intervals are arranged in the linear guide rail, a fine adjustment handle is arranged on each roller slider, the roller sliders are driven to be locked on the linear guide rail through adjusting the fine adjustment handle, a guide rod is fixed on each roller slider, a guide plate for guiding articles is arranged at one end of the guide rod, which is far away from the roller sliders, the two guide plates are arranged oppositely, the width between the two guide plates is adjusted through adjusting the position of the roller sliders on the linear guide rail, a second, the position can be adjusted in the second chute. The invention can guide products with different heights and widths on the assembly line.

Description

Adjustable guide device for assembly line

Technical Field

The invention relates to the technical field of machinery, in particular to an adjustable guide device for a production line, which is suitable for quickly adjusting the guide width on the production line.

Background

In an actual production and inspection line, the product or other inspection product on the conveyor line is often in any position. In order to be able to produce and detect the determined position, the product at any position needs to be adjusted to the transfer of the determined position. The Chinese patent with application number 201810196350.8 discloses a transmission width guiding and adjusting device for a conveyor belt of a conveyor, which has the function of manually adjusting the transmission width of the conveyor belt. The adjusting device adjusts the amplitude in the vertical direction and the horizontal direction through four adjusting rods. Although a wide-range transmission width adjustment is realized, the width value of the specific position adjustment cannot be displayed in real time and cannot meet the situation that the requirement on the width precision is high.

In order to solve the problem of the width adjustment of a specific position on a conveyor belt, the utility model with application number 201810378620.7 discloses a material guide device and a production line, and the material guide device can automatically adjust the gap size of a product channel according to the size of a product. The driving motor of the driving unit drives the parallelogram structure of the adjusting unit, so that the adjusting unit adjusts the channel size of the product channel to adapt to products with different sizes. Because the problem of friction between the material guiding strips in the guiding unit and the product is not considered, and the two material guiding strips cannot move in the vertical direction. If a product with a large aspect ratio is transferred to the edge of the guide strip, the product is easily knocked over. Therefore, the stability and reliability of the implementation method are not high. Therefore, there is a need to design a better guiding device to solve the above problems.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an adjustable guide device for a production line, which can guide products with different heights and different width sizes.

In order to achieve the purpose, the invention adopts the following technical scheme:

an adjustable guide device for an assembly line comprises a support frame arranged on the assembly line, wherein a lifting mechanism is arranged on the support frame, one side of the lifting mechanism is connected with an extension plate, the end part of the extension plate is connected to a panel through a conversion assembly, the position of the panel is adjusted through adjusting the conversion assembly, a linear guide rail is fixed on one side of the panel, two roller sliders arranged at intervals are arranged in the linear guide rail, each roller slider is provided with a fine adjustment handle, the roller sliders are driven to be locked on the linear guide rail through adjusting the fine adjustment handles, a guide rod is fixed on each roller slider, one end, away from the roller sliders, of each guide rod is provided with a guide plate for guiding articles, the two guide plates are arranged oppositely, the position of each roller slider on the linear guide rail is adjusted to adjust the width between the two guide plates, the guide rod is provided with a second sliding groove, and the material guide plate is arranged in the second sliding groove and can be adjusted in position in the second sliding groove.

Further, elevating system includes the shell, set up in lead screw and lifting nut in the shell, the extension board is fixed in lifting nut, the top of shell is equipped with the handle, through rotatory the handle drives the lead screw rotates, thereby drives lifting nut reaches the extension board goes up and down.

Furthermore, the conversion assembly comprises a first L-shaped conversion plate connected to the extension plate, two side faces of the first L-shaped conversion plate are respectively connected to the extension plate and the second L-shaped conversion plate through first inner hexagonal bolts, the second L-shaped conversion plate is connected to the panel through second inner hexagonal bolts, a first sliding groove is formed in the panel, the second inner hexagonal bolts are located in the first sliding groove, and the position of the panel is adjusted by adjusting the positions of the second inner hexagonal bolts in the first sliding groove.

Furthermore, semicircular chutes are formed in the surfaces of the two sides of the first L-shaped conversion plate, through holes are formed in the circle centers of the semicircular chutes, the two first inner hexagonal bolts penetrate through the through holes and the semicircular chutes respectively and are fixed to the extension plate or the second L-shaped conversion plate, and the positions of the first L-shaped conversion plate and the second L-shaped conversion plate are adjusted by adjusting the positions of the first inner hexagonal bolts in the semicircular chutes, so that the position of the panel is adjusted.

Furthermore, one end of the second hexagon socket head cap screw penetrates through the first chute to be connected with the second L-shaped conversion plate, the other end of the second hexagon socket head cap screw is connected with the fixed pressing plate, and when the second hexagon socket head cap screw is locked, the fixed pressing plate fixes the panel on the second L-shaped conversion plate.

Further, a plurality of pulleys with different axes are arranged in the rolling sliding block, the pulleys slide in the linear guide rail, a stop block groove is further formed in the inner side of the rolling sliding block, a stop block is arranged in the stop block groove, and the micro handle drives the stop block to move in the stop block groove through rotation, so that the eccentricity of the pulleys is increased, and the sliding block is fixed on the linear guide rail.

Furthermore, symmetrical scale strips are arranged on the end face of the panel, and the width value between the two guide plates is read through the symmetrical scale strips.

Furthermore, the guide plate is mounted on the second sliding groove through a groove block, a pressing plate is arranged at one end, far away from the guide plate, of the groove block, and the pressing plate is fixed on the groove block through a bolt so as to lock the position of the guide plate on the guide rod.

Furthermore, one end of the material guide plate for guiding is arranged in an arc shape.

Further, a straight shaft is installed at one end, used for guiding, of the material guide plate in a clearance mode, and a rubber roller is installed on the straight shaft.

The invention has the beneficial effects that:

the lifting mechanism drives the material guide plates to move up and down to adapt to products with different heights, the position of the panel can be adjusted by adjusting the conversion assembly, the width between the two material guide plates can be adjusted by adjusting the position of the roller slider in the linear guide rail, and the guiding height can be adjusted by adjusting the position of the material guide plates in the second sliding groove.

Drawings

FIG. 1 is a schematic perspective view of an adjustable guide device for a production line according to the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic structural view of a first L-shaped switching plate of an adjustable guide device for a production line according to the present invention;

FIG. 4 is a schematic view of a second converting plate on a panel of an adjustable guiding device for a production line according to the present invention;

FIG. 5 is a schematic structural view of a linear guide rail of an adjustable guide device for a production line according to the present invention;

FIG. 6 is a schematic structural diagram of a roller block of an adjustable guide device for a production line according to the present invention;

FIG. 7 is a cross-sectional view of a roller block of an adjustable guide assembly for a manufacturing line according to the present invention;

FIG. 8 is a schematic view of the structure of a material guiding plate according to the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 1 at A;

in the figure, 1-supporting frame, 2-lifting mechanism, 3-shell, 4-lifting nut, 5-handle, 6-extension plate, 7-first L-shaped conversion plate, 8-first hexagon socket screw, 9-second L-shaped conversion plate, 10-second hexagon socket screw, 11-semicircular chute, 12-through hole, 13-panel, 14-first chute, 15-fixed pressing plate, 16-linear guide rail, 17-roller slide block, 18-fine adjustment handle, 19-pulley, 20-block groove, 21-block, 22-gasket, 23-guide rod, 24-second chute, 25-guide plate, 26-groove block, 27-pressing plate, 28-straight shaft, 29-rubber roller, 30-symmetrical scale strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

Referring to fig. 1, the invention provides an adjustable guide device for a production line, which comprises a support frame 1 installed on the production line, wherein a chute is formed in the support frame 1 so as to be installed on the production line conveniently, and two reinforcing ribs are welded at the bottom of the support frame 1 so as to ensure the stability and reliability of a machine body. Be equipped with elevating system 2 on support frame 1, elevating system 2 is including welding in the shell 3 of 1 upper surface of support frame, set up lead screw and lifting nut 4 in shell 3, the optional two guide bars that are equipped with of side of lead screw to lead to the lift to lifting nut 4, the top of shell 3 is equipped with handle 5, drive the lead screw through twist grip 5 and rotate, thereby drive lifting nut 4 at vertical direction rectilinear movement, the realization becomes linear motion with rotary motion. The lifting nut 4 is connected with an extension plate 6 through a bolt, and the extension plate 6 is driven to lift when the lifting nut 4 lifts.

As shown in fig. 1 to 4, the end of the elongate plate 6 is connected to the panel 13 by a switch assembly which is adjusted to adjust the position of the panel 13. The switching assembly comprises a first L-shaped switching plate 7 attached to the elongated plate 6, both side surfaces of the first L-shaped switching plate 7 being attached to the elongated plate 6 and a second L-shaped switching plate 9, respectively, by means of first hexagon socket head cap screws 8. In this embodiment, the two side surfaces of the first L-shaped conversion plate 7 are respectively provided with a semicircular sliding groove 11, a through hole 12 is formed at the center of the semicircular sliding groove 11, the two first hexagon socket bolts 8 respectively penetrate through the through hole 12 and the semicircular sliding groove 11 to be fixed on the extension plate 6 or the second L-shaped conversion plate 9, and the positions of the first L-shaped conversion plate 7 and the second L-shaped conversion plate 9, and further the position of the panel 13, are adjusted by adjusting the positions of the first hexagon socket bolts 8 in the semicircular sliding groove 11. When the first hexagon socket head cap screw 8 passes through the through hole 12 and the semicircular chute 11 and is not locked, the rotation of 180 degrees can be carried out in a plane so as to adjust the position of the second L-shaped conversion plate 9 in the plane, and after the position is adjusted, the fixation can be realized by locking the first hexagon socket head cap screw 8. The second L-shaped switching plate 9 is connected to the panel 13 by the second hexagon socket head cap screw 10, and the panel 13 connected to the second L-shaped switching plate can be ensured to be in a horizontal position by two angle adjustments of the first L-shaped switching plate 7 and the second L-shaped switching plate 9.

The panel 13 is provided with a first sliding groove 14, the second hexagon socket head cap screw 10 is positioned in the first sliding groove 14, and the position of the panel 13 is adjusted by adjusting the position of the second hexagon socket head cap screw 10 in the first sliding groove 14. One end of the second hexagon socket head cap screw 10 passes through the first chute 14 to be connected with the second L-shaped conversion plate 9, and the other end is connected with the fixed pressing plate 15, when the second hexagon socket head cap screw 10 is locked, the fixed pressing plate 15 fixes the panel 13 on the second L-shaped conversion plate 9. The end surface of the panel 13 far away from the second L-shaped conversion plate 9 is provided with a plurality of threaded holes for fixing the linear guide 16, so that the linear guide 16 is stably and reliably connected to the panel 13.

As shown in fig. 1, 5 to 7, the linear guide 16 is a standard member, and a plurality of mounting holes are provided in the inner groove to correspond to the screw holes, and the linear guide 16 is fixed to the panel 13 by bolts. The surface of the linear guide rail 16 is anodized to ensure that the roller slider 17 disposed on the linear guide rail 16 runs smoothly. Two roller sliders 17 arranged at intervals are arranged in the linear guide rail 16, a fine adjustment handle 18 is arranged on each roller slider 17, and the roller sliders 17 are driven to be locked on the linear guide rail 16 by adjusting the fine adjustment handles 18. The roller slider 17 is internally provided with a plurality of pulleys 19 with different axes to slide in the linear guide rail 16, the inner side of the roller slider 17 is also provided with a stop block groove 20, a stop block 21 is arranged in the stop block groove 20, the stop block 21 is arranged on a screw rod in the micro-adjustment handle 18, the screw rod in the micro-adjustment handle 18 is rotated by rotating and tightening the micro-adjustment handle 18, the stop block 21 on the screw rod moves upwards in the stop block groove 20, the eccentricity of the pulleys 19 is driven to be increased to achieve the locking function, and therefore the roller slider 17 is fixed on. A gasket 22 is arranged between the micro-handle 18 and the linear guide rail 16, so that the micro-handle 18 is not easy to loosen after being screwed down.

As shown in fig. 1, 2 and 8, a guide rod 23 is fixed on each roller slider 17, and the guide rod 23 extends in the vertical direction. One end of the guide rod 23, which is far away from the roller slider 17, is provided with material guide plates 25 for guiding the articles, the two material guide plates 25 are arranged oppositely, and the width between the two material guide plates 25 is adjusted by adjusting the position of the roller slider 17 on the linear guide rail 16, so that the width adjustment of the roller slider 17 is converted into the adjustment of the width between the material guide plates 25. The guide rod 23 is vertically provided with a second chute 24, and the guide plate 25 is mounted on the second chute 24 and can be adjusted in position in the second chute 24. In this embodiment, the material guiding plate 25 is mounted on the second chute 24 through a trough block 26, a pressing plate 27 is disposed at an end of the trough block 26 away from the material guiding plate 25, the pressing plate 27 is fixed on the trough block 26 through a bolt to lock the position of the material guiding plate 25 on the guide rod 23, and the height of the material guiding plate 25 in the vertical direction is adjusted according to the heights of different types of products on the assembly line.

As shown in fig. 1 and 8, one end of the guide plate 25 for guiding, i.e., the front end, is curved to facilitate guiding. The material guide plate 25 is in an I shape, a straight shaft 28 is installed at the front end of the material guide plate in a clearance mode, two ends of the straight shaft 28 penetrate through a mounting hole in the front end of the material guide plate 25, a rubber sleeve is installed on the straight shaft 28, and the rubber sleeve is sleeved in the mounting hole of the material guide plate 25 and fixed to the material guide plate 25 through screws. The middle part of the straight shaft 28 is provided with a rubber roller 29, and the rubber roller 29 slides on the rail surface of the linear guide rail 16, and in the embodiment, the rubber roller 29 is a rubber-coated bearing roller.

Referring to fig. 1 and 9, the end surface of the panel 13 away from the second L-shaped conversion plate 9 is provided with symmetrical scale bars 30, and the width between the two material guiding plates 25 is read through the symmetrical scale bars 30. When the material guide plate 25 is adjusted in the width direction, the adjusted width value can be directly displayed, and thus the product guiding with different width sizes is realized.

When the guide device is used, the mounting position of the support frame 1 is determined, the support frame is connected to a production line through bolts, the linear guide rail 16 can be adjusted to a proper position through two times of adjustment of the conversion assembly, the handle 5 is rotated to drive the lifting nut 4 to lift, so that the guide device is suitable for products with different heights, then the micro handle 18 is rotated, the guide plate 25 can be driven by adjusting the two roller sliders 17, the sizes of different widths are adjusted, and when the products pass through the guide plate 25, the front end of the guide plate 25 has radian and is provided with the rubber rollers 29, so that the function of reducing friction resistance of the products in the conveying process can be achieved.

The invention can solve the problems that the guide device provided by the background technology has poor accuracy of the width adjusting value, can not display the adjusting value in real time, has low stability and reliability of the implementation mode, rubs with a conveyed product in the conveying process and the like. Compared with the prior art, the invention has the following beneficial effects:

(1) the invention can equivalently adjust the distance between the material guide plates 25 by adjusting the distance between the roller slide blocks 17, and meanwhile, the symmetrical scale bars 30 can display the distance value between the two material guide plates 25, thus guiding products with different width sizes;

(2) the lifting mechanism 2 drives the guide device to vertically move, so that products with different heights can be adjusted, and the device is firm and reliable and can be well suitable for various conveying devices;

(3) the rubber roller 29 arranged at the front end of the material guide plate 25 can reduce the friction between the material guide plate 25 and the articles, and is beneficial to the stable conveying of the articles.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. An adjustable guide for a flow line, comprising: the lifting mechanism is arranged on the support frame, one side of the lifting mechanism is connected with an extension plate, the end part of the extension plate is connected with a panel through a conversion assembly, the position of the panel is adjusted through adjusting the conversion assembly, a linear guide rail is fixed on one side of the panel, two roller sliders arranged at intervals are arranged in the linear guide rail, each roller slider is provided with a fine adjustment handle, the roller sliders are driven to be locked on the linear guide rail through adjusting the fine adjustment handles, a guide rod is fixed on each roller slider, guide plates for guiding articles are arranged at one ends of the guide rods, which are far away from the roller sliders, the two guide plates are arranged oppositely, the position of each roller slider on the linear guide rail is adjusted to adjust the width between the two guide plates, and a second chute is arranged on each guide rod, the guide plate is arranged in the second chute, and the position of the guide plate can be adjusted in the second chute.

2. The adjustable guide for a flow line of claim 1, wherein: the lifting mechanism comprises a shell, a screw rod and a lifting nut, the screw rod and the lifting nut are arranged in the shell, the extension plate is fixed on the lifting nut, a handle is arranged at the top of the shell, and the handle drives the screw rod to rotate through rotation, so that the lifting nut and the extension plate are driven to lift.

3. The adjustable guide for a flow line of claim 1, wherein: the conversion assembly comprises a first L-shaped conversion plate connected to the extension plate, two side faces of the first L-shaped conversion plate are respectively connected to the extension plate and the second L-shaped conversion plate through first inner hexagonal bolts, the second L-shaped conversion plate is connected to the panel through second inner hexagonal bolts, a first sliding groove is formed in the panel, the second inner hexagonal bolts are located in the first sliding groove, and the position of the panel is adjusted by adjusting the positions of the second inner hexagonal bolts in the first sliding groove.

4. The adjustable guide for a flow line of claim 3, wherein: the two side surfaces of the first L-shaped conversion plate are respectively provided with a semicircular sliding groove, a through hole is formed in the center of the semicircular sliding groove, the two first inner hexagonal bolts respectively penetrate through the through hole and the semicircular sliding grooves and are fixed on the extension plate or the second L-shaped conversion plate, and the positions of the first L-shaped conversion plate and the second L-shaped conversion plate can be adjusted by adjusting the positions of the first inner hexagonal bolts in the semicircular sliding grooves, so that the position of the panel can be adjusted.

5. The adjustable guide for a flow line of claim 3, wherein: one end of the second hexagon socket head cap screw penetrates through the first sliding groove to be connected with the second L-shaped conversion plate, the other end of the second hexagon socket head cap screw is connected with the fixed pressing plate, and when the second hexagon socket head cap screw is locked, the fixed pressing plate fixes the panel on the second L-shaped conversion plate.

6. The adjustable guide for a flow line of claim 1, wherein: the rolling slide block is internally provided with a plurality of pulleys with different axes, the pulleys slide in the linear guide rail, the inner side of the rolling slide block is also provided with a stop block groove, a stop block is arranged in the stop block groove, and the micro handle drives the stop block to move in the stop block groove through turning tightly, so that the eccentricity of the pulleys is increased and the slide block is fixed on the linear guide rail.

7. The adjustable guide for a flow line of claim 1, wherein: symmetrical scale strips are arranged on the end face of the panel, and the width value between the two guide plates is read through the symmetrical scale strips.

8. The adjustable guide for a flow line of claim 1, wherein: the guide plate is installed on the second sliding groove through a groove block, a pressing plate is arranged at one end, far away from the guide plate, of the groove block, and the pressing plate is fixed on the groove block through bolts so as to lock the position of the guide plate on the guide rod.

9. The adjustable guide for a flow line of claim 1, wherein: and one end of the material guide plate for guiding is arranged in an arc shape.

10. The adjustable guide for a flow line of claim 1, wherein: and a straight shaft is arranged at one end of the material guide plate for guiding in a clearance mode, and a rubber roller is arranged on the straight shaft.