CN215394793U

CN215394793U - Glass positioning tool and positioning assembly tool for installing nail columns

Info

Publication number: CN215394793U
Application number: CN202121349530.9U
Authority: CN
Inventors: 宋鹏; 程大明
Original assignee: Tianjin Hongde Automobile Glass Co ltd
Current assignee: Tianjin Hongde Automobile Glass Co ltd
Priority date: 2021-06-17
Filing date: 2021-06-17
Publication date: 2022-01-04
Anticipated expiration: 2031-06-17

Abstract

The utility model discloses a glass positioning tool, a positioning and assembling tool for installing a nail column and a positioning and assembling method thereof. The glass positioning tool automatically adjusts the left and right sides of the glass in the center and the upper and lower sides of the glass in the center by combining the probe with the adjusting mechanism, is high in position precision, and meets the requirement of automatic production. The positioning and assembling tool for installing the nail column comprises the glass positioning tool and a drawing device for installing the nail column. The device is touched in wherein pulling out through the design of pulling out touch motor and profile modeling stopper, and after the nail post installation finishes, pull out and touch the cylinder and withdraw, drive the profile modeling stopper upwards, and nail post support piece still presses the nail post on the glass surface this moment, prevents that the profile modeling stopper from upwards driving the nail post when upwards withdrawing, has improved nail post installation effectiveness and product percent of pass.

Description

Glass positioning tool and positioning assembly tool for installing nail columns

Technical Field

The utility model relates to the technical field of automobile glass processing, in particular to a glass positioning tool and a positioning and assembling tool for installing a nail column.

Background

Along with the increase of the requirement of customers on the bonding precision of glass accessories, the variety of deep-bent glass is increased, the glass is required to be accurately positioned, and the bonding precision of the accessories is improved.

The stud mounting is an important step in the processing of the automobile glass, and the mounting position precision requirement is high. The existing installation method is that after glass is manually positioned, nail columns are installed by automatic installation equipment. In the operation process, the glass is required to be manually placed at a specific position, the position precision is low, and the efficiency is low. Therefore, a positioning tool needs to be designed to meet the requirement of automatic production.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a glass positioning tool aiming at the technical defects of low manual positioning precision and low efficiency in the prior art. This glass location frock combines guiding mechanism's mode through the probe, to glass about, in and carry out automatic adjustment from top to bottom between two parties, the position precision is high, satisfies automated production demand.

The utility model further aims to provide a positioning and assembling tool for installing the nail column. This location equipment frock is through drawing the device to install the nail post on glass.

The technical scheme adopted for realizing the purpose of the utility model is as follows:

the utility model provides a glass location frock, is used for detecting two of glass left and right sides position placed in the middle probe placed in the middle, is used for adjusting the left and right adjustment mechanism of position about glass, is used for detecting the upper and lower probe placed in the middle of position about glass, is used for adjusting the upper and lower adjustment mechanism of position about glass and distributes and be used for compressing tightly a plurality of control closing devices on the glass base with the glass after the adjustment around the glass ring respectively setting up in glass both sides of awaiting the position.

In the technical scheme, the left and right adjusting mechanism comprises a left servo motor, a right servo motor, a centering cylinder and two groups of left and right adjusting components, wherein the left and right servo motors are arranged below a table board;

each left-right adjusting component is connected with the centering cylinder through a connecting rod;

each left-right adjusting component comprises a left-right guide rail, a left-right sliding block and a left-right adjusting piece; the left and right guide rails are fixedly arranged on the table board, and the lower ends of the left and right sliding blocks are connected with the connecting rod; the upper ends of the left and right sliding blocks slide along the left and right guide rails; the left and right adjusting pieces are fixedly arranged above the left and right sliding blocks.

In the above technical solution, the up-down adjusting mechanism includes two driving pushing devices and two driven pushing devices;

each driving pushing device comprises an upper servo motor, a lower servo motor, a sliding block driven by the upper servo motor and the lower servo motor to slide up and down, and a driving clamping pin fixedly connected with the sliding block and sliding up and down along with the sliding block;

each driven pushing device comprises a flexible clamping cylinder, a sliding base driven by the flexible clamping cylinder to slide up and down, a sliding guide rail arranged on the table top and a clamping pin arranged on the sliding base.

In the above technical scheme, the glass positioning tool further comprises a base fixed on the table top and used for placing glass and performing height positioning, a plurality of coarse positioning pins distributed on the periphery of the glass ring, and two auxiliary clamping devices.

The centering positioning method of the glass positioning tool comprises the following steps:

step 1: the glass is placed on the base through the rough positioning of the rough positioning pin, and then the glass is clamped through the left and right adjusting pieces and the active clamping pin;

step 2: two left and right centering probes detect whether centering deviation exists in the position of the glass or not; detecting whether the position of the glass is deviated from the theoretical position in the vertical direction by an upper centered probe and a lower centered probe;

and step 3: the left and right centering adjustment is carried out through a left and right adjusting mechanism; the up-down centering adjustment is carried out through an up-down adjusting mechanism;

repeating the step 2 and the step 3 until the glass meets the centering requirement;

and 4, step 4: after the left-right centering adjustment and the up-down centering adjustment processes are finished, controlling a pressing device to press the glass;

wherein the content of the first and second substances,

left-right centering adjustment process: the left servo motor and the right servo motor drive the central cylinder to move left and right; in the process of moving the centering cylinder left and right, the two connecting rods and the two groups of left and right adjusting assemblies correspondingly move left and right, the two groups of left and right adjusting assemblies push the glass to move left and right until the two left and right centering probes detect that no deviation exists in the position of the glass, and the left and right centering adjusting process is finished;

the up-down centering adjustment process: detecting whether the position of the glass is deviated from the theoretical position in the vertical direction by an upper centered probe and a lower centered probe; if the deviation exists, the two upper and lower servo motors drive the two active clamping pins to move up and down, so that the glass is pushed to move up and down to be adjusted until the upper and lower centering probes detect that the position of the glass does not have the deviation, and the upper and lower centering adjustment process is finished.

In another aspect of the utility model, a positioning and assembling tool for installing a nail column comprises the glass positioning tool and a drawing device for installing the nail column;

the die drawing device comprises a turnover mechanism, a pressing mechanism and a die drawing mechanism;

the turnover mechanism comprises a turnover cylinder arranged on the mounting base and a turnover arm arranged on an output shaft of the turnover cylinder and turned over along with the turnover cylinder;

the pressing mechanism comprises a pressing cylinder arranged at the end part of the turnover arm and a second support which is driven by the pressing cylinder to move up and down;

the drawing mechanism comprises a drawing cylinder and a nail column supporting piece which are fixedly arranged on the second bracket, and a profiling limiting block driven by the drawing cylinder; the profiling limiting block is sleeved on the nail post supporting piece.

In the above technical solution, the mounting base includes a first base, a second base and a mounting frame; the second base is longitudinally connected with the first base in a sliding manner; the mounting frame is connected with the second base in a transverse sliding mode.

In the technical scheme, the turnover mechanism is also provided with a stabilizing component;

the stabilizing assembly comprises a stabilizing limiting plate fixedly mounted on the mounting base, a stabilizing air cylinder mounted on the stabilizing limiting plate, a stabilizing piece mounted on a piston rod of the stabilizing air cylinder and a supporting piece mounted on the stabilizing limiting plate.

In the above technical scheme, the profiling limiting block comprises a sliding part, a connecting part and a limiting part which are integrally connected; the sliding part is connected with the second bracket in a sliding way through a second sliding rail; the lower end of the nail post supporting piece penetrates through the connecting portion and is nested in the limiting portion.

According to the assembling method of the positioning and assembling tool for installing the nail column, firstly, glass is positioned through the glass positioning tool, and then the nail column is installed on the glass through the drawing device;

the nail column installation process of the drawing device comprises the following processes:

firstly, placing a nail column to be installed in a nail column profiling hole when a turnover arm is in an unturning state;

then, starting a turning cylinder, turning the turning arm to a turning state, starting a pressing cylinder to press downwards, and adhering the to-be-installed nail column in the nail column profiling hole to the glass;

then, after the sticking is finished, the drawing cylinder is retracted to drive the profiling limiting block to move upwards; the pressing cylinder is lifted upwards, the nail post supporting piece is lifted upwards along with the pressing cylinder, and the nail post is left on the surface of the glass;

and finally, the overturning cylinder drives the overturning arm to overturn to an overturned state to prepare for installing the next nail column.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the glass positioning tool, the left and right centering and the up and down centering of glass are automatically adjusted in a mode of combining the probe with the adjusting mechanism, the position precision is high, and the automatic production requirements are met.

2. The utility model provides a positioning and assembling tool for installing a nail column. After carrying out the accurate location of glass through above-mentioned glass location frock, will follow closely post automatic installation on glass through drawing the device. The installation process is simple high-efficient, and the position precision is high.

3. According to the positioning and assembling tool for installing the nail column, the drawing device is designed through the drawing motor and the profiling limiting block, after the nail column is installed, the drawing cylinder retracts to drive the profiling limiting block to move upwards, the nail column supporting piece still presses the nail column on the surface of glass at the moment, the nail column is prevented from being driven to move upwards when the profiling limiting block retracts upwards, and the nail column installation efficiency and the product percent of pass are improved.

Drawings

FIG. 1 is a schematic structural view of a glass positioning tool;

FIG. 2 is a schematic structural view of the left-right adjustment mechanism;

FIG. 3 is a top view of the vertical adjustment mechanism;

FIG. 4 shows a front side view of the active pushing device;

FIG. 5 shows a left side view of the active pushing device;

FIG. 6 is a side view of the driven pushing device;

FIG. 7 is a structural diagram illustrating a flip-state of the drawing apparatus;

FIG. 8 is a schematic structural view of the draft apparatus in an overturned state;

FIG. 9 is an enlarged partial schematic view of the drawing apparatus;

FIG. 10 is a schematic structural view of a copying stopper;

fig. 11 is a schematic view of an assembly structure of the profiling limiting block and the stud supporting member.

In the figure: 1-left and right centering probe, 2-up and down centering probe, 3-control hold-down device, 4-coarse positioning pin, 5-auxiliary clamping device, 6-left and right servo motor, 7-centering cylinder, 8-connecting rod, 9-left and right adjusting member, 10-left and right guide rail, 11-active pushing device, 11-1-up and down servo motor, 11-2-sliding block, 11-3-active clamping pin, 12-driven pushing device, 12-1-flexible clamping cylinder, 12-2-sliding base, 12-3-sliding guide rail, 12-4-clamping pin, 13-mounting base, 13-1-first base, 13-2-second base, 13-3-mounting frame, 14-overturning air cylinder, 15-overturning arm, 16-pressing air cylinder, 17-drawing air cylinder, 18-nail column supporting piece, 19-first bracket, 20-second bracket, 21-profiling limiting block, 21-1-sliding part, 21-2-connecting part, 21-3-limiting part, 22-stabilizing limiting plate, 23-stabilizing air cylinder, 24-stabilizing piece, 25-supporting piece, 26-first sliding rail block component, 27-second sliding rail block component and 28-left and right sliding block.

Detailed Description

The present invention will be described in further detail with reference to specific examples. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example 1

The utility model provides a glass location frock, as shown in figure 1, including set up respectively in glass both sides be used for detecting glass about two probes 1 placed in the middle of the position about, be used for adjusting the glass about the guiding mechanism of position, set up respectively in glass four corners be used for detecting glass about four probes 2 placed in the middle of the position about, be used for adjusting the glass about the guiding mechanism of position and distribute in glass ring week and be used for compressing tightly six control closing device 3 on the glass base with the glass after the adjustment.

In addition, the glass positioning tool further comprises a base (not shown in the figure) fixed on the table top and used for placing glass and positioning the height of the glass, four coarse positioning pins 4 distributed on the periphery of the glass, and two auxiliary clamping devices 5.

The base and the four coarse positioning pins 4 are used for placing glass and coarse positioning during placing respectively. The two auxiliary clamping devices 5 serve as auxiliary clamping during the centering adjustment to keep the glass relatively fixed during the adjustment.

The left and right adjusting mechanism comprises a left and right servo motor 6 arranged below the table board, a centering cylinder 7 driven by the left and right servo motor 6 and two groups of left and right adjusting components driven by the centering cylinder 7 to clamp inwards as shown in fig. 2; each left-right adjusting component is connected with the centering cylinder 7 through a connecting rod 8; each left-right adjusting component comprises a left-right guide rail 10, a left-right sliding block 28 and a left-right adjusting piece 9; the left and right guide rails 10 are fixedly arranged on the table board, the lower ends of the left and right slide blocks 28 are connected with the connecting rod 8, and the upper ends slide along the left and right guide rails 10; the left and right adjusting pieces 9 are fixedly installed above the left and right sliders 28, and the left and right adjusting pieces 9 are driven by the connecting rods 8 to slide along the left and right guide rails 10 to adjust the left and right positions of the glass. The left servo motor 6, the right servo motor 6 and the centering cylinder 7 are connected through a linear guide rail so as to convert rotation into linear motion.

Left-right centering adjustment process: the two left and right centering probes 1 detect whether there is a centering deviation in the glass position. If deviation exists, the left and right servo motors 6 drive the centering air cylinder 7 to move left and right. In the process of moving the centering cylinder 7 left and right, the two connecting rods 8 and the two left and right adjusting pieces 9 correspondingly move left and right, and the two left and right adjusting pieces 9 push the glass to move left and right. And ending the left-right centering adjustment process until the two left-right centering probes 1 detect that no deviation exists in the glass position.

The up-down adjusting mechanism comprises two driving pushing devices 11 arranged below the glass and two driven pushing devices 12 arranged above the glass, as shown in fig. 3; each of the active pushing devices 11 is shown in fig. 4 and 5, and includes an upper and lower servo motor 11-1, a sliding block 11-2 driven by the upper and lower servo motor 11-1 to slide up and down, and an active clamping pin 11-3 fixedly connected to the sliding block 11-2 and sliding up and down therewith. The upper and lower servo motors 11-1 and the sliding blocks 11-2 are connected through linear guide rails to convert rotation into linear motion. The upper servo motor 11-1 and the lower servo motor 11-1 are arranged below the table board, the active clamping pin 11-3 is positioned above the table board, the sliding block 11-2 penetrates through a sliding groove on the table board, the lower end of the sliding block slides up and down along with an output shaft of the upper servo motor 11-1 and the upper end of the sliding block is fixedly connected with the active clamping pin 11-3. Each driven pushing device 12 is shown in fig. 6 and comprises a flexible clamping cylinder 12-1, a sliding base 12-2 driven by the flexible clamping cylinder 12-1 to slide up and down, a sliding guide rail 12-3 installed on the table top and a clamping pin 12-4 installed on the sliding base 12-2. The sliding base 12-2 and the sliding guide rail 12-3 are used in a matched manner, and a set of sliding rail components of the wiener is selected in the embodiment.

The up-down centering adjustment process: the four up-down centering probes 2 detect whether there is a deviation between the glass position and the theoretical position in the up-down direction. If deviation exists, the two upper and lower servo motors 11-1 drive the two active clamping pins 11-3 to move up and down, so that the glass is pushed to move up and down to be adjusted. And ending the up-down centering adjustment process until the four up-down centering probes 2 detect that no deviation exists in the glass position.

Each control pressing device 3 comprises a pressing cylinder, a cantilever beam arm and a pressing block, wherein the cantilever beam arm is horizontally arranged, one end of the cantilever beam arm is fixed on an output shaft of the pressing cylinder, and the other end of the cantilever beam arm is fixedly connected with the pressing block; the pressing block is positioned below the cantilever beam arm; the lower surface of the pressing block is made of polyurethane so as to prevent glass from being scratched.

Example 2

A die drawing device comprises a turnover mechanism, a pressing mechanism and a die drawing mechanism;

the overturning mechanism is shown in fig. 7 and fig. 8, and comprises an overturning cylinder 14 mounted on a mounting base 13 and an overturning arm 15 mounted on an output shaft of the overturning cylinder 14 and overturned therewith;

as shown in fig. 9, the pressing mechanism includes a pressing cylinder 16 mounted on the end of the turning arm 15 via a first bracket 19, and a second bracket 20 driven by the pressing cylinder 16 to move up and down; the second bracket 20 is L-shaped; a vertical right-angled edge of the second bracket 20 is slidably mounted on the first bracket 19 through a first sliding rail slider assembly 26;

the drawing mechanism is shown in fig. 9 and comprises a drawing cylinder 17 and a stud support 18 which are fixedly arranged on the other horizontal right-angle side of the second bracket 20, and a profiling limiting block 21 driven by the drawing cylinder 17; the profiling limiting block 21 comprises a sliding part 21-1, a connecting part 21-2 and a limiting part 21-3 which are integrally connected as shown in fig. 10 and fig. 11; the sliding part 21-1 is connected with the second bracket 20 in a sliding way through a second sliding rail and sliding block assembly 27; the lower end of the post supporting part 18 passes through the connecting part 21-2 and is nested inside the limiting part 21-3.

In order to ensure the stability of the turnover arm 15, the turnover mechanism is also provided with a stabilizing component; the stabilizing assembly comprises a stabilizing limit plate 22 fixedly arranged on the mounting base 13, a stabilizing cylinder 23 arranged on the stabilizing limit plate 22, a stabilizing piece 24 arranged on a piston rod of the stabilizing cylinder 23 and a support piece 25 arranged on the stabilizing limit plate 22; one end of the stable limiting plate 22 is fixedly connected with the mounting base 13, the other end provided with a supporting piece 25 is positioned right below the overturning arm 15 (in an overturning state), and the supporting piece 25 is also positioned right below the overturning arm 15 to support the overturning arm 15; one end of the pressure stabilizer 24 is mounted on the piston rod of the stabilizing cylinder 23, and the other end is located right above the flipping arm 15 (in the flipping state) to press the flipping arm 15.

The support member 25 includes a buffer and a holding bolt. The tilting arm 15 is first cushioned by a buffer during the tilting and then falls onto the support bolt.

firstly, the turning arm 15 is in an unturning state, as shown in fig. 8, at this time, the nail column profiling holes of the nail column supporting part 18 and the limiting part 21-3 face upwards, and the nail column to be installed is placed in the nail column profiling holes;

then, starting the turning cylinder 14, turning the turning arm 15 to a turning state, wherein the nail column profiling hole faces downwards, starting the pressing cylinder 16 to press downwards as shown in fig. 7, adhering the nail column to be installed in the nail column profiling hole to the glass, and at the moment, the drawing cylinder 17 is in an extending state; after the sticking is finished, the drawing cylinder 17 retracts to drive the profiling limiting block 21 to move upwards, and at the moment, the nail column supporting piece 18 still presses the nail column on the surface of the glass, so that the profiling limiting block 21 is prevented from driving the nail column to move upwards when retracting upwards;

finally, the holding-down cylinder 16 is raised upwards, with the post support 18, leaving the post on the glass surface; the inverting cylinder 14 drives the inverting arm 15 to invert to the non-inverted state shown in fig. 9, and prepare for the installation of the next nail column.

In the process of installing the nail column, when the overturning arm 15 overturns to the overturning state, the stabilizing air cylinder 23 is started, the pressure stabilizing piece 24 is driven to downwards press the overturning arm 15, and the overturning arm 15 is pressed between the supporting piece 25 and the pressure stabilizing piece 24 so as to prevent the overturning arm 15 from moving.

Preferably, the mounting base 13 comprises a first base 13-1, a second base 13-2 and a mounting frame 13-3; a longitudinal dovetail groove is formed in the first base 13-1, and the second base 13-2 and the first base 13-1 are connected in a longitudinal sliding mode through the longitudinal dovetail groove; the second base 13-2 is provided with a transverse dovetail groove, and the mounting rack 13-3 and the second base 13-2 are connected in a transverse sliding mode through the transverse dovetail groove. Based on the mechanism, the transverse and longitudinal positions of the mounting frame 13-3 can be conveniently adjusted.

Example 3

A positioning and assembling tool for installing a nail column comprises a glass positioning tool in embodiment 1 and a drawing device in embodiment 2.

According to the installation method of the positioning and assembling tool for installing the nail column, firstly, the glass is positioned through the glass positioning tool, and then the nail column is installed on the glass through the drawing device.

Spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used in the embodiments for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "lower" can encompass both an upper and a lower orientation. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Moreover, relational terms such as "first" and "second," and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a glass location frock which characterized in that: the device comprises two left and right centering probes which are respectively arranged on two sides of glass to be positioned and used for detecting the left and right centering positions of the glass, a left and right adjusting mechanism used for adjusting the left and right positions of the glass, an upper and lower centering probe used for detecting the upper and lower centering positions of the glass, an upper and lower adjusting mechanism used for adjusting the upper and lower positions of the glass and a plurality of control pressing devices which are distributed on the periphery of the glass ring and used for pressing the adjusted glass on a glass base.

2. The glass positioning tool according to claim 1, wherein the left-right adjusting mechanism comprises a left-right servo motor arranged below the table top, a centering cylinder driven by the left-right servo motor, and two groups of left-right adjusting components driven by the centering cylinder to clamp inwards;

3. The glass positioning tool according to claim 2, wherein the up-down adjusting mechanism comprises two driving pushing devices and two driven pushing devices.

4. The glass positioning tool according to claim 3, wherein each active pushing device comprises an upper servo motor, a lower servo motor, a sliding block driven by the upper servo motor to slide up and down, and an active clamping pin fixedly connected with the sliding block and sliding up and down along with the sliding block;

5. The glass positioning tool according to claim 1, further comprising a base fixed on the table top for placing glass and positioning the glass in height, a plurality of coarse positioning pins distributed around the glass ring, and two auxiliary clamping devices.

6. A positioning and assembling tool for installing a nail column, which is characterized by comprising the glass positioning tool of any one of claims 1 to 5 and a drawing device for installing the nail column;

7. The positioning and assembling tool for post installation according to claim 6, wherein the installation base comprises a first base, a second base and an installation frame; the second base is longitudinally connected with the first base in a sliding manner; the mounting frame is connected with the second base in a transverse sliding mode.

8. The positioning and assembling tool for post installation according to claim 6, wherein the turnover mechanism is further provided with a stabilizing component;

9. The positioning and assembling tool for post mounting according to claim 8, wherein the support member comprises a supporting bolt and a buffer.

10. The positioning and assembling tool for nail column installation according to claim 8, wherein the profiling limiting block comprises a sliding part, a connecting part and a limiting part which are integrally connected; the sliding part is connected with the second bracket in a sliding way through a second sliding rail; the lower end of the nail post supporting piece penetrates through the connecting portion and is nested in the limiting portion.