CN210922523U - Automobile glass window thickness detection device - Google Patents

Abstract

The utility model relates to an automobile parts check out test set field, concretely relates to car glass shakes window thickness detection device, comprises an operation bench, a controller, the mount, first pay-off subassembly and second pay-off subassembly, a controller, the mount sets up on the operation bench, first pay-off subassembly sets up between two relative mounts, second pay-off subassembly sets up between two relative mounts in addition, be provided with two-way lead screw slip tables between first pay-off subassembly and the second pay-off subassembly, two-way lead screw slip table is provided with two sets ofly, two-set two-way lead screw sets up relatively, be provided with thickness detection subassembly on the two-way lead screw slip table. This device is used for carrying out thickness detection to the product of car glass swinging window, with example window glass through first pay-off subassembly, send two-way lead screw slip tables department to, carry out thickness detection, after the detection, send its export to the operation panel by second pay-off subassembly, take off by the staff, so relapse, this device simple operation, detection efficiency is high.

Description

Automobile glass window thickness detection device

Technical Field

The utility model relates to an automobile parts check out test set field, concretely relates to car glass shakes thickness detection device of window.

Background

The important components of the whole car body of the car window are designed to meet the requirements of lighting, ventilation and driver and passenger visual field in the car. The car window has the following different installation positions according to the glass: front and rear air windows, side windows and doors and windows. The modeling structure and the quality of the vehicle window have great influence on the visual field of a driver, the comfort of passengers, the appearance, the aerodynamic characteristics and the like. The window structure is usually a curved closed type, and is connected between a window frame and window glass of a vehicle body by a rubber sealing strip. The sealing strip has the functions of sealing and buffering, so that the windshield glass cannot be damaged when the window frame is deformed due to the stress of the vehicle body. The front and rear windows of the automobile usually adopt curved glass which is favorable for the visual field and is beautiful, and the curved glass is embedded on a window frame by a rubber sealing strip or is adhered on the window frame by a special adhesive. To facilitate natural ventilation, the side window glass of an automobile is generally moved up and down or forward and backward.

The automobile glass is manufactured by heating glass to be close to softening temperature in a heating furnace, then quickly feeding the glass into air grids with different cooling strengths, and carrying out uneven cooling on the glass to generate different stresses on a main viewing area and a peripheral area of the glass, wherein the produced glass is generally regional toughened glass. The peripheral area is located at the strong wind position of the air grid, so that full tempering is needed, the degree of fragments at the position is good, the tempering strength is high, the main visual area is located at the weak cold position of the air grid, the fragments are large, and the tempering strength is low.

The automobile glass is essential in automobile body accessories and mainly plays a role in protection. The automobile glass mainly comprises the following three types: laminated glass, toughened glass and regional toughened glass can bear stronger impact force. The automobile glass is divided into the following parts according to the positions: front windshield glass, side window glass, rear windshield glass and skylight glass; the national mandatory regulations of the front windshield glass are that the front windshield glass is laminated glass, the side window glass is toughened glass, and the rear windshield glass is generally toughened glass with electric heating wires.

In the production process of the automobile window glass, an important link is to detect the thickness of the finished product of the automobile window glass, and only the product meeting the standard can be delivered from a factory and put into the next production and processing for use. If the thickness of the steel plate has errors and cannot reach the specified thickness standard, the production loss can be caused, and even serious harm accidents can be caused. Therefore, the detection on the thickness of the car window glass is very critical, the thickness is detected by traditional workers, certain errors exist, and the artificial errors easily occur along with the increase of the working time, so that the inaccuracy of the measurement result is caused, and the efficiency of the measurement mode is very low, so that the requirements in a large amount of production cannot be met. For this situation, it is necessary to seek better solutions.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a car glass shakes thickness detection device of window.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides an automobile glass shakes window thickness detection device, including operation panel, controller, mount, first pay-off subassembly and second pay-off subassembly, the controller sets up on the operation panel, the mount is provided with four and two liang of relative settings, first pay-off subassembly sets up between two relative mounts, second pay-off subassembly sets up between two other relative mounts, be provided with two-way lead screw slip table between first pay-off subassembly and the second pay-off subassembly, two-way lead screw slip table sets up between two mounts with one side, two-way lead screw slip table is provided with two sets ofly, two sets of two-way lead screw slip table sets up relatively, be provided with thickness detection component on the two-way lead screw slip table.

Further, first pay-off subassembly includes first drive assembly, driving roller and drive wheel, second pay-off subassembly includes second drive assembly, driving roller and drive wheel, first drive assembly and second drive assembly all set up on the mount, the driving roller is provided with a plurality of roots and mutual parallel arrangement, the driving roller sets up between two relative mounts, driving roller level sets up and both ends are the hub drive connection respectively on the mount.

Furthermore, the driving wheels are uniformly arranged on the driving rollers at equal intervals, a plurality of driving wheels are arranged on each driving roller, and rubber soft gaskets are arranged on the peripheries of the driving wheels.

Furthermore, the bidirectional screw rod sliding table is vertically and fixedly arranged on the operating table, a guide rod is arranged on the bidirectional screw rod sliding table, and the guide rod is vertically arranged.

Furthermore, an upper sliding block and a lower sliding block are arranged on the guide rod, and the upper sliding block and the lower sliding block are both in threaded connection with the guide rod.

Further, thickness detection subassembly is including upper junction plate, punch holder, infrared signal receiver, lower connecting plate, lower plate and infrared signal transmitter, the one end fixed connection of upper junction plate is on the top shoe, punch holder and infrared signal receiver set up on the upper junction plate, and the one end of punch holder was kept away from on the upper junction plate to the punch holder setting, and infrared signal receiver sets up the one side that is close to the top shoe on the upper junction plate, the one end fixed connection of lower connecting plate is on the lower slider, lower plate and infrared signal transmitter set up on the connecting plate down, and the one end of lower slider is kept away from to the lower plate setting on the connecting plate down, and infrared signal transmitter sets up the one side that is close to the lower slider on the connecting plate down, and the equal level of upper junction plate and lower connecting plate sets up and corresponds each other.

Further, infrared signal receiver and the corresponding setting of infrared signal transmitter, infrared signal receiver's input sets up down, infrared signal transmitter's output sets up, punch holder and lower plate are soft material.

Furthermore, first transmission assembly, second transmission assembly, two-way lead screw slip table, infrared signal receiver and infrared signal transmitter all with controller electric connection.

Furthermore, a glass outer cover is further arranged on the operating platform, the glass outer cover is of a transparent structure, and the glass outer cover is located above the fixing frame, the first feeding assembly and the second feeding assembly.

The utility model has the advantages that: this device can be used to carry out automated inspection to car window glass's thickness, compares artifical the detection, has improved measurement of efficiency, and measurement accuracy is higher moreover, and full automation can show and promote measuring speed, can guarantee the measured data very first time, feeds back to the controller on to the record, the setting of unidirectional transport material loading guarantees the orderly high efficiency when detecting polylith window glass. The device has simple structure, convenient operation and strong practicability.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a top plan view of the present invention;

fig. 4 is a schematic view of the three-dimensional splitting structure of the present invention;

fig. 5 is a schematic view of a partially disassembled structure of the present invention;

fig. 6 is a schematic diagram of a partially disassembled structure of the present invention;

in the figure: the device comprises an operating table 1, a controller 2, a fixed frame 3, a first feeding component 4, a first transmission component 4a, a transmission roller 4b, a transmission wheel 4c, a second feeding component 5, a second transmission component 5a, a bidirectional screw rod sliding table 6, a guide rod 6a, an upper sliding block 6b, an upper connecting plate 6b1, an upper clamping plate 6b2, an infrared signal receiver 6b3, a lower sliding block 6c, a lower connecting plate 6c1, a lower clamping plate 6c2, an infrared signal transmitter 6c3, a glass outer cover 7 and an example window glass 8.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are used only for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms will be understood by those skilled in the art according to the specific circumstances.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being either a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Refer to fig. 1 to 6 and show a car glass shakes window thickness detection device, including operation panel 1, controller 2, mount 3, first pay-off subassembly 4 and second pay-off subassembly 5, controller 2 sets up on operation panel 1, mount 3 is provided with four and two liang of relative settings, first pay-off subassembly 4 sets up between two relative mounts 3, second pay-off subassembly 5 sets up between two other relative mounts 3, be provided with two-way lead screw slip table 6 between first pay-off subassembly 4 and the second pay-off subassembly 5, two-way lead screw slip table 6 sets up between two mounts 3 with one side, two-way lead screw slip table 6 is provided with two sets ofly, two-way lead screw slip table 6 sets up relatively, be provided with thickness detection subassembly on the two-way lead screw slip table 6. The device is used for detecting the thickness of the product of the automobile glass window winder to determine whether the product reaches the production standard or not, and is convenient for subsequent processing and use. First put operation panel 1 with waiting to detect on the example window glass 8, be located between mount 3, make it be in the horizontality, through first feeding component 4, send to two-way lead screw slip tables 6, carry out the thickness and detect, after the detection, thickness detection component loosens example window glass 8, sends it to the export of operation panel 1 by second feeding component 5 after that, takes off by the staff, so relapse, this device simple operation, detection efficiency is high.

First pay-off subassembly 4 includes first drive assembly 4a, driving roller 4b and drive wheel 4c, second pay-off subassembly 5 includes second drive assembly 5a, driving roller 4b and drive wheel 4c, first drive assembly 4a and second drive assembly 5a all set up on mount 3, driving roller 4b is provided with a plurality of roots and mutual parallel arrangement, driving roller 4b sets up between two relative mounts 3, driving roller 4b level sets up and both ends are the hub drive respectively and are connected on mount 3. The first transmission assembly 4a drives the transmission roller 4b to rotate, the transmission roller 4b drives the transmission wheel 4c to rotate, the example window glass 8 is sent to the detection station, after detection is finished, the second transmission assembly 5a drives the transmission roller 4b to rotate, the transmission roller 4b drives the transmission wheel 4c to rotate, and the example window glass 8 is sent to the blanking station.

The transmission wheels 4c are uniformly arranged on the transmission rollers 4b at equal intervals, a plurality of transmission wheels 4c are arranged on each transmission roller 4b, and rubber soft gaskets are arranged on the peripheries of the transmission wheels 4 c. The rubber soft gasket arranged at the periphery of the transmission wheel 4c can protect the window glass 8 of the car, and friction marks are avoided in the transmission process.

The bidirectional screw rod sliding table 6 is vertically and fixedly arranged on the operating table 1, a guide rod 6a is arranged on the bidirectional screw rod sliding table 6, and the guide rod 6a is vertically arranged.

An upper sliding block 6b and a lower sliding block 6c are arranged on the guide rod 6a, and the upper sliding block 6b and the lower sliding block 6c are in threaded connection with the guide rod 6 a. The upper slider 6b and the lower slider 6c can perform linear movement in the vertical direction on the guide bar 6 a.

The thickness detecting assembly comprises an upper connecting plate 6b1, an upper clamping plate 6b2, an infrared signal receiver 6b3, a lower connecting plate 6c1, a lower clamping plate 6c2 and an infrared signal emitter 6c3, wherein one end of the upper connecting plate 6b1 is fixedly connected to the upper slider 6b, the upper clamping plate 6b2 and the infrared signal receiver 6b3 are arranged on the upper connecting plate 6b1, the upper clamping plate 6b2 is arranged at one end of the upper connecting plate 6b1 far away from the upper slider 6b, the infrared signal receiver 6b3 is arranged on one side of the upper connecting plate 6b1 close to the upper slider 6b, one end of the lower connecting plate 6c1 is fixedly connected to the lower slider 6c, the lower clamping plate 6c2 and the infrared signal emitter 6c3 are arranged on the lower connecting plate 6c1, the lower clamping plate 6c2 is arranged at one end of the lower connecting plate 6c1 far away from the lower slider 6c, the infrared signal emitter 6c3 is arranged on one side of the lower connecting plate 1 close to the lower slider, the upper connecting plate 6b1 and the lower connecting plate 6c1 are horizontally arranged and correspond to each other. When the example window glass 8 reaches the detection station, the bidirectional screw rod sliding table 6 is started, so that the upper sliding block 6b moves downwards on the guide rod 6a, and further the upper connecting plate 6b1 is brought down so that the upper clamping plate 6b2 comes into contact with the upper surface of the example window glass 8, the lower slider 6c moves upward, and further brings the lower connecting plate 6c1 upward, so that the lower clamping plate 6c2 comes into contact with the lower surface of the example window glass 8, after the upper clamping plate 6b2 and the lower clamping plate 6c2 clamp the window glass 8, the infrared signal emitter 6c3 sends a signal to the infrared signal receiver 6b3, and after the infrared signal receiver 6b3 receives the signal, the data is fed back to the controller 2, and displaying the record on a computer, analyzing the thickness of the glass through the signal transmission time, comparing the thickness with a set numerical value, and determining whether the thickness of the window glass meets the error standard.

The infrared signal receiver 6b3 and the corresponding setting of infrared signal transmitter 6c3, the input of infrared signal receiver 6b3 sets up down, the output of infrared signal transmitter 6c3 sets up, punch holder 6b2 and lower plate 6c2 are soft material. The input end of the infrared signal receiver 6b3 is at the same level with the upper splint 6b2, and the output end of the infrared signal emitter 6c3 is at the same level with the lower splint 6c 2.

The first transmission assembly 4a, the second transmission assembly 5a, the bidirectional screw rod sliding table 6, the infrared signal receiver 6b3 and the infrared signal transmitter 6c3 are all electrically connected with the controller 2.

The operating table 1 is further provided with a glass outer cover 7, the glass outer cover 7 is of a transparent structure, and the glass outer cover 7 is located above the fixing frame 3, the first feeding component 4 and the second feeding component 5. The glass outer cover 7 can protect the detection process, avoid the interference of sundries and the like, and the transparent structure is convenient for the staff to observe.

The working principle is as follows: the device is used for detecting the thickness of the product of the automobile glass window winder to determine whether the product reaches the production standard or not, and is convenient for subsequent processing and use. First put operation panel 1 with waiting to detect on the example window glass 8, be located between mount 3, make it be in the horizontality, through first feeding component 4, send to two-way lead screw slip tables 6, carry out the thickness and detect, after the detection, thickness detection component loosens example window glass 8, sends it to the export of operation panel 1 by second feeding component 5 after that, takes off by the staff, so relapse, this device simple operation, detection efficiency is high.

The first transmission assembly 4a drives the transmission roller 4b to rotate, the transmission roller 4b drives the transmission wheel 4c to rotate, the example window glass 8 is sent to the detection station, after detection is finished, the second transmission assembly 5a drives the transmission roller 4b to rotate, the transmission roller 4b drives the transmission wheel 4c to rotate, and the example window glass 8 is sent to the blanking station. The rubber soft gasket arranged at the periphery of the transmission wheel 4c can protect the window glass 8 of the car, and friction marks are avoided in the transmission process.

The upper slider 6b and the lower slider 6c can perform linear movement in the vertical direction on the guide bar 6 a. The input end of the infrared signal receiver 6b3 is at the same level with the upper splint 6b2, and the output end of the infrared signal emitter 6c3 is at the same level with the lower splint 6c 2. When the example window glass 8 reaches the detection station, the bidirectional screw rod sliding table 6 is started, so that the upper sliding block 6b moves downwards on the guide rod 6a, and further the upper connecting plate 6b1 is brought down so that the upper clamping plate 6b2 comes into contact with the upper surface of the example window glass 8, the lower slider 6c moves upward, and further brings the lower connecting plate 6c1 upward, so that the lower clamping plate 6c2 comes into contact with the lower surface of the example window glass 8, after the upper clamping plate 6b2 and the lower clamping plate 6c2 clamp the window glass 8, the infrared signal emitter 6c3 sends a signal to the infrared signal receiver 6b3, and after the infrared signal receiver 6b3 receives the signal, the data is fed back to the controller 2, and displaying the record on a computer, analyzing the thickness of the glass through the signal transmission time, comparing the thickness with a set numerical value, and determining whether the thickness of the window glass meets the error standard.

It should be understood that the above-described embodiments are merely illustrative of the preferred embodiments of the present invention and the technical principles thereof. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, these modifications are within the scope of the present invention as long as they do not depart from the spirit of the present invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (9)

1. The automobile glass window winder thickness detection device is characterized by comprising an operation table (1), a controller (2), fixing frames (3), a first feeding assembly (4) and a second feeding assembly (5), wherein the controller (2) is arranged on the operation table (1), the fixing frames (3) are provided with four blocks and are arranged oppositely in pairs, the first feeding assembly (4) is arranged between the two opposite fixing frames (3), the second feeding assembly (5) is arranged between the other two opposite fixing frames (3), a bidirectional screw rod sliding table (6) is arranged between the first feeding assembly (4) and the second feeding assembly (5), the bidirectional screw rod sliding table (6) is arranged between the two fixing frames (3) on the same side, the bidirectional screw rod sliding tables (6) are provided with two groups, and the two groups of bidirectional screw rod sliding tables (6) are arranged oppositely, and a thickness detection assembly is arranged on the bidirectional screw rod sliding table (6).

2. The device for detecting the thickness of the automobile glass louver according to claim 1, wherein: first pay-off subassembly (4) include first drive assembly (4a), driving roller (4b) and drive wheel (4c), second pay-off subassembly (5) include second drive assembly (5a), driving roller (4b) and drive wheel (4c), first drive assembly (4a) and second drive assembly (5a) all set up on mount (3), driving roller (4b) are provided with a plurality of roots and mutual parallel arrangement, driving roller (4b) set up between two relative mounts (3), driving roller (4b) level setting and both ends are the shaft-driven connection respectively on mount (3).

3. The device for detecting the thickness of the automobile glass louver according to claim 2, wherein: the transmission wheels (4c) are uniformly arranged on the transmission rollers (4b) at equal intervals, a plurality of transmission wheels (4c) are arranged on each transmission roller (4b), and rubber soft gaskets are arranged on the peripheries of the transmission wheels (4 c).

4. The device for detecting the thickness of the automobile glass louver according to claim 3, wherein: the bidirectional screw rod sliding table (6) is vertically and fixedly arranged on the operating table (1), a guide rod (6a) is arranged on the bidirectional screw rod sliding table (6), and the guide rod (6a) is vertically arranged.

5. The device for detecting the thickness of the automobile glass louver according to claim 4, wherein: an upper sliding block (6b) and a lower sliding block (6c) are arranged on the guide rod (6a), and the upper sliding block (6b) and the lower sliding block (6c) are both in threaded connection with the guide rod (6 a).

6. The device for detecting the thickness of the automobile glass louver according to claim 5, wherein: the thickness detection assembly comprises an upper connecting plate (6b1), an upper clamping plate (6b2), an infrared signal receiver (6b3), a lower connecting plate (6c1), a lower clamping plate (6c2) and an infrared signal emitter (6c3), wherein one end of the upper connecting plate (6b1) is fixedly connected to an upper sliding block (6b), the upper clamping plate (6b2) and the infrared signal receiver (6b3) are arranged on the upper connecting plate (6b1), the upper clamping plate (6b2) is arranged at one end, far away from the upper sliding block (6b), of the upper connecting plate (6b1), the infrared signal receiver (6b3) is arranged at one side, close to the upper sliding block (6b), of the upper connecting plate (6b1), one end of the lower connecting plate (6c1) is fixedly connected to the lower sliding block (6c), and the lower clamping plate (6c2) and the infrared signal emitter (6c3) are arranged on the lower connecting plate (6c1), the lower clamping plate (6c2) is arranged at one end, far away from the lower sliding block (6c), of the lower connecting plate (6c1), the infrared signal emitter (6c3) is arranged on one side, close to the lower sliding block (6c), of the lower connecting plate (6c1), and the upper connecting plate (6b1) and the lower connecting plate (6c1) are horizontally arranged and correspond to each other.

7. The device for detecting the thickness of the automobile glass louver according to claim 6, wherein: the infrared signal receiver (6b3) and the corresponding setting of infrared signal transmitter (6c3), the input of infrared signal receiver (6b3) sets up down, the output of infrared signal transmitter (6c3) sets up, punch holder (6b2) and lower plate (6c2) are soft material.

8. The device for detecting the thickness of the automobile glass louver according to claim 7, wherein: the first transmission assembly (4a), the second transmission assembly (5a), the two-way screw rod sliding table (6), the infrared signal receiver (6b3) and the infrared signal transmitter (6c3) are all electrically connected with the controller (2).

9. The device for detecting the thickness of the automobile glass louver according to claim 8, wherein: the glass feeding device is characterized in that a glass outer cover (7) is further arranged on the operating table (1), the glass outer cover (7) is of a transparent structure, and the glass outer cover (7) is located above the fixing frame (3), the first feeding component (4) and the second feeding component (5).

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