CN218673587U - Core thickness measurement structure, core thickness measurement subassembly, core thickness measurement mechanism - Google Patents

Abstract

The utility model discloses a core material thickness measurement structure, core thickness measurement subassembly, core thickness measurement mechanism, core thickness measurement structure include thickness measurement base plate and thickness measurement sensor, and thickness measurement sensor is vertical installs on the thickness measurement base plate, and terminal surface floating installation has unsteady briquetting under the thickness measurement base plate, and the terminal surface that compresses tightly of unsteady briquetting is less than thickness measurement sensor's detection tip, unsteady briquetting the direction of floating and thickness measurement sensor's axial direction parallel. When detecting, the pressing end face of the floating pressing block is firstly contacted with the end face of the core material to be detected, the end face of the core material is leveled, and when the thickness measuring sensor and the end face of the core material to be detected are pressed for thickness measurement, the floating pressing block can float upwards to leave a telescopic space for the thickness measuring sensor during detection.

Description

Core thickness measurement structure, core thickness measurement subassembly, core thickness measurement mechanism

Technical Field

The utility model belongs to the technical field of the thickness measurement, concretely relates to core material thickness measurement structure, core thickness measurement subassembly, core thickness measurement mechanism.

Background

The thickness measuring device is used for measuring the thickness of materials and objects, is commonly used for measuring the thickness of steel plates, steel belts, films, paper, metal foils and the like, and the thickness measurement of the heat insulation pad core material is realized by directly pressing and contacting the thickness sensor, so that the flatness of the heat insulation core material cannot be ensured when the thickness sensor detects the thickness, and the detection is inaccurate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the roughness of work piece when can't ensure to detect when current detects to a core material thickness measurement structure, core thickness measurement subassembly, core thickness measurement mechanism are provided.

For solving the technical problem, the utility model discloses the technical scheme who adopts as follows:

the core material thickness measuring structure comprises a thickness measuring base plate and a thickness measuring sensor, wherein the thickness measuring sensor is vertically installed on the thickness measuring base plate, a floating pressing block is installed on the lower end face of the thickness measuring base plate in a floating mode, the pressing end face of the floating pressing block is lower than the detection end portion of the thickness measuring sensor, and the floating direction of the floating pressing block is parallel to the axial direction of the thickness measuring sensor. When detecting, the pressing end face of the floating pressing block is firstly contacted with the end face of the core material to be detected, the end face of the core material is leveled, and when the thickness measuring sensor and the end face of the core material to be detected are pressed for thickness measurement, the floating pressing block can float upwards to leave a telescopic space for the thickness measuring sensor during detection.

As a preferred scheme of the utility model, the briquetting that floats is equipped with the thickness measurement hole of stepping down near the tip of thickness measurement sensor, and the detection tip of thickness measurement sensor is located the thickness measurement hole of stepping down. The thickness measuring yielding hole is arranged, so that the thickness measuring sensor can move linearly during detection, and detection errors caused by inclination are avoided.

As an optimal selection scheme of the utility model, be equipped with the spring between thickness measuring base plate and the briquetting that floats.

As an optimized scheme of the utility model, be equipped with the direction connecting axle between thickness measurement base plate and the briquetting that floats, the spring housing is established on the direction connecting axle, and is equipped with the unsteady passageway of connecting axle on thickness measurement base plate or the briquetting that floats. The direction connecting axle makes the briquetting that floats when floating along direction connecting axle rectilinear movement, avoids appearing the slope when floating, makes the briquetting that floats compress tightly the terminal surface and keep the level.

As an optimized proposal of the utility model, a floating telescopic cylinder component is arranged between the thickness measuring base plate and the floating pressing block.

Preferably, the floating telescopic cylinder assembly comprises a telescopic cylinder, a piston rod of the telescopic cylinder is connected with the floating pressing block, a cylinder body of the telescopic cylinder is connected with the thickness measuring substrate, and the thickness measuring substrate is provided with a channel for the cylinder body of the telescopic cylinder to float. The telescopic cylinder can change the distance difference between the pressing end face of the floating press block and the detection end part of the thickness measurement sensor in an automatic control mode, and the distance difference between the pressing end face of the floating press block and the detection end part of the thickness measurement sensor can also be directly and manually adjusted.

The utility model also provides a core thickness measurement subassembly, including at least two core thickness measurement structure and thickness measurement mounting panel, core thickness measurement structure parallel mount is on the thickness measurement mounting panel.

As a preferred scheme of the utility model, fixed mounting has a core thickness measurement structure on the thickness measurement mounting panel, lies in the adjustable core thickness measurement structure of installing of at least one side of fixed mounting's core thickness measurement structure on the thickness measurement mounting panel. The fixed core material thickness measuring structure can be used as a reference for measuring the thickness of the core material, and the distance between the fixed core material thickness measuring structure and the core material thickness measuring structure on the side edge can be changed, so that the core material thickness measuring structure is suitable for detecting the core materials with different sizes.

As the utility model discloses an optimal scheme installs the regulation structure on the thickness measurement mounting panel, is located the core thickness measurement structure of the side of fixed mounting's core thickness measurement structure and adjusts the structural connection and be close to or keep away from fixed mounting's core thickness measurement structure under the drive of adjusting the structure.

As a preferred scheme of the utility model, the adjusting structure comprises a distance adjusting motor, a distance adjusting driving wheel, a distance adjusting driven wheel, a distance adjusting conveyer belt, a distance adjusting connecting block I and a distance adjusting connecting block II;

the roll adjustment motor is installed on the mounting panel of thickness measurement, the output shaft and the roll adjustment action wheel transmission of roll adjustment motor are connected, the roll adjustment is installed on the mounting panel of thickness measurement from the driving wheel, roll adjustment action wheel and roll adjustment are connected through the transmission of roll adjustment conveyer belt from the driving wheel, roll adjustment connecting block I installs the last conveying part at the roll adjustment conveyer belt, and roll adjustment connecting block I and a core thickness measurement structural connection, the lower conveying part at the roll adjustment conveyer belt is installed to roll adjustment connecting block II, roll adjustment connecting block II and another core thickness measurement structural connection.

Under the drive of the distance-adjusting conveying belt, the movement directions of the distance-adjusting connecting blocks I and the distance-adjusting connecting blocks II are opposite, the core material thickness measuring structures connected with the distance-adjusting connecting blocks I and the distance-adjusting connecting blocks II can be simultaneously close to or far away from the fixed core material thickness measuring structures, and the distance between the fixed core material thickness measuring structures and the core material thickness measuring structures moving on two sides is the same through the synchronous adjusting structure.

As a preferred scheme of the utility model, a distance-adjusting guide structure is arranged on the thickness measuring mounting plate; the distance-adjusting guide structure comprises a slide rail slide block guide structure and/or a limiting guide hole structure.

The slide rail slide block guide structure comprises a Y-direction slide block and a Y-direction slide rail, the Y-direction slide rail is arranged on the thickness measuring mounting plate, and the Y-direction slide block is arranged on the Y-direction slide rail in a sliding manner and is connected with the thickness measuring base plate;

the limiting guide hole structure comprises a Y-direction guide hole and a limiting guide piece; the Y-direction guide hole is formed in the thickness measuring installation plate, one end portion of the limiting guide piece is connected with the thickness measuring base plate, and the other end portion of the limiting guide piece moves along the Y-direction guide hole.

The utility model also provides a core thickness measuring mechanism, including two core thickness measuring subassembly, two core thickness measuring subassemblies set up relatively.

The utility model discloses a unsteady briquetting that sets up comes in advance and the core contact that awaits measuring, plays smooth effect to the terminal surface of the core that awaits measuring, and the thickness measurement sensor atress pushes down when detecting, and unsteady briquetting can upwards steadily float under the pressure of the core that awaits measuring, and with the moving direction of thickness measurement sensor opposite, the unsteady characteristic of unsteady briquetting and the thickness measurement hole of stepping down that the unsteady briquetting set up all facilitate for the promotion of thickness measurement sensor detects the precision. And adopt a plurality of core thickness measuring structure complex modes to detect simultaneously when detecting to a core thickness measuring structure is fixed to be set up as the detection benchmark, and both sides set up the core thickness measuring structure that can the adjusting position can be close to in step and keep away from fixed core thickness measuring structure, and the core of equidimension not detects and provides convenience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the core material thickness measuring structure of the present invention.

Fig. 2 is a first schematic structural diagram of the core material thickness measuring assembly of the present invention.

Fig. 3 is a second schematic structural view of the core material thickness measuring assembly of the present invention.

Fig. 4 is a schematic diagram of the three groups of core material thickness measuring structures of the present invention.

Fig. 5 is a schematic structural diagram of the core material thickness measuring mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

Example (b):

a core material thickness measuring structure is shown in figure 1 and comprises a thickness measuring substrate 1 and a thickness measuring sensor 2, wherein the thickness measuring sensor 2 is vertically installed on the thickness measuring substrate 1, a floating press block 3 is movably installed on the lower end face of the thickness measuring substrate 1, the pressing end face of the floating press block 3 is lower than the detection end portion of the thickness measuring sensor 2, and the floating direction of the floating press block is parallel to the axial direction of the thickness measuring sensor.

The floating installation means that the floating pressing block can move up and down relative to the thickness measuring substrate, and in the embodiment, the buffering floating is realized by the spring arranged between the thickness measuring substrate 1 and the floating pressing block 3.

In order to avoid the influence on detection caused by tilting of a pressing end face of the floating pressing block during floating to tilt a core material to be detected contacted with the floating pressing block, a guide connecting shaft 6 is arranged between the thickness measuring substrate 1 and the floating pressing block 3, a spring is sleeved on the guide connecting shaft 6, one end part of the guide connecting shaft extends into the thickness measuring substrate to be connected with the thickness measuring substrate, the other end part of the guide connecting shaft is fixedly connected with the floating pressing block, a connecting shaft floating channel is arranged in the thickness measuring substrate 1, the end part of the guide connecting shaft is limited in the thickness measuring substrate and cannot be separated from the thickness measuring substrate, and the guide connecting shaft can float along with the floating pressing block in the connecting shaft floating channel; certainly, the guide connecting shaft can be fixedly connected with the thickness measuring substrate, the guide connecting shaft is connected with the floating pressing block after being inserted into the floating pressing block 3, the floating pressing block can float in a connecting shaft floating channel in the floating pressing block, and the guide connecting shaft cannot be separated from the floating pressing block.

After the floating press block is stressed, the guide connecting shaft enables the floating press block to linearly move along the guide connecting shaft when floating, so that the floating press block is prevented from inclining, and the pressing end face of the floating press block is kept horizontal.

In order to avoid the inclination of the detection end part of the thickness measuring sensor during thickness measurement, the floating pressing block 3 is provided with a thickness measuring abdicating hole 4 at the end part close to the thickness measuring sensor 2, and the detection end part of the thickness measuring sensor is positioned in the thickness measuring abdicating hole. The thickness measuring yielding hole is arranged, so that the thickness measuring sensor can move linearly during detection, and detection errors caused by inclination are avoided.

In order to automatically change the distance difference between the pressing end face of the floating press block and the detection end part of the thickness measuring sensor, a floating telescopic air cylinder assembly can be arranged between the thickness measuring substrate 1 and the floating press block 3. The floating telescopic air cylinder assembly comprises a telescopic air cylinder, a piston rod of the telescopic air cylinder is connected with a floating pressing block 3, a cylinder body of the telescopic air cylinder is connected with a thickness measuring substrate 1, and the thickness measuring substrate 1 is provided with a channel for the cylinder body of the telescopic air cylinder to float. In the embodiment, the cylinder body of the telescopic cylinder is installed in the thickness measuring base plate, and in order to connect the air source with the telescopic cylinder, the thickness measuring base plate is provided with a channel through which an air supply pipe passes, and the telescopic cylinder can change the distance difference between the pressing end face of the floating press block and the detection end part of the thickness measuring sensor in an automatic control mode.

Of course, the distance difference between the pressing end surface of the floating pressing block and the detection end part of the thickness measuring sensor can also be directly adjusted manually.

When detecting, the pressing end face of the floating pressing block is firstly contacted with the end face of the core material to be detected, the end face of the core material is leveled, and when the thickness measuring sensor and the end face of the core material to be detected are pressed for thickness measurement, the floating pressing block can float upwards to leave a telescopic space for the thickness measuring sensor during detection.

When measuring, a core material thickness measuring assembly can be adopted, which comprises at least two core material thickness measuring structures and a thickness measuring mounting plate 7, as shown in fig. 2, the core material thickness measuring structures are mounted on the thickness measuring mounting plate 7 in parallel. In the embodiment, a core material thickness measuring structure is fixedly mounted on the thickness measuring mounting plate, and core material thickness measuring structures are adjustably mounted on the thickness measuring mounting plate at two sides of the fixedly mounted core material thickness measuring structure, as shown in fig. 4. The fixed core material thickness measuring structure can be used as a reference for measuring the thickness of the core material, and the distance between the fixed core material thickness measuring structure and the core material thickness measuring structure on the side edge can be changed, so that the core material thickness measuring structure is suitable for detecting the core materials with different sizes.

The adjustable installation adopts that an adjusting structure is installed on a thickness measuring installation plate, and a core material thickness measuring structure positioned at the side end of the fixedly installed core material thickness measuring structure is connected with the adjusting structure and is driven by the adjusting structure to be close to or far away from the fixedly installed core material thickness measuring structure.

The adjusting structure, as shown in fig. 2 and 3, includes a distance-adjusting motor 8, a distance-adjusting driving wheel 9, a distance-adjusting driven wheel 10, a distance-adjusting conveying belt 11, a distance-adjusting connecting block I12 and a distance-adjusting connecting block II13;

the roll adjustment motor 8 is installed on the thickness measurement mounting panel, the output shaft and the transmission of roll adjustment action wheel 9 of roll adjustment motor are connected, the roll adjustment is installed on the thickness measurement mounting panel from driving wheel 10, roll adjustment action wheel 9 and roll adjustment are connected through the transmission of roll adjustment conveyer belt 11 from driving wheel 10, roll adjustment connecting block I12 is installed in the last conveying part of roll adjustment conveyer belt 11, and roll adjustment connecting block I12 and a core thickness measurement structural connection, the lower conveying part at roll adjustment conveyer belt 11 is installed to roll adjustment connecting block II13, roll adjustment connecting block II13 and another core thickness measurement structural connection.

Under the drive of the distance-adjusting conveying belt, the movement directions of the distance-adjusting connecting blocks I and the distance-adjusting connecting blocks II are opposite, the core material thickness measuring structures connected with the distance-adjusting connecting blocks I and the distance-adjusting connecting blocks II can be simultaneously close to or far away from the fixed core material thickness measuring structures, and the distance between the fixed core material thickness measuring structures and the core material thickness measuring structures moving on two sides is the same through the synchronous adjusting structure.

In order to make the thickness measuring substrate moving during adjustment move linearly and limit the moving stroke, a distance adjusting guide structure is arranged on the thickness measuring mounting plate; the distance-adjusting guide structure comprises a slide rail slide block guide structure and a limiting guide hole structure 15.

The slide rail slide block guide structure comprises a Y-direction slide block and a Y-direction slide rail 142, the Y-direction slide rail 142 is arranged on the thickness measuring mounting plate, and the Y-direction slide block is arranged on the Y-direction slide rail 142 in a sliding manner and is connected with the thickness measuring substrate 1;

the limiting guide hole structure 15 comprises a Y-direction guide hole 151 and a limiting guide piece 152; the Y-direction guide hole 151 is provided in the thickness measurement mounting plate, one end portion of the limit guide 152 is connected to the thickness measurement substrate 1, and the other end portion of the limit guide 152 moves along the Y-direction guide hole 151.

In order to detect more accurately, some more can be better in the check point, can use core thickness measuring mechanism, as shown in fig. 5, including two core thickness measuring subassembly, two core thickness measuring subassemblies set up relatively, and during the detection, the detection terminal surface of each briquetting that floats all can contact the terminal surface of the core that awaits measuring simultaneously, plays certain smooth effect to the terminal surface of the core that awaits measuring, and each thickness measuring sensor pushes down the contact core that awaits measuring in step in addition, continues to push down the detection that detects the briquetting that floats in step and lets out the position for thickness measuring sensor's detection.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (12)

1. The utility model provides a core material thickness measurement structure, includes thickness measurement base plate (1) and thickness measurement sensor (2), its characterized in that: the thickness measuring sensor (2) is vertically installed on the thickness measuring base plate (1), the floating pressing block (3) is installed on the lower end face of the thickness measuring base plate (1) in a floating mode, the pressing end face of the floating pressing block (3) is lower than the detection end portion of the thickness measuring sensor (2), and the floating direction of the floating pressing block is parallel to the axial direction of the thickness measuring sensor.

2. The core material thickness measuring structure according to claim 1, characterized in that: the floating pressing block (3) is provided with a thickness measuring yielding hole (4) at the end part close to the thickness measuring sensor (2), and the detection end part of the thickness measuring sensor is positioned in the thickness measuring yielding hole.

3. The core material thickness measuring structure according to claim 1 or 2, characterized in that: a spring is arranged between the thickness measuring substrate (1) and the floating pressing block (3).

4. The core material thickness measuring structure according to claim 3, characterized in that: the thickness measuring device is characterized in that a guide connecting shaft (6) is arranged between the thickness measuring substrate (1) and the floating pressing block (3), a spring is sleeved on the guide connecting shaft (6), and a connecting shaft floating channel is arranged on the thickness measuring substrate (1) or the floating pressing block (3).

5. The core material thickness measuring structure according to claim 4, characterized in that: a floating telescopic cylinder component is arranged between the thickness measuring substrate (1) and the floating pressing block (3).

6. The core material thickness measuring structure according to claim 5, characterized in that: the floating telescopic air cylinder assembly comprises a telescopic air cylinder, a piston rod of the telescopic air cylinder is connected with a floating press block (3), a cylinder body of the telescopic air cylinder is connected with a thickness measuring base plate (1), and a channel for floating the cylinder body of the telescopic air cylinder is arranged on the thickness measuring base plate (1).

7. A core material thickness measurement subassembly which characterized in that: comprising at least two core material thickness measuring structures according to any of claims 1-6 and a thickness measuring mounting plate (7), the core material thickness measuring structures being mounted in parallel on the thickness measuring mounting plate (7).

8. The core thickness measurement assembly of claim 7, wherein: the thickness measuring mounting plate is fixedly provided with a core material thickness measuring structure, and the core material thickness measuring structure is arranged on the thickness measuring mounting plate and positioned on at least one side of the fixedly arranged core material thickness measuring structure in an adjustable mode.

9. The core thickness measurement assembly of claim 8, wherein: the thickness measuring mounting plate is provided with an adjusting structure, and the core material thickness measuring structure positioned at the side end of the fixedly mounted core material thickness measuring structure is connected with the adjusting structure and is driven by the adjusting structure to be close to or far away from the fixedly mounted core material thickness measuring structure.

10. The core thickness measurement assembly of claim 9, wherein: the adjusting structure comprises a distance adjusting motor (8), a distance adjusting driving wheel (9), a distance adjusting driven wheel (10), a distance adjusting conveying belt (11), a distance adjusting connecting block I (12) and a distance adjusting connecting block II (13);

distance adjusting motor (8) are installed on the mounting panel of thickness measuring, the output shaft and the transmission of distance adjusting action wheel (9) of distance adjusting motor are connected, the distance adjusting is installed on the mounting panel of thickness measuring from driving wheel (10), distance adjusting action wheel (9) and distance adjusting are connected through distance adjusting conveyer belt (11) transmission from driving wheel (10), the last transport part at distance adjusting conveyer belt (11) is installed in distance adjusting connecting block I (12), and distance adjusting connecting block I (12) and a core thickness measuring structural connection, the lower transport part at distance adjusting conveyer belt (11) is installed in distance adjusting connecting block II (13), distance adjusting connecting block II (13) and another core thickness measuring structural connection.

11. The core thickness measurement assembly of claim 10, wherein: the thickness measuring mounting plate is provided with a distance adjusting guide structure; the distance-adjusting guide structure comprises a slide rail slide block guide structure (81) and/or a limiting guide hole structure (82).

12. A core material thickness measuring mechanism is characterized in that: comprising two core material thickness measuring assemblies according to claim 9 or 10, which are arranged opposite each other.

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