CN219934920U - Book block test board - Google Patents

Abstract

The utility model provides a book block test board, comprising: a carrying platform; the test mechanism comprises a moving mechanism and a test piece arranged on the moving mechanism, the moving mechanism divides the bearing table into a first bearing area and a second bearing area, and the first bearing area and the second bearing area are used for bearing books; the moving mechanism can drive the test piece to move along a first direction, a second direction and a third direction which are perpendicular to each other so as to detect the book blocks in the first bearing area and the second bearing area. According to the book block test board, the test piece is arranged on the moving mechanism, so that the measurement accuracy is improved; meanwhile, the bearing table is divided into the first bearing area and the second bearing area, so that a plurality of books are conveniently placed in the first bearing area and the second bearing area respectively, and the books in the first bearing area and the second bearing area are measured through the test piece at the same time, and the test efficiency is improved.

Description

Book block test board

Technical Field

The utility model relates to the technical field of testing devices, in particular to a book block testing table.

Background

A book block is generally referred to as the inner page portion of the book, i.e., the sheet containing all of the printed matter. It is typically formed by stacking and folding together a number of sheets of paper printed with text and pictures and then combining with covers to form a complete book. The cover and the back are parts that protect the book block and provide the reader with information about the book. Therefore, when we turn open the cover to read the book, we are actually reading the book block.

In a specific production link, if the size of the book block is inaccurate, the book can not be opened and turned over normally, or the problem that the cover is not matched with the book block can occur. In mass printing production, the stability of production quality is ensured by periodically measuring the dimension. If dimensional deviations occur, adjustments to the production equipment or process may be required.

The conventional method for measuring the size of the book block is generally to measure the size of the book block by using a caliper, and for a relatively thin book, the measurement of the length and the width is relatively easy, and due to the small thickness, the measurement of the thickness of the book block is often inaccurate when the caliper is used. And the existing test bench can only test the thickness of one book block, and the test efficiency is poor.

Disclosure of Invention

In view of the above, it is necessary to provide a book block measuring table capable of accurately measuring the thickness of a book block and having high test efficiency, so as to solve the above-mentioned problems.

An embodiment of the present utility model provides a book block test stand including:

a carrying platform;

the test mechanism comprises a moving mechanism and a test piece arranged on the moving mechanism, the moving mechanism divides the bearing table into a first bearing area and a second bearing area, and the first bearing area and the second bearing area are used for bearing books;

the moving mechanism can drive the test piece to move along a first direction, a second direction and a third direction which are perpendicular to each other so as to detect the book blocks in the first bearing area and the second bearing area.

In at least one embodiment of the present utility model, the movement mechanism includes a first movement assembly, a second movement assembly, and a third movement assembly;

the first moving assembly is arranged on the bearing table along the first direction and is used for dividing the bearing table into a first bearing area and a second bearing area;

the second moving assembly is movably arranged on the first moving assembly, and extends along the second direction;

the third moving assembly is movably arranged on the second moving assembly, and the third moving assembly extends along the third direction.

In at least one embodiment of the utility model, the first, second and third moving assemblies are guide rails.

In at least one embodiment of the utility model, the first moving assembly has a first abutment wall and a second abutment wall disposed opposite each other;

the first supporting wall is located in the first bearing area and used for supporting the book block, and the second supporting wall is located in the second bearing area and used for supporting the book block.

In at least one embodiment of the present utility model, a center line of the first moving assembly is parallel to a center line of the stage, so that the first moving assembly divides the stage into the first and second carrying areas having equal areas.

In at least one embodiment of the utility model, the book block test stand further comprises a first rotating assembly;

the two ends of the first rotating component are respectively arranged on the first moving component and the second moving component and used for driving the third moving component to rotate on the second moving component.

In at least one embodiment of the utility model, the book block test stand further comprises a second rotating assembly;

and two ends of the second rotating assembly are respectively arranged on the third moving assembly and the test piece and used for driving the test piece to rotate on the third moving assembly.

In at least one embodiment of the utility model, the book block test stand further comprises three motors;

the three motors are arranged at the ends of the first moving assembly, the second moving assembly and the third moving assembly and used for driving the second moving assembly to move on the first moving assembly and driving the third moving assembly to move on the second moving assembly and driving the test piece to move on the third moving assembly.

In at least one embodiment of the utility model, the book block test stand further comprises a control;

the control piece is arranged in the bearing table and is electrically connected with the three motors to drive the three motors to operate.

In at least one embodiment of the utility model, the book block test stand further comprises a control panel;

the control panel is arranged on the bearing table and is electrically connected with the test piece, and the control panel is used for displaying data detected by the test piece on the control panel.

According to the book block test board, the test piece is arranged on the moving mechanism, the distance between the bearing table and the book block is detected by using the test piece, so that the difference between the bearing table and the book block is calculated, the thickness of the book block is obtained, and the thickness of the book block measured by using the caliper is avoided. And the bearing table is divided into the first bearing area and the second bearing area, so that a plurality of books are conveniently placed in the first bearing area and the second bearing area respectively, and the books in the first bearing area and the second bearing area are measured simultaneously through the test piece, and the test efficiency is improved.

Drawings

Fig. 1 is a perspective view of a book block test stand according to an embodiment of the utility model.

Description of the main reference signs

100. A book block test board; 10. a carrying platform; 11. a first load-bearing region; 12. a second carrying area; 20. a testing mechanism; 21. a moving mechanism; 211. a first moving assembly; 212. a second moving assembly; 213. a third moving assembly; 22. a test piece; 30. a first rotating assembly; 40. a second rotating assembly; 50. a motor; 60. and a control panel.

Detailed Description

Embodiments of the present utility model will now be described with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model.

It is noted that when one component is considered to be "connected" to another component, it may be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed" on another element, it can be directly on the other element or intervening elements may also be present. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like are used herein for illustrative purposes only.

The embodiment of the utility model provides a book block test board, which comprises a bearing board; the test mechanism comprises a moving mechanism and a test piece arranged on the moving mechanism, the moving mechanism divides the bearing table into a first bearing area and a second bearing area, and the first bearing area and the second bearing area are used for bearing books; the moving mechanism can drive the test piece to move along a first direction, a second direction and a third direction which are perpendicular to each other so as to detect the book blocks in the first bearing area and the second bearing area.

According to the book block test board, the test piece is arranged on the moving mechanism, the distance between the bearing table and the book block is detected by using the test piece, so that the difference between the bearing table and the book block is calculated, the thickness of the book block is obtained, and the thickness of the book block measured by using the caliper is avoided. And the bearing table is divided into the first bearing area and the second bearing area, so that a plurality of books are conveniently placed in the first bearing area and the second bearing area respectively, and the books in the first bearing area and the second bearing area are measured simultaneously through the test piece, and the test efficiency is improved.

Some embodiments of the utility model are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1, a book block testing stand 100 according to an embodiment of the present utility model includes a carrying stand 10 and a testing mechanism 20. The test mechanism 20 comprises a moving mechanism 21 and a test piece 22 arranged on the moving mechanism 21, the moving mechanism 21 divides the bearing table 10 into a first bearing area 11 and a second bearing area 12, and the first bearing area 11 and the second bearing area 12 are used for bearing book blocks; the moving mechanism 21 can drive the test piece 22 to move along a first direction, a second direction and a third direction which are perpendicular to each other, so as to detect the books in the first bearing area 11 and the second bearing area 12.

In particular, the carrier 10 is the base component of the book block test stand 100, which provides a smooth support platform to ensure stability and accuracy of the test procedure. It can carry book blocks and other test components, maintaining their stable positions for accurate testing and evaluation. The test mechanism 20 comprises a moving mechanism 21 and a test piece 22 arranged on the moving mechanism 21, and the test piece 22 is arranged on the moving mechanism 21, so that the distance between the bearing table 10 and the book block is detected by using the test piece 22, the difference between the bearing table 10 and the book block is calculated, and the thickness of the book block is obtained, the thickness of the book block measured by using a caliper is avoided, and the measurement accuracy of the book block test table 100 is improved. The moving mechanism 21 divides the carrying platform 10 into the first carrying area 11 and the second carrying area 12, so that the book block can be tested in different carrying areas, the quality and performance of the book block can be comprehensively evaluated, and the test efficiency of the book block test platform 100 is increased by simultaneously measuring the book blocks in the first carrying area 11 and the second carrying area 12 through the test piece 22.

Further, the moving mechanism 21 can drive the test piece 22 to move along a first direction, a second direction and a third direction which are perpendicular to each other so as to detect the book blocks of the first bearing area 11 and the second bearing area 12, and the moving mechanism 21 can detect the sizes of the book blocks in different directions by moving along different directions so as to measure the length, the width and the thickness of the book blocks.

In one embodiment, the test piece 22 is a laser detector.

In one embodiment, the moving mechanism 21 includes a first moving assembly 211, a second moving assembly 212, and a third moving assembly 213; the first moving assembly 211 is disposed on the carrying platform 10 along the first direction, and is configured to divide the carrying platform 10 into the first carrying area 11 and the second carrying area 12. The second moving component 212 is movably disposed on the first moving component 211, and the second moving component 212 extends along the second direction. The third moving component 213 is movably disposed on the second moving component 212, and the third moving component 213 extends along the third direction.

Specifically, the first moving assembly 211 is disposed on the carrying platform 10 along the first direction, and divides the carrying platform 10 into two areas, namely, a first carrying area 11 and a second carrying area 12. By dividing the load bearing area, the book block test station 100 is able to better organize and manage the test and inspection processes of the book block. Such a division can improve the accuracy and efficiency of the test of the book block test stand 100 when different load carrying areas may require different test operations or parameter settings.

Further, the second moving assembly 212 is movably disposed on the first moving assembly 211 and extends along the second direction; the third moving assembly 213 is movably disposed on the second moving assembly 212 and extends in a third direction. The multi-dimensional movement allows the test piece 22 to move in three directions perpendicular to each other by the cooperation of the first movement assembly 211, the second movement assembly 212, and the third movement assembly 213. By controlling the movement of each moving component, the book block test stand 100 can perform comprehensive detection on the book blocks in the first bearing area 11 and the second bearing area 12, including testing in different directions, angles and positions, so that the accuracy and reliability of the test are improved. And each movable assembly can move relatively independently and be positioned and adjusted at different positions, so that the book block test stand 100 has flexibility and adaptability, and books of different sizes, shapes and positions can be tested.

In a specific embodiment, the first moving assembly 211, the second moving assembly 212, and the third moving assembly 213 are guide rails. When the moving assemblies take the form of guide rails, they can be regarded as structures having guiding and supporting functions for guiding and controlling the movement of the test piece 22. The design and material selection of the guide rails can provide a stable motion platform, and reduce the shaking and instability in the movement process of the test piece 22, thereby ensuring the accuracy of the position and positioning of the test piece 22. Meanwhile, when each moving assembly adopts the form of a guide rail, good precision and repeatability can be realized due to higher process requirements in the manufacturing and assembling processes of the guide rail. This helps to keep the movement track of the test piece 22 accurate, thereby improving the reliability of the test results of the book block test stand 100.

Further, the configuration of the guide rails ensures that each of the moving assemblies moves on a prescribed trajectory, avoiding deviations and errors, thereby ensuring accurate positioning and stable movement of the test piece 22.

In one embodiment, the first moving component 211 has a first abutting wall and a second abutting wall that are disposed opposite to each other; the first supporting wall is located in the first bearing area 11 for supporting the book block, and the second supporting wall is located in the second bearing area 12 for supporting the book block.

Specifically, the first moving component 211 has a first supporting wall and a second supporting wall that are disposed opposite to each other, and are respectively located in the first bearing area 11 and the second bearing area 12, when the book block is placed in the first bearing area 11 or the second bearing area 12, the book block can lean against the first supporting wall or the second supporting wall, so that a fixed supporting point can be provided for the book block on the test bench, and the book block can maintain a fixed position during the test. This is important for accurate quality detection of the book block, such as measuring parameters of the size, thickness, weight, etc. of the book block. The provision of the abutment wall ensures the accuracy and consistency of the test, thereby improving the reliability of the test by the book block test stand 100.

In a specific embodiment, the center line of the first moving component 211 is parallel to the center line of the carrying platform 10, so that the first moving component 211 divides the carrying platform 10 into the first carrying area 11 and the second carrying area 12 with equal areas.

Specifically, the center line of the first moving component 211 of the book block testing table 100 is parallel to the center line of the carrying table 10, which means that they maintain a symmetrical and parallel positional relationship in the first direction, so that accurate positioning of the book block on the book block testing table 100 can be realized, and positioning accuracy of the book block testing table 100 during measurement is improved; and meanwhile, consistent test conditions can be provided, so that test results among different time or different operators have higher repeatability.

Further, the carrying platform 10 is divided into the first carrying area 11 and the second carrying area 12 with equal areas, and the carrying areas with equal areas ensure that samples used in the testing process are uniformly distributed, which helps to eliminate the influence of differences between carrying areas on the testing result, so that the reliability and the comparability of the testing are improved.

In one embodiment, the book block test stand 100 further includes a first rotating assembly 30; the two ends of the first rotating assembly 30 are respectively disposed on the second moving assembly 212 and the third moving assembly 213, and are configured to drive the third moving assembly 213 to rotate on the second moving assembly 212.

Specifically, the two ends of the first rotating component 30 are respectively disposed on the second moving component 212 and the third moving component 213, so that the connection and the cooperative movement between the first rotating component 30 and the second moving component 212 and the third moving component 213 can be realized, and the book block test stand 100 has more functions and actions. And by controlling the movement of the second moving assembly 212 and the third moving assembly 213, the rotation of the first rotating assembly 30 can be controlled, so that flexible rotation control can be performed according to test requirements and needs.

Further, the existence of the first rotating component 30 enables the third moving component 213 to rotate on the second moving component 212, that is, to rotate around the axis of the third moving component 213, so as to drive the third moving component 213 to rotate on the second moving component 212, which can realize multi-dimensional testing of the book block. For example, rotation and other movement patterns may be tested simultaneously during the book block test to obtain a more comprehensive performance assessment. And by the rotation movement of the third moving assembly 213, the rotation condition of the book block in actual use can be simulated. This is very valuable for testing the performance of the book block in dynamic environments such as rotation, vibration, etc.

In one embodiment, the book block testing stand 100 further includes a second rotating assembly 40; the two ends of the second rotating assembly 40 are respectively disposed on the third moving assembly 213 and the testing piece 22, and are used for driving the testing piece 22 to rotate on the third moving assembly 213.

Specifically, the two ends of the second rotating assembly 40 are respectively disposed on the third moving assembly 213 and the test piece 22, so that the connection and the cooperative movement between the second rotating assembly 40 and the third moving assembly 213 and the test piece 22 can be realized. So that the book block test stand 100 has more functions and actions. And by controlling the movement of the third moving assembly 213 and the test piece 22, the rotation of the second rotating assembly 40 can be controlled, so that flexible rotation control can be performed according to the test requirements and needs.

Further, the second rotating assembly 40 enables the test piece 22 to rotate on the third moving assembly 213, that is, to rotate around the axis of the test piece 22, so as to drive the test piece 22 to rotate on the third moving assembly 213, thereby realizing multi-dimensional testing of the book block. For example, rotation and other movement patterns may be tested simultaneously during the book block test to obtain a more comprehensive dimensional measurement. And through the rotation motion of the test piece 22, the book block test board 100 has the function of driving the test piece 22 to rotate, so that multi-dimensional rotation test and dynamic simulation can be realized.

In one embodiment, the book block test stand 100 further includes three motors 50; the three motors 50 are disposed at the ends of the first moving assembly 211, the second moving assembly 212 and the third moving assembly 213, and are used for driving the second moving assembly 212 to move on the first moving assembly 211, driving the third moving assembly 213 to move on the second moving assembly 212, and driving the test piece 22 to move on the third moving assembly 213.

Specifically, three motors 50 are respectively installed at the ends of the first moving assembly 211, the second moving assembly 212 and the third moving assembly 213, each motor 50 drives each corresponding moving assembly to realize movement through driving force thereof, and accurate control of the first moving assembly 211, the second moving assembly 212 and the third moving assembly 213 can be realized through driving of the motors 50, so that moving tracks and speeds of the motors can be ensured to meet testing requirements, and a moving process can be flexibly adjusted and controlled, so that the accuracy of testing of the book block testing table 100 is improved. The use of motor 50 also allows for more automated operation of the book block test stand 100, reducing the need for manual intervention. By programming and controlling motor 50, an automated testing process can be achieved that improves the efficiency and accuracy of the test of book block test stand 100. The three motors 50 are respectively responsible for driving different moving assemblies to move on the book block test table 100, the first motor 50 drives the second moving assembly 212 to move on the first moving assembly 211, the second motor 50 drives the third moving assembly 213 to move on the second moving assembly 212, and the third motor 50 drives the test piece 22 to move on the third moving assembly 213. Different levels of movement of the book block test stand 100 may be achieved. Each moving component moves on the moving component of the previous layer, so that layered motion control is realized, and the motion is more flexible and accurate.

Further, the use of motor 50 allows for movement of book block test stand 100 on different axes. The movement of the second moving assembly 212 in the horizontal direction and the movement of the third moving assembly 213 in the vertical direction can be controlled by driving of the motor 50. This allows a combination of multiple axis motions to meet the different testing requirements of the book block testing station 100.

In one embodiment, the book block test stand 100 further includes a control (not shown); the control member is disposed in the carrying platform 10 and electrically connected to the three motors 50, and drives the three motors 50 to operate.

Specifically, the control member is electrically connected to each motor 50, and the control member can send accurate control signals to control the start, stop, rotation speed and direction of each motor 50. This ensures that each motor 50 operates in a predetermined pattern of motion, enabling precise control of each motor 50 to achieve precise test requirements for the book block test stand 100. The electrical connection of the control members to the three motors 50 simultaneously enables them to work in concert to achieve complex multi-axis motion control. The three motors 50 can be moved at the correct timing and speed by the signals sent by the control members to achieve the various functions and movement requirements of the book block test stand 100. Further, the control member automatically controls each motor 50, which can save labor and time costs, and improve the test efficiency and productivity of the book block test stand 100.

In one embodiment, the book block test stand 100 further includes a control panel 60; the control panel 60 is disposed on the carrying platform 10 and electrically connected to the test piece 22, for displaying the data detected by the test piece 22 on the control panel 60.

Specifically, the control panel 60 is electrically connected with the test piece 22, data detected by the test piece 22 is transmitted to the control panel 60, and the data are displayed on the control panel 60 in real time, so that an operator can intuitively monitor the test process and the result, and the operator can conveniently evaluate and adjust the test strategy in real time. Further, the control panel 60 can display not only the data detected by the test piece 22 but also analyze and record the data. Through the function buttons and interface operations on the control panel 60, the operator can process, count and store the test data for subsequent analysis and report generation.

While the utility model has been described with respect to the above embodiments, it should be noted that modifications can be made by those skilled in the art without departing from the inventive concept, and these are all within the scope of the utility model.

Claims (10)

1. A book block testing stand, comprising:

a carrying platform;

the test mechanism comprises a moving mechanism and a test piece arranged on the moving mechanism, the moving mechanism divides the bearing table into a first bearing area and a second bearing area, and the first bearing area and the second bearing area are used for bearing books;

the moving mechanism can drive the test piece to move along a first direction, a second direction and a third direction which are perpendicular to each other so as to detect the book blocks in the first bearing area and the second bearing area.

2. The book block test stand of claim 1, wherein the movement mechanism comprises a first movement assembly, a second movement assembly, and a third movement assembly;

the first moving assembly is arranged on the bearing table along the first direction and is used for dividing the bearing table into a first bearing area and a second bearing area;

the second moving assembly is movably arranged on the first moving assembly, and extends along the second direction;

the third moving assembly is movably arranged on the second moving assembly, and the third moving assembly extends along the third direction.

3. The book block test stand of claim 2, wherein the first, second, and third moving assemblies are guide rails.

4. The book block test stand of claim 2, wherein the first moving assembly has oppositely disposed first and second abutment walls;

the first supporting wall is located in the first bearing area and used for supporting the book block, and the second supporting wall is located in the second bearing area and used for supporting the book block.

5. The book block test station of claim 2, wherein a midline of the first moving assembly is parallel to a midline of the carrying platform such that the first moving assembly divides the carrying platform into the first carrying area and the second carrying area of equal area.

6. The book block test stand of claim 2, further comprising a first rotating assembly;

the two ends of the first rotating component are respectively arranged on the second moving component and the third moving component and are used for driving the third moving component to rotate on the second moving component.

7. The book block test stand of claim 2, further comprising a second rotating assembly;

and two ends of the second rotating assembly are respectively arranged on the third moving assembly and the test piece and used for driving the test piece to rotate on the third moving assembly.

8. The book block test stand of claim 2, further comprising three motors;

the three motors are arranged at the ends of the first moving assembly, the second moving assembly and the third moving assembly and used for driving the second moving assembly to move on the first moving assembly and driving the third moving assembly to move on the second moving assembly and driving the test piece to move on the third moving assembly.

9. The book block test stand of claim 8, further comprising a control;

the control piece is arranged in the bearing table and is electrically connected with the three motors to drive the three motors to operate.

10. The book block test stand of claim 9, further comprising a control panel;

the control panel is arranged on the bearing table and is electrically connected with the test piece, and the control panel is used for displaying data detected by the test piece on the control panel.