A laboratory insulation floor that is easy to install and a method of installing the same

By designing modular insulating panels, the problems of parts falling off and high costs associated with replacing integrated structures are solved, achieving both parts protection and efficient resource utilization.

CN115646574BActive Publication Date: 2026-07-07ZHEJIANG TECH INST OF ECONOMY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ZHEJIANG TECH INST OF ECONOMY
Filing Date
2022-12-05
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing laboratory insulation base plates are prone to parts falling off, being lost, or being damaged during use, and their integrated structure leads to high replacement costs and inefficient resource utilization.

Method used

The insulating panel adopts a modular structure, including a mounting base plate, a magnetic layer, an insulating layer, and a buffer layer. It is assembled by using round rods and fixing bolts. The magnetic layer has magnetic attraction capability, the buffer layer provides impact protection, and each layer can be replaced individually.

Benefits of technology

It effectively prevents parts from falling off and getting damaged, reduces replacement costs, improves resource utilization efficiency, and avoids resource waste.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN115646574B_ABST
    Figure CN115646574B_ABST
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Abstract

The application discloses a laboratory insulation bottom plate convenient to install and a mounting method thereof, and relates to the technical field of laboratory equipment, in particular to a laboratory insulation bottom plate convenient to install, which comprises a laboratory bench, an insulation plate part is mounted on the top of the laboratory bench, the insulation plate part comprises a mounting bottom plate, a magnetic attraction layer, an insulation layer and a buffer layer, the top of the mounting bottom plate is provided with the magnetic attraction layer, the top of the magnetic attraction layer is provided with the insulation layer, the top of the insulation layer is provided with the buffer layer, and the mounting bottom plate, the magnetic attraction layer, the insulation layer and the buffer layer have the same size as the laboratory bench; the mounting bottom plate, the magnetic attraction layer, the insulation layer and the buffer layer are combined to form the insulation plate part, so that when one of the layers is damaged or the insulation layer and the buffer layer on the top are damaged or worn seriously during use, the insulation plate part can be directly and individually disassembled and replaced, the whole insulation plate part does not need to be replaced, the replacement cost of the insulation plate part is reduced, resources are fully utilized, and the phenomenon of resource waste is avoided.
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Description

Technical Field

[0001] This invention relates to the field of laboratory insulation technology, specifically to an easy-to-install laboratory insulation base plate and its installation method. Background Technology

[0002] A laboratory is a place where experiments are conducted. It is the cradle of science, the base of scientific research, and the source of technological development, playing a very important role in the advancement of science and technology.

[0003] For laboratories, insulation protection is of paramount importance. Therefore, in order to ensure the safety of experimental operations, it is generally necessary to customize an insulating base plate of appropriate size according to the experimental table, and then install the insulating base plate on the top of the experimental table to achieve the insulation effect.

[0004] The existing laboratory insulation base plate has the following defects:

[0005] First, the existing laboratory insulating base plates installed on the experimental table are not functionally adequate, only providing insulation protection. During the experiment, parts are prone to falling off the insulating base plate, and small parts fall off the experimental table, which are difficult to find and may even lead to loss. At the same time, for some precision devices, falling off the insulating base plate can easily cause damage, thus seriously affecting the experiment.

[0006] Second, existing laboratory insulation base plates are usually one-piece structures. Therefore, when the insulation base plate is damaged or wears out and loses its insulation effect, the entire insulation base plate needs to be replaced, which results in high replacement costs and is not conducive to the rational use of resources.

[0007] Based on this, the present invention provides an easy-to-install laboratory insulating base plate and its installation method to solve the above problems. Summary of the Invention

[0008] The purpose of this invention is to provide an easy-to-install laboratory insulating base plate and its installation method. It has the advantages of preventing parts from falling off and a modular assembly structure. It solves the problems of existing laboratory insulating base plates in actual use, where parts are easily dropped off the insulating base plate, making them difficult to find or even lost or damaged, and the need to replace the entire insulating base plate when the integrated structure is damaged or severely worn.

[0009] To achieve the above objectives, the present invention provides the following technical solution: a laboratory insulating base plate that is easy to install, comprising an experimental platform, wherein an insulating plate is installed on the top of the experimental platform;

[0010] The insulating plate includes a mounting base plate, a magnetic layer, an insulating layer, and a buffer layer. The magnetic layer is installed on the top of the mounting base plate, the insulating layer is installed on the top of the magnetic layer, and the buffer layer is installed on the top of the insulating layer. The dimensions of the mounting base plate, the magnetic layer, the insulating layer, and the buffer layer are the same as the dimensions of the experimental table. Round rods are installed at the four corners of the bottom of the insulating layer, and the round rods penetrate the magnetic layer. Fixing bolts are installed at the four corners of the bottom of the experimental table corresponding to the positions of the round rods, and the fixing bolts are fixedly connected to the bottom of the round rods.

[0011] The top of the magnetic layer is equidistantly embedded with eight sets of rectangular magnet rings, and the bottom of the magnetic layer is provided with four sets of equidistant top holes at positions corresponding to the eight sets of rectangular magnet rings.

[0012] Preferably, mounting tubes are installed at the four corners of the bottom of the mounting base plate, and a limiting plate is placed inside the mounting tube. A spring connects the top of the limiting plate to the inner top of the mounting tube, and a connecting rod is installed at the bottom of the limiting plate via a bearing. A clamping plate is installed at one end of the connecting rod extending to the bottom of the mounting tube. A first rectangular through hole is provided on the surface of the experimental table at the position corresponding to the clamping plate, and a rectangular slot is provided at the bottom of the first rectangular through hole. The rectangular slot and the first rectangular through hole form a cross shape.

[0013] Preferably, a handheld bracket is installed at the bottom center of the card plate, and the handheld part of the handheld bracket is covered with an anti-slip sleeve.

[0014] Preferably, the rectangular card slot has a limiting socket at both ends of the top, and the limiting socket has a latch on both sides inside. The card plate has a limiting rod at the top two ends corresponding to the limiting socket, and the limiting rod has a rubber latch on both sides corresponding to the latch.

[0015] Preferably, the four corners of the mounting base plate are provided with first screw holes at the positions corresponding to the fixing bolts, and the bottom of the first screw holes is provided with a hidden opening.

[0016] Preferably, a second screw hole is provided at the center of the bottom end of the round rod, and the size of the second screw hole matches that of the fixing bolt.

[0017] Preferably, the magnetic layer has circular through holes at its four corners, and the circular through holes correspond to the circular rod, and the size of the circular through holes matches the size of the circular rod.

[0018] Preferably, the top and bottom edges of the magnetic layer are provided with rectangular grooves, and the top of the mounting base plate and the bottom of the insulating layer are provided with rectangular retaining rings at positions corresponding to the rectangular grooves.

[0019] Preferably, the bottom of the buffer layer is provided with a rough-surface hook and loop fastener, and the top of the insulating layer is provided with a barbed hook and loop fastener.

[0020] A method for using an easy-to-install laboratory insulating base plate, the steps of which are as follows:

[0021] I. In practical use, the insulating board is installed on top of the experimental platform. The mounting base, magnetic layer, insulating layer, and buffer layer of the insulating board are assembled using a round rod and fixing bolts. The round rod passes through the magnetic layer. Then, the fixing bolts at the bottom of the mounting base are screwed into the round rod, thus fixing the mounting base, magnetic layer, insulating layer, and buffer layer of the insulating board. Therefore, during long-term use, when the insulating layer and buffer layer at the top of the insulating board are damaged, the fixing bolts can be directly unscrewed from the round rod, and the insulating layer and buffer layer can be removed and replaced with new ones. There is no need to replace the entire insulating board, thus avoiding resource waste and effectively reducing replacement costs. Similarly, when the magnetism of the rectangular magnet ring decreases after long-term use, the magnetic layer can also be directly removed. Then, the rectangular magnetic ring is pushed out of the magnetic layer through the top hole and replaced with a new rectangular magnetic ring. During use, the rectangular magnetic ring inside the magnetic layer gives the insulating plate a certain magnetic attraction. Therefore, when some metal parts are placed on the insulating plate, the magnetic force generated by the rectangular magnetic ring can attract the parts to the insulating plate, preventing the parts from sliding and falling off. This effectively protects the metal parts placed on the insulating plate. Its main protective effect is to prevent small metal parts from falling off the insulating plate and becoming difficult to find or even lost, and to prevent large metal parts from falling off the insulating plate and causing damage. In addition, the buffer layer on the top of the insulating plate can play an impact-resistant role. When parts on the experimental table fall onto the insulating plate, it can prevent the impact force between the parts and the insulating plate from being too great and causing damage.

[0022] 2. After the insulating board is placed on top of the experimental platform, the mounting tube, connecting rod, and clamping plate pass through the first rectangular through hole of the experimental platform. Then, pull the clamping plate to make it flush with the bottom of the experimental platform. At this time, rotate the clamping plate 90 degrees and then release the clamping plate. The clamping plate will reset under the action of the spring. At this time, the clamping plate will be fixed inside the rectangular slot, thereby fixing the insulating board on the experimental platform. This method facilitates the disassembly and installation of the insulating board.

[0023] Third, the handheld frame is mainly designed to facilitate personnel to hold and pull the pallet. The anti-slip sleeve increases the friction on the surface of the handheld frame to prevent slippage when personnel hold the handheld frame to pull the pallet.

[0024] 4. After the card plate is inserted into the rectangular card slot, the limiting rod at the top of the card plate is inserted into the limiting socket at the top of the rectangular card slot. Then, under the action of external force, the rubber blocks on both sides of the limiting rod deform. When the rubber blocks move to the locking position inside the limiting socket, the rubber blocks return to their original position and are inserted into the locking position, thereby fixing and limiting the card plate and ensuring the stability of the card plate inside the rectangular card slot.

[0025] 5. The first screw hole facilitates the screwing in of the fixing bolt. After the fixing bolt is fully screwed into the first screw hole, the bolt head of the fixing bolt is hidden inside the concealed opening to ensure the flatness of the bottom of the mounting plate.

[0026] 6. The second screw hole facilitates the screwing in of the fixing bolt, thereby fixing the fixing bolt to the round rod. With the cooperation of the fixing bolt and the round rod, the mounting base plate, magnetic layer and insulating layer are assembled and installed.

[0027] Compared with the prior art, the beneficial effects of the present invention are as follows:

[0028] 1. This invention, through the setting of a magnetic layer, enables the insulating plate to have a certain magnetic attraction capability. Therefore, when some metal objects are placed on the insulating plate, they can be attracted to the insulating plate under the action of magnetism, preventing the parts from sliding on the insulating plate and falling off, thus providing effective protection for the parts. Therefore, this easy-to-install laboratory insulating base plate and its installation method solve the problems of existing insulating base plates in actual use, where parts are easily dropped from the insulating base plate, small parts fall off the experimental table, are not easy to find, and may even be lost. At the same time, for some precision devices, falling from the insulating base plate can easily cause damage.

[0029] 2. This invention uses a base plate, magnetic layer, insulating layer, and buffer layer to form an insulating plate. Therefore, during use, if any layer is damaged, or if the top insulating layer and buffer layer are damaged or severely worn, they can be directly disassembled and replaced individually without replacing the entire insulating plate. This reduces replacement costs, makes full use of resources, and avoids waste. Therefore, this easy-to-install laboratory insulating base plate and its installation method solve the problem that existing insulating base plates are one-piece structures, requiring complete replacement when damaged or severely worn, resulting in high replacement costs and hindering the rational use of resources. Attached Figure Description

[0030] Figure 1 This is a cross-sectional view of the present invention;

[0031] Figure 2This is a top view of the magnetic suction layer of the present invention;

[0032] Figure 3 This is a bottom view of the magnetic suction layer of the present invention;

[0033] Figure 4 This is a bottom view of the insulating layer of the present invention;

[0034] Figure 5 This is a bottom view of the experimental platform of the present invention;

[0035] Figure 6 For the present invention Figure 1 Enlarged diagram of point A in the diagram;

[0036] Figure 7 For the present invention Figure 1 Enlarged diagram of point B in the image.

[0037] In the diagram: 1. Experimental table; 101. First rectangular through hole; 102. Rectangular slot; 103. Limiting insertion port; 2. Mounting base plate; 201. First screw hole; 202. Fixing bolt; 203. Hidden opening; 3. Magnetic layer; 301. Circular through hole; 302. Rectangular magnet ring; 303. Top hole; 4. Insulation layer; 401. Round rod; 402. Second screw hole; 5. Buffer layer; 6. Mounting tube; 601. Spring; 602. Limiting plate; 603. Connecting rod; 604. Clamping plate; 605. Limiting insertion rod; 606. Handheld bracket; 607. Anti-slip sleeve; 7. Rectangular groove; 8. Rectangular clamping ring; 9. Insulation plate. Detailed Implementation

[0038] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0039] Example 1

[0040] Please see Figure 1-7 The present invention provides a technical solution: a laboratory insulating base plate that is easy to install, including a laboratory table 1, and an insulating plate 9 is installed on the top of the laboratory table 1;

[0041] The insulating plate 9 includes a mounting base plate 2, a magnetic layer 3, an insulating layer 4, and a buffer layer 5. The magnetic layer 3 is installed on the top of the mounting base plate 2, the insulating layer 4 is installed on the top of the magnetic layer 3, and the buffer layer 5 is installed on the top of the insulating layer 4. The dimensions of the mounting base plate 2, the magnetic layer 3, the insulating layer 4, and the buffer layer 5 are the same as the dimensions of the experimental table 1. Round rods 401 are installed at the four corners of the bottom of the insulating layer 4, and the round rods 401 penetrate the magnetic layer 3. Fixing bolts 202 are installed at the four corners of the bottom of the experimental table 1 at positions corresponding to the round rods 401, and the fixing bolts 202 are fixedly connected to the bottom of the round rods 401.

[0042] Eight sets of rectangular magnet rings 302 are equidistantly embedded in the top of the magnetic layer 3, and four sets of equidistant top holes 303 are provided at the bottom of the magnetic layer 3 at positions corresponding to the eight sets of rectangular magnet rings 302.

[0043] As a preferred embodiment: mounting tubes 6 are installed at the four corners of the bottom of the mounting base plate 2, and a limiting plate 602 is placed inside the mounting tube 6. A spring 601 is connected between the top of the limiting plate 602 and the inner top of the mounting tube 6. A connecting rod 603 is installed at the bottom of the limiting plate 602 through a bearing. A clamping plate 604 is installed at one end of the connecting rod 603 extending to the bottom of the mounting tube 6. A first rectangular through hole 101 is provided on the surface of the experimental table 1 at the position corresponding to the clamping plate 604. A rectangular slot 102 is provided at the bottom of the first rectangular through hole 101. The rectangular slot 102 and the first rectangular through hole 101 are in a cross shape.

[0044] As a preferred embodiment, a handheld bracket 606 is installed at the bottom center of the card plate 604, and the handheld part of the handheld bracket 606 is covered with an anti-slip sleeve 607.

[0045] As a preferred embodiment, the top two ends of the rectangular slot 102 are provided with limiting slots 103, and the two sides inside the limiting slots 103 are provided with latches. The top two ends of the card plate 604 are provided with limiting rods 605 at positions corresponding to the limiting slots 103, and the two sides of the limiting rods 605 are provided with rubber blocks corresponding to the latches.

[0046] As a preferred embodiment, the four corners of the mounting base plate 2 are provided with first screw holes 201 at the positions corresponding to the fixing bolts 202, and the bottom of the first screw holes 201 is provided with a hidden opening 203.

[0047] As a preferred embodiment, a second screw hole 402 is provided at the center of the bottom end of the round rod 401, and the size of the second screw hole 402 matches that of the fixing bolt 202.

[0048] Example 2

[0049] Please see Figure 1-7The present invention provides a technical solution: a laboratory insulating base plate that is easy to install, including a laboratory table 1, and an insulating plate 9 is installed on the top of the laboratory table 1;

[0050] The insulating plate 9 includes a mounting base plate 2, a magnetic layer 3, an insulating layer 4, and a buffer layer 5. The magnetic layer 3 is installed on the top of the mounting base plate 2, the insulating layer 4 is installed on the top of the magnetic layer 3, and the buffer layer 5 is installed on the top of the insulating layer 4. The dimensions of the mounting base plate 2, the magnetic layer 3, the insulating layer 4, and the buffer layer 5 are the same as the dimensions of the experimental table 1. Round rods 401 are installed at the four corners of the bottom of the insulating layer 4, and the round rods 401 penetrate the magnetic layer 3. Fixing bolts 202 are installed at the four corners of the bottom of the experimental table 1 at positions corresponding to the round rods 401, and the fixing bolts 202 are fixedly connected to the bottom of the round rods 401.

[0051] Eight sets of rectangular magnet rings 302 are equidistantly embedded in the top of the magnetic layer 3, and four sets of equidistant top holes 303 are provided at the bottom of the magnetic layer 3 at positions corresponding to the eight sets of rectangular magnet rings 302.

[0052] As a preferred embodiment: mounting tubes 6 are installed at the four corners of the bottom of the mounting base plate 2, and a limiting plate 602 is placed inside the mounting tube 6. A spring 601 is connected between the top of the limiting plate 602 and the inner top of the mounting tube 6. A connecting rod 603 is installed at the bottom of the limiting plate 602 through a bearing. A clamping plate 604 is installed at one end of the connecting rod 603 extending to the bottom of the mounting tube 6. A first rectangular through hole 101 is provided on the surface of the experimental table 1 at the position corresponding to the clamping plate 604. A rectangular slot 102 is provided at the bottom of the first rectangular through hole 101. The rectangular slot 102 and the first rectangular through hole 101 are in a cross shape.

[0053] As a preferred embodiment, a handheld bracket 606 is installed at the bottom center of the card plate 604, and the handheld part of the handheld bracket 606 is covered with an anti-slip sleeve 607.

[0054] As a preferred embodiment, the top two ends of the rectangular slot 102 are provided with limiting slots 103, and the two sides inside the limiting slots 103 are provided with latches. The top two ends of the card plate 604 are provided with limiting rods 605 at positions corresponding to the limiting slots 103, and the two sides of the limiting rods 605 are provided with rubber blocks corresponding to the latches.

[0055] As a preferred embodiment, the four corners of the mounting base plate 2 are provided with first screw holes 201 at the positions corresponding to the fixing bolts 202, and the bottom of the first screw holes 201 is provided with a hidden opening 203.

[0056] As a preferred embodiment, a second screw hole 402 is provided at the center of the bottom end of the round rod 401, and the size of the second screw hole 402 matches that of the fixing bolt 202.

[0057] As a preferred embodiment, the magnetic layer 3 has circular through holes 301 at its four corners, and the circular through holes 301 correspond to the circular rod 401, and the size of the circular through holes 301 matches the size of the circular rod 401.

[0058] As a preferred embodiment, the magnetic layer 3 has rectangular grooves 7 around its top and bottom edges, and rectangular retaining rings 8 are provided at the positions corresponding to the rectangular grooves 7 on the top of the mounting base plate 2 and the bottom of the insulating layer 4.

[0059] As a preferred embodiment, the bottom of the buffer layer 5 is provided with a textured hook and loop fastener, and the top of the insulating layer 4 is provided with a barbed hook and loop fastener.

[0060] A method for using an easy-to-install laboratory insulating base plate, the steps of which are as follows:

[0061] I. In actual use, the insulating plate 9 is installed on the top of the experimental platform 1. The mounting base 2, magnetic layer 3, insulating layer 4, and buffer layer 5 of the insulating plate 9 are assembled using a round rod 401 and fixing bolts 202. The round rod 401 passes through the magnetic layer 3. Then, the fixing bolts 202 at the bottom of the mounting base 2 are screwed into the round rod 401, thereby fixing the mounting base 2, magnetic layer 3, insulating layer 4, and buffer layer 5 of the insulating plate 9. Therefore, during long-term use, when the insulating layer 4 and buffer layer 5 at the top of the insulating plate 9 are damaged, the fixing bolts 202 can be directly unscrewed from the round rod 401, and then the insulating layer 4 and buffer layer 5 can be removed and replaced with new insulating layers 4 and buffer layers 5. There is no need to replace the entire insulating plate 9, thus avoiding resource waste and effectively reducing replacement costs. At the same time, when the magnetism of the rectangular magnetic ring 302 decreases after long-term use, it can also be directly removed. Next, the magnetic layer 3 is detached, and then the rectangular magnetic ring 302 is pushed out of the magnetic layer 3 through the top hole 303. A new rectangular magnetic ring 302 is then installed. During use, the rectangular magnetic ring 302 inside the magnetic layer 3 will give the insulating plate 9 a certain magnetic attraction. Therefore, when some metal parts are placed on the insulating plate 9, the magnetic force generated by the rectangular magnetic ring 302 can attract the parts to the insulating plate 9, preventing the parts from sliding and falling off the insulating plate 9. This can effectively protect the metal parts placed on the insulating plate 9. Its main protective effect is to prevent small metal parts from falling off the insulating plate 9 and becoming difficult to find or even lost. For some large metal parts, it prevents them from falling off the insulating plate 9 and causing damage. Moreover, the buffer layer 5 on the top of the insulating plate 9 can play an anti-impact role. When parts on the experimental table 1 fall onto the insulating plate 9, it prevents the impact force between the parts and the insulating plate 9 from being too great and causing damage.

[0062] 2. After the insulating plate 9 is placed on the top of the experimental table 1, the mounting tube 6, the connecting rod 603 and the clamping plate 604 pass through the first rectangular through hole 101 of the experimental table 1. Then, pull the clamping plate 604 so that the clamping plate 604 is flush with the bottom of the experimental table 1. At this time, rotate the clamping plate 604 ninety degrees and then release the clamping plate 604. The clamping plate 604 is reset under the action of the spring 601. At this time, the clamping plate 604 is fixed inside the rectangular slot 102, thereby fixing the insulating plate 9 on the experimental table 1. This method facilitates the disassembly and installation of the insulating plate 9.

[0063] 3. The handheld bracket 606 is mainly for the convenience of personnel to pull the card plate 604 by hand. The anti-slip sleeve 607 increases the friction of the surface of the handheld bracket 606 and prevents the card plate 604 from slipping when personnel pull the card plate 604 by hand.

[0064] Fourth, after the card plate 604 is inserted into the rectangular card slot 102, the limiting rod 605 at the top of the card plate 604 is inserted into the limiting socket 103 at the top of the rectangular card slot 102. Then, under the action of external force, the rubber blocks on both sides of the limiting rod 605 deform. When the rubber blocks move to the socket inside the limiting socket 103, the rubber blocks are restored and inserted into the socket again, thereby fixing and limiting the card plate 604 and ensuring the stability of the card plate 604 inside the rectangular card slot 102.

[0065] 5. The first screw hole 201 facilitates the screwing in of the fixing bolt 202. After the fixing bolt 202 is completely screwed into the first screw hole 201, the bolt head of the fixing bolt 202 is hidden inside the concealed opening 203 to ensure the flatness of the bottom of the mounting base plate 2.

[0066] 6. The second screw hole 402 facilitates the screwing in of the fixing bolt 202, thereby fixing the fixing bolt 202 to the round rod 401. With the cooperation of the fixing bolt 202 and the round rod 401, the mounting base plate 2, the magnetic layer 3 and the insulating layer 4 are assembled and installed.

[0067] 7. The circular through holes 301 at the four corners of the magnetic layer 3 facilitate the passage of the round rod 401 and its connection with the fixing bolt 202.

[0068] 8. When the mounting base plate 2, magnetic layer 3 and insulating layer 4 are put together, the rectangular retaining rings 8 on the mounting base plate 2 and insulating layer 4 are inserted into the rectangular groove 7 of the magnetic layer 3 for positioning.

[0069] 9. When the buffer layer 5 and the insulating layer 4 are joined, the hook and loop fasteners on the bottom of the buffer layer 5 are bonded to the hook and loop fasteners on the top of the insulating layer 4, thereby fixing the buffer layer 5 and the insulating layer 4 together.

[0070] In summary, this easy-to-install laboratory insulating base plate and its installation method involve the following steps: After the insulating plate 9 is placed on top of the experimental table 1, the mounting tube 6, connecting rod 603, and clamping plate 604 pass through the first rectangular through hole 101 of the experimental table 1. Then, the clamping plate 604 is pulled by the hand-held bracket 606 until it is flush with the bottom of the experimental table 1. At this point, the clamping plate 604 is rotated 90 degrees and then released. The clamping plate 604 is reset under the action of the spring 601, and is then fixed inside the rectangular slot 102. After the clamping plate 604 is inserted into the rectangular slot 102, the limiting insert 605 at the top of the clamping plate 604 is inserted into the limiting insert 103 at the top of the rectangular slot 102. Then, under the action of external force... The rubber blocks on both sides of the limiting rod 605 deform. When the rubber blocks move to the slot inside the limiting socket 103, they return to their original position and snap into the slot, thus fixing and limiting the card plate 604 and ensuring its stability within the rectangular slot 102. This fixes the insulating plate 9 onto the experimental table 1, facilitating its disassembly and installation. After the insulating plate 9 is installed on the top of the experimental table 1, the mounting base 2, magnetic layer 3, insulating layer 4, and buffer layer 5 are assembled using a round rod 401 and fixing bolts 202. The round rod 401 passes through the circular through hole 301 of the magnetic layer 3, and then the fixing bolts 202 are screwed into the first screw hole 201. After the fixing bolt 202 is fully screwed into the first screw hole 201, the bolt head of the fixing bolt 202 is hidden inside the concealed opening 203 to ensure the flatness of the bottom of the mounting base plate 2. At this time, the fixing bolt 202 is screwed into the second screw hole 402 of the round rod 401, thereby fixing and combining the mounting base plate 2, magnetic layer 3 and insulating layer 4 in the insulating plate 9. The rough-surface hook and loop fastener at the bottom of the buffer layer 5 is bonded to the barbed hook and loop fastener at the top of the insulating layer 4, thereby fixing and connecting the buffer layer 5 and the insulating layer 4. Therefore, during long-term use, when the insulating layer 4 and buffer layer 5 at the top of the insulating plate 9 are damaged, the fixing bolt 202 can be directly screwed out of the second screw hole 402 of the round rod 401, and then the insulating layer 4 can be removed. The buffer layer 5 on top of the insulation layer 4 can be torn off by pulling forcefully, and then a new insulation layer 4 and buffer layer 5 can be replaced. There is no need to replace the entire insulation board 9, thus avoiding resource waste and effectively reducing replacement costs. Furthermore, when the magnetism of the rectangular magnetic ring 302 decreases after long-term use, the magnetic layer 3 can be directly removed, and the rectangular magnetic ring 302 can be pushed out of the magnetic layer 3 through the top hole 303 and replaced with a new one. During use, the rectangular magnetic ring 302 inside the magnetic layer 3 gives the insulation board 9 a certain magnetic attraction ability. Therefore, when some metal parts are placed on the insulation board 9, the magnetic force generated by the rectangular magnetic ring 302 can attract the parts to the insulation board 9.To prevent parts from sliding and falling off the insulating plate 9, this effectively protects the metal parts placed on it. Its main protective effects are: for small metal parts, it prevents them from falling off the insulating plate 9 and becoming difficult to find or even lost; for large metal parts, it prevents them from falling off the insulating plate 9 and causing damage. Furthermore, the buffer layer 5 on top of the insulating plate 9 provides impact protection, preventing excessive impact force from damaging parts that fall from the experimental platform 1 onto the insulating plate 9.

[0071] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0072] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A laboratory insulating base plate that is easy to install, comprising a laboratory bench (1), characterized in that: An insulating plate (9) is installed on the top of the experimental platform (1); the insulating plate (9) includes a mounting base plate (2), a magnetic layer (3), an insulating layer (4), and a buffer layer (5). The mounting base plate (2) is topped with a magnetic layer (3), the magnetic layer (3) is topped with an insulating layer (4), and the insulating layer (4) is topped with a buffer layer (5). The dimensions of the mounting base plate (2), the magnetic layer (3), the insulating layer (4), and the buffer layer (5) are the same as the dimensions of the experimental platform (1). A round rod (401) is installed at the four corners of the bottom of the insulating layer (4), and the round rod (401) penetrates the magnetic layer (3). Fixing bolts (202) are installed at the four corners of the bottom of the experimental platform (1) corresponding to the positions of the round rods (401), and the fixing bolts (202) are fixedly connected to the bottom of the round rods (401). The top of the magnetic layer (3) is equidistantly embedded. There are eight sets of rectangular magnet rings (302). The bottom of the magnetic layer (3) is provided with four sets of equidistant top holes (303) at the positions corresponding to the eight sets of rectangular magnet rings (302). The mounting base plate (2) is provided with mounting tubes (6) at the four corners of the bottom. The mounting tubes (6) are provided with limit plates (602) inside. The top of the limit plates (602) is connected to the inner top of the mounting tubes (6) with springs (601). The bottom of the limit plates (602) is provided with connecting rods (603) through bearings. The end of the connecting rods (603) extending to the bottom of the mounting tubes (6) is provided with a card plate (604). The surface of the experimental table (1) is provided with a first rectangular through hole (101) at the position corresponding to the card plate (604). The bottom of the first rectangular through hole (101) is provided with a rectangular slot (102). The rectangular slot (102) and the first rectangular through hole (101) are in a cross shape.

2. The laboratory insulating base plate for easy installation according to claim 1, characterized in that: A handheld bracket (606) is installed at the bottom center of the card plate (604), and the handheld part of the handheld bracket (606) is covered with an anti-slip sleeve (607).

3. The laboratory insulating base plate for easy installation according to claim 1, characterized in that: The rectangular slot (102) has a limiting socket (103) at both ends of the top, and the limiting socket (103) has a latch on both sides. The card plate (604) has a limiting rod (605) at the top ends corresponding to the limiting socket (103), and the limiting rod (605) has rubber blocks on both sides corresponding to the latch.

4. The laboratory insulating base plate for easy installation according to claim 1, characterized in that: The mounting base plate (2) has four corners with corresponding positions to the fixing bolts (202) and first screw holes (201) are installed at the positions. The bottom of the first screw holes (201) is provided with a hidden opening (203).

5. A laboratory insulating base plate for easy installation according to claim 1, characterized in that: The round rod (401) has a second screw hole (402) at the center of its bottom end, and the size of the second screw hole (402) matches that of the fixing bolt (202).

6. The laboratory insulating base plate for easy installation according to claim 1, characterized in that: The magnetic layer (3) has circular through holes (301) at its four corners, and the circular through holes (301) correspond to the circular rod (401), and the size of the circular through holes (301) matches the size of the circular rod (401).

7. The laboratory insulating base plate for easy installation according to claim 1, characterized in that: The magnetic layer (3) has rectangular grooves (7) around its top and bottom edges, and rectangular retaining rings (8) are provided at the top of the mounting base plate (2) and the bottom of the insulating layer (4) at positions corresponding to the rectangular grooves (7).

8. A laboratory insulating base plate for easy installation according to claim 1, characterized in that: The bottom of the buffer layer (5) is provided with a textured hook and loop fastener, and the top of the insulating layer (4) is provided with a barbed hook and loop fastener.

9. A method of using an easy-to-install laboratory insulating base plate, comprising the easy-to-install laboratory insulating base plate as described in any one of claims 1-8, wherein the method of use comprises the following steps:

1. In actual use, the insulating plate (9) is installed on the top of the experimental table (1). The mounting base plate (2), magnetic layer (3), insulating layer (4) and buffer layer (5) in the insulating plate (9) are assembled and installed by a round rod (401) and fixing bolts (202). The round rod (401) passes through the magnetic layer (3). Then, the fixing bolts (202) at the bottom of the mounting base plate (2) are screwed into the round rod (401) to fix the mounting base plate (2), magnetic layer (3), insulating layer (4) and buffer layer (5) in the insulating plate (9). Therefore, during long-term use, when the insulating layer (4) and buffer layer (5) at the top of the insulating plate (9) are damaged, the fixing bolts (202) are directly unscrewed from the round rod (401), and then the insulating layer (4) and buffer layer (5) are fixed and assembled. (5) Disassemble and replace with a new insulation layer (4) and a buffer layer (5). There is no need to replace the entire insulation board (9), thus avoiding the waste of resources and effectively reducing replacement costs. When the magnetism of the rectangular magnet ring (302) decreases after long-term use, the magnetic layer (3) can be directly disassembled, and the rectangular magnet ring (302) can be pushed out of the magnetic layer (3) through the top hole (303) and replaced with a new rectangular magnet ring (302). During use, the rectangular magnet ring (302) inside the magnetic layer (3) will give the insulation board (9) a certain magnetic attraction. Therefore, when some metal parts are placed on the insulation board (9), the magnetic force generated by the rectangular magnet ring (302) will attract the parts to the insulation board (9), preventing the parts from sliding and falling off the insulation board (9).

2. After the insulating plate (9) is placed on the top of the experimental table (1), the mounting tube (6), connecting rod (603) and clamping plate (604) pass through the first rectangular through hole (101) of the experimental table (1), and then pull the clamping plate (604) so ​​that the clamping plate (604) is flush with the bottom of the experimental table (1). At this time, rotate the clamping plate (604) ninety degrees, and then release the clamping plate (604). The clamping plate (604) resets under the action of the spring (601). At this time, the clamping plate (604) is fixed inside the rectangular slot (102), thereby fixing the insulating plate (9) on the experimental table (1). This method facilitates the disassembly and installation of the insulating plate (9).

3. The handheld bracket (606) facilitates the hand-pulling of the pallet (604), and the anti-slip sleeve (607) increases the friction on the surface of the handheld bracket (606) to prevent slippage when the handheld bracket (606) is used to pull the pallet (604). Fourth, after the card plate (604) is inserted into the rectangular card slot (102), the limiting rod (605) at the top of the card plate (604) is inserted into the limiting socket (103) at the top of the rectangular card slot (102). Then, under the action of external force, the rubber blocks on both sides of the limiting rod (605) deform. When the rubber blocks move to the socket inside the limiting socket (103), the rubber blocks are restored and inserted into the socket again, thereby fixing and limiting the card plate (604) and ensuring the stability of the card plate (604) inside the rectangular card slot (102).

5. The first screw hole (201) facilitates the screwing in of the fixing bolt (202). After the fixing bolt (202) is completely screwed into the first screw hole (201), the bolt head of the fixing bolt (202) is hidden inside the concealed opening (203) to ensure the flatness of the bottom of the mounting base plate (2); VI. The second screw hole (402) facilitates the screwing in of the fixing bolt (202), thereby fixing the fixing bolt (202) and the round rod (401) together. With the cooperation of the fixing bolt (202) and the round rod (401), the mounting base plate (2), the magnetic layer (3) and the insulating layer (4) are assembled and installed.