CN216803334U - Elevating platform and work platform - Google Patents

Abstract

The embodiment of the application discloses a lifting platform and a working platform. The lifting platform comprises a mounting plate, a supporting assembly, a lifting assembly and a guide assembly, wherein the supporting assembly is positioned on the mounting plate, the lifting assembly is mounted on the mounting plate, and the lifting assembly is connected with the supporting assembly so as to adjust the height of the supporting assembly relative to the mounting plate; the guide assembly is installed on the mounting panel, and guide assembly and supporting component swing joint to make supporting component move along guide assembly's extending direction. The lifting assembly is arranged and connected with the supporting assembly, so that the height of the supporting assembly relative to the mounting plate can be conveniently adjusted; set up the direction subassembly simultaneously to with direction subassembly and supporting component swing joint, make the in-process of highly adjusting the relative mounting panel of supporting component, the supporting component can remove along the extending direction of direction subassembly, thereby improves the stability of elevating platform in the regulation supporting component position in-process.

Description

Elevating platform and work platform

Technical Field

The application relates to the technical field of optical module manufacturing, in particular to a lifting platform and a working platform.

Background

In the production process of the optical module, after the optical module is transmitted to the working platform corresponding to each procedure from the transmission belt in the production line, the optical module can be rotated in the processing process so as to be processed at different positions of the optical module. When rotating optical module, the processing device on the working platform may cause interference to optical module, resulting in the optical module being unable to rotate normally, for this reason often adopt on the working platform to set up the elevating platform in order to adjust the height of processing device, but the position of the processing device relative to the optical module may be caused to change at the in-process of adjusting the height of processing device by the existing elevating platform, thereby making the stability of the elevating platform poor.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a lifting platform and a working platform, and can solve the problem that the stability of the existing lifting platform is poor.

The embodiment of the application provides a lifting platform, includes:

mounting a plate;

a support assembly located on the mounting plate;

the lifting assembly is arranged on the mounting plate and connected with the supporting assembly so as to adjust the height of the supporting assembly relative to the mounting plate;

the guide assembly is installed on the mounting plate and movably connected with the supporting assembly, so that the supporting assembly moves along the extending direction of the guide assembly.

Optionally, in some embodiments of the present application, the supporting assembly includes a supporting plate and a side plate, the side plate is connected to an edge of one side of the supporting plate, the side plate is movably connected to the guiding assembly, and an end of the side plate, which is far away from the supporting plate, is connected to the lifting assembly.

Optionally, in some embodiments of the present application, the support assembly includes two side plates, and the two side plates are connected to two opposite side edges of the support plate; the lifting assembly comprises two lifting pieces, and the lifting pieces are arranged corresponding to the side plates; one end of the lifting piece is installed on the mounting plate, and the other end of the lifting piece is connected with one end, far away from the supporting plate, of the side plate.

Optionally, in some embodiments of the present application, the lifting member comprises an air spring or a nitrogen spring.

Optionally, in some embodiments of the present application, the guide assembly includes a guide post and a guide block, the guide post is mounted on the mounting plate, a guide hole is formed in the guide block, the guide post passes through the guide hole and is slidably connected to the guide block, and the guide block is connected to the side plate so that the support assembly slides along an extending direction of the guide post.

Optionally, in some embodiments of the present application, the guide assembly includes two guide posts, the two guide posts are disposed corresponding to the two side plates, and the guide posts are connected to a side of the corresponding side plate departing from the supporting plate.

Optionally, in some embodiments of the present application, the guide assembly includes a plurality of the guide blocks, and the plurality of the guide blocks are sequentially distributed at intervals along the extending direction of the guide column.

Optionally, in some embodiments of the present application, the guide assembly further includes a positioning element, a positioning hole is formed in the guide block, and the positioning element is inserted into the positioning hole to enable the guide block to be slidably connected with the guide post.

Optionally, in some embodiments of the present application, the lifting platform further includes a plurality of buffers;

the plurality of buffering pieces are connected to one side, facing the mounting plate, of the supporting plate; or the like, or, alternatively,

the plurality of buffering parts are connected to one side, facing the supporting plate, of the mounting plate.

Correspondingly, this application embodiment still provides a work platform, work platform includes:

a support;

the support table is connected with the bracket; and

the elevating platform of any one of the above claims, wherein the mounting plate of the elevating platform is connected to the support platform.

The lifting platform comprises a mounting plate, a supporting assembly, a lifting assembly and a guide assembly, wherein the supporting assembly is positioned on the mounting plate, the lifting assembly is mounted on the mounting plate, and the lifting assembly is connected with the supporting assembly so as to adjust the height of the supporting assembly relative to the mounting plate; the guide assembly is installed on the mounting panel, and guide assembly and supporting component swing joint to make supporting component move along guide assembly's extending direction. The lifting assembly is arranged and is connected with the supporting assembly, so that the height of the supporting assembly relative to the mounting plate can be adjusted conveniently; set up the direction subassembly simultaneously to with direction subassembly and supporting component swing joint, make the in-process of highly adjusting the relative mounting panel of supporting component, the supporting component can remove along the extending direction of direction subassembly, thereby improves the stability of elevating platform in the regulation supporting component position in-process.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an elevating platform provided in an embodiment of the present application;

fig. 2 is a front view of an elevating platform provided in an embodiment of the present application;

FIG. 3 is a side view of an elevator platform provided in an embodiment of the present application;

fig. 4 is a schematic structural diagram of a working platform according to an embodiment of the present application.

Description of reference numerals:

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless indicated to the contrary, the use of the directional terms "upper" and "lower" generally refer to the upper and lower positions of the device in actual use or operation, and more particularly to the orientation of the figures of the drawings; while "inner" and "outer" are with respect to the outline of the device.

The embodiment of the application provides a lifting platform and a working platform. The following are detailed below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

Firstly, the embodiment of the application provides a lifting platform, which comprises a mounting plate, a supporting assembly, a lifting assembly and a guide assembly, wherein the supporting assembly is positioned on the mounting plate; the guide assembly is installed on the mounting panel, and guide assembly and supporting component swing joint to make supporting component move along guide assembly's extending direction.

Fig. 1 is a schematic structural diagram of an elevating platform provided in an embodiment of the present application, and as shown in fig. 1, the elevating platform 130 includes a mounting plate 131, and one side of the mounting plate 131 is used for connecting with other structures in the elevating platform 130, so as to ensure stability of the overall structure of the elevating platform 130; the other side of the mounting plate 131 is used for connecting with a use platform, so as to ensure the stable placement of the lifting platform 130 on the use platform, and facilitate the normal work of the lifting platform 130.

The lift 130 includes a support member 132, the support member 132 is disposed on the mounting plate 131, and since the support member 132 moves relative to the mounting plate 131 during use, the support member 132 is disposed only above the mounting plate 131 but not directly connected to the mounting plate 131. The supporting plate 1321 is used to support a processing or inspection apparatus to process or inspect an object to be processed on the usage platform.

The lifting platform 130 comprises a lifting component 133, the lifting component 133 is installed on the installation plate 131, the lifting component 133 is connected with the supporting component 132 so as to adjust the height of the supporting component 132 relative to the installation plate 131, and the height of the processing or detecting device relative to the object to be processed can be adjusted by adjusting the height of the supporting component 132 relative to the installation plate 131 so as to adapt to the processing or testing requirements of the objects to be processed with different sizes.

The lifting platform 130 comprises a guide assembly 134, the guide assembly 134 is mounted on the mounting plate 131, and the guide assembly 134 is movably connected with the support assembly 132, so that the support assembly 132 moves along the extending direction of the guide assembly 134. That is, the guide assembly 134 has a structure with a specific extending direction, and by movably connecting the support assembly 132 with the guide assembly 134, the support assembly 132 can move along the specific direction in the process of moving relative to the mounting plate 131, so that the relative stability of the support assembly 132 and the mounting plate 131 in the specific direction is ensured, and the stability of the lifting platform 130 in the adjusting process is ensured.

The lifting platform 130 in the embodiment of the present application includes a mounting plate 131, a supporting component 132, a lifting component 133 and a guiding component 134, wherein the supporting component 132 is located on the mounting plate 131, the lifting component 133 is mounted on the mounting plate 131, and the lifting component 133 is connected with the supporting component 132 to adjust the height of the supporting component 132 relative to the mounting plate 131; the guide member 134 is mounted on the mounting plate 131, and the guide member 134 is movably coupled to the support member 132 such that the support member 132 is movable in an extending direction of the guide member 134. The lifting component 133 is arranged, and the lifting component 133 is connected with the supporting component 132, so that the height of the supporting component 132 relative to the mounting plate 131 can be adjusted; meanwhile, the guide assembly 134 is arranged, and the guide assembly 134 is movably connected with the support assembly 132, so that the support assembly 132 can move along the extending direction of the guide assembly 134 in the process of adjusting the height of the support assembly 132 relative to the mounting plate 131, and the stability of the lifting platform 130 in the process of adjusting the position of the support assembly 132 is improved.

Alternatively, as shown in fig. 1 to 3, the supporting assembly 132 includes a supporting plate 1321 and a side plate 1322, the side plate 1322 is connected to an edge of the supporting plate 1321, the side plate 1322 is movably connected to the guiding assembly 134, and an end of the side plate 1322 away from the supporting plate 1321 is connected to the lifting assembly 133. That is, the supporting plate 1321 of the supporting assembly 132 is used for supporting the processing or inspection apparatus, and the side plate 1322 is used for connecting with the lifting assembly 133 and the guiding assembly 134, so as to connect the supporting assembly 132 with the lifting assembly 133 and the guiding assembly 134.

Because the side plate 1322 has a certain height, the end of the side plate 1322 far away from the supporting plate 1321 is connected with the lifting component 133, compared with the case that the supporting plate 1321 is directly connected with the lifting component 133, the structural design mode can enlarge the height adjusting range of the supporting component 132, thereby enlarging the height adjusting range of a processing or detecting device, meeting the requirements of different use scenes and improving the adaptability of the lifting platform 130.

In addition, the side plate 1322 is connected to one side edge of the supporting plate 1321, so that the side plate 1322 and the supporting plate 1321 jointly form the supporting component 132, when the processing or detecting device is placed on the supporting plate 1321, the side plate 1322 can play a certain role in protecting the device, and the risk that the device falls off from the edge of the supporting plate 1321 is reduced.

Optionally, the supporting component 132 includes two side plates 1322, the two side plates 1322 are connected to two opposite side edges of the supporting plate 1321, and by providing the side plates 1322 on two opposite sides of the supporting plate 1321, the protection effect on the device placed on the supporting plate 1321 can be further enhanced, and the stability of the device on the supporting plate 1321 can be improved.

The lifting assembly 133 includes two lifting members 1331, and the lifting members 1331 are disposed corresponding to the side plates 1322, that is, the two lifting members 1331 are disposed on two opposite sides of the supporting plate 1321. One end of the lifting piece 1331 is mounted on the mounting plate 131, and the other end of the lifting piece 1331 is connected to one end of the side plate 1322 away from the support plate 1321. Through correspondingly connecting the two lifting pieces 1331 with the side plates 1322 on the two sides respectively, when the height of the supporting component 132 is adjusted, the two lifting pieces 1331 simultaneously drive the two side plates 1322 to adjust the height, the structural design mode enables the acting force of the lifting component 133 to simultaneously act on the two opposite sides of the supporting plate 1321, so that the stress on the two sides of the processing or detecting device on the supporting plate 1321 is balanced, the device is helped to keep a relatively stable state on the supporting plate 1321, and the subsequent processing or detecting work is facilitated.

It should be noted that the support assembly 132 can include three side plates 1322, i.e., a one-side opening is formed around the support plate 1321, and three sides are enclosed, through which the device placed on the support plate 1321 can be accessed. The structure design can further enhance the protection of the side plate 1322 to the device on the supporting plate 1321, and protect the device placed on the supporting plate 1321 to the maximum extent while ensuring that the device on the supporting plate 1321 normally processes the object to be processed on the platform, so as to further improve the stability of the lifting table 130.

Optionally, the lifting member 1331 in the embodiment of the present application includes an air spring or a nitrogen spring, that is, a telescopic sealed container is filled with compressed air or nitrogen, and the height of the supporting plate 1321 is adjusted by the compressibility of the air or nitrogen; meanwhile, because the air or nitrogen is in a compressed state, the air or nitrogen has a certain acting force on a structure in contact with the air or nitrogen, and therefore, the air spring or nitrogen spring can adjust the height of the supporting component 132 and also can support the supporting component 132 to a certain extent, namely, the air spring or nitrogen spring can counteract the gravity of at least part of a device placed on the supporting plate 1321, so that the load value of the supporting component 132 in the working process is reduced, the requirement on the structural strength of the supporting component 132 is lowered, and the service life of the supporting component 132 is prolonged.

It should be noted that both ends of the air spring or the nitrogen spring are in a movable state, the overall structure is mainly formed by combining two sleeves, and the overall height of the lifting piece 1331 is adjusted by stretching or compressing the volume of air or nitrogen in the sleeve, so that the height of the supporting component 132 is adjusted. During the use of the air spring or nitrogen spring, one end of the air spring or nitrogen spring needs to be fixed, and then the other end of the air spring or nitrogen spring is connected to the supporting component 132, and the height of the supporting component 132 is adjusted by stretching or compressing the two ends of the lifting piece 1331 in a manual adjusting manner.

Optionally, the guiding assembly 134 includes a guiding post 1341 and a guiding block 1342, the guiding post 1341 is installed on the mounting plate 131, and an extending direction of the guiding post 1341 is consistent with a height adjusting direction of the lifting assembly 133. Wherein, the guide block 1342 is provided with a guide hole 1343, the guide post 1341 passes through the guide hole 1343 and is slidably connected with the guide block 1342, and the guide block 1342 is connected with the side plate 1322 to enable the support assembly 132 to slide along the extending direction of the guide post 1341.

Wherein, divide into guide assembly 134 guide post 1341 and guide block 1342, the direction of adjusting of the height of support assembly 132 is confirmed through the installation direction of guide post 1341, simultaneously, guide post 1341 can also be as the slide rail of guide block 1342, and guide block 1342 fixed connection is on support assembly 132, support assembly 132 is connected with lift 1331 again, consequently, when the height of lift 1331 is stretched or compressed manually, lift 1331 drives the curb plate 1322 of support assembly 132 and moves, curb plate 1322 drives guide block 1342 again and slides along the extending direction of guide post 1341.

Since the extending direction of the guiding post 1341 is fixed, the guiding block 1342 is fixed along the sliding direction of the guiding post 1341, so that the adjusting direction of the supporting component 132 is fixed, and further the stretching or compressing direction of the lifting piece 1331 is fixed. Therefore, the ascending and descending direction of the ascending and descending assembly 133 can be limited by setting the extending direction of the guide post 1341.

Optionally, the guiding assembly 134 includes two guiding pillars 1341, the two guiding pillars 1341 and the two side plates 1322 are disposed correspondingly, and the guiding pillars 1341 and the corresponding side plates 1322 are connected to a side departing from the supporting plate 1321, that is, the two guiding pillars 1341 are disposed on two opposite sides of the supporting plate 1321 respectively. By connecting the two guide posts 1341 to the side plates 1322, respectively, when adjusting the height of the support assembly 132, the two side plates 1322 are simultaneously adjusted in height along the extending direction of the guide posts 1341 by the guide blocks 1342.

The design of the structure makes the acting force of the lifting component 133 act on the two opposite sides of the supporting plate 1321 at the same time, so that the two sides of the processing or detecting device on the supporting plate 1321 are stressed in a balanced manner, thereby being beneficial to keeping the device in a relatively stable state on the supporting plate 1321 and being beneficial to the subsequent processing or detecting work. In addition, the height of the opposite sides of the supporting plate 1321 can be adjusted along the extending direction of the guiding column 1341, so that the stability of the adjusting direction in the adjusting process of the supporting plate 1321 can be further ensured, and the stability of the lifting platform 130 can be improved.

Optionally, the guide assembly 134 includes a plurality of guide blocks 1342, the plurality of guide blocks 1342 are sequentially spaced apart along the extending direction of the guide post 1341, that is, each side plate 1322 is slidably connected to the guide post 1341 through the plurality of guide blocks 1342, and the distribution direction of the plurality of guide blocks 1342 is the same as the sliding direction of the side plate 1322. Due to the structural design, the adjusting direction of the supporting component 132 is determined by the sliding direction of the plurality of guide blocks 1342 relative to the guide posts 1341, the limitation on the sliding direction of the supporting component 132 can be further strengthened, the direction certainty in the adjusting process of the supporting component 132 is improved, and the overall stability in the lifting process of the lifting table 130 is further improved.

Optionally, the guide assembly 134 further includes a positioning member 1345, the guide block 1342 is provided with a positioning hole 1344, and the positioning member 1345 is inserted into the positioning hole 1344 to enable the guide block 1342 to be slidably connected to the guide post 1341. The positioning hole 1344 penetrates through the positioning member 1345, and the guide block 1342 slides or is fixed relative to the guide post 1341 by loosening and tightening the positioning member 1345.

It should be noted that matching thread structures are formed on the inner wall of the positioning hole 1344 and the outer wall of the positioning member 1345. In the actual use process, the positioning member 1345 is firstly unscrewed, so that the positioning member 1345 moves away from the guide post 1341, thereby ensuring that the guide block 1342 can slide relatively to the guide post 1341; then sliding the guide block 1342 according to the relative position between the processing or detecting device and the object to be processed on the supporting plate 1321 to locate the processing or detecting device at the target position; then, the positioning member 1345 is screwed down, so that the positioning member 1345 moves toward the direction close to the guiding post 1341 until the positioning member 1345 abuts against the guiding post 1341, at this time, the guiding block 1342 can keep relatively stable with the guiding post 1341, so as to ensure the normal operation of the processing or detecting device.

Optionally, the lifting platform 130 further includes a plurality of buffering members 135, and the buffering members 135 are configured to buffer an acting force between the supporting members 132 and the mounting plate 131 during the adjustment process, so as to prevent the supporting members 132 from directly impacting the mounting plate 131, which may cause damage to the supporting members 132 or devices placed on the supporting members 132.

In some embodiments, a plurality of buffers 135 are connected to a side of the supporting plate 1321 facing the mounting plate 131, that is, the buffers 135 are connected to the supporting member 132, when the height of the supporting member 132 is adjusted, the buffers 135 move together with the supporting member 132, when the supporting member 132 moves downward to contact the mounting plate 131, the mounting plate 131 first abuts against the buffers 135 located at the lower side of the supporting plate 1321, and at this time, the buffers 135 can buffer the acting force between the supporting member 132 and the mounting plate 131, and the supporting member 132 is prevented from directly striking the mounting plate 131.

In other embodiments, a plurality of buffering members 135 are connected to a side of the mounting plate 131 facing the supporting plate 1321, when the height of the supporting member 132 is adjusted, the buffering members 135 are fixed, and when the supporting member 132 moves downward to contact the mounting plate 131, the supporting plate 1321 first abuts against the buffering members 135 located on the mounting plate 131, and at this time, the buffering members 135 can buffer the acting force between the supporting member 132 and the mounting plate 131, and the supporting member 132 is prevented from directly striking the mounting plate 131.

Optionally, a buffer member 135 can be disposed on a side of the mounting plate 131 away from the supporting member 132, and when the lifting platform 130 is mounted on the use platform, the buffer member 135 is located between the mounting plate 131 and the use platform, so as to further buffer an impact force between the supporting member 132 and the mounting plate 131, so as to relieve an acting force between the lifting platform 130 and the use platform.

Optionally, the lifting platform 130 further comprises a handle 136, the handle 136 is arranged on one side of the guide assembly 134 far away from the mounting plate 131, the arrangement of the handle 136 facilitates the user to adjust the placing position of the lifting platform 130, when the lifting platform 130 is placed on the use platform or taken out of the use platform, the lifting platform 130 is only required to be lifted through the handle 136, the structural design enables the lifting platform 130 to be used more flexibly and conveniently, and the adaptability of the lifting platform 130 is further improved.

Secondly, an embodiment of the present application further provides a working platform, where the working platform includes a lifting platform, and the specific structure of the lifting platform refers to the above-mentioned embodiment.

As shown in fig. 4, the working platform 100 includes a support 110, and the support 110 serves as a skeleton structure of the working platform 100 and supports the whole working platform 100; in addition, when the work platform 100 is put into use, the support 110 is directly supported on the target use site to ensure stability of the entire work platform 100.

The work platform 100 includes a support table 120, the support table 120 is connected to the support 110, and the support table 120 has a support surface 121 for supporting an object to be processed, such as an optical module. The supporting surface 121 is provided with a working area 1211, and the working area 1211 is used as a placement area for an object such as an optical module, etc. to define the position of the object such as the optical module, etc. on the supporting platform 120, so as to facilitate the processing or detection, etc. on the working platform 100.

The supporting surface 121 has a first side and a second side opposite to each other, the working area 1211 is located near the first side, the working platform 100 is disposed on two opposite sides of the conveyor belt on a production line of objects such as optical modules, and the first side of the working platform 100 is disposed near the conveyor belt on the production line, and the working area 1211 is disposed near the first side of the supporting surface 121, so as to facilitate smooth conveying of the objects on the conveyor belt to a corresponding position on the supporting table 120, and the objects are returned to the conveyor belt from the first side after processing or detection is completed, thereby reducing a transmission distance between the conveyor belt and the supporting table 120, and reducing an entire floor area of the working platform 100.

The work platform 100 further includes a lifting platform 130, the mounting plate 131 of the lifting platform 130 is connected to the support platform 120, and the lifting platform 130 is located at an edge of the working area 1211 on the support platform 120, so as to facilitate adjustment of the position of the processing or detecting device on the support plate 1321 when the height of the supporting assembly 132 is adjusted relative to the mounting plate 131, thereby facilitating smooth operation of the processing or detecting device on the support plate 1321.

It should be noted that, during the operation of the working platform 100, the optical module located in the working area 1211 may have a plurality of points to be processed, and in order to facilitate the change of the position of the optical module in the working area 1211, the optical module may be placed on a rotatable plate, and then the rotatable plate and the optical module may be placed in the working area 1211 together. At this time, in order to prevent the lifting platform 130 at the edge of the working area 1211 from blocking the optical module, the height of the supporting component 132 may be adjusted by the lifting component 133 of the lifting platform 130 to reserve a rotating space for the optical module, thereby ensuring effective processing of different points to be processed of the optical module, and improving the working efficiency and reliability of the working platform 100.

Optionally, the working platform 100 can be simultaneously provided with a plurality of lifting platforms 130, the plurality of lifting platforms 130 are located on different sides of the working area 1211 on the supporting platform 120, and each lifting platform 130 can be correspondingly placed with a different processing or detecting device, so as to implement different operations on the object to be processed placed in the working area 1211, reduce the transmission times of the object to be processed between different working platforms 100, and improve the working efficiency of the working platform 100.

The distribution of the plurality of lifters 130 on the support table 120 can be adjusted according to the position of the working area 1211, the structure of the to-be-processed area in the working area 1211, and the distribution of the to-be-processed points, which is not particularly limited herein, and only the distribution of the plurality of lifters 130 is required to facilitate the operation of different processing or detecting devices on the lifters 130 on the to-be-processed object.

Optionally, the optical platform further includes an illuminating member 140, the illuminating member 140 is disposed on the support 110, and an illuminating side of the illuminating member 140 faces the working area 1211 on the supporting surface 121 and is spaced apart from the supporting table 120, so as to ensure that the illuminating member 140 illuminates the working area 1211 and avoid interference with the transportation of the optical module and other objects.

The orthographic projection of the illuminating element 140 on the supporting surface 121 is located in the working area 1211, that is, the illuminating element 140 is located right above the working area 1211, and this arrangement mode makes the illumination in the working area 1211 strongest, and simultaneously, the illumination can be prevented from generating shadows when being irradiated from the side, so that the working platform 100 can be observed in the process of machining or detection in the use process, the risk of machining failure or detection failure is avoided, and the safety problem can be avoided.

The lifting platform and the working platform provided by the embodiment of the application are described in detail, a specific example is applied in the description to explain the principle and the implementation of the application, and the description of the embodiment is only used for helping to understand the method and the core idea of the application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. An elevator table, comprising:

mounting a plate;

a support assembly located on the mounting plate;

the lifting assembly is arranged on the mounting plate and connected with the supporting assembly so as to adjust the height of the supporting assembly relative to the mounting plate;

the guide assembly is installed on the mounting plate and movably connected with the supporting assembly, so that the supporting assembly moves along the extending direction of the guide assembly.

2. The lift table of claim 1, wherein the support assembly includes a support plate and a side plate, the side plate is connected to an edge of one side of the support plate, the side plate is movably connected to the guide assembly, and an end of the side plate remote from the support plate is connected to the lift assembly.

3. The lift table of claim 2, wherein said support assembly includes two said side plates connected at opposite side edges of said support plate; the lifting assembly comprises two lifting pieces, and the lifting pieces are arranged corresponding to the side plates; one end of the lifting piece is installed on the mounting plate, and the other end of the lifting piece is far away from the side plate and is connected with one end of the supporting plate.

4. The lift table of claim 3, wherein the lift member comprises an air spring or a nitrogen spring.

5. The lifting platform as claimed in claim 3, wherein the guiding assembly includes a guiding post and a guiding block, the guiding post is mounted on the mounting plate, the guiding block is provided with a guiding hole, the guiding post passes through the guiding hole and is slidably connected with the guiding block, and the guiding block is connected with the side plate so that the supporting assembly can slide along an extending direction of the guiding post.

6. The lift table of claim 5, wherein the guide assembly comprises two guide posts, the two guide posts are disposed corresponding to the two side plates, and the guide posts are connected to a side of the corresponding side plate facing away from the support plate.

7. The lift table of claim 5, wherein the guide assembly comprises a plurality of guide blocks, the plurality of guide blocks being sequentially spaced along the extension direction of the guide post.

8. The lift table of claim 5, wherein the guide assembly further comprises a positioning member, the guide block is provided with a positioning hole, and the positioning member is inserted into the positioning hole to slidably connect the guide block and the guide post.

9. The lift table of claim 2, further comprising a plurality of buffers;

the plurality of buffering pieces are connected to one side, facing the mounting plate, of the supporting plate; or the like, or a combination thereof,

the plurality of buffering members are connected to one side of the mounting plate facing the support plate.

10. A work platform, characterized in that the work platform comprises:

a support;

the support table is connected with the bracket; and

an elevator table as claimed in any one of claims 1 to 9, wherein the mounting plate of the elevator table is connected to the support table.

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