CN109405872B - Portable detection platform - Google Patents

Abstract

A portable detection platform, comprising: the device comprises a box body, a carrying platform, a sliding table assembly, a support tube storage module, a fixed mounting part, a limiting piece and a detection module. The upper box cover of the box body can be opened or closed relative to the lower box body, a carrying platform is arranged in the lower box body, a sliding table module is fixedly arranged on the carrying platform, a displacement block of the sliding table module is driven by a motor to drive the objective table to displace, and a built-in or external power supply is arranged to be electrically connected with the motor; a support tube storage module for storing the detached support tube and a fixed mounting part for fixedly mounting the support tube in a working state are fixedly arranged on the carrying platform; the detection module is fixedly installed with the support pipe in a working state and is placed on the carrying platform in a non-working state to be limited by the limiting piece. Wherein detachable structure is spacing by stable placing on carrying platform after simple dismantlement operation, occupation space is little, is convenient for store and transportation when closing the case lid.

Description

Portable detection platform

Technical Field

The invention relates to the technical field of detection equipment, in particular to a portable detection platform.

Background

In the existing detection equipment, all parts of the detection equipment cannot easily change after a certain connection relation is formed, so that the detection equipment still occupies a large space even in a non-working state, and great difficulty is brought to storage, transportation and transportation of the detection equipment.

There is also a method of modularly assembling and disassembling each component of the inspection apparatus, but the components obtained after the assembling and disassembling are randomly placed, collision damage is likely to occur between the components, and even the inspection accuracy of the inspection apparatus formed after the assembling is affected.

Disclosure of Invention

The invention provides a portable detection platform for ensuring that all parts obtained by disassembling detection equipment are not damaged, and meanwhile, all the parts are convenient to store and transport and occupy a small volume.

A portable detection platform, comprising:

The box body comprises an upper box cover and a lower box body, and the upper box cover can be opened or closed relative to the lower box body;

The carrying platform is positioned in the lower box body, and a lower layer accommodating cavity is formed between the carrying platform and the bottom of the lower box body;

The sliding table assembly comprises a sliding rail and a displacement block which are matched with each other, and the displacement block is driven by a motor to displace along the sliding rail and simultaneously drives an objective table fixedly connected with the displacement block to displace; the carrying platform is fixedly provided with a power socket for externally connecting a power supply, or the lower layer accommodating cavity is internally fixedly provided with a built-in power supply, and the motor is electrically connected with the power socket or the built-in power supply;

The support tube storage module is fixedly arranged on the carrying platform and used for accommodating the detached support tube;

The fixed mounting part is fixedly arranged on the carrying platform and is used for fixedly mounting the support tube in the working state;

the limiting piece is fixedly arranged on the carrying platform;

The detection module is fixedly arranged on at least one support pipe connected with the fixed installation part when in a working state, and is used for detecting a workpiece to be detected on the objective table; when the detection module is detached from the support pipe and then placed on the carrying platform, the limiting piece plays a limiting role on the detection module.

In a preferred embodiment, the sliding table assembly is disposed along a side of the carrying platform having a longest length, and the rack tube housing module and the fixed mounting portion are disposed adjacent to the sliding table assembly; the limiting piece is arranged close to the edge of the carrying platform.

In a preferred embodiment, the detection module comprises a compound adjustment assembly, a clamping assembly, and a detection element;

The composite adjusting component is fixedly connected with the bracket tube; the detection element is positioned and clamped by the clamping assembly; and in a working state, the clamping assembly is fixedly connected with the composite adjusting assembly, and can drive the detection element to adjust displacement under the action of the composite adjusting assembly.

In a preferred embodiment, the composite adjusting component comprises an X-direction displacement mechanism, a Z-direction displacement mechanism and a Y-direction rotating mechanism, wherein the support tube is fixedly connected with the X-direction displacement mechanism, the X-direction displacement mechanism can drive the Z-direction displacement mechanism fixedly connected with the support tube to perform X-direction displacement adjustment, the Z-direction displacement mechanism can drive the Y-direction rotating mechanism fixedly connected with the Z-direction displacement mechanism to perform Z-direction adjustment, and the Y-direction rotating mechanism can drive the clamping component fixedly connected with the Y-direction rotating mechanism to rotate around the Y-direction.

In a preferred embodiment, the rack tube housing module includes a first vertical plate and a second vertical plate which are fixedly mounted on the carrying platform and are oppositely arranged;

the end surface of the first vertical plate facing the second vertical plate is provided with a groove capable of accommodating the end part of the bracket tube;

The end face of the second vertical plate facing the first vertical plate is fixedly connected with a mounting block, and a through hole is formed in the mounting block; the front end of the protruding block penetrates through the through hole and is opposite to the groove, and the mounting block limits the rear end of the protruding block to enable the rear end of the protruding block to be accommodated in the through hole; a compression spring arranged along the axial direction of the through hole, one end of the compression spring is abutted against the rear end of the protruding block, and the other end of the compression spring is abutted against the second vertical plate;

and one end of the bracket tube detached from the fixed mounting part abuts against the bottom of the groove, and the other end abuts against the front end of the protruding block to be mounted in a suspended manner.

In a preferred embodiment, a mounting block fixedly connected with the detection module is arranged, a through hole and a first screw hole are formed in the mounting block, and the mounting block is sleeved on the bracket tube through the through hole in a working state; a first set screw is arranged to pass through the first screw hole to prop against the bracket tube, so that the fixed connection between the mounting block and the bracket tube is realized;

The limiting piece comprises a limiting column, when the limiting piece is not in working state, the first set screw is loosened, the mounting block is detached from the support tube, and the mounting block is sleeved on the limiting column through the through hole.

In a preferred embodiment, the device further comprises a light source mounting frame, wherein in an operating state, the light source mounting frame is positioned between the detection module and the objective table and is fixedly connected with the bracket tube; and in a non-working state, the light source mounting frame is detached from the bracket tube and is placed in the box body or is independently placed outside the box body.

In a preferred embodiment, the light source mounting frame comprises:

the mounting plate is provided with a mounting hole which is fixedly connected with the bracket tube in a matching way;

At least one hinge block hinged with the mounting plate, wherein the hinge block can rotate in a plane parallel to the mounting plate;

The strip-shaped lamp holder is internally provided with a strip-shaped light source, and light emitted by the strip-shaped light source is emitted through a hollowed-out part arranged on the outer wall of the strip-shaped lamp holder; one end of the strip-shaped lamp holder is movably connected with the hinge block through a connecting shaft, and the strip-shaped lamp holder can be axially rotated and adjusted around the connecting shaft;

In a non-working state, the strip-shaped lamp holder rotates through the hinge block and is folded above the mounting plate; under the operating condition, the strip lamp bracket rotates through the hinge block and is opened to the direction of keeping away from the mounting panel.

In a preferred embodiment, a control module is arranged, the power socket or the built-in power supply is electrically connected with the motor through the control module, and the control module is fixedly arranged in the lower-layer accommodating cavity; the carrying platform is further provided with a touch display screen and an operation button, and the touch display screen and the operation button are electrically connected with the control module.

In a preferred embodiment, the outer wall of the box body is provided with a telescopic pull rod and a universal wheel, and when the upper box cover is closed relative to the lower box body, the telescopic pull rod can be pulled to drive the box body to move through the universal wheel.

The portable detection platform is provided with a box body, an upper box cover of the box body can be opened or closed relative to a lower box body, and a carrying platform is arranged in the lower box body; a sliding table module is fixedly installed on the carrying platform, a displacement block is driven by a motor to drive the workpiece to be detected on the objective table to displace, and a built-in power supply or an external power supply is arranged to be electrically connected with the motor; a support tube storage module for storing the detached support tube and a fixed mounting part for fixedly mounting the support tube in a working state are fixedly arranged on the carrying platform; the detection module is fixedly arranged with the support pipe in the working state, and is placed on the carrying platform in the non-working state and limited by the limiting piece. The detachable structure in the structure is stably placed on the carrying platform after being detached and limited by the simple operation, can not be damaged due to shaking and collision, occupies small space, and is convenient to store and transport when the upper box cover is closed.

Drawings

FIG. 1 is a schematic view of an embodiment of the present invention in an operational state;

FIG. 2 is a schematic view of the embodiment of FIG. 1 in a non-operative condition with the upper lid open;

FIG. 3 is an exploded schematic view of a portion of the structure of FIG. 1;

FIG. 4 is a schematic diagram of an embodiment of the detection module according to the present invention with the detection element removed;

FIG. 5 is an exploded view of a portion of the structure of one embodiment of a rack tube housing module of the present invention;

FIG. 6 is a schematic view of one embodiment of a light source mounting of the present invention in an operative condition;

Fig. 7 is a schematic view of the embodiment of fig. 6 in a non-operating state.

Detailed Description

The conception, specific structure, and technical effects produced by the present application will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, aspects, and effects of the present application. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly or indirectly fixed or connected to the other feature. Further, the descriptions of the upper, lower, left, right, etc. used in the present invention are merely with respect to the mutual positional relationship of the constituent elements of the present invention in the drawings unless otherwise specified.

Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any combination of one or more of the associated listed items.

Fig. 1 is a schematic structural view of an embodiment of the present invention in an operating state, fig. 2 is a schematic structural view of an embodiment of fig. 1 in which an upper cover is opened in a non-operating state, fig. 3 is an exploded schematic structural view of a portion of the structure of fig. 1, fig. 4 is a schematic structural view of an embodiment of the present invention after a detection module is removed from a detection element, fig. 5 is an exploded schematic structural view of a portion of an embodiment of a rack tube housing module of the present invention, fig. 6 is a schematic structural view of an embodiment of a light source mounting frame of the present invention in an operating state, and fig. 7 is a schematic structural view of an embodiment of fig. 6 in a non-operating state. Referring to fig. 1 to 7:

In the invention, the box body 1 comprises an upper box cover 101 and a lower box body 102, and the upper box cover 101 can be opened or closed relative to the lower box body 102; for example, a set of adjacent sides of the two are pivotally connected.

A mounting platform 2 is provided, and the mounting platform 2 is located inside the lower case 102 and forms a lower-layer accommodating cavity (not shown in the figure) with the bottom of the lower case 102. Here, the mounting platform 2 is preferably placed horizontally.

The sliding table assembly 4 is fixed on the carrying platform 2, the sliding table assembly 4 comprises a sliding rail and a displacement block which are matched with each other, wherein the displacement block can be driven by the motor 5 to displace along the sliding rail, the displacement block is fixedly connected with the objective table 6, the displacement block drives the objective table 6 to displace in the process of displacing along the sliding rail, and then the workpiece to be detected placed on the objective table 6 is driven to displace.

The carrying platform 2 is provided with a power socket 3 which can be electrically connected with an external power supply, or a built-in power supply is arranged in the lower layer accommodating cavity, and the power socket 3 or the built-in power supply is electrically connected with the motor 5. Here, the power socket 3 electrically connectable to an external power supply is preferable, and the provision of a built-in power supply is reduced to reduce the mass and volume of the portable detection platform of the present invention. Further, in order to improve the safety performance of the power socket 3, a socket switch 301 for controlling the power socket 3 to be powered on or off may be provided on the mounting platform 2.

A detection module 7 and at least one support tube 8 are provided,

In the working state, the support pipe 8 is fixedly connected with the detection module 7 to support the detection module 7, so that the detection module 7 detects a workpiece placed on the objective table 6, at the moment, the support pipe 8 is fixedly connected with the fixed mounting part 9 fixedly arranged on the carrying platform 2, and the carrying platform 2, the support pipe 8 and the fixed mounting part 9 jointly form a support component of the detection module 7 in the working state; typically, the stent tube 8 is placed vertically in the working state.

Under the non-operating condition, support pipe 8 is detached from detection module 7, and wherein, support pipe 8 is fixed to be set up the steady holding of support pipe storage module 10 of fixed setting on loading platform 2, and detection module 7 is placed on loading platform 2, is spacing it by the locating part 11 of fixed setting on loading platform 2.

In the above structure, the support pipe 8 and the detection module 7 are fixedly installed under the working state, are stably placed under the non-working state, the disassembly and the operation are simple, the box collecting state after disassembly is stable, the damage caused by shaking and collision can be avoided, the occupied space under the non-working state is small, the upper box cover 101 is closed for storage or transportation, and the portable box is convenient to carry.

In the embodiment shown in fig. 1 and 2, the sliding table assembly 4 is preferably disposed along the side with the longest length of the carrying platform 2, so that the sliding rail length of the sliding table assembly 4 is prolonged as far as possible under the condition that the area of the upper surface of the carrying platform 2 allows, so that the object stage 6 fixedly connected with the displacement block has a larger displacement space, that is, the workpiece to be detected on the object stage 6 has a larger displacement space, so as to meet the detection environment requirement in terms of possible positions. The bracket tube storage module 10 and the fixed mounting part 9 are arranged close to the sliding table assembly 4; the limiting piece 11 is arranged close to the edge of the carrying platform 2, and simultaneously reserves enough placing space for the detection module 7. The above structures are compactly arranged and occupy small space.

In the embodiment shown in fig. 3 and 4, the detection module 7 preferably comprises a complex adjustment assembly 70, a clamping assembly 71 and a detection element 72; wherein, compound adjusting part 70 and clamping part 71 fixed connection, clamping part 71 closely fixes detecting element 72 with the mode of pressing from both sides tightly, so, when detecting the demand different, can change detecting element 72 very conveniently. In the working state, the detection module 7 is fixedly connected with the bracket tube 8 through the composite adjusting component 70; the clamping assembly 71 can drive the detection element 72 to move and adjust under the action of the composite adjusting assembly 70, so that the detection element 72 is in a proper position, and the whole detection module 7 has strong flexibility. In the non-working state, the detection element 72 can be clamped and placed on the carrying platform 2 by the clamping assembly 71 or removed from the clamping assembly 71 according to the different sizes of the detection elements, and can be independently placed outside the box body 1.

Here, the composite adjusting assembly 70 may include an X-direction displacement mechanism 701, a Z-direction displacement mechanism 702, and a Y-direction rotation mechanism 703, where the support tube 8 is fixedly connected to the X-direction displacement mechanism 701, the X-direction displacement mechanism 701 may drive the Z-direction displacement mechanism 702 fixedly connected thereto to perform the X-direction displacement adjustment, the Z-direction displacement mechanism 702 may drive the Y-direction rotation mechanism 703 fixedly connected thereto to perform the Z-direction adjustment, and the Y-direction rotation mechanism 703 may drive the clamping assembly 71 fixedly connected thereto to rotate around the Y-direction. The above structure can realize displacement adjustment of the detecting element 72 in the X-direction, the Z-direction and rotation adjustment in the Y-direction.

Further, the X-displacement mechanism 701 includes a rack and pinion displacement stage, where the rack and pinion displacement stage belongs to a well-known structure of a person skilled in the art, and includes a rack assembly 701a and a gear assembly 701b that are matched with each other, where the rack assembly 701a is fixedly connected to the support tube 8, the gear assembly 701b is fixedly connected to the Z-displacement mechanism 702, and when the gear assembly 701b performs X-displacement along the rack assembly 701a, the Z-displacement mechanism 702 is driven to perform X-displacement. The structure is stable and reliable, and the operation is convenient.

Also, preferably, the Z-displacement mechanism 702 includes a dovetail slot type sliding table, where the dovetail slot type sliding table belongs to a well-known structure of a person skilled in the art, and includes a sliding rail assembly 702a and a sliding block assembly 702b that are matched with each other, where the sliding rail assembly 702a is fixedly connected with the X-displacement mechanism 701, the sliding block assembly 702b is fixedly connected with the Y-rotation mechanism 703, and when the sliding block assembly 702a performs Z-displacement along the sliding rail assembly 702a, the sliding block assembly 702a drives the Y-rotation mechanism 703 to perform Z-translation. The structure is stable and reliable, and the operation is convenient.

Also, preferably, the Y-direction rotating mechanism 703 includes a Y-direction rotary displacement stage, where the rotary displacement stage is a well-known structure of those skilled in the art, and the Y-direction rotary displacement stage is a rotary displacement stage rotating around the Y-direction, and includes a first fixing seat 703a and a first rotating block 703b, where the first fixing seat 703a is fixedly connected to the Z-direction displacement mechanism 702, and the first rotating block 703b drives the clamping assembly 71 fixedly connected thereto to perform Y-direction rotation when rotating around the Y-direction. The structure is stable and reliable, and the operation is convenient.

In the embodiment shown in fig. 3 and 5, the rack tube housing module 10 preferably includes a first vertical plate 100 and a second vertical plate 110 that are fixedly mounted to the mounting platform 2 and are disposed opposite to each other; wherein the end surface of the first vertical plate 100 facing the second vertical plate 110 is provided with a groove (not shown) for accommodating the end of the bracket tube 8; the end surface of the second vertical plate 110 facing the first vertical plate 100 is fixedly provided with a connecting block 120, and the connecting block 120 is provided with a through hole 120a; the protruding block 130 is arranged, the front end 130a of the protruding block 130 penetrates through the through hole 120a to be opposite to the groove formed in the first vertical plate 100, and the connecting block 120 limits the rear end 130b of the protruding block 130 so as to be accommodated in the through hole 120a; a compression spring 140 disposed in an axial direction of the through hole 120a, one end of which abuts against the rear end 130b of the boss 130, and the other end of which abuts against the second vertical plate 110; in the non-working state, one end of the bracket tube 8 abuts against the bottom of the groove formed in the first vertical plate 100, and the other end abuts against the front end 130a of the protruding block 130 to be mounted in a suspended manner. When the support pipe 8 is placed, the distance between the protruding block 130 and the first vertical plate 100 can be finely adjusted because the protruding block 130 can float under the action of the compression spring 140, so that the support pipe 8 is placed between the protruding block 130 and the first vertical plate 100 conveniently. The support tube is simple in structure and small in occupied space, and the detached support tube can be stably placed, so that the support tube is prevented from being damaged by collision.

In the embodiment shown in fig. 1 to 3, a mounting block 12 is provided, the mounting block 12 is fixedly connected with the detection module 7, a through hole 12a and a first screw hole are formed in the mounting block 12, and the mounting block 12 is sleeved on the bracket tube 8 through the through hole 12a in the working state; a first set screw 13 is arranged to pass through a first screw hole on the mounting block 12 to abut against the bracket tube 8, so that the mounting block 12 is fixedly connected with the bracket tube 8; when the device is not in working state, the first set screw 13 is loosened, the mounting block 12 is detached from the support tube 8, the limiting piece 11 comprises a limiting column, and the mounting block 12 is sleeved on the limiting column through the through hole 12a and is stably placed.

In the embodiment shown in fig. 1, 3, 6 and 7, the device further comprises a light source mounting rack 14, and in the working state, the light source mounting rack 14 is located between the detection module 7 and the objective table 6 and is fixedly connected with the bracket tube 8; in the non-operating state, the light source mounting frame 14 is detached from the bracket tube, placed in the case 1, or placed separately outside the case 1.

Here, the light source mounting frame 14 preferably includes:

The mounting plate 141, the mounting plate 141 is provided with a mounting hole 141a which is fixedly connected with the bracket tube 8 in a matching way;

Hinge blocks 142 respectively positioned at the left and right ends of the mounting plate 141, the hinge blocks 142 being hinged with the mounting plate 141 such that the hinge blocks 142 can rotate in a plane parallel to the mounting plate 141;

The strip lamp bracket 143, the strip lamp bracket 143 accommodates a strip light source (not shown in the figure), and the light emitted by the strip light source is emitted through a hollowed-out part 143a arranged on the outer wall of the strip lamp bracket 143; one end of the bar-shaped lamp bracket 143 is movably connected with the hinge block 142 through a connecting shaft (not shown in the figure), and the bar-shaped lamp bracket 143 can be rotationally adjusted around the axial direction of the connecting shaft;

In the non-working state, the strip lamp holders 143 rotate through the hinging blocks 142 and are folded above the mounting plate 141, preferably, the two strip lamp holders 143 are mutually clung along the length direction of the strip lamp holders 143, and the arrangement is compact; in the operating state, the bar-shaped lamp holder 143 is turned by the hinge block 142 to be opened in a direction away from the mounting plate 141. The flexibility of above structure is strong, is favorable to protecting structure, and fold with open convenient operation swift, occupy the space little after folding.

Further, the length of the strip lamp bracket 143 is set to be larger than that of the strip light source, the hollowed-out part 143a extends along the length direction of the strip lamp bracket 143, and the second set screw 144 is set to pass through the hollowed-out part 143a to tightly fix the strip light source; when the second set screw 144 is loosened, the strip light source can be adjusted in the strip light bracket 143 along the length direction of the strip light bracket 143 so as to obtain a proper light emitting angle, and the diversified lighting requirements are met in the adjusting process.

Further, a plurality of second screw holes (not shown in the figure) may be provided on the mounting plate 141, and the plurality of second screw holes belong to different specifications; a plurality of second set screws 144 are arranged, and the plurality of second set screws 144 belong to different specifications; a plurality of second set screws 144 may be respectively engaged with the second screw holes of corresponding specifications; and according to the type of the selected strip light source, the strip light source is fastened by using the second set screw 144 with the corresponding specification from the second screw hole, and the second set screws 144 with other types are used as strip light sources with other types for standby.

In the embodiment shown in fig. 1 to 3, a control module (not shown) electrically connected to the power socket 3 or the built-in power supply is provided, and a motor 5 is also provided to be electrically connected to the control module, so that the stage can be driven to move forward, backward, and back and forth at a certain speed under the action of the control module.

The carrying platform 2 is further provided with a touch display screen 20 and an operation button 21, the touch display screen 20 and the operation button 21 are electrically connected with the control module, various parameters of the sliding table assembly 4 can be read through the touch display screen, the parameters are set again, and operations such as starting, emergency stopping and returning of the sliding table assembly 4 can be controlled through the operation button 21.

The control module is fixedly disposed in the lower housing cavity, where the carrying platform 2 may be fixedly connected to the side wall of the lower case 102, such as glue adhesion, or preferably, the carrying platform 2 is detachably connected to the inner wall of the lower case 102 through a connecting member, more preferably, a protruding member or a protruding edge may be provided on a side wall of the lower case 102 to support the carrying platform 2, so that the carrying platform 2 may be conveniently taken out of the lower case 102, so as to maintain a structure placed in the lower-layer accommodating cavity, such as a control module.

In the embodiment shown in fig. 1 and 2, preferably, a telescopic pull rod (not shown) and a universal wheel (not shown) may be disposed on the outer wall of the case 1, so that the external structural features of the case are similar to those of the luggage case, and when the upper case cover 101 is closed relative to the lower case 102, the telescopic pull rod may be pulled, so as to drive the case 1 to displace through the universal wheel, so that the case is convenient and labor-saving in carrying and transporting.

In the embodiment shown in fig. 3, it is preferable that the mounting platform 2 is further provided with a sink 15, and when the detection module 7 is placed on the mounting platform 2, if the detection module is provided with a bolt, a screw, or the like for fixing or adjusting, the sink 15 provided at a corresponding position can be used as a avoiding hole, so as to further ensure that the detection module 7 is stably placed on the mounting platform 2.

In the embodiment shown in fig. 3, preferably, the carrying platform 2 may be further provided with a heat dissipation through hole 16, so that a large amount of heat possibly generated by the control module located in the lower accommodating cavity during working can be dissipated to the external environment in time through the heat dissipation through hole 16, thereby avoiding overheating of the control module and improving the structural reliability.

While the preferred embodiment of the present application has been described in detail, the present application is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present application, and the equivalent modifications or substitutions are included in the scope of the present application as defined in the appended claims.

Claims (8)

1. A portable testing platform, comprising:

The box body comprises an upper box cover and a lower box body, and the upper box cover can be opened or closed relative to the lower box body;

The carrying platform is positioned in the lower box body, and a lower layer accommodating cavity is formed between the carrying platform and the bottom of the lower box body;

The sliding table assembly comprises a sliding rail and a displacement block which are matched with each other, and the displacement block is driven by a motor to displace along the sliding rail and simultaneously drives an objective table fixedly connected with the displacement block to displace; the carrying platform is fixedly provided with a power socket for externally connecting a power supply, or the lower layer accommodating cavity is internally fixedly provided with a built-in power supply, and the motor is electrically connected with the power socket or the built-in power supply;

The support tube storage module is fixedly arranged on the carrying platform and used for accommodating the detached support tube;

The fixed mounting part is fixedly arranged on the carrying platform and is used for fixedly mounting the support tube in the working state;

the limiting piece is fixedly arranged on the carrying platform;

The detection module is fixedly arranged on at least one support pipe connected with the fixed installation part when in a working state, and is used for detecting a workpiece to be detected on the objective table; when the detection module is detached from the bracket tube and then placed on the carrying platform, the limiting piece plays a limiting role on the detection module;

The support tube storage module and the fixed mounting part are arranged close to the sliding table assembly; the limiting piece is arranged close to the edge of the carrying platform;

The portable detection platform further comprises a light source mounting frame, and the light source mounting frame is positioned between the detection module and the objective table and fixedly connected with the bracket tube in a working state; and in a non-working state, the light source mounting frame is detached from the bracket tube and is placed in the box body or is independently placed outside the box body.

2. The portable testing platform of claim 1, wherein:

The detection module comprises a composite adjusting component, a clamping component and a detection element;

The composite adjusting component is fixedly connected with the bracket tube; the detection element is positioned and clamped by the clamping assembly; and in a working state, the clamping assembly is fixedly connected with the composite adjusting assembly, and can drive the detection element to adjust displacement under the action of the composite adjusting assembly.

3. The portable testing platform of claim 2, wherein:

The composite adjusting assembly comprises an X-direction displacement mechanism, a Z-direction displacement mechanism and a Y-direction rotating mechanism, wherein the support tube is fixedly connected with the X-direction displacement mechanism, the X-direction displacement mechanism can drive the Z-direction displacement mechanism fixedly connected with the X-direction displacement mechanism to carry out X-direction displacement adjustment, the Z-direction displacement mechanism can drive the Y-direction rotating mechanism fixedly connected with the Z-direction displacement mechanism to carry out Z-direction adjustment, and the Y-direction rotating mechanism can drive the clamping assembly fixedly connected with the Y-direction rotating mechanism to rotate around the Y-direction.

4. The portable testing platform of claim 1, wherein: the support tube storage module comprises a first vertical plate and a second vertical plate which are fixedly arranged on the carrying platform and are oppositely arranged;

the end surface of the first vertical plate facing the second vertical plate is provided with a groove capable of accommodating the end part of the bracket tube;

The end face of the second vertical plate facing the first vertical plate is fixedly connected with a mounting block, and a through hole is formed in the mounting block; the front end of the protruding block penetrates through the through hole and is opposite to the groove, and the mounting block limits the rear end of the protruding block to enable the rear end of the protruding block to be accommodated in the through hole; a compression spring arranged along the axial direction of the through hole, one end of the compression spring is abutted against the rear end of the protruding block, and the other end of the compression spring is abutted against the second vertical plate;

and one end of the bracket tube detached from the fixed mounting part abuts against the bottom of the groove, and the other end abuts against the front end of the protruding block to be mounted in a suspended manner.

5. The portable testing platform of claim 1, wherein: setting a mounting block fixedly connected with the detection module, wherein the mounting block is provided with a through hole and a first screw hole, and the mounting block is sleeved on the bracket tube through the through hole in a working state; a first set screw is arranged to pass through the first screw hole to prop against the bracket tube, so that the fixed connection between the mounting block and the bracket tube is realized;

The limiting piece comprises a limiting column, when the limiting piece is not in working state, the first set screw is loosened, the mounting block is detached from the support tube, and the mounting block is sleeved on the limiting column through the through hole.

6. The portable inspection platform of claim 1, wherein the light source mounting bracket comprises:

the mounting plate is provided with a mounting hole which is fixedly connected with the bracket tube in a matching way;

At least one hinge block hinged with the mounting plate, wherein the hinge block can rotate in a plane parallel to the mounting plate;

The strip-shaped lamp holder is internally provided with a strip-shaped light source, and light emitted by the strip-shaped light source is emitted through a hollowed-out part arranged on the outer wall of the strip-shaped lamp holder; one end of the strip-shaped lamp holder is movably connected with the hinge block through a connecting shaft, and the strip-shaped lamp holder can be axially rotated and adjusted around the connecting shaft;

In a non-working state, the strip-shaped lamp holder rotates through the hinge block and is folded above the mounting plate; under the operating condition, the strip lamp bracket rotates through the hinge block and is opened to the direction of keeping away from the mounting panel.

7. The portable testing platform of any one of claims 1,3, 6, wherein: the control module is arranged, the power socket or the built-in power supply is electrically connected with the motor through the control module, and the control module is fixedly arranged in the lower-layer accommodating cavity; the carrying platform is further provided with a touch display screen and an operation button, and the touch display screen and the operation button are electrically connected with the control module.

8. The portable testing platform of any one of claims 1,3, 6, wherein: the outer wall of the box body is provided with a telescopic pull rod and a universal wheel, and when the upper box cover is closed relative to the lower box body, the telescopic pull rod can be pulled to drive the box body to move through the universal wheel.