CN210284314U - Optical axis conveying structure - Google Patents

Abstract

The utility model relates to the technical field of accessory devices for conveying devices, in particular to an optical axis conveying structure, which can be conveniently and stably placed when the devices are conveyed, thereby improving the use reliability of the devices; comprises a bottom plate and four groups of trundles; still include the rotor plate, two sets of installation pieces and two sets of stopper, two sets of stoppers all include connecting pipe and spliced pole, the inner of two sets of spliced poles all is provided with splint, two sets of stoppers still all include two sets of spacing slide bars and spacing spring, the connecting pipe front side and rear side all are provided with the intercommunication groove, still include the pivot, two sets of pillar and two sets of pulleys, bottom plate top middle part is provided with rotates the groove, the pivot bottom is provided with the rotor plate, still include four groups of upper junction blocks, four groups of cover springs, four groups of flexible pipes, four groups of lower junction blocks, annular iron plate and annular magnet stone plate, the other end of four groups of flexible pipes is connected with four groups of lower junction blocks respectively, four groups of cover springs are the suit respectively in four groups of flexible pipe.

Description

Optical axis conveying structure

Technical Field

The utility model relates to a technical field of accessory is carried to the device, especially relates to an optical axis transport structure.

Background

As is well known, an optical axis conveying structure is an auxiliary device used for conveying a device in the optical axis production and processing process so as to better perform subsequent operation, and is widely used in the field of device conveying; the existing optical axis conveying structure comprises a bottom plate and four groups of trundles, wherein the top ends of the four groups of trundles are respectively arranged on the left front side, the right front side, the left rear side and the right rear side of the bottom end of the bottom plate; when the existing optical axis conveying structure is used, a device is placed at the top end of a bottom plate and is conveyed by four groups of foot wheels; the existing optical axis conveying structure is found in use, and when devices are conveyed, the devices cannot be conveniently and stably placed, so that the use reliability of the devices is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a when its device is carried, can conveniently stabilize and place to improve its optical axis transport structure who uses the reliability.

The optical axis conveying structure of the utility model comprises a bottom plate and four groups of trundles; the device comprises a rotating plate, two groups of mounting blocks and two groups of limiters, wherein the bottoms of the two groups of mounting blocks are respectively arranged on the left side and the right side of the top end of the rotating plate, the two groups of limiters respectively comprise connecting pipes and connecting columns, the inner ends of the two groups of connecting columns are respectively provided with a clamping plate, the two groups of connecting pipes are respectively arranged on the top ends of the two groups of mounting blocks, the outer ends of the two groups of connecting columns are respectively inserted into the two groups of connecting pipes, the two groups of limiters also comprise two groups of limiting slide bars and limiting springs, the limiting springs are positioned inside the connecting pipes, the outer ends of the limiting springs are connected with the inner side walls of the connecting pipes, the inner ends of the limiting springs are connected with the outer ends of the connecting columns, the front sides and the rear sides of the connecting pipes are respectively, the rotary plate comprises a rotary shaft, two groups of support columns and two groups of pulleys, wherein a rotary groove is formed in the middle of the top end of a bottom plate, a rotary sheet is arranged at the bottom end of the rotary shaft and is positioned inside the rotary groove, the rotary sheet can rotate relative to the rotary groove, the top end of the rotary shaft is connected with the bottom end of a rotary plate, the top ends of the two groups of support columns are respectively connected with the left side and the right side of the bottom end of the rotary plate, the two groups of pulleys are respectively rotatably arranged below the two groups of support columns, the bottom ends of the two groups of pulleys are respectively contacted with the top end of the bottom plate, the rotary plate further comprises four groups of upper connecting blocks, four groups of sleeve springs, four groups of telescopic pipes, four groups of lower connecting blocks, an annular iron plate and an annular iron-absorbing stone plate, the annular iron-absorbing stone plate is rotatably sleeved outside the rotary shaft, the, the other ends of the four groups of sleeve springs are respectively connected with the four groups of lower connecting blocks, one ends of the four groups of telescopic pipes are respectively connected with the four groups of upper connecting blocks, the other ends of the four groups of telescopic pipes are respectively connected with the four groups of lower connecting blocks, the four groups of sleeve springs are respectively sleeved on the outer sides of the four groups of telescopic pipes, the four groups of lower connecting blocks are all arranged at the top end of the bottom plate, and the annular iron plate and the annular iron-absorbing.

The utility model discloses an optical axis transport structure still places incasement portion and is provided with and place the chamber including placing the case, places case top intercommunication and is provided with and gets and put the mouth, places the case and installs in the rotor plate front side, still includes push pedal, push rod and ejector pad, and the ejector pad is located places intracavity portion, and the push rod top is connected with the ejector pad bottom, and the push rod bottom is passed and is placed the bottom of the case lateral wall and stretch out to placing the case below and be connected with the push pedal.

The utility model discloses an optical axis transport structure still includes two sets of reset blocks, two sets of reset spring and two sets of reset blocks down, and two sets of reset blocks that go up are installed respectively and are being placed bottom of the case end left side and right side, and two sets of reset spring's top is connected with two sets of reset block bottoms that go up respectively, and two sets of reset spring's bottom is connected with two sets of reset block tops down respectively, and two sets of reset blocks down are all installed on the push pedal top.

The utility model discloses an optical axis transport structure still includes the bradyseism pole under bradyseism pole, four bradyseism springs of group and four groups on four groups, and the bradyseism pole is installed respectively in bottom plate bottom left front side, right front side, left rear side and right rear side on four groups, and the one end of four bradyseism springs of group is connected with the bradyseism pole on four groups respectively, and four bradyseism springs of group's the other end is connected with four bradyseism poles under the group respectively, and four truckles of group are rotatable the below of installing bradyseism pole under four groups respectively.

The utility model discloses an optical axis transport structure still includes four group's mounts, and four group's mounts are the suit respectively at four group's bradyseism pole lateral walls down, and four group's mount tops are connected with bottom plate bottom left front side, right front side, left rear side and right rear side respectively.

The utility model discloses an optical axis transport structure still includes four group's lead screws, four group's screw rings and four group's weight, and four group's screw rings are installed respectively at bottom plate left side the place ahead and rear and bottom plate right side the place ahead and rear, and the bottom of four group's lead screws is inside and the spiral shell goes out respectively to four group's screw ring tops and is connected with four group's weight below, and four group's lead screw tops all are provided with the stopper to four group's lead screws tops.

The utility model discloses an automatic nailing device in photoelectric detection location, two sets of splint inboards all are provided with the skid resistant course.

Compared with the prior art, the beneficial effects of the utility model are that: the device can be conveniently adjusted by manually sliding the two groups of limiting sliding rod groups to respectively drive the clamping plates on the two groups of connecting columns to transversely move, compressing or stretching the two groups of limiting springs to fix the distance between the two groups of clamping plates, tightly adhering, extruding and fixing the device under the elasticity of the two groups of springs, so that the device can be conveniently and stably placed when being conveyed, thereby improving the use reliability of the device, meanwhile, the placing angle of the device can be conveniently adjusted according to the self requirement by matching the design that the rotating shaft can rotate relative to the rotating groove through the manual rotation of the rotating shaft and the rotating sheet, the adaptive capacity of the device is improved, the rotating shaft is assisted to rotate by the two groups of supporting columns and the two groups of pulleys to improve the supporting capacity, the annular iron plate and the annular iron-absorbing stone plate are mutually adsorbed to conveniently limit the rotating shaft, and when the rotating shaft rotates, the annular, the rotating shaft is convenient to rotate again, and the two groups of telescopic pipes assist the two groups of sleeve springs to be not easy to distort and deform when in supporting.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged partial view of portion A of FIG. 1;

FIG. 3 is an enlarged view of a portion B of FIG. 1;

FIG. 4 is a schematic view of the connection of the connecting tube and the connecting column;

in the drawings, the reference numbers: 1. a base plate; 2. a caster wheel; 3. a rotating plate; 4. mounting blocks; 5. a connecting pipe; 6. connecting columns; 7. a splint; 8. a limiting slide bar; 9. a limiting spring; 10. a communicating groove; 11. a rotating shaft; 12. a pillar; 13. a pulley; 14. a rotating sheet; 15. a spring sleeve; 16. an annular iron plate; 17. an annular magnet stone plate; 18. pushing the plate; 19. a push rod; 20. a push block; 21. a return spring; 22. a cushioning spring; 23. a fixed mount; 24. a lead screw; 25. a thread ring; 26. a weighting block; 27. a limiting block; 28. an anti-slip layer; 29. and (4) placing the box.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, the optical axis conveying structure of the present invention includes a bottom plate 1 and four sets of casters 2; the device comprises a rotating plate 3, two groups of mounting blocks 4 and two groups of limiters, wherein the bottoms of the two groups of mounting blocks 4 are respectively arranged on the left side and the right side of the top end of the rotating plate 3, the two groups of limiters respectively comprise connecting pipes 5 and connecting columns 6, the inner ends of the two groups of connecting columns 6 are respectively provided with a clamping plate 7, the two groups of connecting pipes 5 are respectively arranged on the top ends of the two groups of mounting blocks 4, the outer ends of the two groups of connecting columns 6 are respectively inserted into the two groups of connecting pipes 5, the two groups of limiters also respectively comprise two groups of limiting slide bars 8 and limiting springs 9, the limiting springs 9 are positioned inside the connecting pipes 5, the outer ends of the limiting springs 9 are connected with the inner side walls of the connecting pipes 5, the inner ends of the limiting springs 9 are connected with the outer ends of the connecting columns 6, the front side and the rear side of the, the two groups of limiting slide rods 8 can respectively slide relative to the two groups of communication grooves 10, the device further comprises a rotating shaft 11, two groups of supporting columns 12 and two groups of pulleys 13, a rotating groove is formed in the middle of the top end of the bottom plate 1, a rotating sheet 14 is arranged at the bottom end of the rotating shaft 11, the rotating sheet 14 is located inside the rotating groove and can rotate relative to the rotating groove, the top end of the rotating shaft 11 is connected with the bottom end of the rotating plate 3, the top ends of the two groups of supporting columns 12 are respectively connected with the left side and the right side of the bottom end of the rotating plate 3, the two groups of pulleys 13 are respectively rotatably installed below the two groups of supporting columns 12, the bottom ends of the two groups of pulleys 13 are respectively contacted with the top end of the bottom plate 1, the device further comprises four groups of upper connecting blocks, four groups of sleeve springs 15, four groups of telescopic pipes, four groups of lower connecting blocks, an annular iron plate 16 and an annular, One end of each of four groups of sleeve springs 15 is connected with four groups of upper connecting blocks respectively, the other end of each of four groups of sleeve springs 15 is connected with four groups of lower connecting blocks respectively, one end of each of four groups of telescopic pipes is connected with four groups of upper connecting blocks respectively, the other end of each of four groups of telescopic pipes is connected with four groups of lower connecting blocks respectively, four groups of sleeve springs 15 are sleeved outside the four groups of telescopic pipes respectively, the four groups of lower connecting blocks are mounted at the top end of the bottom plate 1, and the annular iron plate 16 and the annular iron-absorbing stone plate 17 are adsorbed to each other; the device can be conveniently adjusted by manually sliding the two groups of limiting sliding rod groups to respectively drive the clamping plates on the two groups of connecting columns to transversely move, compressing or stretching the two groups of limiting springs to fix the distance between the two groups of clamping plates, tightly adhering, extruding and fixing the device under the elasticity of the two groups of springs, so that the device can be conveniently and stably placed when being conveyed, thereby improving the use reliability of the device, meanwhile, the placing angle of the device can be conveniently adjusted according to the self requirement by matching the design that the rotating shaft can rotate relative to the rotating groove through the manual rotation of the rotating shaft and the rotating sheet, the adaptive capacity of the device is improved, the rotating shaft is assisted to rotate by the two groups of supporting columns and the two groups of pulleys to improve the supporting capacity, the annular iron plate and the annular iron-absorbing stone plate are mutually adsorbed to conveniently limit the rotating shaft, and when the rotating shaft rotates, the annular, the rotating shaft is convenient to rotate again, and the two groups of telescopic pipes assist the two groups of sleeve springs to be not easy to distort and deform when in supporting.

The optical axis conveying structure of the utility model also comprises a placing box 29, a placing cavity is arranged inside the placing box 29, the top end of the placing box 29 is communicated with a taking and placing port, the placing box 29 is arranged at the front side of the rotating plate 3, the optical axis conveying structure also comprises a push plate 18, a push rod 19 and a push block 20, the push block 20 is positioned inside the placing cavity, the top end of the push rod 19 is connected with the bottom end of the push block 20, and the bottom end of the push rod 19 penetrates through the bottom side wall of the placing box 29 and extends to the lower part of the placing box 29 to be connected; it can hold the operation work piece through placing the convenient of case, improves its practicality, when the operation work piece is too little, can make it drive the ejector pad and upwards promote through promoting the push pedal, makes things convenient for taking out of operation work piece.

The optical axis conveying structure of the utility model also comprises two groups of upper reset blocks, two groups of reset springs 21 and two groups of lower reset blocks, wherein the two groups of upper reset blocks are respectively arranged at the left side and the right side of the bottom end of the placing box 29, the top ends of the two groups of reset springs 21 are respectively connected with the bottom ends of the two groups of upper reset blocks, the bottom ends of the two groups of reset springs 21 are respectively connected with the top ends of the two groups of lower reset blocks, and the two groups of lower reset blocks are both arranged at the top end; it can be through two sets of reset spring convenience with the ejector pad bottom with place intracavity bottom lateral wall contact, guaranteed to place the normal use of case.

The utility model discloses an optical axis transport structure still includes four groups of upper shock-absorbing poles, four groups of shock-absorbing springs 22 and four groups of lower shock-absorbing poles, four groups of upper shock-absorbing poles are installed respectively in bottom 1 bottom left front side, right front side, left rear side and right rear side, four groups of shock-absorbing springs 22's one end is connected with four groups of upper shock-absorbing poles respectively, four groups of shock-absorbing springs 22's the other end is connected with four groups of lower shock-absorbing poles respectively, four groups of truckles 2 are rotatable respectively and are installed below four groups of lower shock-absorbing poles; when the driving surface is not flat enough, the buffering can be carried out through four groups of buffering springs, so that the whole horizontal state is maintained conveniently, and the reliability of the device is improved.

The optical axis conveying structure of the utility model also comprises four groups of fixing frames 23, the four groups of fixing frames 23 are respectively sleeved on the outer side walls of the four groups of lower shock-absorbing rods, and the top ends of the four groups of fixing frames 23 are respectively connected with the left front side, the right front side, the left rear side and the right rear side of the bottom end of the bottom plate 1; it can maintain the stability of four groups of lower bradyseism poles through four groups of mounts, improves its stability.

The optical axis conveying structure of the utility model also comprises four groups of screw rods 24, four groups of thread rings 25 and four groups of weighting blocks 26, wherein the four groups of thread rings 25 are respectively arranged in front and at the rear of the left side of the bottom plate 1 and in front and at the rear of the right side of the bottom plate 1, the bottom ends of the four groups of screw rods 24 are respectively screwed into the top ends of the four groups of thread rings 25 and are respectively screwed out to the lower parts of the four groups of thread rings 25 to be connected with the four groups of weighting blocks 26, and the top ends of the four; it can be through the convenient stability of the cooperation of four group's lead screws, four group's thread circles and four group's weights, when whole needs are stable, manual four group's lead screws of rotating downwards make four group's weights bottom be located four group's truckle below to convenient stable, and when whole needs removed, manual four group's lead screws of upwards rotating make four group's weights bottom be located four group's truckle tops, thereby make things convenient for the moving as a whole, and more practical, four group's stoppers are convenient carries out decurrent spacing to the lead screw.

In the optical axis conveying structure of the utility model, the inner sides of the two groups of clamping plates 7 are provided with the anti-skid layers 28; it can improve and press from both sides dress fixed reliability through two sets of skid resistant layers.

The optical axis conveying structure of the utility model can respectively drive the clamping plates on the two groups of connecting columns to transversely move by manually sliding the two groups of limiting slide rod groups when in work, compress or stretch the two groups of limiting springs to ensure that the space between the two groups of clamping plates is fixed and can be conveniently adjusted, the device is tightly adhered, extruded and fixed under the self elasticity of the two groups of springs, and can be conveniently and stably placed when the device is conveyed, thereby improving the use reliability of the device, meanwhile, the device placing angle can be conveniently adjusted according to the self requirement by the design that the manual rotating shaft is matched with the rotating sheet to rotate relative to the rotating groove, the adaptability of the device is improved, the rotating shaft is assisted to rotate and improve the supporting capacity by the two groups of supporting columns and the two groups of pulleys, the reliability is improved, the annular iron plate and the annular iron-absorbing plate are, the two groups of sleeve springs are manually extruded to ensure that the annular iron plate and the annular iron-absorbing stone plate are not mutually adsorbed any more, so that the rotating shaft can conveniently rotate again, and the two groups of telescopic pipes assist the two groups of sleeve springs to be not easy to distort and deform during supporting; the operation workpieces can be conveniently placed through the placing box, the practicability of the operation workpieces is improved, when the number of the operation workpieces is too small, the push plate can be pushed to drive the push block to push upwards, and the operation workpieces can be conveniently taken out; the bottom end of the push block can be conveniently contacted with the side wall of the bottom in the placing cavity through two groups of reset springs, so that the normal use of the placing box is ensured; when the driving surface is not flat enough, the four groups of shock absorption springs can be used for buffering, so that the whole horizontal state is maintained conveniently, and the reliability of the driving surface is improved; the four groups of lower shock absorption rods can be kept stable through the four groups of fixed frames, so that the stability of the four groups of lower shock absorption rods is improved; the four groups of lead screws, the four groups of threaded rings and the four groups of weighting blocks are matched conveniently and stably, when the whole body needs to be stabilized, the four groups of lead screws are manually rotated downwards, so that the bottom ends of the four groups of weighting blocks are positioned below the four groups of trundles, and therefore the whole body is convenient to stabilize, and when the whole body needs to be moved, the four groups of lead screws are manually rotated upwards, so that the bottom ends of the four groups of weighting blocks are positioned above the four groups of trundles, so that the whole body is convenient to move, the four groups of limiting blocks are more; the clamping and fixing reliability can be improved through the two groups of anti-slip layers.

The utility model discloses an optical axis transport structure, above the mounting means, the connected mode or the mode that sets up of all parts are welding, riveting or other common mechanical modes, wherein slidable/rotate fixedly promptly do not drop under the slip/rotation state, seal when sealed intercommunication is two connecting pieces intercommunications promptly to concrete structure, model and the coefficient index of its all parts are its from taking the technique, as long as can reach all can implementing of its beneficial effect, so do not add at many and give unnecessary details.

In the optical axis conveying structure of the present invention, unless otherwise stated, the terms "up, down, left, right, front, back, inner, and vertical, horizontal" and the like are included in the terms and are intended to represent only the orientation of the term in the normal use state, or be a trivial term understood by those skilled in the art, and should not be considered as limiting the term, at the same time, the numerical terms "first," "second," and "third," etc. do not denote any particular quantity or order, but rather are used to distinguish one from another, furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements, but also includes other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (7)

1. An optical axis conveying structure comprises a bottom plate (1) and four groups of trundles (2); the device is characterized by further comprising a rotating plate (3), two groups of mounting blocks (4) and two groups of limiters, wherein the bottoms of the two groups of mounting blocks (4) are respectively arranged on the left side and the right side of the top end of the rotating plate (3), the two groups of limiters respectively comprise connecting pipes (5) and connecting columns (6), the inner ends of the two groups of connecting columns (6) are respectively provided with a clamping plate (7), the two groups of connecting pipes (5) are respectively arranged on the top ends of the two groups of mounting blocks (4), the outer ends of the two groups of connecting columns (6) are respectively inserted into the two groups of connecting pipes (5), the two groups of limiters also respectively comprise two groups of limiting slide rods (8) and limiting springs (9), the limiting springs (9) are positioned inside the connecting pipes (5), the outer ends of the limiting springs (9) are connected with the inner side walls of the connecting pipes (5), the inner ends of the limiting springs (, one end of two groups of limit slide bars (8) is respectively connected with the front side and the rear side of the connecting column (6), the other end of the two groups of limit slide bars (8) respectively passes through the two groups of communicating grooves (10) and extends out of the connecting tube (5), the two groups of limit slide bars (8) respectively can slide relative to the two groups of communicating grooves (10), the device also comprises a rotating shaft (11), two groups of struts (12) and two groups of pulleys (13), the middle part of the top end of the bottom plate (1) is provided with a rotating groove, the bottom end of the rotating shaft (11) is provided with a rotating sheet (14), the rotating sheet (14) is positioned in the rotating groove, the rotating sheet (14) can rotate relative to the rotating groove, the top end of the rotating shaft (11) is connected with the bottom end of the rotating plate (3), the top ends of the two groups of struts (12) are respectively connected with the left side and the right side of the bottom end of the rotating plate (3), the telescopic type steel plate spring support further comprises four groups of upper connecting blocks, four groups of sleeve springs (15), four groups of telescopic pipes, four groups of lower connecting blocks, an annular iron plate (16) and an annular iron-absorbing stone plate (17), wherein the annular iron plate (16) is rotatably sleeved outside the rotating shaft (11), the annular iron-absorbing stone plate (17) is fixedly sleeved outside the rotating shaft (11), the top ends of the four groups of upper connecting blocks are respectively arranged on the left front side, the right front side, the left rear side and the right rear side of the bottom end of the annular iron plate (16), one ends of the four groups of sleeve springs (15) are respectively connected with the four groups of upper connecting blocks, the other ends of the four groups of telescopic pipes are respectively connected with the four groups of lower connecting blocks, the four groups of sleeve springs (15) are respectively sleeved outside the four groups of telescopic pipes, and the four groups of lower connecting blocks are all arranged at the top end, the annular iron plate (16) and the annular iron-absorbing stone plate (17) are mutually adsorbed.

2. The optical axis conveying structure of claim 1, further comprising a placing box (29), wherein a placing cavity is arranged inside the placing box (29), a taking and placing opening is formed in the top end of the placing box (29), the placing box (29) is installed on the front side of the rotating plate (3), the optical axis conveying structure further comprises a push plate (18), a push rod (19) and a push block (20), the push block (20) is located inside the placing cavity, the top end of the push rod (19) is connected with the bottom end of the push block (20), and the bottom end of the push rod (19) penetrates through the bottom side wall of the placing box (29) and extends out of the lower portion of the placing box (29) to be connected with the push plate (18).

3. The optical axis conveying structure according to claim 2, further comprising two sets of upper reset blocks, two sets of reset springs (21) and two sets of lower reset blocks, wherein the two sets of upper reset blocks are respectively installed at the left side and the right side of the bottom end of the placing box (29), the top ends of the two sets of reset springs (21) are respectively connected with the bottom ends of the two sets of upper reset blocks, the bottom ends of the two sets of reset springs (21) are respectively connected with the top ends of the two sets of lower reset blocks, and the two sets of lower reset blocks are both installed at the top end of the push plate (18).

4. The optical axis conveying structure according to claim 3, further comprising four sets of upper shock absorption rods, four sets of shock absorption springs (22) and four sets of lower shock absorption rods, wherein the four sets of upper shock absorption rods are respectively installed at the left front side, the right front side, the left rear side and the right rear side of the bottom end of the bottom plate (1), one ends of the four sets of shock absorption springs (22) are respectively connected with the four sets of upper shock absorption rods, the other ends of the four sets of shock absorption springs (22) are respectively connected with the four sets of lower shock absorption rods, and the four sets of casters (2) are respectively rotatably installed below the four sets of lower shock absorption rods.

5. The optical axis conveying structure according to claim 4, further comprising four sets of fixing frames (23), wherein the four sets of fixing frames (23) are respectively sleeved on the outer side walls of the four sets of lower shock-absorbing rods, and the top ends of the four sets of fixing frames (23) are respectively connected with the left front side, the right front side, the left rear side and the right rear side of the bottom end of the bottom plate (1).

6. The optical axis conveying structure according to claim 5, further comprising four sets of screw rods (24), four sets of screw rings (25) and four sets of weighting blocks (26), wherein the four sets of screw rings (25) are respectively installed in front of and behind the left side of the bottom plate (1) and in front of and behind the right side of the bottom plate (1), the bottom ends of the four sets of screw rods (24) are respectively screwed into the top ends of the four sets of screw rings (25) and are respectively screwed out to the lower sides of the four sets of screw rings (25) to be connected with the four sets of weighting blocks (26), and the top ends of the four sets of screw rods (24) are respectively provided with a limiting block (.

7. Optical axis transport structure according to claim 6, characterized in that the inner sides of both sets of clamping plates (7) are provided with an anti-slip layer (28).

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