CN113001493A - Non-contact optical flat plate clamp - Google Patents

Abstract

The invention discloses a non-contact optical flat clamp. It includes anchor clamps frame unit, propulsion pole unit, stores base unit and mount pad unit, its characterized in that: the push rod unit is arranged on the clamp frame unit to clamp the tested piece, the clamp frame unit is connected with the storage base unit and placed on the mounting base unit, the tested piece can be clamped through the push rod unit and other parts, the storage box is directly taken out through the design of the storage box and placed on the clamp base, and the possibility of artificial contact and mechanical damage is avoided. The clamp designed by the invention can avoid the possibility of fouling the surface of the tested piece in the process of manually taking and clamping the tested piece, thereby reducing the measurement error, avoiding the need of manually clamping and moving the tested piece, avoiding the operation of clamping and taking down the tested piece for multiple times by the traditional clamp and further reducing the measurement cost.

Description

Non-contact optical flat plate clamp

Technical Field

The invention relates to a non-contact optical flat clamp, in particular to a method for realizing the surface non-contact storage and clamping of a tested piece through a clamp frame unit, a push rod unit, a storage base unit and a mounting base unit, which are arranged, and is suitable for the storage and clamping of an optical lens.

Background

The multi-surface transparent optical parallel flat plate has very high surface quality, the difference of the fluctuant peaks and valleys of the surface is in micron or even nanometer level, and the multi-surface transparent optical parallel flat plate has application in various fields. The storage and holding of such plates is one of the difficulties in the measurement of their surface topography. The reason is that: the high-precision optical flat plate has high surface quality, so that the surface of the flat plate is prevented from being manually or mechanically contacted to the greatest extent possible during clamping and storing, because the contact can possibly damage the surface of the flat plate. Moreover, the flat plate is made of fused quartz material, is brittle and can be completely damaged once being carelessly slid off. It is therefore of great interest to design a holder and storage device that can hold and hold the flat panel without damage.

At present, most of the applied clamps and storage systems adopt fixed clamps, the optical flat plate is taken from the storage box by manually using two hands, and after the optical flat plate is placed on the clamps, the compression heads of the clamps are rotated to compress a tested piece. The drawbacks of this approach are quite evident: (1) in the process of manually taking the tested piece, the surface of the tested piece is easy to damage; (2) in the process of manual taking and clamping, because only the outer edge part can be taken, but the diameters of a plurality of measured pieces are larger, accidents or mistaken touch of fingers are easily sent in the process, and the measured pieces are damaged; (3) in the process of taking and clamping a large-diameter measured piece, because the surface of the large-diameter measured piece is strictly prohibited to be in direct contact, the clamping head and the clamping position are difficult to adjust in the clamping process, and as a result, when the measured piece is subjected to interference measurement, the inclination of an acquired interference pattern is large and fringes are dense, so that the inclination of the part needs to be eliminated in the topography measurement technology, and the measurement cost is increased.

Based on the above-mentioned characteristics and disadvantages of the current clamping method, the present invention provides a non-contact optical flat clamp.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a non-contact optical flat clamp, which aims to solve the defects in the prior measuring method, in particular the problem that an optical lens is easy to be stained and even damaged in clamping and storing. The clamping object aimed by the invention is a transparent optical lens parallel flat plate, the surface of the lens needs to be measured with high precision so as to measure and evaluate the surface appearance characteristic accurately, and therefore, the possibility of being contaminated and containing errors in the measuring process needs to be reduced as much as possible.

In order to achieve the purpose of the invention, the invention adopts the following inventive concept:

the principle of the invention is as follows: through designing anchor clamps system and accessory thereof for when being surveyed the piece and storing and the centre gripping through the anchor clamps that this patent designed, can realize the clamp tightly of being surveyed the piece through parts such as push rod unit on the one hand, on the other hand realizes directly taking from storing the box to being surveyed the piece through the design that stores the box, and place the piece being surveyed on the anchor clamps base, avoided the possibility that artificial contact and mechanical damage led to the fact the injury to its surface.

According to the inventive concept, the invention adopts the following technical scheme:

a non-contact optical flat jig includes a jig frame unit, a push rod unit, a storage base unit, and a mount base unit; the push rod unit is arranged on the clamp frame unit, the tested piece is clamped, the clamp frame unit is connected with the base storage unit and placed on the mounting base unit, the clamping of the tested piece is realized through the push rod unit, the direct taking from the storage box is realized through the storage box, and the clamp frame unit is placed on the clamp base, so that the possibility that the surface of the tested piece is damaged by human contact and mechanical damage is avoided.

Preferably, the clamp frame unit comprises a clamp frame, hand grips and support rods, the clamp frame is an octagonal frame, two support rods are fixed on the inner side of the lower portion of the clamp frame, two hand grips are fixed on two sides of the outer portion of the clamp frame respectively, two oblique threaded through holes are formed in the corner edges of two ends of the upper portion of the clamp frame respectively, and two holes are formed in the outer side surface of the bottom edge of the clamp frame and are used as mounting holes.

Preferably, the push rod units are two push rods, one end of each push rod, which is far away from the center of the clamp frame, is a knob with a convex pattern on the outer edge, and the knob is a circular cylinder and is welded on a smooth rod body in the middle of the push rod; the lower part of the smooth rod body in the middle of the push rod is also a cylinder which is slightly thicker than the smooth part, the diameter of the cylinder is 1.2 times of that of the smooth part, the edge of the smooth part is provided with external threads, and the threaded through hole is connected with the smooth part in a threaded matching way; the end of the push rod close to the center of the clamp frame is provided with a cylindrical extending part, the top end of the cylindrical extending part is welded with a semi-annular bulge, and a layer of anti-slip rubber is adhered on the outer part of the bulge.

Preferably, the storage base unit is a storage base, wherein the storage base is provided with a fixed pin bottom hole, the storage base is in a hollow octagon shape, the outer edge of the middle hollow part is similar to the outer edge of the outer wall of the storage base, and the upper edge and the lower edge clamped by the left side and the right side are slightly shorter and are 80% of the side length clamped by the two sides of the outer edge; the middle part of the solid wall at two sides of the storage base is provided with a fixed pin bottom hole, the middle part of the hole is the same as the fixed pin middle hole, the outer part of the hole is a circular concave part, and the knob rod parts at two sides of the fixed pin are placed in the hole.

Preferably, the mounting seat unit comprises a first mounting convex rod, a first mounting seat, a second mounting convex rod, a second mounting seat and a fixing pin; the first mounting seat is a solid cuboid, and two first mounting convex rods are respectively arranged on two side parts, close to the clamp frame, above the first mounting seat; the first mounting convex rod is a circular truncated cone-shaped convex rod, is welded on the first mounting seat and is connected with the first mounting hole, and the first mounting convex rod is inserted into the first mounting hole.

Preferably, the solid walls at two sides of the clamp frame are respectively provided with a fixing pin middle hole, the holes are through holes, the two sides of the holes are rectangular, and the middle of the holes is circular, so that the fixing pins can be conveniently inserted; two sides of the outer end of the bottom of the clamp frame are respectively provided with a first mounting hole, the hole is shaped into a circular truncated cone, the size of the hole is slightly larger than that of the first mounting convex rod, and the size of the circular truncated cone is not smaller than 102% of the geometric overall size of the first mounting convex rod at the corresponding mounting position; the bottom of the supporting rod is a cylinder, a cylindrical bulge is arranged on the part, close to the clamp frame, above the supporting rod, a semi-annular clamp head is welded on the cylindrical bulge, and a layer of anti-skid rubber is adhered on the outer surface of the semi-annular clamp head; the bottom of the supporting rod is welded on the fixture frame.

Preferably, the clamp frame is hollow, and the outer edge of the clamp frame is similar to the edge of the hollow part in shape and is octagonal; two sides of the upper part of the clamp frame are respectively provided with a pushing rod threaded through hole with an internal thread, and the hole is a through hole and is in threaded connection with an external thread on the pushing rod so as to be fixedly connected; the left side and the right side of the clamp frame are respectively provided with a gripper, and the gripper is made into a half of a hollow cuboid and symmetrically distributed on the two sides of the clamp frame.

Preferably, the hollow part in the middle of the storage base is filled with elastic foam plastics, and the surface of the foam plastics is covered with a layer of lycra cotton cloth; the two storage bases are arranged above and below the clamp frame respectively and connected through a fixing pin middle hole, a fixing pin bottom hole and a fixing pin.

Preferably, the rectangular hole in the mounting seat unit is arranged at one side of the first mounting seat and is a rectangular hole, a magnet which is similar to the hole in shape but has a geometric volume slightly smaller than that of the hole is arranged in the middle of the rectangular hole, and the size of the magnet is 90% of the inner edge of the rectangular hole; and two sides below the first mounting seat are respectively provided with a second mounting hole which is a cuboid hole, and a second mounting convex rod is inserted into the second mounting hole.

Preferably, the middle of the fixing pin is a cylindrical smooth rod which can penetrate into a circular hole in the middle of the fixing pin middle hole and the fixing pin bottom hole; a flat sheet body which is longitudinally arranged is arranged on the upper convex part; the lower convex part is a cylinder; the protruding parts on the upper and lower sides of the case are respectively placed in the bottom holes of the fixing pins in a state where the object to be measured is placed in the storage case.

Compared with the prior art, the invention has the following obvious and prominent substantive characteristics and remarkable advantages:

1. the invention can use a set of clamps to store and clamp the tested piece; by using the clamp, the possibility of fouling the surface of the tested piece in the process of manually taking and clamping the tested piece is avoided, so that the measurement error can be reduced;

2. the invention does not need to manually clamp and move the tested piece, avoids the operation that the traditional clamp needs to clamp and take down the tested piece for many times, and further reduces the measurement cost;

3. according to the invention, through the elastic foam plastic and the Lycra cotton, the tested piece can be stored without damage, and the possibility of scratching and fouling the surface in the storage process is avoided.

Drawings

Fig. 1 is an assembly overview of the present invention.

Fig. 2 is a schematic view of a jig housing unit of the present invention.

Fig. 3 is a schematic view of a push rod unit and a fixing pin of the present invention.

Fig. 4 is a schematic view of a storage base unit of the present invention.

Fig. 5 is a schematic view of the mount unit of the present invention.

Wherein, the meaning of each figure code number is as follows:

1. a clamp frame; 2. a threaded hole of the push rod; 3. a gripper; 4. a middle hole of the fixing pin; 5. a first mounting hole; 6. a support bar; 7. a push rod; 8. a fixing pin; 9. storing the base; 10. fixing a bottom hole of the pin; 11. a first mounting lug; 12. a first mounting seat; 13. a rectangular hole; 14. a second mounting hole; 15 a second mounting lug; 16. and a second mounting seat.

Detailed Description

The invention will be further described with reference to the drawings and preferred embodiments. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

According to the invention, through designing the clamp system and the accessory parts thereof, when the tested piece is stored and clamped by the clamp designed by the patent, on one hand, the tested piece can be clamped by the push rod unit and other parts, on the other hand, the tested piece can be directly taken out of the storage box through the design of the storage box and placed on the base of the clamp, so that the possibility of artificial contact and mechanical damage is avoided.

The above-described scheme is further illustrated below with reference to specific embodiments, which are detailed below:

the first embodiment is as follows:

in the embodiment, the non-contact optical flat clamp comprises a clamp frame unit I, a push rod unit II, a storage base unit III and a mounting base unit IV; set up push rod unit II on the anchor clamps frame unit I, will be surveyed a 17 centre gripping, anchor clamps frame unit I stores base unit III and shelves on mount pad unit IV through connecting, realizes being surveyed the clamp of 17 through II parts of push rod unit, through storing the box, realizes directly taking from storing the box to place on the anchor clamps base, avoided the possibility of artificial contact and mechanical damage. As shown in fig. 1.

The embodiment can use one set of anchor clamps to realize storing and clamping of the measured piece, has avoided the people to be measured the piece and has taken and the clamping process causes stained possibility to its surface, consequently can reduce measuring error.

Example two:

this embodiment is substantially the same as the first embodiment, and is characterized in that:

in this embodiment, the jig frame unit i includes a jig frame 1, a screw hole 2 for a push rod, a gripper 3, a middle hole 4 for a fixing pin, a first mounting hole 5, and a support rod 6.

As can be seen from FIG. 2, the interior of the fixture holder 1 is hollow, and the outer edge of the fixture holder is similar to the edge shape of the hollow part and is octagonal. And two sides of the upper part of the clamp frame 1 are respectively provided with a push rod threaded hole 2 with internal threads, and the hole is a through hole and is in threaded connection with external threads formed on the push rod 7 so as to be fixedly connected. The left side and the right side of the clamp frame 1 are respectively provided with a gripper 3, the shape of the gripper is half of a hollow cuboid, and the gripper is symmetrically distributed on the two sides of the clamp frame 1.

The solid walls on the two sides of the clamp frame 1 are respectively provided with a fixing pin middle hole 4 which is a through hole, the two sides of the hole are rectangular, and the middle of the hole is circular, so that the fixing pin 8 can be conveniently inserted. Two sides of the outer end of the bottom of the clamp frame 1 are respectively provided with a first mounting hole 5, the hole is shaped like a circular truncated cone, the size of the hole is slightly larger than that of the first mounting convex rod 11, and the size of the circular truncated cone is not smaller than 102% of the geometric dimension of the first mounting convex rod 11 at the corresponding mounting position. The bottom of the support rod 6 is a cylinder, a cylindrical bulge is arranged on the part above the support rod, which is close to the clamp frame 1, a semi-annular clamp head is welded on the cylindrical bulge, and a layer of anti-skid rubber is adhered on the outer surface of the semi-annular clamp head. The bottom of the support rod 6 is welded on the fixture frame 1.

As can be seen from fig. 3, the propulsion lever unit ii comprises two propulsion levers 7. One end of the push rod 7, which is far away from the center of the clamp frame 1, is a knob with convex lines on the outer edge, and the knob is a circular cylinder and is welded on a smooth rod body in the middle of the push rod 7. The lower part of the smooth rod body in the middle of the push rod 7 is also a cylinder which is slightly thicker than the smooth part, the diameter of the cylinder is 1.2 times of that of the smooth part, and the edge of the smooth part is provided with an external thread which is in threaded connection with the push threaded hole 2. The end of the push rod 7 near the center of the clamp holder 1 has a cylindrical extension, the top of the extension is welded with a semi-annular projection, and a layer of non-slip rubber is adhered on the outside of the projection.

As can be seen from fig. 4, the storage base unit iii includes a storage base 9 and a fixed pin bottom hole 10. The storage base 9 is made of a hollow octagon, the outer edge of the hollow part in the middle is similar to the outer edge of the outer wall of the storage base 9 in shape, and the upper edge and the lower edge clamped by the left side and the right side are slightly shorter and are 80% of the side length clamped by the two sides of the outer edge. In the middle part of the solid wall on both sides of the storage base 9, a fixed pin bottom hole 10 is opened, the middle part of the hole is the same as the fixed pin middle hole 4, the outer part of the hole is a circular concave, and the knob rod part on both sides of the fixed pin 8 is placed in the hole.

As can be seen from fig. 4, the hollow part of the storage base 9 is filled with elastic foam, and a layer of lycra cotton cloth is covered on the surface of the foam. The two storage bases 9 are respectively arranged above and below the clamp frame 1 and are connected through a fixing pin middle hole 4, a fixing pin bottom hole 10 and a fixing pin 8.

As can be seen from fig. 5, the mounting seat unit iv includes a first mounting convex rod 11, a first mounting seat 12, a rectangular hole 13, a second mounting hole 14, a second mounting convex rod 15, a second mounting seat 16, and a fixing pin 8. The first mounting seat 12 is a solid cuboid, and two first mounting convex rods 11 are respectively arranged on two sides of the upper part of the first mounting seat close to the clamp frame 1. The first mounting protruding rod 11 is a protruding rod made in a circular truncated cone shape, is welded on the first mounting base 12 and is connected with the first mounting hole 5, and the first mounting protruding rod 11 is inserted into the first mounting hole 5.

The rectangular hole 13 in the mounting base unit IV is arranged at one side of the first mounting base 12 and is a rectangular hole, a magnet which is similar to the hole in shape but has a geometric volume slightly smaller than that of the hole is arranged in the middle of the rectangular hole, and the size of the magnet is 90% of the inner edge of the rectangular hole. A second mounting hole 14 is formed at each of both sides below the first mounting seat 12, and is a rectangular hole into which a second mounting protrusion 15 is inserted.

The middle of the fixing pin 8 is provided with a cylindrical smooth sliding rod which can penetrate through a circular hole in the middle of the fixing pin middle hole 4 and the fixing pin bottom hole 10; a flat sheet body which is longitudinally arranged is arranged on the upper convex part; the lower convex part is a cylinder; in a state where the object to be measured is placed in the storage box, the projected portions of the upper and lower sides thereof are respectively placed in the fixing pin bottom holes 10.

Thus, in use, the process can be summarized as: when the measurement is not carried out, the two storage bases 9 are used as the upper part and the lower part of the storage box, the clamp frame 1 is used as the middle part of the storage box, and the three parts are connected through the fixing pin middle hole 4, the fixing pin bottom hole 10 and the fixing pin 8. The fixing pin 8 passes through the holes, and because of its thicker middle, the circular part between the two holes can serve to limit the position. After the fixing pin 8 is inserted into the holes, the flat sheet body which is placed longitudinally and protrudes upwards is rotated, so that the cylindrical protruding part below the fixing pin is driven, the two protruding parts rotate in the fixing pin holes 10 on the upper side and the lower side respectively, therefore, the hole in the middle of the fixing pin hole 10 is a through hole, the protruding parts on the two sides of the fixing pin 8 can extend out, the protruding parts on the two sides of the fixing pin 10 can be clamped in the circular groove parts of the fixing pin holes 10 after the fixing pin 10 rotates, and the storage box is assembled. At this time, the push rod 7 should rotate in the push rod threaded hole 2 so as not to press the tested piece. The elastic foam plastic arranged in the storage base 9 and the Lycra cotton cloth on the surface of the elastic foam plastic do not damage the tested piece stored in the storage base. In this state, the test piece and the storage case can be moved and stored in a portable manner by holding the grip 3. The assembly of which when assembled into a jig is shown in figure 1.

When a tested piece needs to be clamped, the push rods 7 on the two sides need to be rotated firstly, so that the tested piece is attached to the push rods 7 and the supporting rod 6 at the bottom, and the head of the tested piece is pressed tightly against the tested piece respectively. The fixed pin 8 is then rotated and removed, separating the three parts of the storage box. Then the fixture frame 1 is taken out, and the tested piece is clamped inside the frame body at the moment. After the fixture is taken out, the first mounting hole 5 at the bottom of the fixture frame 1 is placed on the first mounting convex rod 11 of the first mounting seat 12, then the first mounting seat 12 is mounted on the second mounting convex rod 15 of the second mounting seat 16 through the second mounting hole 14, and a bar magnet is placed in the rectangular hole 13 on the first mounting seat 12, so that the connection reliability of the fixture frame 1 and the first mounting seat 12 is improved, and the fixture form is assembled.

To sum up, the non-contact optical flat clamp of the above embodiment includes a clamp frame unit, a push rod unit, a storage base unit and a mounting base unit, the push rod unit is arranged on the clamp frame unit to clamp the tested piece, the clamp frame unit is connected to the storage base unit and placed on the mounting base unit, the clamping of the tested piece can be realized through the push rod unit and other components, the direct taking from the storage box is realized through the design of the storage box, and the non-contact optical flat clamp is placed on the clamp base, so that the possibility of human contact and mechanical damage is avoided. In addition, the clamp designed by the embodiment can avoid the possibility of stain on the surface of the tested piece in the process of manually taking and clamping the tested piece, so that the measurement error can be reduced, the tested piece does not need to be manually clamped and moved, the operation that the traditional clamp needs to clamp and take down the tested piece for many times is avoided, and the measurement cost is further reduced.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the embodiments, and various changes and modifications can be made according to the purpose of the invention, and any changes, modifications, substitutions, combinations or simplifications made according to the spirit and principle of the technical solution of the present invention shall be equivalent substitutions, as long as the purpose of the present invention is met, and the present invention shall fall within the protection scope of the present invention without departing from the technical principle and inventive concept of the present invention.

Claims (10)

1. A non-contact optical flat plate clamp comprises a clamp frame unit (I), a push rod unit (II), a storage base unit (III) and a mounting seat unit (IV); the method is characterized in that: set up push rod unit (II) on anchor clamps frame unit (I), will be surveyed piece (17) and grasp, anchor clamps frame unit (I) stores base unit (III) and shelves on mount pad unit (IV) through connecting, realizes being surveyed the clamp of piece (17) through push rod unit (II) part, through storing the box, realizes directly taking from storing the box to place on the anchor clamps base, avoided the possibility of artificial contact and mechanical damage.

2. The non-contact optical flat clamp of claim 1, wherein: the clamp frame unit (I) comprises a clamp frame (1), two handles (3) and supporting rods (6), wherein the clamp frame (1) is an octagonal frame, the inner sides of the lower portion of the octagonal frame are fixedly provided with the two supporting rods (6), the two sides of the outer portion of the octagonal frame are respectively fixedly provided with one handle (3), the corner edges of the two ends of the upper portion of the octagonal frame are respectively provided with an oblique threaded through hole (2), and the outer side surface of the bottom edge of the octagonal frame is provided with two holes serving as mounting holes.

3. The non-contact optical flat clamp of claim 2, wherein: the pushing rod unit (III) is composed of two pushing rods (7), one end, far away from the center of the clamp body (1), of each pushing rod (7) is a knob with convex patterns on the outer edge, the knob is a circular cylinder and is welded on a smooth rod body in the middle of each pushing rod (7); the lower part of the smooth rod body in the middle of the pushing rod (7) is also a cylinder which is slightly thicker than the smooth part, the diameter of the cylinder is 1.2 times of that of the smooth part, the edge of the smooth part is provided with external threads, and the threaded through hole (2) is in threaded matching connection; one end of the push rod (7) close to the center of the clamp frame (1) is provided with a cylindrical extending part, the top end of the cylindrical extending part is welded with a semi-annular bulge, and a layer of anti-skid rubber is adhered outside the bulge.

4. The non-contact optical flat clamp of claim 1, wherein: the storage base unit (III) is a storage base (9) which is provided with a fixed pin bottom hole (10), the storage base (9) is made into a hollow octagon, the outer edge of the hollow part in the middle is similar to the outer edge of the outer wall of the storage base (9), the upper edge and the lower edge clamped by the left side and the right side are slightly shorter and are 80% of the side length clamped by the two sides of the outer edge; the middle part of the solid wall at the two sides of the storage base (9) is provided with a fixed pin bottom hole (10), the middle part of the hole is the same as the fixed pin middle hole (4), the outer part of the hole is a round concave part, and the knob rod parts at the two sides of the fixed pin (8) are placed in the hole.

5. The non-contact optical flat clamp of claim 1, wherein: the mounting seat unit (IV) comprises a first mounting convex rod (11), a first mounting seat (12), a second mounting convex rod (15), a second mounting seat (16) and a fixing pin (8); wherein the first mounting seat (12) is a solid cuboid, and two side parts of the upper part of the first mounting seat, which are close to the clamp frame (1), are respectively provided with a first mounting convex rod (11); the first mounting convex rod (11) is a convex rod made in a circular truncated cone shape, is welded on the first mounting base (12) and is connected with the first mounting hole (5), and the first mounting convex rod (11) is inserted into the first mounting hole (5).

6. The non-contact optical flat clamp of claim 2, wherein: the solid walls at two sides of the clamp frame (1) are respectively provided with a fixing pin middle hole (4), the holes are through holes, two sides of the holes are rectangular, and the middle of the holes is circular, so that the fixing pins (8) can be conveniently inserted; two sides of the outer end of the bottom of the clamp frame (1) are respectively provided with a first mounting hole (5), the hole is shaped like a circular truncated cone, the size of the hole is slightly larger than that of the first mounting convex rod (11), and the size of the circular truncated cone is not smaller than 102% of the geometric dimension of the first mounting convex rod (11) at the corresponding mounting position; the bottom of the supporting rod (6) is a cylinder, a cylindrical bulge is arranged on the part, close to the clamp frame (1), above the supporting rod, a semi-annular clamp head is welded on the cylindrical bulge, and a layer of anti-skid rubber is adhered to the outer surface of the semi-annular clamp head; the bottom of the support rod (6) is welded on the fixture frame (1).

7. The non-contact optical flat clamp of claim 2, wherein: the clamp frame (1) is hollow, and the outer edge of the clamp frame is similar to the edge of the hollow part in shape and is octagonal; two sides of the upper part of the clamp frame (1) are respectively provided with a pushing rod threaded through hole (2) with an internal thread, and the hole is a through hole and is in threaded connection with an external thread arranged on the pushing rod (7) so as to be fixedly connected; the left side and the right side of the clamp frame (1) are respectively provided with a gripper (3), the part is made into a half of a hollow cuboid, and the gripper is symmetrically distributed on the two sides of the clamp frame (1).

8. The non-contact optical flat clamp of claim 4, wherein: the hollow part in the middle of the storage base (9) is filled with elastic foam plastic, and the surface of the foam plastic is covered with a layer of Lycra cotton cloth; the two storage bases (9) are respectively arranged above and below the clamp frame (1) and are connected through a fixing pin middle hole (4), a fixing pin bottom hole (10) and a fixing pin (8).

9. The non-contact optical flat clamp of claim 5, wherein: the rectangular hole (13) in the mounting seat unit (IV) is arranged at one side of the first mounting seat (12) and is a rectangular hole, a magnet which is similar to the hole in shape but slightly smaller than the hole in geometric volume is arranged in the middle of the rectangular hole, and the size of the magnet is 90% of the inner edge of the rectangular hole; two sides below the first mounting seat (12) are respectively provided with a second mounting hole (14), the second mounting holes are cuboid holes, and second mounting convex rods (15) are inserted into the second mounting holes.

10. The non-contact optical flat clamp of claim 5, wherein: the middle of the fixing pin (8) is provided with a cylindrical smooth rod which can penetrate through a fixing pin middle hole (4) and a circular hole in the middle of a fixing pin bottom hole (10); a flat sheet body which is longitudinally arranged is arranged on the upper convex part; the lower convex part is a cylinder; the protruding parts on the upper and lower sides of the tested piece are respectively placed in the fixed pin bottom holes (10) in the state that the tested piece is placed in the storage box.

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