CN210570498U - Detection clamp applied to 3D scanner - Google Patents

Abstract

The utility model discloses a be applied to detection anchor clamps of 3D scanner, including PMKD, bracing piece, support auxiliary rod, positioning piece, supporting beam, gag lever post, spacing auxiliary rod, positioning knob, support piece, articulated regulation pole, centre gripping supporting shoe and holder, the bracing piece is located on the PMKD, support on the auxiliary rod locates the bracing piece through the positioning piece, supporting beam locates and supports the auxiliary rod upper end, be equipped with spacing screw on the supporting beam, the gag lever post is located in the spacing screw, spacing auxiliary rod is located on the gag lever post through the positioning knob, the one end that the gag lever post was kept away from to spacing auxiliary rod is located to the centre gripping supporting shoe, the holder articulates and locates on the centre gripping supporting shoe. The utility model belongs to the technical field of detect and measure, specifically provide a simple structure, the operation of being convenient for can wait to detect the goods and carry out the detection anchor clamps that are applied to 3D scanner of corresponding position control and elasticity regulation according to different shapes, size, height.

Description

Detection clamp applied to 3D scanner

Technical Field

The utility model belongs to the technical field of detect and measure, specifically indicate a be applied to 3D scanner's detection anchor clamps.

Background

The detection efficiency of the 3D scanning instrument is mainly influenced by the shape of a part and the clamp, and the shape of the produced part is fixed and can not be changed, so that whether the clamp is suitable or not is particularly important. In the detection process, the height position and the shape and the size of different products to be detected are different, if the 3D scanner has the best scanning detection effect for different products to be detected, the placing position and the placing angle of the products to be detected are particularly important for the detection process, and therefore the specific application range and the detection effect of the clamp are determined by the adjustability of the clamp for different products to be detected.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a simple structure, the operation of being convenient for can wait to detect the goods and carry out the detection anchor clamps that are applied to 3D scanner of corresponding position control and elasticity regulation according to different shapes, size, height.

The utility model provides a detection clamp applied to a 3D scanner, which comprises a fixed bottom plate, a support rod, a support auxiliary rod, a position adjusting part, a support beam, a limiting rod, a limiting auxiliary rod, a position adjusting knob, a support part, a hinged adjusting rod, a clamping support block and a clamping part, wherein the fixed bottom plate is provided with a fixed hole, the fixed bottom plate can be connected with a 3D scanner body by passing through the fixed hole through a fixing screw, the support rod is arranged on the fixed bottom plate, the support auxiliary rod is arranged on the support rod through the position adjusting part, the support beam is arranged at the upper end of the support auxiliary rod, the support beam is provided with a limiting screw hole, one end of the limiting rod is provided with a thread, the limiting rod is arranged in the limiting screw hole through the thread, the limiting auxiliary rod is arranged on the limiting rod through the position adjusting knob, the clamping support block is arranged at one end of the limiting auxiliary rod away from the limiting rod, the clamping piece is hinged to the clamping supporting block, one end of the hinged adjusting rod is hinged to the supporting piece, and the other end of the hinged adjusting rod is hinged to the middle of the clamping piece.

Further, the holder includes holder main part, flexible centre gripping layer and elastic component, the holder main part is located on the centre gripping supporting shoe, the flexible centre gripping layer is located in the holder main part, the elastic component is located between holder main part and the flexible centre gripping layer, and as preferred, the flexible centre gripping layer adopts flexible silica gel layer, the elastic component adopts high rigidity spring, and the flexible silica gel layer can avoid the holder centre gripping in-process to damage the goods, and high rigidity spring guarantees inseparable centre gripping goods.

Furthermore, the clamping pieces are symmetrically arranged in two groups by using the axes of the limiting auxiliary rods, the two groups are respectively a first clamping piece and a second clamping piece, and the first clamping piece and the second clamping piece are matched to cooperatively finish the clamping action of the product.

Furthermore, the bracing piece is the setting of cavity structures, support the flexible slip of auxiliary rod and locate in the bracing piece, evenly be equipped with a plurality of groups of positioning hole on the support auxiliary rod, through adjusting the positioning hole that the position adjusting part runs through different high positions and realize supporting the height that the auxiliary rod stretches out the bracing piece.

Furthermore, the limiting auxiliary rod is arranged in the limiting rod in a telescopic sliding mode, so that the distance between the clamping piece and the supporting cross beam is adjusted, the angle of the limiting rod relative to the supporting cross beam can be adjusted in the rotating direction of the limiting screw hole through the limiting rod, and the clamping angles of the clamping piece in different directions are achieved.

Furthermore, a plurality of groups of limiting screw holes are uniformly arranged along the supporting beam, and the limiting rods can be selected according to needs and arranged in the corresponding limiting screw holes according to the sizes and shapes of the products to be detected, so that the effective clamping of the products to be detected with different sizes is realized.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is applied to detection anchor clamps of 3D scanner simple structure, and convenient operation, relative position through adjustment support auxiliary rod and bracing piece, spacing auxiliary rod and gag lever post relative position make detection anchor clamps be applicable to not co-altitude, the goods are detected to the detection of size, simultaneously, make detection anchor clamps be applicable to different shapes through adjusting the direction of rotation and the angle of gag lever post in spacing screw, the goods are detected to the detection of direction, the contradiction utilizes the elasticity resilience of elastic component to reach the rigidity again, make it cooperate with flexible clamping layer, avoid again because of the too big damage goods of clamping-force when satisfying effective centre gripping.

Drawings

Fig. 1 is a schematic view of an overall structure of a detection fixture applied to a 3D scanner according to the present invention;

fig. 2 is the utility model relates to a be applied to the internal structure schematic diagram of 3D scanner's detection anchor clamps holder.

The flexible positioning device comprises a fixed base plate 1, a fixed base plate 2, a supporting rod 3, a supporting auxiliary rod 4, a positioning part 5, a supporting beam 6, a limiting rod 7, a limiting auxiliary rod 8, a positioning knob 9, a supporting part 10, a hinged adjusting rod 11, a clamping supporting block 12, a fixing hole 13, a limiting screw hole 14, a clamping part 15, a clamping part main body 16, a flexible clamping layer 17, an elastic part 18, a clamping part I, a clamping part II, a clamping part 20 and a positioning hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-2, a detection clamp applied to a 3D scanner comprises a fixed bottom plate 1, a support rod 2, a support auxiliary rod 3, a position adjusting member 4, a support beam 5, a limit rod 6, a limit auxiliary rod 7, a position adjusting knob 8, a support member 9, a hinged adjustment rod 10, a clamping support block 11 and a clamping member 14, wherein the fixed bottom plate 1 is provided with a fixing hole 12, the fixed bottom plate 1 can pass through the fixing hole 12 through a fixing screw to be connected with a 3D scanner body, the support rod 2 is arranged on the fixed bottom plate 1, the support auxiliary rod 3 is arranged on the support rod 2 through the position adjusting member 4, the support beam 5 is arranged at the upper end of the support auxiliary rod 3, the support beam 5 is provided with a limit screw hole 13, one end of the limit rod 6 is provided with a thread, the limit rod 6 is arranged in the limit screw hole 13 through a thread, the limit auxiliary rod 7 is arranged on the limit rod 6 through, the clamping support block 11 is arranged at one end, far away from the limiting rod 6, of the limiting auxiliary rod 7, the support piece 9 is arranged on the limiting auxiliary rod 7 and is close to the clamping support block 11, the clamping piece 14 is hinged to the clamping support block 11, one end of the hinged adjusting rod 10 is hinged to the support piece 9, and the other end of the hinged adjusting rod 10 is hinged to the middle of the clamping piece 14.

Wherein, holder 14 includes holder main part 15, flexible centre gripping layer 16 and elastic component 17, holder main part 15 is located on centre gripping supporting shoe 11, flexible centre gripping layer 16 is located on holder main part 15, elastic component 17 is located between holder main part 15 and the flexible centre gripping layer 16, as preferred, flexible centre gripping layer 16 adopts flexible silica gel layer, elastic component 17 adopts high rigidity spring, and flexible silica gel layer can avoid holder 14 centre gripping in-process damage goods, and high rigidity spring guarantees inseparable centre gripping goods. The clamping pieces 14 are symmetrically arranged in two groups by using the axis of the auxiliary limiting rod 7, the two groups are respectively a first clamping piece 18 and a second clamping piece 19, and the first clamping piece 18 and the second clamping piece 19 are matched to cooperatively finish the clamping action of the product. The utility model discloses a bracing piece, including bracing piece 2, support auxiliary rod 3, the flexible slip of bracing piece 2 is located the bracing piece, evenly be equipped with a plurality of groups of positioning hole 20 on the support auxiliary rod 3, run through the height that the supporting rod 2 was stretched out to auxiliary rod 3 through adjusting positioning hole 20 that positioning piece 4 located not co-altitude position. The limiting auxiliary rod 7 is arranged in the limiting rod 6 in a telescopic sliding mode, the distance between the clamping piece 14 and the supporting beam 5 is adjusted, the angle of the limiting rod 6 relative to the supporting beam 5 can be adjusted in the rotating direction of the limiting screw hole 13 through the limiting rod 6, and therefore the clamping angle of the clamping piece 14 in different directions is achieved. The limiting screw holes 13 are uniformly provided with a plurality of groups along the supporting beam 5, the limiting rods 6 can select a plurality of groups as required and are arranged in the corresponding limiting screw holes 13 according to the size and shape of the product to be detected, and effective clamping of the products to be detected in different sizes is realized.

When in specific use, the fixed bottom plate 1 is fixed on the 3D scanner body through the fixing holes 12, a plurality of groups of detection clamps can be selected to be matched for use according to specific clamping requirements, the length of the auxiliary supporting rod 3 extending out of the supporting rod 2 is adjusted through the position adjusting piece 4 according to the height of the product to be detected, then the limiting rod 6 is screwed into the limiting screw hole 13 according to the proper angle required by the product to be detected to ensure that the clamping angle of the clamping piece 14 is matched with the angle required by the product to be detected, a plurality of groups of limiting rods 6 are arranged according to the requirement of a product to be detected, the length of the auxiliary limiting rod 7 extending out of the limiting rods 6 is adjusted, after the adjustment is finished, manually pulling the first clamping piece 18 and the second clamping piece 19 apart, placing the product to be detected in the first clamping piece 18 and the second clamping piece 19, the product to be detected is clamped tightly under the action of the elastic part 17, and meanwhile, the flexible clamping layer 16 can effectively avoid damaging the product to be detected.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a be applied to detection anchor clamps of 3D scanner which characterized in that: the adjustable clamping device comprises a fixed bottom plate, a supporting rod, a supporting auxiliary rod, a positioning part, a supporting cross beam, a limiting rod, a limiting auxiliary rod, a positioning knob, a supporting piece, a hinged adjusting rod, a clamping supporting block and a clamping part, wherein the fixed bottom plate is provided with a fixed hole, the supporting rod is arranged on the fixed bottom plate, the supporting auxiliary rod is arranged on the supporting rod through the positioning part, the supporting cross beam is arranged at the upper end of the supporting auxiliary rod, the supporting cross beam is provided with a limiting screw hole, one end of the limiting rod is provided with a thread, the limiting rod is arranged in the limiting screw hole through the thread, the limiting auxiliary rod is arranged on the limiting rod through the positioning knob, the clamping supporting block is arranged at one end of the limiting auxiliary rod, which is far away from the limiting rod, the supporting piece is arranged on the limiting auxiliary rod and is close to the, the other end of the hinged adjusting rod is hinged to the middle of the clamping piece.

2. The detection clamp applied to the 3D scanner according to claim 1, wherein: the clamping piece comprises a clamping piece main body, a flexible clamping layer and an elastic piece, the clamping piece main body is arranged on the clamping supporting block, the flexible clamping layer is arranged on the clamping piece main body, and the elastic piece is arranged between the clamping piece main body and the flexible clamping layer.

3. The detection clamp applied to the 3D scanner according to claim 2, wherein: the clamping pieces are symmetrically arranged in two groups by using the axes of the limiting auxiliary rods, and the two groups of the clamping pieces are respectively a first clamping piece and a second clamping piece.

4. The detection clamp applied to the 3D scanner according to claim 1, wherein: the support rod is arranged in a hollow cavity structure, the support auxiliary rod is arranged in the support rod in a telescopic sliding mode, and a plurality of groups of position adjusting holes are uniformly formed in the support auxiliary rod.

5. The detection clamp applied to the 3D scanner according to claim 1, wherein: the auxiliary limiting rod is arranged in the limiting rod in a telescopic sliding mode.

6. The detection clamp applied to the 3D scanner according to claim 1, wherein: the limiting screw holes are evenly provided with a plurality of groups along the supporting beam.

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