A camera fixing device for product visual inspection with adjustable function

By designing a camera mounting device suitable for different base shapes, the problems of low applicability and inconvenient installation and removal in the existing technology are solved, achieving stable fixation and efficient clamping of the camera, expanding the applicability of the device and reducing costs.

CN224434075UActive Publication Date: 2026-06-30SUZHOU YIMEIZHE AUTOMATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU YIMEIZHE AUTOMATION TECH CO LTD
Filing Date
2025-08-04
Publication Date
2026-06-30

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    Figure CN224434075U_ABST
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Abstract

This utility model discloses a camera fixing device for product visual inspection with adjustable function, relating to the field of camera fixing technology. It includes a support component comprising a fixing base, fasteners, and a gooseneck tube. The fasteners are mounted on the fixing base, and the gooseneck tube is fixedly mounted on the top of the fixing base. A fixing component, located at the end of the gooseneck tube away from the fixing base, includes a base, a driving component, a pre-clamping component, and a stabilizing component. The base is fixedly connected to the end of the gooseneck tube away from the fixing base, and a stop block is fixedly connected to the surface of the base. The beneficial effect of this utility model is that by setting the fixing component, four movable blocks can move simultaneously when the drive displacement frame moves, cooperating with the clamping block and guide rod to complete the limiting, used for switching clamping modes. It is well-suited for cameras with different base shapes, has a wide range of applications, does not require replacement of the fixing device, and reduces overall processing and usage costs.
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Description

Technical Field

[0001] This utility model relates to the field of camera fixing technology, and in particular to a camera fixing device for product visual inspection with adjustable function. Background Technology

[0002] Product visual inspection is an automated inspection method based on computer vision, image processing and artificial intelligence technologies. In product visual inspection, the camera is an essential component, and it needs to be positioned and installed with a fixing device before use.

[0003] Existing camera mounting devices are generally suitable for a single type of camera or are installed using a threaded connection. Since camera bases come in two common shapes, rectangular and circular, their overall applicability is low. Furthermore, the disassembly and assembly of the camera itself is inconvenient, requiring workers to spend a considerable amount of time installing or removing the camera, making them quite inconvenient to use. Utility Model Content

[0004] In view of the problems existing in the above-mentioned camera fixing device for product visual inspection with adjustable function, this utility model is proposed.

[0005] Therefore, the problem that this utility model aims to solve is that the existing camera fixing devices are generally applicable to a single type of camera, which has low applicability. At the same time, the staff needs to cooperate for a long time to install or remove the camera, which is inconvenient to use.

[0006] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a camera fixing device for product visual inspection with adjustable function, comprising,

[0007] A support assembly includes a mounting base, fasteners, and a gooseneck tube, wherein the fasteners are mounted on the mounting base, and the gooseneck tube is fixedly mounted on the top of the mounting base; and,

[0008] A fixing component, located at the end of the gooseneck tube away from the fixing seat, includes a base, a drive component, a pre-clamping component, and a stabilizing component. The base is fixedly connected to the end of the gooseneck tube away from the fixing seat, and a stop block is fixedly connected to the surface of the base. The drive component is mounted on the base, the pre-clamping component is located on the surface of the base, and the stabilizing component is located on the surface of the pre-clamping component.

[0009] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, the driving component includes a first positioning rod, a second positioning rod, and a guide rod. The first positioning rod and the second positioning rod are both rotatably connected to the base. A first gear is fixedly connected to the surface of the first positioning rod, and a second gear is fixedly connected to the surface of the second positioning rod. The first gear and the second gear mesh. The guide rod is fixedly connected to the surface of the base.

[0010] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, the driving component further includes a displacement frame, which is disposed on the surface of the base. The surface of the displacement frame is provided with a guide groove and cooperates with a guide rod. A rack is fixedly connected to the surface of the displacement frame and cooperates with a first gear. A clamping block is rotatably connected to the surface of the displacement frame. The surface of the clamping block is provided with a limit groove and cooperates with the guide rod.

[0011] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, the driving component further includes a movable block, which is respectively disposed on the surface of the first positioning rod and the second gear.

[0012] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, the pre-clamping component includes a storage sleeve and a pre-clamping rod. The storage sleeve is fixedly connected to the movable block, the pre-clamping rod is disposed on the top of the storage sleeve, and an auxiliary groove is provided at the bottom of the pre-clamping rod. A first spring is fixedly connected inside the auxiliary groove, and the bottom end of the first spring is fixedly connected to the inside of the storage sleeve.

[0013] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, the stabilizing component includes a pressure frame, a displacement block, a displacement groove, and a clamping plate. The pressure frame is movably connected to the pre-clamping rod, the displacement groove is opened on the surface of the pre-clamping rod, the displacement block is disposed inside the displacement groove, and the clamping plate is movably connected to the surface of the pre-clamping rod.

[0014] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, the surface of the pressure frame is fixedly connected with a protruding rod, and the surface of the protruding rod is respectively fitted with a second spring and a second movable strip. One end of the second spring contacts the second movable strip, and the surface of the second movable strip is provided with a slot.

[0015] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, wherein: an auxiliary rod is fixedly connected inside the displacement groove, the displacement block is sleeved on the auxiliary rod, a third spring is sleeved on the surface of the auxiliary rod, one end of the third spring is fixedly connected to the displacement block, and the other end of the third spring is fixedly connected to the inner wall of the displacement groove.

[0016] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, wherein: a first movable strip is movably connected to the surface of the displacement block, a clip is fixedly connected to the surface of the first movable strip and cooperates with the clip groove, a groove is formed on the surface of the displacement block, and a rubber damping strip and a fourth spring are respectively installed inside the groove.

[0017] As a preferred embodiment of the product visual inspection camera fixing device with adjustable function described in this utility model, wherein: the surface of the card plate is provided with a flat groove and cooperates with a fourth spring, and the card plate cooperates with the groove.

[0018] The beneficial effects of this utility model are as follows: by setting a fixing component, the four movable blocks can move simultaneously when the drive displacement frame is moved, and together with the clamping block and guide rod, the limit is completed. It is used to switch the clamping mode, and is well applicable to cameras with different base shapes. It has a wide range of applications, does not require replacement of the fixing device, and reduces the overall processing and use cost. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a structural diagram of a camera mounting device for product visual inspection with adjustable functions.

[0021] Figure 2 A bottom view of the support component of a product vision inspection camera mounting device with adjustable functions.

[0022] Figure 3 This is a structural diagram of the fixing components for a camera fixing device with adjustable functions for product visual inspection.

[0023] Figure 4 This is a structural diagram showing the separation of the drive component of a camera mounting device for product vision inspection with adjustable functions.

[0024] Figure 5Another perspective view when the drive component of the camera mounting device for product vision inspection with adjustable function is separated.

[0025] Figure 6 A cross-sectional view of the pre-clamping component of a camera mounting device for product visual inspection with adjustable functions.

[0026] Figure 7 This is a structural diagram of the stabilizer for a camera mounting device with adjustable functions for product visual inspection.

[0027] Figure 8 A camera mounting device for product visual inspection with adjustable functions Figure 7 Enlarged view of A in the middle.

[0028] Figure 9 A partial structural separation diagram of the stabilizer component for a product vision inspection camera mounting device with adjustable functions.

[0029] In the diagram: 100, load-bearing component; 101, fixed base; 101a, through groove; 102, fastener; 103, gooseneck tube; 200, fixed component; 201, base; 201a, stop block; 202, driving component; 202a, first positioning rod; 202a-1, first gear; 202b, second positioning rod; 202b-1, second gear; 202c, guide rod; 202d, displacement frame; 202d-1, rack; 202d-2, clamping block; 202d-2a, limiting groove; 202d-3, guide groove; 202e, movable block; 203, pre-clamping component; 203a, storage sleeve. ; 203b, Pre-clamping rod; 203b-1, First spring; 203b-2, Auxiliary groove; 204, Stabilizer; 204a, Pressing frame; 204a-1, Protruding rod; 204a-2, Second spring; 204a-3, Second movable bar; 204a-3a, Slot; 204b, Displacement block; 204b-1, First movable bar; 204b-2, Clamp head; 204b-3, Rubber damping strip; 204b-4, Groove; 204b-5, Fourth spring; 204c, Displacement groove; 204d, Clamping plate; 204d-1, Flat groove; 204e, Auxiliary rod; 204f, Third spring. Detailed Implementation

[0030] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0031] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0032] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.

[0033] Example 1

[0034] Reference Figures 1-3 This is the first embodiment of the present utility model. This embodiment provides a product vision inspection camera fixing device with adjustable function. The product vision inspection camera fixing device with adjustable function includes a support component 100 and a fixing component 200. By setting the fixing component 200, it can be well applied to cameras with different base shapes, with a wide range of applications. There is no need to replace the fixing device, reducing the overall processing and use costs.

[0035] Specifically, the support component 100 includes a mounting base 101, a fastener 102, and a gooseneck tube 103. The fastener 102 is mounted on the mounting base 101, and the gooseneck tube 103 is fixedly mounted on the top of the mounting base 101.

[0036] Specifically, the fixing component 200 is located at the end of the gooseneck tube 103 away from the fixing seat 101, and includes a base 201, a driving component 202, a pre-clamping component 203, and a stabilizing component 204. The driving component 202 is mounted on the base 201, the pre-clamping component 203 is disposed on the surface of the base 201, and the stabilizing component 204 is disposed on the surface of the pre-clamping component 203.

[0037] Fastener 102 includes a fastening bolt and a fastening nut, which are used to engage with through groove 101a. After the fastening bolt passes through through groove 101a, the fastening nut is screwed in and comes into tight contact with the fixing seat 101. Because through groove 101a provides space for adjusting the position of the fastening bolt, it can be well adapted to bearing rods of various thicknesses while ensuring overall installation stability. It is especially suitable for assembly line product operations, and can be stably installed on the frame of a belt conveyor to complete the visual inspection of the products.

[0038] The base 201 is fixedly connected to the end of the gooseneck tube 103 away from the fixing seat 101. The gooseneck tube 103 is made of metal (such as stainless steel) or plastic (such as polypropylene or PVC), or is coated with silicone or electrophoretic paint. Its core design allows it to be bent arbitrarily and maintain a fixed direction, which can be used to flexibly adjust the position and angle of the fixing component 200, thereby meeting the visual inspection requirements of the product.

[0039] With the setting of the drive component 202, the shape conversion operation can be flexibly performed, which is well applicable to cameras with rectangular bases or cameras with circular bases. With the setting of the pre-clamping component 203 and the stabilizing component 204, the camera with a rectangular base or a circular base can be stably clamped. At the same time, it can adapt to the range of camera base specifications and thicknesses, and can fix a variety of cameras well, thus expanding the overall application range of the device.

[0040] Example 2

[0041] Reference Figures 2-9 This is the second embodiment of the present invention, which is based on the previous embodiment.

[0042] Specifically, a stop 201a is fixedly connected to the surface of the base 201, and the driving component 202 includes a first positioning rod 202a, a second positioning rod 202b, a guide rod 202c, a displacement frame 202d, and a movable block 202e. The first positioning rod 202a and the second positioning rod 202b are both rotatably connected to the base 201. A first gear 202a-1 is fixedly connected to the surface of the first positioning rod 202a, and a second gear 202b-1 is fixedly connected to the surface of the second positioning rod 202b. The first gear 202a-1 meshes with the second gear 202b-1.

[0043] The stop blocks 201a are inclined, and there are four of them arranged in a circular array on the base 201. The stop blocks 201a can limit the rotation stroke of the pre-clamping member 203 to ensure that the position of the pre-clamping member 203 is stable after the action.

[0044] By setting the first positioning rod 202a and the second positioning rod 202b, the installation requirements of the first gear 202a-1 and the second gear 202b-1 can be met, and the first gear 202a-1 and the second positioning rod 202b can be kept in a meshing state, so that when the first positioning rod 202a rotates, the second positioning rod 202b that cooperates with it will rotate in the opposite direction.

[0045] The guide rod 202c is fixedly connected to the surface of the base 201. The displacement frame 202d is disposed on the surface of the base 201. The surface of the displacement frame 202d is provided with a guide groove 202d-3, which cooperates with the guide rod 202c. The surface of the displacement frame 202d is fixedly connected with a rack 202d-1, which cooperates with the first gear 202a-1. The surface of the displacement frame 202d is rotatably connected with a clamping block 202d-2. The surface of the clamping block 202d-2 is provided with a limit groove 202d-2a, which cooperates with the guide rod 202c.

[0046] The guide rod 202c and guide groove 202d-3 serve as positioning guides, ensuring the displacement stability of the displacement frame 202d. The guide rod 202c has a T-shaped design, consisting of a long rod with a smaller diameter and a round block with a larger diameter. The long rod slides within the guide groove 202d-3, while the round block protrudes from the guide groove 202d-3 and slides in contact with one side of the displacement frame 202d. This design prevents the displacement frame 202d from detaching from the base 201 due to lateral displacement during operation.

[0047] Through the meshing transmission between the rack 202d-1 and the first gear 202a-1, when the drive displacement frame 202d is displaced, the movement of the rack 202d-1 will cause the two first gears 202a-1 to rotate simultaneously.

[0048] The clamping block 202d-2 is movably connected to the displacement frame 202d via a rotating shaft. Through the setting of the limiting groove 202d-2a and the guide rod 202c, after the displacement frame 202d has moved, driving the clamping block 202d-2 to rotate allows the guide rod 202c to enter the limiting groove 202d-2a, completing the positioning and locking process to prevent the displacement frame 202d from shifting arbitrarily. Simultaneously, an anti-slip rubber ring is fixedly connected within the limiting groove 202d-2a. During the rotational positioning and locking process, the guide rod 202c contacts and presses against the anti-slip rubber ring, causing the anti-slip rubber ring to undergo elastic deformation and make tight contact with the guide rod 202c. The limiting groove 202d-2a and the guide rod 202c fit well together, ensuring the friction force experienced by the clamping block 202d-2 during clamping installation.

[0049] The movable blocks 202e are respectively disposed on the surfaces of the first positioning rod 202a and the second gear 202b-1.

[0050] There are four movable blocks 202e, which are located on the two first positioning rods 202a and the second gear 202b-1 respectively, and are fixedly connected to the first positioning rods 202a and the second gear 202b-1. The two first gears 202a-1 are symmetrically arranged on the base 201. When the first gears 202a-1 are driven to rotate by the rack 202d-1, the two first gears 202a-1 rotate in opposite directions. At the same time, they cooperate with the second gear 202b-1 that meshes with the first gears 202a-1, so that the two adjacent movable blocks 202e can rotate towards each other or in opposite directions.

[0051] The pre-clamping component 203 includes a storage sleeve 203a and a pre-clamping rod 203b. The storage sleeve 203a is fixedly connected to the movable block 202e. The pre-clamping rod 203b is located at the top of the storage sleeve 203a. An auxiliary groove 203b-2 is provided at the bottom of the pre-clamping rod 203b. A first spring 203b-1 is fixedly connected inside the auxiliary groove 203b-2. The bottom end of the first spring 203b-1 is fixedly connected inside the storage sleeve 203a.

[0052] The auxiliary slot 203b-2 provides sufficient storage space for the first spring 203b-1, which in turn provides elastic connection force for the pre-clamping rod 203b. During camera base installation, this allows for pre-clamping, freeing up the operator's hands. In actual assembly, the storage sleeve 203a and the pre-clamping rod 203b are designed as separate units. The operator can install the first spring 203b-1 inside one half of the storage sleeve 203a and pre-clamping rod 203b, and then combine it with the other half. The assembled unit is shown in the attached diagram in the instruction manual. Figure 6 The shape of the storage sleeve 203a and the pre-clamping rod 203b is shown.

[0053] The stabilizing component 204 includes a pressure frame 204a, a displacement block 204b, a displacement groove 204c, and a clamping plate 204d. The pressure frame 204a is movably connected to the pre-clamping rod 203b. The displacement groove 204c is formed on the surface of the pre-clamping rod 203b. The displacement block 204b is disposed inside the displacement groove 204c. The clamping plate 204d is movably connected to the surface of the pre-clamping rod 203b.

[0054] The pressure bracket 204a can rotate flexibly. During installation, one end of it makes close contact with the camera base surface to complete the secondary fastening. During disassembly, the pressure bracket 204a rotates, and its other end contacts the side of the camera base, pushing the camera base away from the base 201. Compared to directly holding the camera components for removal, this design avoids direct force on the camera body. Directly holding the camera may cause excessive pressure on the camera body, lens mount, or gimbal screws, which may lead to structural loosening or damage over time. The side-assisted push distributes the force through the base, protecting the core components.

[0055] A protruding rod 204a-1 is fixedly connected to the surface of the pressure frame 204a. A second spring 204a-2 and a second movable strip 204a-3 are respectively sleeved on the surface of the protruding rod 204a-1. One end of the second spring 204a-2 is in contact with the second movable strip 204a-3, and the other end of the second spring 204a-2 is fixedly connected to the surface of the protruding rod 204a-1. A slot 204a-3a is opened on the surface of the second movable strip 204a-3.

[0056] By setting the protruding rod 204a-1, when driving the second movable bar 204a-3 to move, the stability of the second movable bar 204a-3 is improved, and the second spring 204a-2 can be further compressed by the pressure of the second movable bar 204a-3.

[0057] An auxiliary rod 204e is fixedly connected inside the displacement groove 204c. A displacement block 204b is sleeved on the auxiliary rod 204e. A third spring 204f is sleeved on the surface of the auxiliary rod 204e. One end of the third spring 204f is fixedly connected to the displacement block 204b, and the other end of the third spring 204f is fixedly connected to the inner wall of the displacement groove 204c.

[0058] With the help of the auxiliary rod 204e and the third spring 204f, the displacement block 204b can be stably displaced on the auxiliary rod 204e under the tension of the third spring 204f.

[0059] The surface of the displacement block 204b is movably connected to a first movable strip 204b-1. The surface of the first movable strip 204b-1 is fixedly connected to a clip head 204b-2, which cooperates with the clip groove 204a-3a. The surface of the displacement block 204b is provided with a groove 204b-4. A rubber damping strip 204b-3 and a fourth spring 204b-5 are respectively installed inside the groove 204b-4.

[0060] With the design of the clip head 204b-2 and the slot 204a-3a, the first movable bar 204b-1 and the second movable bar 204a-3 will move together when they are engaged. When they are separated, the movement of the first movable bar 204b-1 will not affect the second movable bar 204a-3. When the first movable bar 204b-1 and the second movable bar 204a-3 are engaged, that is, the clip head 204b-2 is placed in the slot 204a-3a, the displacement block 204b will be displaced under the elastic connection of the third spring 204f, which will cause the pressure bracket 204a to rotate for secondary fixation of the camera base.

[0061] The second spring 204a-2 provides elastic support for the second movable bar 204a-3. When no external force is involved, the second movable bar 204a-3 is kept aligned with the first movable bar 204b-1, and the locking head 204b-2 is placed in the locking groove 204a-3a. The operator can also actively drive the second movable bar 204a-3 to move on the surface of the protrusion 204a-1, and the second spring 204a-2 is compressed, thereby separating the second movable bar 204a-3 from the first movable bar 204b-1.

[0062] By setting up the rubber damping strip 204b-3 and the clamping plate 204d, when the clamping plate 204d is rotated into the groove 204b-4, it contacts the rubber damping strip 204b-3 and compresses the rubber damping strip 204b-3, causing the rubber damping strip 204b-3 to undergo elastic deformation, thereby increasing the friction force that the clamping plate 204d needs to overcome to rotate freely.

[0063] The surface of the clamping plate 204d has a flat groove 204d-1, which cooperates with the fourth spring 204b-5. The clamping plate 204d also cooperates with the groove 204b-4. The pre-clamping rod 203b has an arc-shaped slot, which cooperates with the clamping plate 204d to meet the rotation space requirements of the clamping plate 204d.

[0064] By using the flat groove 204d-1 and the fourth spring 204b-5, when the clamping plate 204d is rotated into the groove 204b-4, the flat groove 204d-1 is in a horizontal state and aligned with the fourth spring 204b-5. The fourth spring 204b-5 provides a vertically upward support force for the clamping plate 204d, further improving the contact tightness between the clamping plate 204d and the rubber damping strip 204b-3. When the operator actively drives the clamping plate 204d to rotate, the flat groove 204d-1 is tilted relative to the fourth spring 204b-5. In this state, the support force provided by the fourth spring 204b-5 is distributed, which can provide support force for opening the clamping plate 204d. This makes it easier for the operator to rotate the clamping plate 204d to open it by a certain angle, and then perform the subsequent rotation opening operation with less effort.

[0065] The upper groove of the groove 204b-4 is smaller than the lower groove, and the inner side is inclined. This design can cooperate with the card plate 204d to effectively increase the contact area between the rubber damping strip 204b-3 and the card plate 204d when the card plate 204d is rotated and inserted into the groove 204b-4, thus ensuring contact anti-slip friction.

[0066] The clamping plate 204d, the flat groove 204d-1, the rubber damping strip 204b-3, the groove 204b-4, and the fourth spring 204b-5 are diagonally distributed on the four pre-clamping rods 203b. For cameras with higher weight, the above components can be installed on all four pre-clamping rods 203b to ensure overall installation stability.

[0067] In use, the device is first fixedly installed with the bearing assembly 100. The fastener 102 is in a pre-disassembled state. The bearing rod is placed in the fixed seat 101. After the fastening bolt in the fastener 102 passes through the through groove 101a, its top is in close contact with the bearing rod. Then, the fastening bolt in the fastener 102 is used to lock the installation to ensure the stability of the device installation. Then, with the help of the gooseneck tube 103, the position or angle of the fixing assembly 200 can be flexibly adjusted to meet the visual inspection requirements of the product.

[0068] The fixing component 200 can be applied to rectangular base cameras or circular base cameras. When facing a rectangular base camera, the displacement frame 202d is pulled out. With the cooperation of the guide rod 202c and the guide groove 202d-3, the displacement frame 202d moves stably and stops. The corresponding clamping block 202d-2 is aligned with the guide rod 202c. At this time, the clamping block 202d-2 is driven to rotate, and the guide rod 202c is inserted into the limiting groove 202d-2a to ensure the stability of the displacement frame 202d.

[0069] During the displacement of the displacement frame 202d, the rack 202d-1 and the first gear 202a-1 mesh to drive the first positioning rod 202a to rotate. Simultaneously, the first gear 202a-1 and the second gear 202b-1 mesh to drive the second positioning rod 202b to rotate, causing the four movable blocks 202e to move simultaneously until the storage sleeve 203a is adjusted to a vertical support position, meeting the requirements for clamping the rectangular base camera. Similarly, when the displacement frame 202d is pushed in, the movable block 202e will rotate to an inclined state, engaging with the corresponding clamping block 202d-2 and guide rod 202c for secure mounting.

[0070] The fixing component 200 performs multiple fixing clamps on the camera. The camera base contacts the base 201 and pulls the pre-clamping rod 203b. The first spring 203b-1 is stretched. The position of the pre-clamping rod 203b is adjusted to suit different sizes of camera bases. Then, the camera base is pre-clamped and positioned in conjunction with the pre-clamping rod 203b.

[0071] Supported by the second spring 204a-2, the second movable bar 204a-3 is aligned with the first movable bar 204b-1 and can move synchronously. In this state, under the tension of the third spring 204f, the displacement block 204b slides stably on the auxiliary rod 204e. Driven by the first movable bar 204b-1 and the second movable bar 204a-3, the pressing frame 204a is pressed inward, which can perform secondary pressing and positioning on the outer side of the camera base.

[0072] The drive plate 204d is placed into the groove 204b-4. The plate 204d contacts the rubber damping strip 204b-3 and generates friction until the flat groove 204d-1 is in a horizontal state. The fourth spring 204b-5 contacts the flat groove 204d-1 and provides vertical upward support, further improving the tightness of the contact between the plate 204d and the rubber damping strip 204b-3. In this state, the displacement block 204b can be prevented from sliding and displacing again, which is used to ensure the stability of the camera base clamping.

[0073] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A camera fixing device for product visual inspection with adjustment function, characterized by: include, The support assembly (100) includes a mounting base (101), a fastener (102), and a gooseneck tube (103), wherein the fastener (102) is mounted on the mounting base (101), and the gooseneck tube (103) is fixedly mounted on the top of the mounting base (101); and, The fixing component (200) is disposed at the end of the gooseneck tube (103) away from the fixing seat (101), and includes a base (201), a driving member (202), a pre-clamping member (203) and a stabilizing member (204). The base (201) is fixedly connected to the end of the gooseneck tube (103) away from the fixing seat (101). A stop block (201a) is fixedly connected to the surface of the base (201). The driving member (202) is mounted on the base (201). The pre-clamping member (203) is disposed on the surface of the base (201). The stabilizing member (204) is disposed on the surface of the pre-clamping member (203).

2. The camera fixing device for product visual inspection with adjustment function according to claim 1, characterized in that: The driving component (202) includes a first positioning rod (202a), a second positioning rod (202b), and a guide rod (202c). The first positioning rod (202a) and the second positioning rod (202b) are both rotatably connected to the base (201). A first gear (202a-1) is fixedly connected to the surface of the first positioning rod (202a), and a second gear (202b-1) is fixedly connected to the surface of the second positioning rod (202b). The first gear (202a-1) meshes with the second gear (202b-1), and the guide rod (202c) is fixedly connected to the surface of the base (201).

3. The camera fixing device for product visual inspection with adjustable function as described in claim 2, characterized in that: The driving component (202) also includes a displacement frame (202d), which is disposed on the surface of the base (201). The surface of the displacement frame (202d) is provided with a guide groove (202d-3) and cooperates with a guide rod (202c). A rack (202d-1) is fixedly connected to the surface of the displacement frame (202d) and cooperates with a first gear (202a-1). A clamping block (202d-2) is rotatably connected to the surface of the displacement frame (202d). The surface of the clamping block (202d-2) is provided with a limit groove (202d-2a) and cooperates with the guide rod (202c).

4. The camera fixing device for product visual inspection with adjustable function as described in claim 3, characterized in that: The drive unit (202) also includes a movable block (202e), which is respectively disposed on the surface of the first positioning rod (202a) and the second gear (202b-1).

5. The camera fixing device for product visual inspection with adjustable function as described in claim 4, characterized in that: The pre-clamping component (203) includes a storage sleeve (203a) and a pre-clamping rod (203b). The storage sleeve (203a) is fixedly connected to the movable block (202e). The pre-clamping rod (203b) is disposed at the top of the storage sleeve (203a). An auxiliary groove (203b-2) is provided at the bottom of the pre-clamping rod (203b). A first spring (203b-1) is fixedly connected inside the auxiliary groove (203b-2). The bottom end of the first spring (203b-1) is fixedly connected to the inside of the storage sleeve (203a).

6. The camera fixing device for product visual inspection with adjustable function as described in claim 5, characterized in that: The stabilizing component (204) includes a pressure frame (204a), a displacement block (204b), a displacement groove (204c), and a clamping plate (204d). The pressure frame (204a) is movably connected to the pre-clamping rod (203b). The displacement groove (204c) is formed on the surface of the pre-clamping rod (203b). The displacement block (204b) is disposed inside the displacement groove (204c). The clamping plate (204d) is movably connected to the surface of the pre-clamping rod (203b).

7. The camera fixing device for product visual inspection with adjustable function as described in claim 6, characterized in that: The surface of the pressure frame (204a) is fixedly connected with a protruding rod (204a-1). The surface of the protruding rod (204a-1) is respectively fitted with a second spring (204a-2) and a second movable bar (204a-3). One end of the second spring (204a-2) is in contact with the second movable bar (204a-3). The surface of the second movable bar (204a-3) is provided with a slot (204a-3a).

8. The camera fixing device for product visual inspection with adjustable function as described in claim 7, characterized in that: An auxiliary rod (204e) is fixedly connected inside the displacement groove (204c). The displacement block (204b) is sleeved on the auxiliary rod (204e). A third spring (204f) is sleeved on the surface of the auxiliary rod (204e). One end of the third spring (204f) is fixedly connected to the displacement block (204b), and the other end of the third spring (204f) is fixedly connected to the inner wall of the displacement groove (204c).

9. The camera fixing device for product visual inspection with adjustable function as described in claim 8, characterized in that: The surface of the displacement block (204b) is movably connected to a first movable strip (204b-1), and the surface of the first movable strip (204b-1) is fixedly connected to a clip (204b-2) and cooperates with a slot (204a-3a). The surface of the displacement block (204b) is provided with a groove (204b-4), and a rubber damping strip (204b-3) and a fourth spring (204b-5) are respectively installed inside the groove (204b-4).

10. The camera fixing device for product visual inspection with adjustable function as described in claim 9, characterized in that: The surface of the card plate (204d) is provided with a flat groove (204d-1) and cooperates with the fourth spring (204b-5). The card plate (204d) cooperates with the groove (204b-4).