An angle-adjustable operating table device

Abstract

The utility model relates to mechanical engineering field especially, and more particularly to an adjustable angle operation platform device. The utility model provides an adjustable angle operation platform device which can automatically extend the shielding plate when adjusting the angle, shield and limit the tools or parts, and avoid damaging the tools or parts or hurting the operator. The utility model discloses an adjustable angle operation platform device, which comprises a bottom plate, a hydraulic cylinder and an extension rod, etc. The hydraulic cylinder is connected to the upper side of the middle part of the bottom plate, and the extension rods are connected to the upper sides of the front and rear parts of the bottom plate. When the operation platform rotates, the half-toothed ring and the second gear adjacent thereto mesh and move, driving the second gear to rotate. The second gear and the rack mesh and move, driving the shielding plate to move upward. The utility model has the effect of automatically extending the shielding plate when adjusting the angle, shielding and limiting the tools or parts, and avoiding damaging the tools or parts or hurting the operator.

Description

Technical Field

[0001] This utility model relates to the field of mechanical engineering, and in particular to an adjustable-angle operating table device. Background Technology

[0002] In modern industrial production and maintenance operations, the workbench is a piece of equipment used for various manual operations, assembly, testing, and maintenance. As a key piece of equipment for supporting and fixing tools and parts, the design and function of the workbench directly affect work efficiency and safety.

[0003] Existing workbenches require the parts to be processed and various tools to be placed on them for processing. In order to facilitate operation, the workbench usually uses hydraulic or mechanical structures to adjust its angle. However, during the angle adjustment process, tools or parts on the workbench are prone to falling off, causing damage or injuring the operator, which is quite dangerous.

[0004] Therefore, it is necessary to design an adjustable-angle operating table device that can automatically extend the baffle when the angle is adjusted, so as to cover and limit the tools or parts and avoid damage to the tools or parts or injury to the operator. Utility Model Content

[0005] To overcome the drawback of existing control panels where tools or parts are prone to falling off during angle adjustment, causing damage or injury to operators, this utility model provides an adjustable-angle control panel device that automatically extends a baffle plate during angle adjustment to shield and limit tools or parts, preventing damage or injury to operators.

[0006] The technical solution of this utility model is: an adjustable-angle operating table device, including a base plate, a hydraulic cylinder, a telescopic rod, a connecting platform, an angle adjustment component, and a shielding component. The hydraulic cylinder is connected to the upper side of the middle part of the base plate, and two telescopic rods are connected to the upper sides of the front and rear parts of the base plate. A connecting platform is connected between the telescopic end of the telescopic rod and the telescopic end of the hydraulic cylinder. An angle adjustment component capable of adjusting the angle is provided on the connecting platform, and a shielding component capable of preventing items from falling while adjusting the angle is provided.

[0007] In one embodiment, the angle adjustment assembly includes a half-gear ring, a slide groove, a slider, an operating table, a motor, and a first gear. The half-gear ring is connected to the upper side of the middle part of the connecting table, and slide grooves are connected to both the left and right sides of the connecting table. Sliders are rotatably and slidably connected to the slide grooves. The operating table is connected between the sliders. The motor is connected to the lower left side of the operating table, and the first gear is connected to the output shaft of the motor. The first gear meshes with the half-gear ring.

[0008] In one embodiment, the grooves are all arc-shaped structures.

[0009] In one embodiment, a sliding plate and a connecting plate are also included. The connecting plates are connected to both the left and right sides of the operating table, and the upper part of the connecting plates is slidably connected to the sliding plate.

[0010] In one embodiment, a latch is also included, with the portions of the connecting plates that are far apart from each other being engaged with the latch.

[0011] In one embodiment, a shielding assembly is also included. The shielding assembly includes a connecting frame, a shielding plate, a rack, and a second gear. The connecting frame is connected to the front side of the operating table, and the shielding plate is slidably connected to the connecting frame. The rack is connected to the lower rear side of the shielding plate, and two second gears are rotatably connected to the lower part of the connecting frame. The second gears mesh with each other, the rack meshes with its adjacent second gear, and the half-gear meshes with its adjacent second gear.

[0012] The beneficial effects are: 1. When the operating table rotates, the semi-gear ring will mesh with the adjacent second gear, which will drive the second gear to rotate. The second gear will mesh with the rack, which will drive the baffle to move upward. This achieves the effect of automatically extending the baffle when adjusting the angle, which is convenient for blocking and limiting tools or parts, and avoiding damage to tools or parts or injury to operators.

[0013] 2. This utility model achieves the effect of extending the operating table by pulling out the pin and then moving the sliding plate outward, thus facilitating the expansion of the operating area. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0015] Figure 2 This is a structural diagram of the connecting frame and shielding plate of this utility model.

[0016] Figure 3 This is a three-dimensional structural diagram of the motor and first gear of this utility model.

[0017] Figure 4 This is a three-dimensional structural diagram of the rack and second gear components of this utility model.

[0018] Figure 5 This is a three-dimensional structural diagram of the connecting plate and pins of this utility model.

[0019] In the attached diagram, the following are the reference numerals: 1-base plate, 2-hydraulic cylinder, 3-telescopic rod, 4-connecting platform, 5-half gear ring, 6-slide groove, 7-slider, 8-operating platform, 9-motor, 10-first gear, 11-sliding plate, 12-connecting plate, 13-pin, 14-connecting frame, 15-shielding plate, 16-rack, 17-second gear. Detailed Implementation

[0020] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings.

[0021] An adjustable-angle control panel device, such as Figure 1 and Figure 2 As shown, it includes a base plate 1, a hydraulic cylinder 2, a telescopic rod 3, a connecting platform 4, an angle adjustment component, and a shielding component. The hydraulic cylinder 2 is connected to the upper side of the middle part of the base plate 1. Two telescopic rods 3 are connected to the upper sides of the front and rear parts of the base plate 1. The telescopic end of the telescopic rod 3 is connected to the telescopic end of the hydraulic cylinder 2. The connecting platform 4 is equipped with an angle adjustment component and a shielding component.

[0022] like Figures 1-3 As shown, the angle adjustment assembly includes a semi-gear ring 5, a slide groove 6, a slider 7, an operating table 8, a motor 9, and a first gear 10. The semi-gear ring 5 is connected to the upper side of the middle part of the connecting table 4. Slide grooves 6 are connected to both the left and right sides of the connecting table 4. The slide grooves 6 are all arc-shaped structures. Slider 7 is rotatably and slidably connected to each slide groove 6. The operating table 8 is connected between the sliders 7. The motor 9 is connected to the lower left side of the operating table 8. The first gear 10 is connected to the output shaft of the motor 9. The first gear 10 meshes with the semi-gear ring 5.

[0023] like Figure 1 , Figure 2 and Figure 5 As shown, it also includes a sliding plate 11, a connecting plate 12 and a pin 13. The left and right sides of the operating table 8 are connected to the connecting plate 12, and the upper part of the connecting plate 12 is slidably connected to the sliding plate 11. The parts of the connecting plates 12 that are far apart from each other are engaged with the pin 13.

[0024] like Figure 1 , Figure 2 and Figure 4 As shown, it also includes a shielding assembly, which includes a connecting frame 14, a shielding plate 15, a rack 16, and a second gear 17. The connecting frame 14 is connected to the front of the operating table 8. The shielding plate 15 is slidably connected to the connecting frame 14. The rack 16 is connected to the lower rear side of the shielding plate 15. Two second gears 17 are rotatably connected to the lower part of the connecting frame 14. The second gears 17 mesh with each other. The rack 16 meshes with its adjacent second gear 17. The half-gear ring 5 meshes with its adjacent second gear 17.

[0025] When using this device, first place the base plate 1 in the operating area of ​​the operating table 8, then place the tools to be used on the operating table 8. Next, start the hydraulic cylinder 2 to move the connecting table 4 upward, causing the telescopic rod 3 to extend. When it is necessary to adjust the angle of the operating table 8, start the motor 9 to drive the first gear 10 to rotate. The first gear 10 meshes with the half gear ring 5, causing the first gear 10 to rotate, which in turn drives the operating table 8 to rotate, causing the slider 7 to slide along the slide groove 6. As the operating table 8 rotates, the half gear ring 5 meshes with its adjacent second gear 17, causing the second gear 17 to rotate. The second gear 17 meshes with the rack 16, causing the second gear 17 near the baffle plate 15 to rotate counterclockwise. The second gear 17 meshes with the rack 16, causing the baffle plate 15 to move upward on the connecting frame 14. The baffle plate 15 covers the tools on the operating table 8, and can automatically extend when the angle is adjusted, so as to cover and limit the tools or parts and avoid damage to the tools or parts or injury to the operator. When it is necessary to expand the working area, the pin 13 can be pulled out and the sliding plate 11 can be moved outward to extend the operating table 8, so as to expand the operating area.

[0026] The above description is merely an embodiment of this utility model and is not intended to limit the scope of this utility model. All equivalent substitutions made within the principles of this utility model should be included within the protection scope of this utility model. Contents not described in detail in this utility model are existing technologies known to those skilled in the art.

Claims

1. An adjustable-angle operating table device, characterized in that: It includes a base plate (1), a hydraulic cylinder (2), a telescopic rod (3), a connecting platform (4), an angle adjustment component, and a shielding component. The hydraulic cylinder (2) is connected to the upper side of the middle part of the base plate (1). The upper sides of the front and rear parts of the base plate (1) are connected to two telescopic rods (3). The telescopic end of the telescopic rod (3) is connected to the telescopic end of the hydraulic cylinder (2). The connecting platform (4) is equipped with an angle adjustment component that can adjust the angle. The angle adjustment component is equipped with a shielding component that can prevent items from falling while adjusting the angle.

2. The adjustable-angle operating table device as described in claim 1, characterized in that: The angle adjustment assembly includes a half gear ring (5), a slide groove (6), a slider (7), an operating table (8), a motor (9), and a first gear (10). The half gear ring (5) is connected to the upper middle part of the connecting table (4). The slide grooves (6) are connected to both the left and right sides of the connecting table (4). The sliders (7) are rotatably and slidably connected to the slide grooves (6). The operating table (8) is connected between the sliders (7). The motor (9) is connected to the lower left side of the operating table (8). The first gear (10) is connected to the output shaft of the motor (9). The first gear (10) meshes with the half gear ring (5).

3. The adjustable-angle operating table device as described in claim 2, characterized in that: All the grooves (6) are arc-shaped structures.

4. The adjustable-angle operating table device as described in claim 2, characterized in that: It also includes a sliding plate (11) and a connecting plate (12). The left and right sides of the operating table (8) are connected to the connecting plate (12), and the upper part of the connecting plate (12) is slidably connected to the sliding plate (11).

5. The adjustable-angle operating table device as described in claim 4, characterized in that: It also includes a pin (13), and the parts of the connecting plates (12) that are far apart from each other are all engaged with the pin (13).

6. The adjustable-angle operating table device as described in claim 1, characterized in that: It also includes a shielding assembly, which includes a connecting frame (14), a shielding plate (15), a rack (16), and a second gear (17). The connecting frame (14) is connected to the front of the operating table (8). The shielding plate (15) is slidably connected to the connecting frame (14). The rack (16) is connected to the lower rear side of the shielding plate (15). The lower part of the connecting frame (14) is rotatably connected to two front and rear second gears (17). The second gears (17) mesh with each other. The rack (16) meshes with its adjacent second gear (17). The half gear ring (5) meshes with its adjacent second gear (17).

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