An automated equipment fixture assembly with positioning functionality

Abstract

The utility model discloses a kind of automation equipment fixing components with positioning function, comprising: base, the inside of the base is equipped with first connecting rod, and the left side of first connecting rod is provided with motor, the downside of the base is equipped with guide slot, and the inside of guide slot is equipped with first limit block, the upper end of first limit block is equipped with bearing block, and the outside of bearing block is provided with locating block;Limiting component is set in the middle of bearing block, and limiting component is by handheld rod, first connecting disc, second connecting disc, second connecting disc, second connecting rod, second limit block and third limit block constitute, the inside of bearing block is equipped with link block.The automation equipment fixing component with positioning function, in the process of working, equipment can be conveniently positioned installation, can adjust the use position of equipment after completing installation simultaneously, use more convenient, adapt to more use environment, and stronger practicality.

Description

Technical Field

[0001] This utility model relates to the technical field of fixed components for automated equipment, specifically a fixed component for automated equipment with positioning function. Background Technology

[0002] Automated equipment fixing components are devices that install connecting blocks in designated positions. For example, they are used to install and fix automated equipment according to the requirements of a construction project. Using these fixing components ensures stable operation, effectively improving work efficiency and reducing labor intensity. For example:

[0003] CN210290599U discloses a fixing component for a connecting block, relating to the field of fixing component technology. Specifically, it is a fixing component for a connecting block, including a base bracket with a bottom rubber support fixedly connected to its bottom. A support column is fixedly installed at the center of the bottom of the base bracket, and snap-fit ​​grooves are formed on both sides of the base bracket. A fixing bracket is placed inside the cavity of the base bracket. This fixing component for connecting blocks, through the combined use of a rubber protective pad and a device fixing suction cup, utilizes the elasticity of the rubber protective pad to compress the device while simultaneously using the device fixing suction cup to adhere to the bottom of the device, thereby achieving the effect of fixing the device. This overcomes the problems of low installation efficiency and inconvenient disassembly caused by traditional fixing components using bolts, improving the practicality of this fixing component for connecting blocks.

[0004] The existing technical solutions mentioned above have the following drawbacks: current automated equipment fixing components generally cannot conveniently position and install the equipment during operation, and the usage position of the equipment cannot be adjusted after installation, making them inconvenient to use, unsuitable for a wide range of usage environments, and lacking practicality. Therefore, this utility model provides an automated equipment fixing component with positioning function to solve the problems mentioned above. Utility Model Content

[0005] The purpose of this utility model is to provide an automated equipment fixing component with positioning function, so as to solve the problems mentioned in the background art, that the equipment cannot be conveniently positioned and installed during operation, and the equipment's position cannot be adjusted after installation, resulting in inconvenience, unsuitability for more usage environments, and low practicality.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a fixing component for automated equipment with positioning function, comprising:

[0007] The base has a first connecting rod installed inside it, and a motor is provided on the left side of the first connecting rod. A guide groove is provided on the lower side of the base, and a first limiting block is installed inside the guide groove. A bearing block is installed on the upper end of the first limiting block, and a positioning block is provided on the outer side of the bearing block.

[0008] A limiting component is disposed in the middle of the bearing block, and the limiting component consists of a hand handle, a first connecting plate, a second connecting plate, a second connecting rod, a second limiting block, and a third limiting block. A connecting block is installed inside the bearing block, and a shock-absorbing plate is attached to the upper surface of the bearing block. A limiting rod is provided on the outer side of the shock-absorbing plate.

[0009] Preferably, the first limiting block is slidably connected to the lower end of the base, and the first limiting block is symmetrically arranged about the central axis of the bearing block.

[0010] Preferably, the bearing block is threadedly connected to both the first connecting rod and the positioning block, and the positioning block is symmetrically arranged about the central axis of the bearing block.

[0011] Preferably, a hand-held lever is provided in the middle of the bearing block, and a first connecting plate is installed in the middle of the hand-held lever. A second connecting plate is provided on the outer side of the first connecting plate, and a second connecting rod is connected to the outer end of the second connecting plate. A second limiting block is connected to the outer side of the second connecting rod, and a third limiting block is provided at the lower end of the second limiting block.

[0012] Preferably, the handheld rod and the second connecting rod are rotatably connected to the bearing block, and the second connecting rod is threadedly connected to the second limiting block.

[0013] Preferably, the first connecting plate and the second connecting plate are engaged with each other, and the second connecting plate is symmetrically arranged about the central axis of the first connecting plate.

[0014] Preferably, the third limiting block is slidably disposed relative to the bearing block, and the longitudinal section of the third limiting block is a "T" shaped structure.

[0015] Preferably, the limiting rod is threadedly connected to both the shock absorber and the bearing block.

[0016] Compared with the prior art, the beneficial effects of this utility model are: the fixed component of the automated equipment with positioning function can conveniently position and install the equipment during the operation process, and can adjust the usage position of the equipment after installation, making it more convenient to use, adaptable to more usage environments, and more practical.

[0017] By sliding the third limiting block relative to the bearing block, the connecting block is placed inside the bearing block along the positioning block. At the same time, the hand lever is rotated, causing the hand lever to drive the first connecting plate to rotate. At this time, the first connecting plate pushes the second connecting plate and the second connecting rod to rotate, causing the second connecting rod to push the second limiting block and the third limiting block to slide outward from inside the bearing block to inside the connecting block, thus completing the positioning and quick installation of the connecting block.

[0018] The bearing block is threadedly connected to the first connecting rod and the positioning block. When the connecting block is installed and limited, the position of the connecting block needs to be adjusted. At this time, the motor drives the first connecting rod to rotate inside the base, so that the first connecting rod pushes the bearing block and the first limiting block to slide left and right inside the base, thus completing the position adjustment of the connecting block.

[0019] By symmetrically setting the limiting rods about the central axis of the damping plate, the high-frequency vibration generated by the operation of the connecting block during use may cause internal parts of the device to fall off. At this time, the damping plate set at the upper end of the bearing block can absorb the vertical vibration force generated by the connecting block, which greatly reduces the impact of the connecting block on the device and extends the service life of the device. Attached Figure Description

[0020] Figure 1 This is a frontal cross-sectional view of the present invention.

[0021] Figure 2 This is a side cross-sectional view of the connection between the limiting component and the bearing block of this utility model;

[0022] Figure 3 This is a side cross-sectional view of the connection between the third limiting block and the bearing block of this utility model.

[0023] Figure 4 This is a top view sectional structural diagram of the present invention;

[0024] Figure 5 This is a frontal cross-sectional view of the connecting block of this utility model after it has been moved.

[0025] In the diagram: 1. Base; 2. First connecting rod; 3. Motor; 4. Guide groove; 5. First limiting block; 6. Bearing block; 7. Positioning block; 8. Limiting assembly; 801. Handheld rod; 802. First connecting plate; 803. Second connecting plate; 804. Second connecting rod; 805. Second limiting block; 806. Third limiting block; 9. Connecting block; 10. Shock absorber; 11. Limiting rod. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0027] Please see Figure 1-5 This utility model provides a technical solution: an automated equipment fixing component with positioning function, including a base 1, a first connecting rod 2 installed inside the base 1, a motor 3 provided on the left side of the first connecting rod 2, a guide groove 4 opened on the lower side of the base 1, a first limiting block 5 installed inside the guide groove 4, a bearing block 6 installed on the upper end of the first limiting block 5, and a positioning block 7 provided on the outer side of the bearing block 6.

[0028] The limiting component 8 is located in the middle of the bearing block 6, and the limiting component 8 is composed of a hand handle 801, a first connecting plate 802, a second connecting plate 803, a second connecting rod 804, a second limiting block 805, and a third limiting block 806. A connecting block 9 is installed inside the bearing block 6, and a shock-absorbing plate 10 is attached to the upper surface of the bearing block 6. A limiting rod 11 is provided on the outer side of the shock-absorbing plate 10, forming a complete automatic equipment fixing component.

[0029] like Figure 1 , Figure 4 and Figure 5 As shown, the first limiting block 5 is slidably connected to the lower end of the base 1, and the first limiting block 5 is symmetrically arranged about the central axis of the bearing block 6. The bearing block 6 is threadedly connected to the first connecting rod 2 and the positioning block 7. When the connecting block 9 is installed and limited, the position of the connecting block 9 needs to be adjusted. At this time, the motor 3 drives the first connecting rod 2 to rotate inside the base 1, so that the first connecting rod 2 pushes the bearing block 6 and the first limiting block 5 to slide left and right inside the base 1, thus completing the position adjustment of the connecting block 9.

[0030] like Figure 1 , Figure 3 and Figure 5As shown, the positioning blocks 7 are symmetrically arranged about the central axis of the bearing block 6. A handheld lever 801 is provided in the middle of the bearing block 6, and a first connecting plate 802 is installed in the middle of the handheld lever 801. A second connecting plate 803 is provided on the outer side of the first connecting plate 802, and a second connecting rod 804 is connected to the outer end of the second connecting plate 803. A second limiting block 805 is connected to the outer side of the second connecting rod 804, and a third limiting block 806 is provided at the lower end of the second limiting block 805. The handheld lever 801 and the second connecting rod 804 are rotatably connected to the bearing block 6, and the second connecting rod 804 and the second limiting block 805 are threadedly connected. The first connecting plate 802 and the second connecting plate 803 are meshed together. Furthermore, the second connecting plate 803 is symmetrically arranged about the central axis of the first connecting plate 802, and the third limiting block 806 is slidably arranged relative to the bearing block 6. The longitudinal section of the third limiting block 806 is a "T" shaped structure. By placing the connecting block 9 along the positioning block 7 inside the bearing block 6 and rotating the hand lever 801, the hand lever 801 drives the first connecting plate 802 to rotate. At this time, the first connecting plate 802 pushes the second connecting plate 803 and the second connecting rod 804 to rotate, so that the second connecting rod 804 pushes the second limiting block 805 and the third limiting block 806 to slide outward from inside the bearing block 6 to inside the connecting block 9, thus completing the positioning and quick installation of the connecting block 9.

[0031] like Figure 1 , Figure 2 and Figure 5 As shown, the limiting rod 11 is threadedly connected to the damping plate 10 and the bearing block 6. When the connecting block 9 is in use, the high-frequency vibration generated by the operation of the connecting block 9 may cause the internal parts of the device to fall off. At this time, the damping plate 10 set at the upper end of the bearing block 6 can absorb the vertical vibration force generated by the connecting block 9, so that the impact of the connecting block 9 on the device is greatly reduced and the service life of the device is extended.

[0032] All standard parts used in this utility model can be purchased from the market, and irregular parts can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art. In addition, the circuit connection adopts conventional connection methods in the prior art, which will not be described in detail here. The contents not described in detail in this specification belong to the prior art known to those skilled in the art.

[0033] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A fixing component for automated equipment with positioning function, characterized in that, include: The base (1) has a first connecting rod (2) installed inside it, and a motor (3) is provided on the left side of the first connecting rod (2). A guide groove (4) is provided on the lower side of the base (1), and a first limiting block (5) is installed inside the guide groove (4). A bearing block (6) is installed on the upper end of the first limiting block (5), and a positioning block (7) is provided on the outer side of the bearing block (6). The limiting component (8) is located in the middle of the bearing block (6), and the limiting component (8) is composed of a hand handle (801), a first connecting plate (802), a second connecting plate (803), a second connecting rod (804), a second limiting block (805) and a third limiting block (806). A connecting block (9) is installed inside the bearing block (6), and a shock-absorbing plate (10) is attached to the upper surface of the bearing block (6). A limiting rod (11) is provided on the outer side of the shock-absorbing plate (10).

2. The fixing component of an automated equipment with positioning function according to claim 1, characterized in that: The first limiting block (5) is slidably connected to the lower end of the base (1), and the first limiting block (5) is symmetrically arranged about the central axis of the bearing block (6).

3. The fixing component of an automated equipment with positioning function according to claim 2, characterized in that: The bearing block (6) is threadedly connected to the first connecting rod (2) and the positioning block (7), and the positioning block (7) is symmetrically arranged about the central axis of the bearing block (6).

4. The fixing component of an automated equipment with positioning function according to claim 1, characterized in that: The bearing block (6) is provided with a hand handle (801) in the middle, and a first connecting plate (802) is installed in the middle of the hand handle (801). A second connecting plate (803) is provided on the outside of the first connecting plate (802), and a second connecting rod (804) is connected to the outer end of the second connecting plate (803). A second limiting block (805) is connected to the outside of the second connecting rod (804), and a third limiting block (806) is provided at the lower end of the second limiting block (805).

5. The fixing component for an automated device with positioning function according to claim 4, characterized in that: The handheld rod (801) and the second connecting rod (804) are rotatably connected to the bearing block (6), and the second connecting rod (804) is threadedly connected to the second limiting block (805).

6. The fixing component of an automated equipment with positioning function according to claim 4, characterized in that: The first connecting plate (802) and the second connecting plate (803) are meshed and connected, and the second connecting plate (803) is symmetrically arranged about the central axis of the first connecting plate (802).

7. The fixing component for an automated device with positioning function according to claim 4, characterized in that: The third limiting block (806) is slidably disposed relative to the bearing block (6), and the longitudinal section of the third limiting block (806) is a "T" shaped structure.

8. The fixing component of an automated equipment with positioning function according to claim 1, characterized in that: The limiting rod (11) is threadedly connected to the damping plate (10) and the bearing block (6).

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