A logistics monitoring auxiliary device
By setting up adjustment components in logistics monitoring equipment, the monitor can be adjusted in all directions, solving the problem of blind spots caused by the fixed shooting angle of existing equipment, and improving the flexibility and efficiency of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LUZHOU HUACHU LOGISTICS CO LTD
- Filing Date
- 2025-05-26
- Publication Date
- 2026-06-19
AI Technical Summary
Existing logistics monitoring equipment is fixed in place, making it difficult to adjust the shooting angle and creating blind spots, which reduces the equipment's practicality and flexibility.
By setting up adjustment components, the electric push rod drives the telescopic rod and connecting rod to move, and in combination with the rack and pinion to drive the monitor body to rotate up and down. At the same time, the motor drives the support frame to rotate through the rotating shaft, so as to realize the all-round angle adjustment of the monitor.
It significantly improves the equipment's flexibility and monitoring capabilities, increases shooting angles, simplifies the installation and maintenance process, and enhances work efficiency.
Smart Images

Figure CN224381059U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of logistics monitoring technology, and in particular relates to a logistics monitoring auxiliary device. Background Technology
[0002] With the continuous growth of global trade and the rapid development of e-commerce, the logistics industry is showing a continuous expansion trend. The logistics network covers a wider range and involves more links, including transportation, warehousing, and distribution. This makes it necessary to use monitoring equipment in the process of logistics management. However, most of the monitoring equipment currently used is usually fixed and it is not convenient to adjust the shooting angle of the monitor. This results in blind spots in the monitoring equipment, making it difficult to monitor and manage the workplace, greatly reducing the practicality of the equipment, as well as its flexibility and adjustability, and significantly reducing the shooting angle. Therefore, a logistics monitoring auxiliary device is proposed. Utility Model Content
[0003] The purpose of this utility model is to provide a logistics monitoring auxiliary device. Specifically, by setting up an adjustment component, an electric push rod is activated, which drives a connecting rod via a telescopic rod. During the movement of the connecting rod, the monitor body rotates up and down through the action of a rack and pinion. Simultaneously, a motor can be activated, which drives a support frame to rotate via a shaft. The rotation of the support frame, in turn, causes the monitor body to rotate left and right. This solves the problem that most currently used monitoring equipment, after being fixedly installed, makes it inconvenient to adjust the camera angle, resulting in blind spots and hindering workplace monitoring and management. This significantly reduces the practicality, flexibility, and camera angle of the equipment.
[0004] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:
[0005] This utility model relates to a logistics monitoring auxiliary device, comprising a main frame mechanism, which includes a support frame. A monitor body is housed inside the support frame. An adjustment component is located on the front of the support frame, and a mounting component is located on top of the adjustment component. The mounting component includes a second mounting frame. The adjustment component includes an electric push rod, with a telescopic rod fixedly connected to the right output end of the electric push rod. A connecting rod is fixedly connected to the side of the telescopic rod away from the electric push rod. A sliding groove is formed on the front of the support frame, and the outer surface of the connecting rod contacts the inside of the sliding groove. Rotating rods are fixedly connected to both the front and back of the monitor body. A gear is located on the front of the monitor body. A [missing information - likely a component or part] is fixedly connected to the top of the support frame. Mounting frame one, with a motor fixedly connected to its top, and a support frame fixedly connected to its front. The top of the support frame is fixedly connected to the bottom of the electric push rod, and the right side of the inside of the support frame is slidably connected to the outer surface of the telescopic rod. The front of the monitor body is fixedly connected to a slide rail. When the electric push rod is activated, it drives the connecting rod to move through the telescopic rod. During the movement of the connecting rod, the monitor body will rotate up and down through the action of the rack and pinion. At the same time, the motor can also be activated to drive the support frame to rotate through the rotating shaft. During the rotation of the support frame, the monitor body will rotate left and right. By adjusting the all-round shooting angle of the monitor body, the shooting angle of the device is greatly increased.
[0006] Furthermore, the slide rail has an opening on its front side, and a rack is slidably connected inside the slide rail. The connecting rod passes through the slide groove and extends into the slide rail. The outer surface of the connecting rod contacts the inner wall of the opening. By opening the opening on the front side of the slide rail, a certain degree of support is provided for the movement trajectory of the connecting rod, and a certain degree of stability is also provided for the movement trajectory of the rack.
[0007] Furthermore, the top of the rack meshes with the outer surface of the gear, the front of the rack is fixedly connected to the side of the connecting rod away from the telescopic rod, the inside of the gear is fixedly connected to the outer surface of the rotating rod located on the front, and the outer surfaces of the two rotating rods away from the monitor body are rotatably connected to the front and back of the support frame. A rotating shaft is rotatably connected inside the first mounting frame, the rotating shaft passes through the first mounting frame and extends to the bottom, the bottom output end of the motor is fixedly connected to the top of the rotating shaft through a coupling, the side of the rotating shaft away from the motor is fixedly connected to the top of the support frame, and a mounting bracket is fixedly connected to the top of the second mounting frame. When the rack slides, it drives the gear to rotate. When the gear rotates, it drives the monitor body to rotate up and down through the action of the rotating rod. At the same time, it can also start the motor to drive the rotating shaft to rotate. When the rotating shaft rotates, it drives the support frame to rotate. During the rotation of the support frame, it drives the monitor body to rotate left and right.
[0008] Furthermore, the mounting frame is provided with bidirectional threaded rods on both the left and right sides inside. The connecting rod on the front is rotatably connected to fixed blocks on both the left and right sides. The two fixed blocks are fixedly connected to the inner wall of the mounting frame on the side away from the bidirectional threaded rod. The bidirectional threaded rod is threadedly connected to movable brackets on both the left and right sides of the outer surface of the outer surface of the outer surface of the inner surface of the outer surface of the fixed block on the right side. A knob is provided on the right side of the fixed block on the right side. The knob is fixedly connected to the outer surface of the bidirectional threaded rod. If the support frame needs to be replaced or repaired, the mounting frame can be removed by simply turning the knob counterclockwise. At this time, the monitor body is removed together.
[0009] Furthermore, the first mounting frame has openings 2 on both its left and right sides, and the outer surfaces of the two movable brackets are in contact with the inner walls of the openings 2. The first mounting frame has positioning holes at its top four corners, and the second mounting frame has positioning rods fixedly connected to its bottom four corners. The four positioning rods are inserted into the positioning holes on the side away from the second mounting frame. The second mounting frame has limit grooves on its left and right sides, and the two movable brackets are fixedly connected to limit blocks on the side away from the bidirectional threaded rod. The outer surfaces of the two limit blocks are in contact with the inner walls of the limit grooves. When installing the first mounting frame, the second mounting frame is first placed on top of the first mounting frame. At this time, the four positioning holes need to be inserted into the positioning rods for positioning. Then, the limit blocks are moved inside the limit grooves by rotating the bidirectional threaded rod, thereby achieving the limiting and fixing of the first and second mounting frames.
[0010] This utility model has the following beneficial effects:
[0011] 1. This utility model, by setting an adjustment component, specifically, activates an electric push rod to drive a connecting rod through a telescopic rod. During the movement of the connecting rod, the monitor body rotates up and down through the action of a rack and pinion. At the same time, a motor can be activated to drive a support frame to rotate through a rotating shaft. During the rotation of the support frame, the monitor body rotates left and right. By adjusting the all-round shooting angle of the monitor body, the shooting angle of the device is greatly increased, significantly improving the flexibility of the device's adjustability and the monitoring effect of the device.
[0012] 2. This utility model, through the setting of installation components, specifically involves first inserting four positioning holes into the positioning rod for positioning, then rotating the knob clockwise to drive the two movable brackets closer together via the bidirectional threaded rod. When the two movable brackets move, they will drive the two limiting blocks to move inside the limiting groove. When the two limiting blocks approach each other, the limiting groove will drive the second installation frame to move downwards, thus achieving the limiting fixation of the second installation frame and the first installation frame. This convenient and quick installation method greatly improves the speed of equipment replacement or maintenance for workers, significantly increases work efficiency, and significantly reduces the workload of workers.
[0013] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description
[0014] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying 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.
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a schematic diagram of the cross-sectional structure of the support frame of this utility model;
[0017] Figure 3 This utility model Figure 2 A magnified structural diagram of A in the middle;
[0018] Figure 4 This is a schematic diagram of the overall structure of the limiting block of this utility model;
[0019] Figure 5 This is a schematic diagram of the overall structure of the limiting slide groove of this utility model.
[0020] The attached diagram lists the components represented by each number as follows:
[0021] 1. Main frame mechanism; 111. Support frame; 112. Monitor body; 2. Adjustment assembly; 211. Electric push rod; 212. Support frame; 213. Telescopic rod; 214. Connecting rod; 215. Rotating rod; 216. Gear; 217. Mounting frame one; 218. Motor; 219. Rotating shaft; 220. Slide rail; 221. Opening one; 222. Rack; 3. Mounting assembly; 311. Mounting frame two; 312. Mounting bracket; 313. Knob; 314. Two-way threaded rod; 315. Opening two; 316. Fixing block; 317. Moving bracket; 318. Limiting block; 319. Positioning hole; 320. Positioning rod; 321. Limiting groove. Detailed Implementation
[0022] 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.
[0023] Please see Figure 1-5As shown, this utility model is a logistics monitoring auxiliary device, including a main frame mechanism 1. The main frame mechanism 1 includes a support frame 111. A monitor body 112 is installed inside the support frame 111. An adjustment component 2 is provided on the front of the support frame 111. An installation component 3 is provided on the top of the adjustment component 2. The installation component 3 includes an installation frame 211. The adjustment component 2 includes an electric push rod 211. A telescopic rod 213 is fixedly connected to the right output end of the electric push rod 211. A connecting rod 214 is fixedly connected to the side of the telescopic rod 213 away from the electric push rod 211. A sliding groove is provided on the front of the support frame 111. The outer surface of the connecting rod 214 contacts the inside of the sliding groove. Rotating rods 215 are fixedly connected to both the front and back of the monitor body 112. A gear 216 is provided on the front of the monitor body 112. An installation frame 217 is fixedly connected to the top of the support frame 111. A gear 216 is fixedly connected to the top of the installation frame 217. The motor 218 and the support frame 111 are fixedly connected to the support bracket 212 on the front. The top of the support bracket 212 is fixedly connected to the bottom of the electric push rod 211. The right side of the inside of the support bracket 212 is slidably connected to the outer surface of the telescopic rod 213. The monitor body 112 is fixedly connected to the slide rail 220 on the front. When the electric push rod 211 is started, it drives the connecting rod 214 to move through the telescopic rod. During the movement of the connecting rod 214, it drives the monitor body 112 to rotate up and down through the action of the rack 222 and the gear 216. At the same time, the motor 218 can also be started to drive the support frame 111 to rotate through the rotating shaft 219. During the rotation of the support frame 111, it drives the monitor body 112 to rotate left and right. By adjusting the all-round shooting angle of the monitor body 112, the shooting angle of the device is greatly increased, which greatly improves the flexibility of the device and the monitoring effect of the device.
[0024] The slide rail 220 has an opening 221 on the front. A rack 222 is slidably connected inside the slide rail 220. A connecting rod 214 passes through the slide groove and extends into the slide rail 220. The outer surface of the connecting rod 214 contacts the inner wall of the opening 221.
[0025] The top of rack 222 meshes with the outer surface of gear 216. The front of rack 222 is fixedly connected to the side of connecting rod 214 away from telescopic rod 213. The inside of gear 216 is fixedly connected to the outer surface of rotating rod 215 located on the front. The outer surfaces of the two rotating rods 215 away from the monitor body 112 are rotatably connected to the front and back of the inside of support frame 111. A rotating shaft 219 is rotatably connected inside mounting frame one 217. The rotating shaft 219 passes through mounting frame one 217 and extends to the bottom. The bottom output end of motor 218 is fixedly connected to the top of rotating shaft 219 through a coupling. The side of rotating shaft 219 away from motor 218 is fixedly connected to the top of support frame 111. A mounting bracket 312 is fixedly connected to the top of mounting frame two 311.
[0026] Both the left and right sides of the mounting frame 217 are equipped with bidirectional threaded rods 314. The left and right sides of the outer surface of the connecting rod 214 on the front are rotatably connected to fixing blocks 316. The side of each fixing block 316 away from the bidirectional threaded rod 314 is fixedly connected to the inner wall of the mounting frame 217. Both the left and right sides of the outer surface of the bidirectional threaded rod 314 are threadedly connected to movable brackets 317. A knob 313 is located on the right side of the fixing block 316. The knob 313 is fixedly connected to the outer surface of the bidirectional threaded rod 314. First, the four positioning holes 319 are inserted into the positioning rod 320 for positioning. Turning the knob 313 clockwise again causes the two movable supports 317 to move closer together via the bidirectional threaded rod 314. When the two movable supports 317 move, they will cause the two limiting blocks 318 to move inside the limiting groove 321. When the two limiting blocks 318 move closer together, they will cause the second mounting frame 311 to move downward through the limiting groove 321. At this time, the second mounting frame 311 and the first mounting frame 217 are fixed in a limited position. This convenient and quick installation method greatly improves the speed of equipment replacement or maintenance for the staff, greatly improves work efficiency, and greatly reduces the workload of the staff.
[0027] The mounting frame 217 has openings 315 on both the left and right sides. The outer surfaces of the two movable supports 317 are in contact with the inner walls of the openings 315. The mounting frame 217 has positioning holes 319 at the top four corners. The mounting frame 211 has positioning rods 320 fixedly connected to the bottom four corners. The four positioning rods 320 are inserted into the positioning holes 319 on the side away from the mounting frame 211. The mounting frame 211 has limit grooves 321 on the left and right sides. The two movable supports 317 have limit blocks 318 fixedly connected to the side away from the bidirectional threaded rod 314. The outer surfaces of the two limit blocks 318 are in contact with the inner walls of the limit grooves 321.
[0028] A specific application of this embodiment is as follows: When it is necessary to adjust the shooting angle of the monitor body 112, the electric push rod 211 is activated to drive the telescopic rod 213 to move. When the telescopic rod 213 moves, it slides inside the support frame 212. At the same time, the telescopic rod 213 moves, which drives the connecting rod 214 to move. During the movement of the connecting rod 214, it moves in the groove opened inside the support frame 111. At the same time, the side of the connecting rod 214 away from the telescopic rod 213 slides inside the opening 221. When the connecting rod 214 moves, it drives the rack 222 to slide inside the slide rail 220. At the same time, the sliding of the rack 222 drives the gear 216 to rotate. When the gear 216 rotates, it drives the rotating rod 212 to rotate. The function of 15 drives the monitor body 112 to rotate up and down, adjusting the vertical angle of the monitor body 112 for shooting. Simultaneously, motor 218 can be activated to drive the rotating shaft 219 to rotate. The rotation of the rotating shaft 219 drives the support frame 111 to rotate, which in turn drives the monitor body 112 to rotate left and right, thus adjusting the left and right shooting angle of the monitor body 112. By adjusting the omnidirectional shooting angle of the monitor body 112, the shooting angle of the device is significantly increased, greatly improving the device's flexibility and monitoring effect. Furthermore, if the support frame 111 needs to be replaced or repaired during use, simply turn the knob counterclockwise. 313. The mounting frame 217 can then be removed, along with the monitor body 112. When installing the mounting frame 217, first place the mounting frame 211 on top of it. Then, insert the four positioning holes 319 into the positioning rod 320 for positioning. At this point, the limiting block 318 will embed into the limiting groove 321. Next, the operator rotates the knob 313 clockwise to rotate the bidirectional threaded rod 314. The bidirectional threaded rod 314 rotates within the fixing block 316. Simultaneously, the fixing block 316, fixedly connected to the mounting frame 217, provides support for the bidirectional threaded rod 314. The rotation of the connecting rod 214 will drive two moving parts... The brackets 317 move closer to each other, and the two movable brackets 317 move inside the second opening 315. The second opening 315 provides a certain limit to the movement trajectory of the movable brackets 317. When the two movable brackets 317 move, they will drive the two limit blocks 318 to move inside the limit groove 321. At the same time, the two limit blocks 318 will move closer to each other. When the two limit blocks 318 move closer to each other, the limit groove 321 will drive the second mounting frame 311 to move downward. At this time, the second mounting frame 311 and the first mounting frame 217 are fixed and limited. This convenient and quick installation method greatly improves the speed of equipment replacement or maintenance for the staff, greatly improves work efficiency, and greatly reduces the workload of the staff.
[0029] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with this embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0030] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the present utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of the present utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.
Claims
1. A logistics monitoring aid, characterized by: It includes a main frame mechanism (1), the main frame mechanism (1) includes a support frame (111), the support frame (111) is provided with a monitor body (112) inside, the support frame (111) is provided with an adjustment component (2) on the front, the adjustment component (2) is provided with an installation component (3) on the top, and the installation component (3) includes an installation frame two (311). The adjustment component (2) includes an electric push rod (211), a telescopic rod (213) is fixedly connected to the right output end of the electric push rod (211), a connecting rod (214) is fixedly connected to the side of the telescopic rod (213) away from the electric push rod (211), a sliding groove is provided on the front of the support frame (111), the outer surface of the connecting rod (214) is in contact with the inside of the sliding groove, a rotating rod (215) is fixedly connected to both the front and back of the monitor body (112), a gear (216) is provided on the front of the monitor body (112), a mounting frame (217) is fixedly connected to the top of the support frame (111), and a motor (218) is fixedly connected to the top of the mounting frame (217).
2. The logistics monitoring auxiliary device according to claim 1, characterized in that, The support frame (111) is fixedly connected to the support frame (212) on the front. The top of the support frame (212) is fixedly connected to the bottom of the electric push rod (211). The right side inside the support frame (212) is slidably connected to the outer surface of the telescopic rod (213). The monitor body (112) is fixedly connected to the slide rail (220) on the front.
3. A logistics monitoring aid according to claim 2, characterized in that The slide rail (220) has an opening (221) on its front side. A rack (222) is slidably connected inside the slide rail (220). The connecting rod (214) passes through the slide groove and extends into the slide rail (220). The outer surface of the connecting rod (214) contacts the inner wall of the opening (221).
4. The logistics monitoring auxiliary device according to claim 3, characterized in that, The top of the rack (222) meshes with the outer surface of the gear (216). The front of the rack (222) is fixedly connected to the side of the connecting rod (214) away from the telescopic rod (213). The inside of the gear (216) is fixedly connected to the outer surface of the rotating rod (215) located on the front. The outer surfaces of the two rotating rods (215) away from the monitor body (112) are rotatably connected to the front and back of the support frame (111). The first mounting frame (217) is rotatably connected to a rotating shaft (219). The rotating shaft (219) passes through the first mounting frame (217) and extends to the bottom. The bottom output end of the motor (218) is fixedly connected to the top of the rotating shaft (219) through a coupling. The side of the rotating shaft (219) away from the motor (218) is fixedly connected to the top of the support frame (111). The second mounting frame (311) is fixedly connected to a mounting bracket (312).
5. A logistics monitoring aid according to claim 4, characterized in that The mounting frame (217) has a double-threaded rod (314) on both the left and right sides. The connecting rod (214) on the front is rotatably connected to a fixing block (316) on both the left and right sides. The two fixing blocks (316) are fixedly connected to the inner wall of the mounting frame (217) on the side away from the double-threaded rod (314). The double-threaded rod (314) is threadedly connected to a movable bracket (317) on both the left and right sides. The fixing block (316) on the right side is provided with a knob (313). The knob (313) is fixedly connected to the outer surface of the double-threaded rod (314).
6. A logistics monitoring aid according to claim 5, characterized in that The first mounting frame (217) has openings 2 (315) on both the left and right sides. The outer surfaces of the two movable brackets (317) are in contact with the inner wall of the second opening (315). The first mounting frame (217) has positioning holes (319) at the top four corners. The second mounting frame (311) has positioning rods (320) fixedly connected to the bottom four corners. The four positioning rods (320) are inserted into the positioning holes (319) on the side away from the second mounting frame (311).
7. A logistics monitoring aid according to claim 6, characterized in that Limiting grooves (321) are provided on the left and right sides inside the second mounting frame (311). Limiting blocks (318) are fixedly connected to the side of the two movable brackets (317) away from the bidirectional threaded rod (314). The outer surfaces of the two limiting blocks (318) are in contact with the inner wall of the limiting grooves (321).