Shockproof and anti-interference weighing platform structure

By designing an auxiliary support plate and an auxiliary placement mechanism for the support slide bar on the weighing platform, the problem of inconvenience and inaccuracy in weighing caused by the inability to adjust the load plate is solved. Stable support and accurate weighing of relatively light, large-area objects are achieved, and the ease of use is improved through shock absorption and sunshade protection.

CN224416211UActive Publication Date: 2026-06-26CHANGZHOU XINZHIHENG MASCH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGZHOU XINZHIHENG MASCH CO LTD
Filing Date
2025-07-15
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing weighing platform has a fixed support area that cannot be adjusted, which makes it inconvenient to weigh lighter objects with a large contact area, affecting the accuracy and convenience of weighing.

Method used

An auxiliary placement mechanism was designed, including an auxiliary support plate and a support slide bar. The support plate can be opened and locked by bolts. It works with shock-absorbing springs and damping pads to buffer and prevent shocks. A sunshade protection mechanism protects the operation display.

Benefits of technology

It achieves stable support and accurate weighing of lighter objects with a large contact area, improving the convenience and accuracy of the weighing platform, while reducing external interference and protecting the display.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of shockproof anti-interference weighing platform structures, including weighing platform main body, the weighing platform main body includes weighing base, the upper surface of the weighing base is provided with object plate, the tail end of the weighing base is fixedly installed with vertical rod by bolt, the top of the vertical rod is fixedly installed with operation display by bolt;By design auxiliary placement mechanism, when the lighter and the object of larger contact area is weighed, auxiliary support plate is opened by auxiliary slide, and the support slide rod is opened and fixed simultaneously, so that the auxiliary support plate is supported and fixedly installed by support slide rod and auxiliary slide, and when the lighter and the object of larger contact area is weighed, it is directly supported on the surface of object plate and auxiliary support plate to weigh, not easy to touch outside and more accurate, improve the convenience of auxiliary support placement of weighing platform main body when the lighter and the object of larger contact surface are weighed.
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Description

Technical Field

[0001] This utility model belongs to the field of weighing platform technology, specifically relating to a shockproof and interference-resistant weighing platform structure. Background Technology

[0002] The existing weighing platform is a device used to accurately measure the weight of objects. It is widely used in industries, logistics and other fields. Its core weighing platform has high precision, strong stability and good shock resistance and anti-interference ability during weighing.

[0003] Existing weighing platforms use a fixed support area for the load plate. When weighing lighter objects with a large contact area, the load plate cannot be adjusted, making it difficult to place lighter objects with a large contact area on the load plate. This results in inconvenient weighing operations, inaccurate weighing, or even failure to weigh. It also affects the convenience of auxiliary support placement when weighing lighter objects with a large contact area. To address this issue, this utility model proposes a shockproof and interference-resistant weighing platform structure. Utility Model Content

[0004] The purpose of this utility model is to provide a shockproof and interference-resistant weighing platform structure to solve the problem in the background art where the weighing platform has a fixed support area and the platform cannot be adjusted when weighing lighter objects with a large contact area. This makes it difficult to place lighter objects with a large contact area on the surface of the platform, resulting in inconvenient weighing operation, inaccurate weighing, or even failure to weigh.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a shockproof and interference-resistant weighing platform structure, comprising a weighing platform body, the weighing platform body including a weighing base, a load plate provided on the upper surface of the weighing base, a vertical rod fixedly installed at the tail end of the weighing base by bolts, an operation display fixedly installed at the top end of the vertical rod by bolts, and the weighing platform body further comprising:

[0006] An auxiliary placement mechanism is provided, and the auxiliary placement mechanism includes auxiliary placement components disposed on both sides of a carrying plate, and supporting sliding components are disposed on both sides of the auxiliary placement components, and locking and fixing components are disposed on the side of the supporting sliding components and the surface of the carrying plate.

[0007] A sunshade protection mechanism, comprising a mounting assembly disposed on the outer surface of an operating display, wherein sunshade protection components are disposed on both sides of the mounting assembly.

[0008] Preferably, the weighing base has four corner positions on its lower surface with limiting slide rods, each with a shock-absorbing spring fitted onto its bottom outer surface, a support foot fixed to its bottom, and damping pads provided at both ends of the shock-absorbing springs.

[0009] Preferably, the auxiliary placement component includes limiting grooves formed on both sides of the carrier plate, and an auxiliary support plate is slidably limited inside the limiting groove.

[0010] Preferably, the supporting sliding assembly includes auxiliary sliding plates integrally disposed on both sides of the auxiliary support plate, and the outer surface of the auxiliary sliding plate is slidably connected to the inner side of the limiting slide groove. Supporting sliding rods are slidably connected to both ends of the carrying plate at the bottom end of the limiting slide groove, and the ends of the supporting sliding rods are fixed to the lower surfaces of the ends of the auxiliary sliding plates by bolts.

[0011] Preferably, the locking and fixing assembly includes a locking bolt connected to both ends of the front surface of the carrier plate by a thread, and both ends of the side of the support slide rod are provided with an internal thread hole that matches the locking bolt.

[0012] Preferably, the mounting assembly includes a connecting bracket disposed on the outer surface of the operating display. A pivot is provided at the bottom end of the connecting bracket and the side of the operating display. A locking bolt is threadedly connected to one side of the pivot on the side of the connecting bracket. The two sides of the operating display are provided with internal threaded holes that match the locking bolts in an arc shape.

[0013] Preferably, the sunshade protection component includes a sunshade plate integrally disposed at the top of the front surface of the connecting frame, and a rear guard plate integrally disposed at the top of the rear surface of the connecting frame.

[0014] Compared with the prior art, the beneficial effects of this utility model are:

[0015] By designing an auxiliary placement mechanism, when weighing lighter objects with a larger contact area, the auxiliary support plate can be opened via the auxiliary sliding plate, and the support slide rod can be opened and fixed simultaneously. Thus, the auxiliary support plate is supported, opened, and fixedly installed through the support slide rod and the auxiliary sliding plate. When weighing lighter objects with a larger contact area, the weight is directly supported on the surface of the load plate and the auxiliary support plate, making the weighing less likely to touch the outside world and more accurate. This improves the convenience of auxiliary support placement when weighing lighter objects with a larger contact area on the main body of the weighing platform. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2This is a partial cross-sectional view of the weighing base, support legs, and shock-absorbing spring of this utility model.

[0018] Figure 3 This is a partial structural diagram of the auxiliary support plate and the carrier plate of this utility model;

[0019] Figure 4 This utility model Figure 3 Enlarged structural diagram of section B;

[0020] Figure 5 This utility model Figure 1 Enlarged structural diagram of section A;

[0021] Figure 6 This utility model Figure 5 Enlarged structural diagram of section C;

[0022] In the diagram: 100, Weighing platform body; 101, Weighing base; 102, Support foot; 103, Loading plate; 1031, Auxiliary support plate; 1032, Support slide rod; 1033, Internal threaded hole one; 1034, Auxiliary slide plate; 1035, Limiting slide groove; 1036, Locking bolt one; 104, Upright pole; 105, Operation display; 1051, Connecting frame; 1052, Sunshade; 1053, Rear guard plate; 1054, Rotating shaft; 1055, Locking bolt two; 1056, Internal threaded hole two; 106, Limiting slide rod; 107, Shock-absorbing spring; 108, Damping pad. Detailed Implementation

[0023] 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.

[0024] Please see Figures 1 to 6 This utility model provides a technical solution: a shockproof and interference-resistant weighing platform structure, including a weighing platform body 100, the weighing platform body 100 including a weighing base 101, a load plate 103 is provided on the upper surface of the weighing base 101, a vertical rod 104 is fixedly installed at the tail end of the weighing base 101 by bolts, and an operation display 105 is fixedly installed at the top end of the vertical rod 104 by bolts.

[0025] At the four corners of the lower surface of the weighing base 101, there are limiting sliding rods 106. A shock-absorbing spring 107 is fitted onto the outer surface of the bottom end of the limiting sliding rod 106. A support foot 102 is fixed to the bottom end of the limiting sliding rod 106. Damping pads 108 are provided at both ends of the shock-absorbing spring 107. When the weighing platform body 100 is in operation, an object placed on the surface of the loading plate 103 is subjected to impact, and the weighing base 101 is also subjected to force. When the support foot 102 is subjected to force, the limiting sliding rod 106 buffers the impact, causing the shock-absorbing spring 107 to deform and buffer the shock. During buffering, the damping pads 108 absorb the shock, thus buffering and preventing shock on the weighing base 101, effectively reducing the interference caused by instability of the weighing base 101. The weighing platform body 100 is also equipped with:

[0026] An auxiliary placement mechanism is provided, which includes auxiliary placement components disposed on both sides of the loading plate 103. Support sliding components are provided on both sides of the auxiliary placement components. Locking and fixing components are provided on the side of the support sliding components and the surface of the loading plate 103. When the weighing platform body 100 weighs a lighter object with a larger contact area, the auxiliary placement mechanism can assist in supporting and stabilizing the object for weighing.

[0027] In order to facilitate the placement of lighter objects with a large contact area by means of an auxiliary placement component, in this embodiment, preferably, the auxiliary placement component includes limiting grooves 1035 formed on both sides of the carrying plate 103. An auxiliary support plate 1031 is slidably limited inside the limiting grooves 1035. The auxiliary support plate 1031 can be limited and opened by the limiting grooves 1035, and the object is placed and weighed by means of the auxiliary support plate 1031.

[0028] To facilitate stable weighing of the auxiliary support plate 1031 by means of a supporting sliding assembly, in this embodiment, preferably, the supporting sliding assembly includes auxiliary sliding plates 1034 integrally disposed on both sides of the auxiliary support plate 1031, and the outer surface of the auxiliary sliding plate 1034 is slidably connected to the inner side of the limiting slide groove 1035. The two ends of the load plate 103 are slidably connected to the bottom end of the limiting slide groove 1035 by a supporting sliding rod 1032. The end of the supporting sliding rod 1032 is fixed to the lower end of the auxiliary sliding plate 1034 by bolts. The auxiliary support plate 1031 can be opened by means of the auxiliary sliding plate 1034, and then opened again by means of the supporting sliding rod 1032 to reinforce the installation of the auxiliary support plate 1031, making the weighing use more stable.

[0029] To facilitate the opening and closing of the auxiliary support plate 1031 and the support slide rod 1032 using a locking and fixing assembly, in this embodiment, preferably, the locking and fixing assembly includes locking bolts 1036 threadedly connected to both ends of the front surface of the load plate 103. Both ends of the support slide rod 1032 have internal threaded holes 1033 that match the locking bolts 1036. After the auxiliary support plate 1031 and the support slide rod 1032 are opened, the locking bolts 1036 can be rotated to embed into the internal threaded holes 1033 for fixed installation, facilitating reinforcement, placement, and stable weighing.

[0030] The system includes a sunshade protection mechanism, comprising a mounting assembly disposed on the outer surface of the operation display 105. Sunshade protection components are provided on both sides of the mounting assembly. This mechanism provides sunshade protection to the top front surface of the operation display 105 when the weighing platform body 100 is in use for weighing, and also provides anti-touch protection to the rear surface of the operation display 105.

[0031] To facilitate the installation and adjustment of the sunshade 1052 and rear guard plate 1053 using the mounting components, in this embodiment, preferably, the mounting components include a connecting bracket 1051 disposed on the outer surface of the operation display 105. A pivot 1054 is provided at the bottom end of the connecting bracket 1051 and the side of the operation display 105. The connecting bracket 1051 can be flipped and adjusted by the pivot 1054 to facilitate the adjustment of the sunshade position. A locking bolt 1055 is threadedly connected to one side of the pivot 1054 on the side of the connecting bracket 1051. The two sides of the operation display 105 are provided with arc-shaped internal threaded holes 1056 that match the locking bolts 1055. After adjustment, the locking bolts 1055 are rotated to fit into the internal threaded holes 1056 to fix the connecting bracket 1051 in place.

[0032] In order to facilitate sun protection for the front surface of the operating display 105 and anti-collision protection for the rear surface of the operating display 105 through the sunshade protection component, in this embodiment, preferably, the sunshade protection component includes a sunshade 1052 integrally disposed on the top of the front surface of the connecting frame 1051, and a rear guard plate 1053 integrally disposed on the top of the rear surface of the connecting frame 1051. In use, the sunshade 1052 can protect the front surface of the operating display 105 from the sun, and the rear guard plate 1053 is located on the rear surface of the operating display 105 to prevent it from being touched and impacted.

[0033] The working principle and usage process of this utility model are as follows: When using this shockproof and interference-resistant weighing platform structure, the weighing platform body 100 is first placed stably in the usage position by directly contacting the bottom end of the support leg 102 with the ground. After the weighing platform body 100 is stably placed, the object to be weighed is placed on the surface of the loading plate 103 for weighing, and the weighing data is displayed on the operation display 105. When the object placed on the surface of the loading plate 103 is impacted during weighing, it is subjected to force on the weighing base 101. When the support leg 102 is subjected to force, the limiting slide 106 buffers and the shock-absorbing spring 107 is subjected to force and deforms to buffer and resist shock. During buffering, the damping pad 108 absorbs shock, thereby buffering and resisting shock on the weighing base 101 and effectively buffering and resisting shock to reduce the interference caused by the instability of the weighing base 101.

[0034] Then, when the weighing platform body 100 is weighing, when weighing lighter objects with a larger contact area, the auxiliary support plate 1031 is directly opened from the inside of the limiting slide groove 1035 through the auxiliary slide plate 1034, and the support slide rod 1032 is opened at the same time. The locking bolt 1036 is rotated and inserted into the internal threaded hole 1033 to fix the support slide rod 1032. Thus, the auxiliary support plate 1031 is supported, opened and fixedly installed through the support slide rod 1032 and the auxiliary slide plate 1034. When weighing lighter objects with a larger contact area, the weight is directly supported on the surface of the load plate 103 and the auxiliary support plate 1031. The weighing is less likely to touch the outside and is more accurate, improving the convenience of the auxiliary support placement when the weighing platform body 100 is weighing lighter objects with a larger contact area.

[0035] Finally, before using the weighing platform body 100, the connecting frame 1051 is flipped over via the pivot 1054 until the sunshade 1052 is flipped into the sunshade position. The locking bolt 1055 is then rotated and inserted into the internal threaded hole 1056 to fix the connecting frame 1051, thereby fixing the sunshade 1052 to the rear guard plate 1053. After the fixed installation, when the weighing platform body 100 is used for weighing, the rear guard plate 1053 protects the rear surface of the operation display 105, and the sunshade 1052 protects the front surface of the operation display 105 from light, so that the data on the surface of the operation display 105 can still be clearly observed under strong light, improving the convenience of sunshade protection for the operation display 105 when the weighing platform body 100 is used for weighing.

[0036] Although embodiments of the present invention have been shown and described (see the detailed description above), it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A shockproof and interference-resistant weighing platform structure, comprising a weighing platform body (100), the weighing platform body (100) including a weighing base (101), a load plate (103) being provided on the upper surface of the weighing base (101), a vertical rod (104) being fixedly installed at the tail end of the weighing base (101) by bolts, and an operation display (105) being fixedly installed at the top end of the vertical rod (104) by bolts, characterized in that: The weighing platform body (100) is also equipped with: An auxiliary placement mechanism is provided, and the auxiliary placement mechanism includes auxiliary placement components disposed on both sides of the loading plate (103). Support sliding components are provided on both sides of the auxiliary placement components, and locking and fixing components are provided on the side of the support sliding components and the surface of the loading plate (103). The sunshade protection mechanism includes a mounting assembly disposed on the outer surface of the operation display (105), with sunshade protection components disposed on both sides of the mounting assembly.

2. The anti-vibration and anti-interference weighing platform structure according to claim 1, characterized in that: The weighing base (101) has four corner positions on its lower surface with limiting slide rods (106) for limiting sliding. The bottom outer surface of the limiting slide rod (106) is fitted with a shock-absorbing spring (107). The bottom end of the limiting slide rod (106) is fixed with a support foot (102). Both ends of the shock-absorbing spring (107) are provided with damping pads (108).

3. The anti-vibration and anti-interference weighing platform structure according to claim 1, characterized in that: The auxiliary placement component includes limiting grooves (1035) on both sides of the carrier plate (103), and an auxiliary support plate (1031) is slidably limited inside the limiting grooves (1035).

4. The anti-vibration and anti-interference weighing platform structure according to claim 3, characterized in that: The supporting sliding assembly includes auxiliary sliding plates (1034) integrally disposed on both sides of the auxiliary support plate (1031), and the outer surface of the auxiliary sliding plate (1034) is slidably connected to the inner side of the limiting slide groove (1035). The two ends of the carrying plate (103) are slidably connected to the bottom end of the limiting slide groove (1035) with supporting sliding rods (1032), and the ends of the supporting sliding rods (1032) are fixed to the lower surface of the ends of the auxiliary sliding plates (1034) by bolts.

5. The anti-vibration and anti-interference weighing platform structure according to claim 4, characterized in that: The locking and fixing assembly includes locking bolts (1036) that are threaded to both ends of the front surface of the carrier plate (103), and the side ends of the support slide rod (1032) are provided with internal threaded holes (1033) that match the locking bolts (1036).

6. The anti-vibration and anti-interference weighing platform structure according to claim 1, characterized in that: The mounting assembly includes a connecting bracket (1051) disposed on the outer surface of the operation display (105). A pivot (1054) is provided at the bottom end of the connecting bracket (1051) and the side of the operation display (105). A locking bolt (1055) is threadedly connected to one side of the pivot (1054) on the side of the connecting bracket (1051). The operation display (105) has two internal threaded holes (1056) on both sides that match the locking bolts (1055) in an arc shape.

7. The anti-vibration and anti-interference weighing platform structure according to claim 6, characterized in that: The sunshade protection assembly includes a sunshade plate (1052) integrally disposed on the top of the front surface of the connecting frame (1051), and a rear guard plate (1053) integrally disposed on the top of the rear surface of the connecting frame (1051).