A green outer inspection lifting device
By designing a fetal embryo external inspection and lifting device, the transfer, external inspection and weighing of the fetal embryo are realized in a mechanized manner, which solves the problems of high labor intensity and low efficiency in the existing technology and realizes automated operation without human intervention.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG JINYU INDUSTRIAL CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-19
AI Technical Summary
In the existing technology, the process of unloading the embryo into the cabinet for storage requires manual handling at multiple work locations, resulting in high labor intensity and low efficiency.
Design a tire embryo external inspection lifting device to realize the transfer, external inspection and weighing of tire embryos by mechanical means. By combining a vertical lifting machine, a basket and a weighing scale, manual intervention is reduced.
It reduced labor intensity, improved the efficiency of embryo external inspection and transportation, and achieved automated operation without human intervention.
Smart Images

Figure CN224377545U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of external inspection technology for embryos, specifically an external inspection lifting device for embryos. Background Technology
[0002] Currently, after the tire blanks are unloaded, they roll down and fall off the inclined rack. Then, they are manually flipped over to check their appearance. After the appearance inspection is completed, they are transported to the weighing scale for testing. The qualified tire blanks are then manually transported to the lifting platform. The lifting platform lifts the tire blanks to the same height as the conveyor belt of the intelligent storage cabinet. Finally, the tire blanks are manually transported onto the conveyor belt of the intelligent storage cabinet, where the intelligent storage cabinet assigns the storage location for the tire blank and transports it.
[0003] The entire process from blank material cutting to cabinet storage requires different personnel to be assigned to multiple work locations for assistance in handling, which is quite time-consuming and labor-intensive. Especially during external inspection and weighing, the blanks need to be manually flipped over to fully observe every position of the blank, which is a large workload. Utility Model Content
[0004] The purpose of this utility model is to address the shortcomings of existing technologies by providing a tire embryo external inspection and lifting device. This device mechanically transfers tire embryos from material feeding to storage in a vertical cabinet, and performs external inspection and weighing of the tire embryos during the transfer process. This not only reduces labor intensity but also improves the efficiency of tire embryo external inspection and transfer.
[0005] The technical solution of this utility model is: a tire embryo external inspection lifting device, including a base, a vertical lifting machine on the base, a lifting arm on the vertical lifting machine, two sets of vertical hole lifting lugs spaced apart at the bottom of the lifting arm, a basket below the lifting arm, and lifting shafts that can be movably inserted into the two sets of vertical hole lifting lugs on both sides of the top of the basket.
[0006] A weighing scale is installed below the suspended basket, and an arc-shaped bracket is installed on the top of the weighing scale. The bottom of the suspended basket has an arc-shaped structure that matches the arc-shaped bracket.
[0007] The top of the vertical hoist is provided with an L-shaped support arm, and the free end of the L-shaped support arm is threaded with a support bolt for supporting the swing of the basket.
[0008] Preferably, the suspended platform includes a pair of parallel crossbeams, with two suspension shafts connected to the middle of the two crossbeams respectively. Each pair of crossbeams is connected to a pair of parallel arc-shaped plates via a set of tie rods. The bottom of the arc-shaped plates is adapted to an arc-shaped bracket, and a set of arc-shaped rollers are rotatably connected between the pair of arc-shaped plates.
[0009] Preferably, the base is connected by a support to a feeding rack for conveying the tire blank into the basket, and the top of the vertical elevator is connected by a support to a discharging rack for conveying the tire blank out of the basket.
[0010] Preferably, both the feeding rack and the discharging rack include inclined guide plates, and a set of guide columns are symmetrically rotatably connected to the top two sides of the guide plates.
[0011] Preferably, the bottom width of the lifting hole of the vertical lifting lug is greater than the top width.
[0012] Compared with the prior art, this utility model has the following advantages: After the tire blank is unloaded, it rolls into the basket and is weighed using a weighing scale. Then, the tire blank is inspected manually. Finally, the vertical elevator lifts it to the designed height, and the basket rotates and swings to roll the tire blank onto the conveyor belt of the intelligent storage cabinet. The entire process does not require manual handling, reducing labor intensity. The mechanized conveying method effectively improves work efficiency. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the structure of this utility model;
[0014] Figure 2 This is a structural schematic diagram of the suspended platform;
[0015] In the diagram: 1. L-shaped support arm, 2. Support bolt, 3. Discharge rack, 4. Guide column, 5. Guide plate, 6. Vertical elevator, 7. Lifting arm, 8. Vertical hole lifting lug, 9. Hanging basket, 10. Hanging shaft, 11. Crossbeam, 12. Tie rod, 13. Roller, 14. Arc plate, 15. Arc bracket, 16. Weighing scale, 17. Base, 18. Feed rack. Detailed Implementation
[0016] The present invention will be further described below with reference to the accompanying drawings and embodiments. Example 1
[0017] like Figure 1 and Figure 2 A tire embryo external inspection lifting device includes a base 17, a vertical lifting machine 6 installed on the base 17, a lifting arm 7 on the vertical lifting machine 6, and two parallel vertical lifting lugs 8 at intervals at the bottom of the lifting arm 7.
[0018] Below the lifting arm 7 is a basket 9, and on the top two sides of the basket 9 are two movable lifting shafts 10 that can be inserted into two sets of vertical hole lifting lugs 8.
[0019] The suspended platform 9 includes a pair of parallel crossbeams 11, and two hanging shafts 10 are respectively connected to the middle of the two crossbeams 11. The pair of crossbeams 11 are respectively connected to a pair of parallel arc-shaped plates 14 by a set of tie rods 12. The bottom of the arc-shaped plates 14 is adapted to the arc-shaped bracket 15, and a set of arc-shaped rollers 13 are rotatably connected between the pair of arc-shaped plates 14.
[0020] A weighing scale 16 is installed below the suspended basket 9, and an arc-shaped bracket 15 is installed on the top of the weighing scale 16. The bottom of the suspended basket 9 has an arc-shaped structure that matches the arc-shaped bracket 15.
[0021] The top of the vertical hoist 6 is provided with an L-shaped support arm 1, and the free end of the L-shaped support arm 1 is threaded with a support bolt 2 for supporting the swing of the basket 9.
[0022] Working principle: After the lifting arm 7 of the vertical hoist 6 drives the basket 9 to descend, the basket 9 lands on the arc-shaped bracket 15 of the weighing scale 16. At this time, the lifting shaft 10 does not contact the vertical hole lifting lug 8, and then the weighing scale 16 is zeroed.
[0023] Next, after the tire blank is unloaded, it rolls into the basket 9, and the weighing scale 16 weighs it. Then, the tire blank is manually rolled around in the basket 9 to perform an external inspection of its appearance.
[0024] The tire blanks that pass external inspection and weighing are lifted by the vertical elevator 6 through the basket 9 to the height of the intelligent storage cabinet's conveyor belt. At the same time as being lifted to the design height, the support bolt 2 supports the outside of the bottom support beam 11, causing the basket 9 to rotate and swing around the hanging shaft 10, thereby tilting the basket 9 as a whole, and the tire blanks roll onto the intelligent storage cabinet's conveyor belt.
[0025] The entire transfer process described above does not require manual handling, thereby improving work efficiency and reducing labor intensity.
[0026] In addition, to avoid the contact between the lifting hole of the vertical lifting lug 8 and the lifting shaft 10 during the weighing process, the lifting hole of the vertical lifting lug 8 is designed with a bottom width greater than the top width. During weighing, the lifting shaft 10 is located at the lower, wider part of the lifting hole of the vertical lifting lug 8, thereby effectively preventing the inner wall of the lifting hole from contacting the lifting shaft 10.
[0027] By designing a set of arc-shaped rollers 13 at the bottom of the basket 9, the tire blank can be supported and the tire blank can be rotated manually for external inspection, making the rotation smoother and less labor-intensive. Example 2
[0028] This embodiment is a further optimization based on the above embodiment, specifically:
[0029] like Figure 1The base 17 is connected by a support frame to a feed rack 18 for conveying the tire blank into the basket 9, and the top of the vertical elevator 6 is connected by a support frame to a discharge rack 3 for conveying the tire blank out of the basket 9.
[0030] Both the feed rack 18 and the discharge rack 3 include inclined guide plates 5. A set of guide columns 4 are symmetrically rotatably connected to the top two sides of the guide plate 5, and the rolling-in tire blanks are guided by the guide columns 4.
[0031] Because there is a large gap between the tire blank discharge equipment and the cabinet in some workshop sections, the tire blanks are conveyed by installing the feeding rack 18 and the discharge rack 3 to improve the adaptability of this utility model.
[0032] This utility model is not limited to the above-described embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of this utility model, and the changed content still falls within the protection scope of this utility model.
Claims
1. A fetal embryo external inspection lifting device, comprising a base, characterized in that: The base is equipped with a vertical lifting machine, the vertical lifting machine is equipped with a lifting arm, the bottom of the lifting arm is provided with two sets of vertical hole lifting lugs spaced apart, the bottom of the lifting arm is provided with a basket, and the top two sides of the basket are respectively provided with lifting shafts that can be movably inserted into the two sets of vertical hole lifting lugs; A weighing scale is installed below the suspended basket, and an arc-shaped bracket is installed on the top of the weighing scale. The bottom of the suspended basket has an arc-shaped structure that matches the arc-shaped bracket. The top of the vertical hoist is provided with an L-shaped support arm, and the free end of the L-shaped support arm is threaded with a support bolt for supporting the swing of the basket.
2. The embryo external inspection and lifting device according to claim 1, characterized in that: The suspended platform includes a pair of parallel crossbeams, with two suspension shafts connected to the middle of the two crossbeams respectively. Each pair of crossbeams is connected to a pair of parallel arc-shaped plates via a set of tie rods. The bottom of the arc-shaped plates is adapted to the arc-shaped bracket, and a set of arc-shaped rollers are rotatably connected between the pair of arc-shaped plates.
3. The embryo external inspection and lifting device according to claim 1, characterized in that: The base is connected by a support frame to a feeding rack for conveying the tire blank into the basket, and the top of the vertical elevator is connected by a support frame to a discharging rack for conveying the tire blank out of the basket.
4. The embryo external inspection and lifting device according to claim 3, characterized in that: Both the feeding rack and the discharging rack include inclined guide plates, and a set of guide columns are symmetrically rotatably connected to the top two sides of the guide plates.
5. The embryo external inspection and lifting device according to claim 1, characterized in that: The bottom width of the lifting hole of the vertical lifting lug is greater than the top width.