Display screen with anti-shock and anti-falling structure
By using a boltless shockproof and drop-proof structure and a suspension support structure, the problem of secondary damage caused by bolt fixing of the display screen corner protectors is solved, achieving a wider range of applications and flexible support adjustment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- GUOJING HECHUANG (QINGDAO) TECH CO LTD
- Filing Date
- 2026-02-13
- Publication Date
- 2026-06-05
AI Technical Summary
Existing display screen corner protectors require bolts for fixing, which can easily cause secondary damage to the display screen itself when it is accidentally dropped, and the applicability of the corner protectors is limited.
It adopts a boltless shockproof and drop-proof structure. Through right-angle shock-absorbing and drop-proof components and suspension support structure, it can achieve boltless fixation and flexibly adjust the support of the display screen body to protect the display screen from accidental bumps.
It avoids secondary damage caused by bolt pulling, expands the applicability of corner protectors, and provides flexible support and adjustment convenience.
Smart Images

Figure CN122157565A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of display technology, and in particular to a display screen with a shock-resistant and drop-proof structure. Background Technology
[0002] A display screen is a tool that displays electronic documents on a screen through a specific transmission device and then reflects them to the human eye. It belongs to the I / O devices of a computer. There are many types of display screens, mainly divided into CRT monitors, LCD monitors, LED monitors, and 3D monitors. A search revealed Chinese patent publication number CN212749673U, which discloses a display screen with a drop-proof structure for water management software development. The screen includes a display body, a fixing plate, and a movable bracket. A right-side drop-proof bracket is fixed to the right outer wall of the display body, and a sponge is provided in the middle of the right-side drop-proof bracket. A corner protector is fixed to the lower right corner of the display body's outer frame, and a first fastening screw is installed on the outer wall of the corner protector. A left-side drop-proof bracket is provided on the front side of the left outer wall of the display body, and a tempered glass film is adhered to the surface of the display body. A back cover is installed on the rear side of the display body, and a heat dissipation vent is provided on the top of the back cover. The fixing plate is located in the middle of the back cover, and second fastening screws are installed at the four corners of the outer wall of the fixing plate. A rotating shaft is fixed to the outer wall of the fixing plate, and a movable block is connected to the outer wall of the rotating shaft. The movable bracket is located behind the movable block, and a base support frame is fixed to the bottom of the movable bracket.
[0003] The aforementioned patent has the following shortcomings: when using the device, the corner protector needs to be fixed to the display screen body with bolts. This means that if the display screen body is accidentally dropped and bumped, the bolts for installing the corner protector will be pulled and cause secondary damage to the display screen body. In addition, the corner protector requires mounting slots on the frame of the display screen body, which limits its applicability.
[0004] Therefore, there is an urgent need for a display screen with a shock-resistant and drop-proof structure to solve the aforementioned problems. Summary of the Invention
[0005] This invention provides a display screen with a shock-resistant and drop-proof structure. This invention allows the right-angle shock-absorbing and drop-proof component to be installed on the display screen body without bolts during installation. Therefore, when the display screen body is accidentally dropped and impacted, the right-angle shock-absorbing and drop-proof component will not be pulled by the mounting bolts, thus preventing secondary damage to the display screen body. At the same time, the right-angle shock-absorbing and drop-proof component does not require mounting slots on the frame of the display screen body during use, thereby making its application range wider.
[0006] This invention provides a display screen with a shock-resistant and drop-proof structure, comprising: A boltless shockproof and drop-proof structure is provided, which is nested and installed on the frame of the display screen body. The boltless shockproof and drop-proof structure can protect the display screen body from accidental detachment. A suspension support structure is snapped and pressed onto a support plate, and the display screen body is installed at the head end of the suspension support structure. The suspension support structure can flexibly adjust and support the display screen body.
[0007] Furthermore, the boltless shock-absorbing and anti-fall structure includes four right-angle shock-absorbing and anti-fall components, a first connecting fastener that is snapped and fixed between the two right-angle shock-absorbing and anti-fall components laterally, and a second connecting fastener that is snapped and fixed between the two right-angle shock-absorbing and anti-fall components longitudinally.
[0008] Furthermore, the right-angle shock absorption and anti-drop component includes a right-angle rubber block attached to the corner frame of the display body, a storage and installation groove formed on the outer end face of the right-angle rubber block, a buffer airbag sealing soft rubber block embedded and pressed in the storage and installation groove and located at the corner of the right-angle rubber block, and shock-absorbing protrusions symmetrically embedded in the storage and installation groove. The buffer airbag sealing soft rubber block is located between the diagonal faces of the two shock-absorbing protrusions, and the right-angle inner end face of the right-angle rubber block has an installation groove.
[0009] Furthermore, the shock-absorbing protrusion includes a snap-fit mounting base plate, a soft rubber shock-absorbing side plate disposed above the snap-fit mounting base plate, a plurality of elastic springs evenly and equidistantly disposed between the soft rubber shock-absorbing side plate and the snap-fit mounting base plate, and a first snap-fit mounting protrusion symmetrically disposed on the mating surfaces of the snap-fit mounting base plate and the two sides of the storage mounting groove. The edges of the soft rubber shock-absorbing side plate are all bent downwards and inwards to the bottom.
[0010] Furthermore, the buffer airbag sealing soft rubber block includes a supporting soft seat, a shock-absorbing airbag disposed on the outer end face of the supporting soft seat, and second snap-fit mounting protrusions symmetrically disposed on the contact surfaces of the supporting soft seat and the two sides of the storage and mounting groove. Both sides of the storage and mounting groove are provided with limiting snap-fit mounting grooves that fit and adapt to the first snap-fit mounting protrusion and the second snap-fit mounting protrusion.
[0011] Furthermore, the first connecting fastener includes a first rotating tightening sleeve, a first take-up and release screw symmetrically screwed into both ends of the first rotating tightening sleeve, and a first T-shaped snap-fit mounting block disposed at the end of the first take-up and release screw . The right-angled rubber side block has a first T-shaped snap-fit mounting groove on its right-angled end face that is compatible with the first T-shaped snap-fit mounting block. The first T-shaped snap-fit mounting block is installed in the first T-shaped snap-fit mounting groove by bolts.
[0012] Furthermore, the second connecting fastener includes a second rotating tightening sleeve, a second take-up and release screw symmetrically screwed into both ends of the second rotating tightening sleeve, and a second T-shaped snap-fit mounting block disposed at the end of the second take-up and release screw . The right-angle rubber side block has a second T-shaped snap-fit mounting groove on its lateral side right-angle end face that is compatible with the second T-shaped snap-fit mounting block. The second T-shaped snap-fit mounting block is installed in the second T-shaped snap-fit mounting groove by bolts.
[0013] Furthermore, the suspension support structure includes a support anti-slip base, a dampable positioning and adjusting support arm disposed on the upper end surface of the support anti-slip base, and a pressure fixing component disposed on the lower end surface of the support anti-slip base.
[0014] Furthermore, the pressure fixing assembly includes a support clip block disposed on the lower end face of the support anti-slip base, a support abutment embedded in the support clip block and located below the support anti-slip base, a plurality of butterfly-shaped pressure bolts that are equidistantly and evenly screwed onto the support abutment, and a pressure fixing block that is rotatably mounted on the top of the butterfly-shaped pressure bolts.
[0015] Furthermore, the support card insert is provided with several limiting slots evenly spaced and equidistantly, and the support abutment is provided with a limiting block that matches the limiting slot. The end of the limiting block is rotatably equipped with an anti-disengagement rotation stop.
[0016] The present invention provides a display screen with a shock-resistant and drop-proof structure, which has the following beneficial effects: 1. This invention enables the right-angle shock-absorbing and drop-proof component to be fixed to the display screen body without bolts during installation through a boltless shock-absorbing and drop-proof structure. This prevents the right-angle shock-absorbing and drop-proof component from being pulled by the mounting bolts and causing secondary damage to the display screen body when it is accidentally dropped and bumped. At the same time, the right-angle shock-absorbing and drop-proof component does not require mounting slots on the frame of the display screen body during use, thus making its application range wider.
[0017] 2. This invention can flexibly adjust and support the display screen body through a suspension support structure, so that the display screen body can be positioned and adjusted at will according to the user's usage habits, thereby providing users with more convenience. Attached Figure Description
[0018] To more clearly illustrate the technical solutions in this invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this invention. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0019] Figure 1 This is a schematic diagram of the overall front appearance structure of the present invention; Figure 2 This is a schematic diagram of the pressure fixing component of the present invention; Figure 3 This is a schematic diagram of the boltless shockproof and drop-resistant structure of the present invention; Figure 4 This is an exploded view of the inner side of the right-angle shock absorption and impact-resistant component of the present invention; Figure 5 This is an exploded view of the outer side of the right-angle shock absorption and impact-resistant component of the present invention; Figure 6 This is a schematic diagram of the overall rear appearance structure of the present invention.
[0020] In the diagram: 1. Boltless shockproof and drop-resistant structure; 2. Display screen body; 3. Suspension support structure; 4. Support plate; 5. Right-angle shock-absorbing and drop-resistant component; 6. First connecting fastener; 7. Second connecting fastener; 8. Right-angle rubber side block; 9. Storage and installation groove; 10. Buffer airbag sealing soft rubber block; 11. Shock-absorbing protruding strip; 12. Clip-on mounting base plate; 13. Soft rubber shock-absorbing side plate; 14. Elastic spring; 15. First clip-on mounting protrusion; 16. Support soft seat; 17. Shock-absorbing airbag; 18. Second clip-on mounting protrusion; 19. Limiting clip-on mounting groove; 20. 21. First retractable screw rod; 22. First T-shaped locking mounting block; 23. First T-shaped locking mounting groove; 24. Second retractable screw rod; 25. Second retractable screw rod; 26. Second T-shaped locking mounting block; 27. Second T-shaped locking mounting groove; 28. Limiting block; 29. Mounting groove; 30. Support anti-slip base; 31. Damped positioning and adjusting support arm; 32. Pressurizing and fixing assembly; 33. Support locking block; 34. Support abutment; 35. Butterfly-shaped pressing bolt; 36. Pressurizing and fixing block; 37. Limiting groove; 38. Anti-detachment rotation stop block. Detailed Implementation
[0021] To make the objectives, technical solutions, and advantages of this invention clearer, the technical solutions of this invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this invention. All other embodiments obtained by those skilled in the art based on the embodiments of this invention without creative effort are within the scope of protection of this invention.
[0022] like Figures 1-6 As shown, an embodiment of the present invention provides a display screen with a shock-resistant and drop-proof structure, comprising: Boltless shockproof and drop-proof structure 1 is nested and installed on the frame of the display body 2. Boltless shockproof and drop-proof structure 1 can protect the display body 2 from accidental detachment. The suspension support structure 3 is snapped and pressed onto the support plate 4. The display screen body 2 is installed at the head end of the suspension support structure 3. The suspension support structure 3 can flexibly adjust and support the display screen body 2. The display screen body 2 is an existing device, and its working principle is based on existing technology, so it will not be described in detail here. The support plate 4 refers to the desktop or plate on which the display screen body 2 is placed, and it will not be described in detail here. The boltless shock-absorbing and drop-proof structure 1 allows the right-angle shock-absorbing and drop-proof component 5 to be fixed to the display screen body 2 without bolts during installation. This prevents the display screen body 2 from being pulled by the mounting bolts and causing secondary damage. At the same time, the right-angle shock-absorbing and drop-proof component 5 does not require mounting slots on the frame of the display screen body 2 during use, thus making its application range wider.
[0023] The suspension support structure 3 allows for flexible adjustment of the display screen body 2, enabling the display screen body 2 to be positioned and adjusted according to the user's usage habits, thus providing greater convenience for the user.
[0024] Furthermore, such as Figure 2 and Figure 3As shown, the boltless shockproof and drop-proof structure 1 includes four right-angle shock-absorbing and drop-proof components 5, a first connecting fastener 6 that is snapped and fixed between two right-angle shock-absorbing and drop-proof components 5 laterally, and a second connecting fastener 7 that is snapped and fixed between two right-angle shock-absorbing and drop-proof components 5 longitudinally. The four right-angle shock-absorbing and drop-proof components 5 facilitate shockproof and drop-proof protection for the four corners and front face of the display screen body 2. The first connecting fastener 6 facilitates the adjustable tightening and fixing of the right-angle end faces of the two right-angle shock-absorbing and drop-proof components 5 laterally. The second connecting fastener 7 facilitates the adjustable tightening and fixing of the right-angle end faces of the two right-angle shock-absorbing and drop-proof components 5 longitudinally.
[0025] Furthermore, such as Figure 3 , Figure 4 as well as Figure 5 As shown, the right-angle shock-absorbing and anti-drop component 5 includes a right-angle rubber block 8 attached to the corner frame of the display body 2, a storage and installation groove 9 formed on the outer end face of the right-angle rubber block 8, a cushioning airbag sealing soft rubber block 10 embedded and pressed into the storage and installation groove 9 and located at the corner of the right-angle rubber block 8, and shock-absorbing protrusions 11 symmetrically embedded in the storage and installation groove 9. The cushioning airbag sealing soft rubber block 10 is located between the diagonal faces of the two shock-absorbing protrusions 11. The right-angle rubber block 8 has an installation groove 29 on the right-angle inner end face. The right-angle rubber block 8 facilitates the wrapping elastic protection of the corner of the display body 2, and at the same time, the right-angle rubber block 8 facilitates the cushioning airbag sealing soft rubber block 10 and the two... The shock-absorbing protruding strips 11 are snapped in and fixed for support. The storage and installation groove 9 facilitates the snapping and fixing of the buffer airbag sealing soft rubber block 10 and the two shock-absorbing protruding strips 11. The buffer airbag sealing soft rubber block 10 effectively buffers and reduces the impact force on the corner of the display body 2 when it is accidentally dropped. The shock-absorbing protruding strips 11 also provide good shock absorption and buffering effect on the right-angle shock-absorbing and anti-drop component 5 when the display body 2 is accidentally dropped, so as to protect the display body 2 as much as possible when it is accidentally dropped. The installation groove 29 makes it easier for the right-angle rubber edge block 8 to fit and snap into the corner of the display body 2, so that the right-angle shock-absorbing and anti-drop component 5 will not fall off after being fixed and installed.
[0026] Furthermore, such as Figure 4 and Figure 5As shown, the shock-absorbing protrusion 11 includes a snap-fit mounting base plate 12, a soft rubber shock-absorbing side plate 13 disposed above the snap-fit mounting base plate 12, a plurality of elastic springs 14 evenly and equidistantly disposed between the soft rubber shock-absorbing side plate 13 and the snap-fit mounting base plate 12, and a first snap-fit mounting protrusion 15 symmetrically disposed on both sides of the snap-fit mounting base plate 12 and the receiving mounting groove 9. The edges of the soft rubber shock-absorbing side plate 13 are all bent downwards and inwards. The snap-fit mounting base plate 12 facilitates the fixed support of the plurality of elastic springs 14. The plurality of elastic springs 14 facilitates the fixed connection of the soft rubber shock-absorbing side plate 13 and the snap-fit mounting base plate 12 together. The soft rubber shock-absorbing side plate 13 facilitates the increase of the shock-absorbing rebound of the shock-absorbing protrusion 11, thereby improving the shock-absorbing and anti-drop performance of the outer frame of the right-angle shock-absorbing and anti-drop component 5. The first snap-fit mounting protrusion 15 and the limiting snap-fit mounting groove 19 cooperate with each other to facilitate the snap-fit installation of the shock-absorbing protrusion 11 in the receiving mounting groove 9.
[0027] Furthermore, such as Figure 4 and Figure 5 As shown, the cushioning airbag sealing soft rubber block 10 includes a supporting soft base 16, a shock-absorbing airbag 17 disposed on the outer end face of the supporting soft base 16, and second snap-fit mounting protrusions 18 symmetrically arranged on both sides of the supporting soft base 16 and the receiving and mounting groove 9. Both sides of the receiving and mounting groove 9 are provided with limiting snap-fit mounting grooves 19 that fit and fit with the first snap-fit mounting protrusion 15 and the second snap-fit mounting protrusion 18. The supporting soft base 16 is made of a relatively soft material, which facilitates the fixed support of the shock-absorbing airbag 17. The shock-absorbing airbag 17 facilitates the cushioning airbag sealing soft rubber block 10 to have good cushioning protection. At the same time, the cushioning airbag sealing soft rubber block 10 also serves to limit and support the sealing of the two shock-absorbing protrusions 11. The second snap-fit mounting protrusion 18 and the limiting snap-fit mounting groove 19 cooperate with each other to facilitate the compression and snap-fit installation of the cushioning airbag sealing soft rubber block 10 in the receiving and mounting groove 9.
[0028] Furthermore, such as Figure 3 , Figure 4 as well as Figure 5As shown, the first connecting fastener 6 includes a first rotating tightening sleeve 20, a first take-up / release screw 21 symmetrically screwed into both ends of the first rotating tightening sleeve 20, and a first T-shaped locking mounting block 22 disposed at the end of the first take-up / release screw 21. A first T-shaped locking mounting groove 23, which is adapted to the first T-shaped locking mounting block 22, is opened on the right-angled end face of the lateral side of the right-angled rubber side block 8. The first T-shaped locking mounting block 22 is installed in the first T-shaped locking mounting groove 23 by bolts. The rotating tightening sleeve 20 has an external hexagonal ring groove, which allows the two first take-up and release screws 21 to move closer or further apart by rotating the first rotating tightening sleeve 20 with a wrench. The two first take-up and release screws 21 can adjustably tighten and fix the right-angled end faces of the two right-angled rubber blocks 8 together. The first T-shaped snap-fit mounting block 22 and the first T-shaped snap-fit mounting groove 23 cooperate with each other to fix the first take-up and release screws 21 on the right-angled end faces of the right-angled rubber blocks 8.
[0029] Furthermore, such as Figure 3 , Figure 4 as well as Figure 5 As shown, the second connecting fastener 7 includes a second rotating tightening sleeve 24, a second take-up and release screw 25 symmetrically screwed into both ends of the second rotating tightening sleeve 24, and a second T-shaped locking mounting block 26 disposed at the end of the second take-up and release screw 25. A second T-shaped locking mounting groove 27, which is adapted to the second T-shaped locking mounting block 26, is opened on the right-angled end face of the lateral side of the right-angled rubber side block 8. The second T-shaped locking mounting block 26 is installed in the second T-shaped locking mounting groove 27 by bolts. The rotating tightening sleeve 24 has an external hexagonal ring groove, which allows the two second tightening screws 25 to move closer or further apart by rotating the second rotating tightening sleeve 24 with a wrench. The two second tightening screws 25 can adjustably tighten and fix the longitudinal side right-angle end faces of the two right-angle rubber blocks 8 together. The second T-shaped snap-fit mounting block 26 and the second T-shaped snap-fit mounting groove 27 cooperate with each other to fix the second tightening screws 25 to the longitudinal side right-angle end face of the right-angle rubber block 8.
[0030] Furthermore, such as Figure 2 and Figure 6 As shown, the suspension support structure 3 includes a support anti-slip base 30, a damping positioning and adjusting support arm 31 disposed on the upper end surface of the support anti-slip base 30, and a pressure fixing component 32 disposed on the lower end surface of the support anti-slip base 30. The support anti-slip base 30 facilitates the fixed support of the damping positioning and adjusting support arm 31, the damping positioning and adjusting support arm 31 facilitates the flexible adjustment and positioning support of the display screen body 2, and the pressure fixing component 32 facilitates the compression and fixing of the suspension support structure 3 onto the support plate 4.
[0031] Furthermore, such as Figure 2As shown, the pressure fixing assembly 32 includes a support locking block 33 disposed on the lower end face of the support anti-slip base 30, a support abutment 34 locked on the support locking block 33 and located below the support anti-slip base 30, a plurality of butterfly-shaped pressure bolts 35 evenly spaced and screwed onto the support abutment 34, and a pressure fixing block 36 rotatably mounted on the top of the butterfly-shaped pressure bolts 35. The support locking block 33 facilitates the locking and support of the support abutment 34, the support abutment 34 facilitates the screwing and fixing of the plurality of butterfly-shaped pressure bolts 35, and the pressure fixing block 36 facilitates the tightening and reinforcement of the butterfly-shaped pressure bolts 35 when they press against the support plate 4.
[0032] Furthermore, such as Figure 2 As shown, several limiting slots 37 are evenly spaced and penetrated on the support card insert 33. The support seat 34 is provided with a limiting block 28 that matches the limiting slots 37. An anti-disengagement rotation stop 38 is rotatably installed at the end of the limiting block 28. The several limiting slots 37 and the limiting blocks 28 cooperate with each other to make it easy for the support seat 34 to be replaced with cards of different heights and fixed on the support card insert 33. The anti-disengagement rotation stop 38 can effectively prevent the card from slipping off the support seat 34 in the limiting slots 37.
[0033] In this embodiment, as Figures 1-6 As shown, the working principle and usage process of this invention are as follows: S1. When using this device, first place the anti-slip base 30 with the damped positioning and adjusting support arm 31 on the designated support plate 4, then insert the support seat 34 into the appropriate position on the support clip 33. At this time, ensure that the limit clip 28 is inserted through the appropriate limit clip groove 37. Then rotate the anti-disengagement rotating block 38 to be perpendicular to the limit clip 28. Then rotate the butterfly-shaped pressing bolts 35 one by one so that the pressing fixing blocks 36 installed at the top of the butterfly-shaped pressing bolts 35 are locked and pressed against the lower end surface of the support plate 4. This completes the installation of the suspension support structure 3 in the designated position. S2. Then, take out four right-angle rubber edge blocks 8. First, take out one right-angle rubber edge block 8. Then, slide and fit the two shock-absorbing convex strips 11 into the storage and installation groove 9 in sequence. Then, squeeze and install the buffer airbag sealing soft rubber block 10 into the storage and installation groove 9, and place it between the two shock-absorbing convex strips 11 diagonally. Then, take out a first retractable screw 21 and embed it into the right-angle end face of the horizontal side of the right-angle rubber edge block 8 with a bolt. However, make sure that the first T-shaped snap-fit installation block 22 is embedded and fitted into the first T-shaped snap-fit installation groove 23. Then, take out a second retractable screw 25 and embed it into the right-angle end face of the longitudinal side of the right-angle rubber edge block 8 with a bolt. However, make sure that the second T-shaped snap-fit installation block 26 is embedded and fitted into the second T-shaped snap-fit installation groove 27. S3. Now, assemble the remaining three right-angle shock-absorbing and anti-drop components 5 according to the above method. Install the first retractable screw rod 21 on the right-angle end face of the right-angle side of the right-angle rubber block 8 by bolting, and install the second retractable screw rod 25 on the right-angle end face of the right-angle side of the right-angle rubber block 8 by bolting. Then, the two first retractable screw rods 21 are connected together by rotating and tightening the first rotating tightening sleeve 20. Then, the two second retractable screw rods 25 are connected together by rotating and tightening the second rotating tightening sleeve 24. This completes the assembly of the boltless shock-absorbing and anti-drop structure 1. S4. After assembling the boltless shockproof and drop-proof structure 1, the first rotating tightening sleeve 20 and the second rotating tightening sleeve 24 can be rotated with a wrench to tighten the overall frame of the boltless shockproof and drop-proof structure 1 to be slightly larger than the length and width of the frame of the display body 2. Then, the boltless shockproof and drop-proof structure 1 is slightly bent and pressed onto the frame of the display body 2. Then, the first rotating tightening sleeve 20 and the second rotating tightening sleeve 24 are finely rotated with a wrench to make the four right-angle rubber edge blocks 8 fit tightly against the four corners of the display body 2. This allows the four corners of the display body 2 to be embedded in the mounting grooves 29 opened on the inner side of the right-angle rubber edge blocks 8. At this time, due to the action of the first connecting fastener 6 and the second connecting fastener 7, the boltless shockproof and drop-proof structure 1 will be tightly fitted and fixedly installed on the frame of the display body 2. S5. Then, the display body 2, which is tightly nested with the boltless shockproof and drop-proof structure 1, is installed on the end of the damping positioning and adjusting support arm 31 by bolts. This allows the boltless shockproof and drop-proof structure 1 to protect the display body 2 from shock and drop when it is accidentally dropped during installation or disassembly. At the same time, the boltless shockproof and drop-proof structure 1 allows the right-angle shock-absorbing and drop-proof component 5 to be fixed to the display body 2 by bolts during installation. This prevents the right-angle shock-absorbing and drop-proof component 5 from being pulled by the installation bolts and causing secondary damage to the display body 2 when it is accidentally dropped and bumped. In addition, the right-angle shock-absorbing and drop-proof component 5 does not require the display body 2 to have mounting slots on the frame, thus making its application range wider.
[0034] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, and not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.
Claims
1. A display screen with a shock-resistant and drop-proof structure, characterized in that, include: A boltless shockproof and drop-proof structure (1) is installed on the frame of the display screen body (2). The boltless shockproof and drop-proof structure (1) can protect the display screen body (2) from accidental detachment. The suspension support structure (3) is snapped and pressed onto the support plate (4). The display screen body (2) is installed at the head end of the suspension support structure (3). The suspension support structure (3) can flexibly adjust and support the display screen body (2).
2. A display screen with a shock-resistant and drop-proof structure according to claim 1, characterized in that, The boltless shock-absorbing and anti-fall structure (1) includes four right-angle shock-absorbing and anti-fall components (5), a first connecting fastener (6) that is snapped and fixed between the two right-angle shock-absorbing and anti-fall components (5) in the lateral direction, and a second connecting fastener (7) that is snapped and fixed between the two right-angle shock-absorbing and anti-fall components (5) in the longitudinal direction.
3. A display screen with a shock-resistant and drop-proof structure according to claim 2, characterized in that, The right-angle shock-absorbing and anti-drop component (5) includes a right-angle rubber block (8) attached to the corner frame of the display body (2), a storage and installation groove (9) opened on the outer end face of the right-angle rubber block (8), a buffer airbag sealing soft rubber block (10) embedded and pressed in the storage and installation groove (9) and located at the corner of the right-angle rubber block (8), and shock-absorbing protrusions (11) symmetrically embedded in the storage and installation groove (9). The buffer airbag sealing soft rubber block (10) is located between the diagonal faces of the two shock-absorbing protrusions (11), and the right-angle inner end face of the right-angle rubber block (8) is provided with an installation groove (29).
4. A display screen with a shock-resistant and drop-proof structure according to claim 3, characterized in that, The shock-absorbing protrusion (11) includes a snap-fit mounting base plate (12), a soft rubber shock-absorbing side plate (13) disposed above the snap-fit mounting base plate (12), a plurality of elastic springs (14) evenly and equidistantly disposed between the soft rubber shock-absorbing side plate (13) and the snap-fit mounting base plate (12), and a first snap-fit mounting protrusion (15) symmetrically disposed on both sides of the snap-fit mounting base plate (12) and the receiving mounting groove (9). The edges of the soft rubber shock-absorbing side plate (13) are all bent downwards and inwards to the bottom.
5. A display screen with a shock-resistant and drop-proof structure according to claim 4, characterized in that, The buffer airbag sealing soft rubber block (10) includes a support soft seat (16), a shock-absorbing airbag (17) disposed on the outer end face of the support soft seat (16), and a second snap-fit mounting protrusion (18) symmetrically disposed on both sides of the support soft seat (16) and the receiving and mounting groove (9). Both sides of the receiving and mounting groove (9) are provided with limiting snap-fit mounting grooves (19) that fit and fit with the first snap-fit mounting protrusion (15) and the second snap-fit mounting protrusion (18).
6. A display screen with a shock-resistant and drop-proof structure according to claim 3, characterized in that, The first connecting fastener (6) includes a first rotating tightening sleeve (20), a first take-up screw (21) symmetrically screwed into both ends of the first rotating tightening sleeve (20), and a first T-shaped snap-fit mounting block (22) disposed at the end of the first take-up screw (21). The right-angle rubber side block (8) has a first T-shaped snap-fit mounting groove (23) on its right-angle end face on its lateral side that is compatible with the first T-shaped snap-fit mounting block (22). The first T-shaped snap-fit mounting block (22) is installed in the first T-shaped snap-fit mounting groove (23) by bolts.
7. A display screen with a shock-resistant and drop-proof structure according to claim 3, characterized in that, The second connecting fastener (7) includes a second rotating tightening sleeve (24), a second take-up screw (25) symmetrically screwed into both ends of the second rotating tightening sleeve (24), and a second T-shaped snap-fit mounting block (26) provided at the end of the second take-up screw (25). The right-angle rubber side block (8) has a second T-shaped snap-fit mounting groove (27) that is compatible with the second T-shaped snap-fit mounting block (26) on its longitudinal side right-angle end face. The second T-shaped snap-fit mounting block (26) is installed in the second T-shaped snap-fit mounting groove (27) by bolts.
8. A display screen with a shock-resistant and drop-proof structure according to claim 1, characterized in that, The suspension support structure (3) includes a support anti-slip base (30), a dampable positioning and adjustable support arm (31) disposed on the upper end surface of the support anti-slip base (30), and a pressure fixing component (32) disposed on the lower end surface of the support anti-slip base (30).
9. A display screen with a shock-resistant and drop-proof structure according to claim 8, characterized in that, The pressure fixing assembly (32) includes a support clip (33) disposed on the lower end face of the support anti-slip base (30), a support abutment (34) clipped on the support clip (33) and located below the support anti-slip base (30), a plurality of butterfly-shaped pressure bolts (35) equidistantly and evenly threaded through and screwed onto the support abutment (34), and a pressure fixing block (36) rotatably mounted on the top of the butterfly-shaped pressure bolts (35).
10. A display screen with a shock-resistant and drop-proof structure according to claim 9, characterized in that, The support card insert (33) is provided with a number of limiting card slots (37) evenly spaced through it. The support abutment (34) is provided with a limiting card block (28) that is adapted to the limiting card slot (37). The end of the limiting card block (28) is rotatably installed with an anti-detachment rotation stop (38).