CN115030597B

CN115030597B - Anti-deformation stone bone ash storage rack

Info

Publication number: CN115030597B
Application number: CN202210875634.6A
Authority: CN
Inventors: 李和平
Original assignee: Jiangxi Yushi Industrial Co ltd
Current assignee: Jiangxi Yushi Industrial Co ltd
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2023-07-07
Anticipated expiration: 2042-07-25
Also published as: CN115030597A

Abstract

The invention relates to a bone ash storage rack, in particular to an anti-deformation stone bone ash storage rack. The deformation-preventing stone bone ash storage rack can be folded, and deformation of parts caused by disassembly and assembly is avoided. An anti-deformation stone bone ash storage rack comprises a bottom plate side plate, a square plate, a vertical plate, a rotating plate and the like; the bottom plate left and right sides all rotation type is connected with the curb plate, and curb plate upper portion all rotation type is connected with the square plate, and the bottom plate rear side is connected with the riser, and riser upper portion rotation type is connected with the rotor plate. Staff places the cinerary casket on placing the board and deposits, and the roof then can cover this device top, avoids inside this device and the cinerary casket ash fall, simultaneously, because this device can wholly fold, conveniently accomodate the removal, has also avoided dismantling spare part one by one, leads to spare part deformation to influence the condition emergence of next use.

Description

Anti-deformation stone bone ash storage rack

Technical Field

The invention relates to a bone ash storage rack, in particular to an anti-deformation stone bone ash storage rack.

Background

The bone ash is the bone ash formed by human incineration and is collected by the crematory urn, and the crematory urn storage rack is a rack for storing the crematory urn.

Patent grant publication number CN112814465B discloses a bone ash storage rack with dustproof function for the religious, which comprises: a base for mounting all the components; the top of the base is provided with a fixing seat; the servo motor is arranged in the fixing seat; the top of the base is provided with a placing mechanism; the dustproof mechanism is arranged on the placing mechanism. Through the cooperation between putting mechanism and elevating system, servo motor corotation and reversal drive through elevating system and put the mechanism and go on the elevating system to reach height-adjusting's purpose. But the bone ash storage rack cannot be folded, is inconvenient to move, and in the disassembly and assembly process, parts of the device are easy to deform to influence the next assembly and use.

Therefore, we propose a deformation-preventing stone bone ash storage rack which can be folded and avoid deformation of parts caused by disassembly and assembly.

Disclosure of Invention

In order to overcome the defect that the existing bone ash storage rack cannot be folded, parts are easy to deform in the disassembly and assembly process, and the next assembly and use are affected, the technical problem is that: the deformation-preventing stone bone ash storage rack can be folded, and deformation of parts caused by disassembly and assembly is avoided.

The utility model provides a shape stone material bone ash storage rack of preapring for an unfavorable turn of events, including bottom plate, curb plate, square plate, riser, rotating plate, placing mechanism and slide mechanism, the bottom plate left and right sides all rotates to be connected with the curb plate, and curb plate upper portion all rotates to be connected with the square plate, and the bottom plate rear side is connected with the riser, and riser upper portion rotation is connected with the rotating plate, is equipped with the placing mechanism who is used for placing the crematory urn between curb plate and the riser, is equipped with the slide mechanism who is used for covering the top between two square plates about.

More preferably, the placing mechanism comprises a first sliding block, a placing plate and a supporting plate, wherein the left part and the right part of the vertical plate are both connected with the first sliding block in a sliding mode, the placing plate used for placing the crematory urn is rotationally connected between the left and the right first sliding blocks, the supporting plate is rotationally connected to the upper part of the inner side of the side plate, and the supporting plate upwards rotates to support the placing plate.

More preferably, the sliding mechanism comprises a guide rail, a second sliding block and a top plate, wherein the front part and the rear part of the inner side of the square plate are respectively connected with the guide rail, the second sliding blocks are respectively connected in the guide rail in a sliding manner, the top plate is rotationally connected between the four second sliding blocks, and the top plate is covered between the left square plate and the top of the right square plate and the top of the rotating plate.

More preferably, the device further comprises a pushing mechanism for pushing the supporting plate to rotate upwards, the pushing mechanism comprises a mounting block, sliding rods, first springs, a pushing plate and contact plates, the upper parts of the outer sides of the side plates are all connected with the mounting block in a front-back symmetrical mode, the sliding rods are connected in the mounting block in a sliding mode, the first springs are all connected between the sliding rods and the adjacent mounting block, the pushing plate is all connected between the upper parts of the front sliding rod and the rear sliding rod, the contact plates are all connected on the upper parts of the supporting plates, the pushing plate moves downwards to be in contact with the adjacent contact plates, and then the contact plates are extruded to rotate downwards, so that the supporting plate is pushed to rotate upwards.

More preferably, the device further comprises a limiting mechanism for limiting the position of the lower pressing plate, the limiting mechanism comprises square blocks, guide blocks, limiting plates and second springs, the square blocks are connected to the rear sides of the lower pressing plate, the guide blocks are connected to the rear upper portions of the outer sides of the side plates, the limiting plates are connected to the guide blocks in a sliding mode, the square blocks move downwards and are in contact with the adjacent limiting plates, the limiting plates are extruded to slide backwards, and the second springs are connected between the limiting plates and the adjacent guide blocks.

More preferably, the fixing mechanism for fixing the position between the side plate and the square plate is further included, the fixing mechanism comprises an L-shaped plate, fixing blocks, fixing frames and third springs, the front sides of the lower pressing plates are all connected with the L-shaped plate, the lower portions of the front portions of the square plates are all connected with the fixing blocks, the lower portions of the front portions of the square plates are all connected with the fixing frames in a sliding mode, the fixing frames are downwards sleeved at the connecting portions of the side plates and the square plates in a sliding mode, the front portions of the L-shaped plates are all contacted with the adjacent fixing frames, the third springs are all connected between the fixing frames and the adjacent fixing blocks, and the third springs are in a compressed state.

More preferably, the clamping mechanism for clamping the crematory urn is further comprised, the clamping mechanism comprises a strip-shaped plate, a sliding plate, a fourth spring, clamping plates, wedge blocks and a contact rod, the left part and the right part of the upper side of the placing plate are respectively connected with the strip-shaped plate, the front part and the rear part of the strip-shaped plate are respectively connected with the sliding plate in a sliding manner, the fourth spring is respectively connected between the sliding plate and the adjacent strip-shaped plate, the inner ends of the two sliding plates on the left side and the two sliding plates on the right side are respectively connected with the clamping plates, the outer ends of the sliding plates on the front part are respectively connected with the wedge blocks, the lower parts of the fixing frames are respectively connected with the contact rods, the contact rods downwards move and are respectively contacted with the adjacent wedge blocks, and then the wedge blocks are extruded to inwards move.

More preferably, the utility model also comprises supporting feet, and the left and right parts of the bottom plate are respectively and symmetrically connected with the supporting feet.

The beneficial effects are as follows: 1. staff places the cinerary casket on placing the board and deposits, and the roof then can cover this device top, avoids inside this device and the cinerary casket ash fall, simultaneously, because this device can wholly fold, conveniently accomodate the removal, has also avoided dismantling spare part one by one, leads to spare part deformation to influence the condition emergence of next use.

2. The holding down plate moves down and contacts the cooperation of board can make the backup pad upwards rotate and support placing the board, makes things convenient for the staff to operate in this device outside.

3. The lower pressing plate moves downwards to enable the square block to be matched with the limiting plate, and then the position of the lower pressing plate is fixed, so that the supporting plate is kept in a horizontal state.

4. The fixing frame is sleeved at the joint of the side plate and the square plate in a downward sliding manner, so that the position between the side plate and the square plate is fixed.

5. The fixing frame moves downwards to enable the wedge-shaped block to be matched with the contact rod, and then the clamping plate moves inwards to limit the crematory urn.

Drawings

Fig. 1 is a schematic perspective view of a first view of the present invention.

Fig. 2 is a schematic view of a second perspective structure of the present invention.

Fig. 3 is a schematic view of a partial perspective structure of the present invention.

Fig. 4 is a schematic perspective view of the placement mechanism of the present invention.

Fig. 5 is a schematic view of a part of a perspective structure of the placement mechanism of the present invention.

Fig. 6 is a schematic perspective view of a sliding mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a pressing mechanism according to the present invention.

Fig. 8 is a schematic view of a part of a perspective structure of the pressing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a limiting mechanism according to the present invention.

Fig. 10 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 11 is a schematic perspective view of the clamping mechanism of the present invention.

The marks of the components in the drawings are as follows: 1-bottom plate, 2-side plate, 3-square plate, 4-vertical plate, 5-rotating plate, 6-placing mechanism, 61-first slider, 62-placing plate, 63-supporting plate, 7-sliding mechanism, 71-guide rail, 72-second slider, 73-top plate, 8-pressing mechanism, 81-mounting block, 82-sliding rod, 83-first spring, 84-pressing plate, 85-contact plate, 9-limit mechanism, 91-square block, 92-guide block, 93-limit plate, 94-second spring, 10-fixing mechanism, 101-L-shaped plate, 102-fixing block, 103-fixing frame, 104-third spring, 11-clamping mechanism, 111-bar plate, 112-sliding plate, 113-fourth spring, 114-clamping plate, 115-wedge block, 116-contact rod, 12-supporting leg.

Detailed Description

The invention will be further illustrated by the following description of specific examples, which are given by the terms such as: setting, mounting, connecting are to be construed broadly, and may be, for example, fixed, removable, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1

The utility model provides a shape stone material bone ash storage rack of preapring for an unfavorable turn of events, as shown in fig. 1-6, including bottom plate 1, curb plate 2, square plate 3, riser 4, rolling plate 5, placing mechanism 6 and slide mechanism 7, bottom plate 1 left and right sides all rotates and is connected with curb plate 2, and curb plate 2 upper portion all rotates and is connected with square plate 3, and bottom plate 1 rear side is connected with riser 4, and riser 4 upper portion rotation is connected with rolling plate 5, is equipped with placing mechanism 6 between curb plate 2 and riser 4, and placing mechanism 6 can place the crematory urn, is equipped with slide mechanism 7 between two square plates 3 about, and slide mechanism 7 can cover the top.

As shown in fig. 1, the bottom plate 1 also comprises supporting legs 12, and the supporting legs 12 are symmetrically welded on the left and right parts of the bottom plate 1.

When using the device, the staff removes this device to suitable position, support this device through supporting legs 12, then the staff will use the fixed curb plate of tool 2, square board 3, riser 4 and the position of rotating plate 5, make this device keep open the state, at this moment, the staff can put the crematory urn on positioning mechanism 6, and alright deposit sacrifice article on bottom plate 1, and slide mechanism 7 then can cover this device top, avoid this device inside deposition, when needs fold this device, the staff rotates folding with slide mechanism 7, then promote curb plate 2 upper end inwards to rotate, square board 3 lower extreme also can inwards move, make square board 3 and curb plate 2 fold the laminating on bottom plate 1, at this moment, slide mechanism 7 is also located two square boards 3, then the staff promotes rotating plate 5 again and fold in slide mechanism 7 top, at this moment, this device is whole in flat state, conveniently accomodate the removal, simultaneously, also avoided dismantling spare part one by one, lead to the spare part to warp and influence the circumstances of using next time, when needs to take place to push away the setting aside plate again, when the setting aside plate 3 again, when the setting up the device to rotate plate 3, and then rotate the side plate 3 outwards, and the control the reset plate is opened, and then the setting up the device is opened to rotate to the side plate 3, and finally, when the reset plate is required to be opened, and the reset plate is placed to rotate, and the device is opened, and can be controlled.

As shown in fig. 1, 4 and 5, the placement mechanism 6 comprises a first slide block 61, a placement plate 62 and a support plate 63, the left and right parts of the vertical plate 4 are both connected with the first slide block 61 in a sliding manner, the placement plate 62 is rotatably connected between the left and right first slide blocks 61, the placement plate 62 can be used for placing a crematory urn, and the upper part of the inner side of the side plate 2 is both rotatably connected with the support plate 63.

When the device is used, the staff promotes the lower extreme of backup pad 63 and upwards rotates the horizontal state, then use the position of instrument fixed support board 63 again, support placing plate 62 through backup pad 63, at this moment, the staff alright place the cinerary casket on placing plate 62, when needs fold this device, staff unclamps backup pad 63, under the effect of gravity, backup pad 63 rotates downwards thereupon, then the staff promotes placing plate 62 again and rotates into the vertical state, then promote placing plate 62 again and remove downwards, placing plate 62 moves downwards and drives first slider 61 and slide downwards on riser 4, make placing plate 62 and riser 4 laminating, make things convenient for this device to fold, when needs again use this device, the staff pulls placing plate 62 upwards to remove, and then make first slider 61 upwards slide, then the staff promotes placing plate 62 again and rotates the horizontal state downwards, support through backup pad 63.

As shown in fig. 1, 2 and 6, the sliding mechanism 7 comprises a guide rail 71, second sliding blocks 72 and a top plate 73, wherein the guide rail 71 is welded at the front and rear parts of the inner side of the square plate 3, the second sliding blocks 72 are connected in the guide rail 71 in a sliding manner, the top plate 73 is rotatably connected between the four second sliding blocks 72, and the top plate 73 covers the tops of the left square plate 3, the right square plate 3 and the rotating plate 5.

When the device is used, the top plate 73 covers between the tops of the square plates 3 and the rotating plate 5, the tops of the device are further covered, dust falling inside the device is avoided, when the device needs to be folded, the joint of the square plates 3 and the side plates 2 moves inwards, the side plates 2 are further folded and attached to the square plates 3, as the second sliding blocks 72 can only slide in the guide rails 71, the square plates 3 can be folded more conveniently, after the square plates 3 are folded into a horizontal state, the top plates 73 are located on the upper sides of the two square plates 3, when the device needs to be unfolded, the square plates 3 are rotated into a vertical state, the guide rails 71 are also rotated into a vertical state, and at the moment, workers can push the top plates 73 to move upwards, so that the top plates 73 are covered between the square plates 3 and the tops of the rotating plate 5 again.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7 and 8, the device further comprises a pressing mechanism 8, the pressing mechanism 8 can push the supporting plate 63 to rotate upwards, the pressing mechanism 8 comprises a mounting block 81, sliding rods 82, first springs 83, a pressing plate 84 and a contact plate 85, the mounting blocks 81 are symmetrically welded on the upper portions of the outer sides of the side plates 2, the sliding rods 82 are connected in the mounting blocks 81 in a sliding mode, the first springs 83 are connected between the sliding rods 82 and the adjacent mounting blocks 81, the pressing plate 84 is welded on the upper portions of the front sliding rod 82 and the rear sliding rod 82, the contact plate 85 is welded on the upper portions of the supporting plate 63, and the pressing plate 84 moves downwards to be in contact with the adjacent contact plate 85.

When the device is used, a worker pushes the sliding rod 82 to slide downwards in the mounting block 81, the first spring 83 deforms, the sliding rod 82 slides downwards to drive the lower pressing plate 84 to move downwards, when the lower pressing plate 84 moves downwards to be in contact with the contact plate 85, the lower pressing plate 84 moves downwards to press the contact plate 85 to rotate downwards, the contact plate 85 rotates downwards to drive the supporting plate 63 to rotate upwards to support the placing plate 62, then the worker uses the tool to fix the position of the sliding rod 82, when the device needs to be folded, the worker releases the sliding rod 82, under the action of reset of the first spring 83, the sliding rod 82 drives the lower pressing plate 84 to move upwards to not press the contact plate 85 any more, at this time, the supporting plate 63 rotates downwards to drive the contact plate 85 to rotate upwards to reset, and therefore, the worker can control the supporting plate 63 to rotate upwards to support the placing plate 62 more conveniently.

As shown in fig. 1 and 9, the positioning mechanism 9 is further included, the positioning mechanism 9 can limit the position of the lower pressing plate 84, the positioning mechanism 9 includes a square block 91, a guide block 92, a positioning plate 93 and a second spring 94, the square block 91 is welded at the rear side of the lower pressing plate 84, the guide block 92 is welded at the rear upper portion of the outer side of the side plate 2, the positioning plate 93 is connected to the guide block 92 in a sliding manner, the square block 91 moves downwards and contacts with the adjacent positioning plate 93, and the second spring 94 is connected between the positioning plate 93 and the adjacent guide block 92.

When the device is used, the lower pressing plate 84 moves downwards to drive the square block 91 to move downwards, when the square block 91 moves downwards to be in contact with the limiting plate 93, the square block 91 continues to move downwards to press the limiting plate 93 to slide backwards, the second spring 94 deforms, when the square block 91 moves downwards to be separated from the limiting plate 93, under the reset action of the second spring 94, the limiting plate 93 slides forwards to reset to clamp the square block 91, and then the position of the lower pressing plate 84 is fixed, so that the supporting plate 63 is kept in a horizontal state, when the device needs to be folded, a worker pulls the limiting plate 93 to slide backwards to not clamp the square block 91 any more, and at the moment, the lower pressing plate 84 moves upwards to reset to drive the square block 91 to move upwards to reset.

As shown in fig. 1 and 10, the fixing mechanism 10 is further included, the fixing mechanism 10 can fix the position between the side plate 2 and the square plate 3, the fixing mechanism 10 includes an L-shaped plate 101, a fixing block 102, a fixing frame 103 and a third spring 104, the front side of the lower pressing plate 84 is welded with the L-shaped plate 101, the lower part of the front part of the square plate 3 is welded with the fixing block 102, the lower part of the front part of the square plate 3 is connected with the fixing frame 103 in a sliding manner, the front part of the L-shaped plate 101 is contacted with the adjacent fixing frame 103, the third spring 104 is connected between the fixing frame 103 and the adjacent fixing block 102, and the third spring 104 is in a compressed state.

When the device is used, the lower pressure plate 84 moves downwards to drive the L-shaped plate 101 to move downwards, the L-shaped plate 101 does not bear against the fixing frame 103 after moving downwards, at this time, under the action of the reset of the third spring 104, the fixing frame 103 is sleeved at the joint of the side plate 2 and the square plate 3 in a sliding way, and then the position between the side plate 2 and the square plate 3 is fixed, when the lower pressure plate 84 moves upwards, the L-shaped plate 101 moves upwards, and the L-shaped plate 101 moves upwards to push the fixing frame 103 to slide upwards and separate from the side plate 2. The third spring 104 is deformed, and at this time, the side plate 2 is folded in rotation.

As shown in fig. 1 and 11, the cinerary urn clamping device further comprises a clamping mechanism 11, the clamping mechanism 11 can clamp the cinerary urn, the clamping mechanism 11 comprises a strip-shaped plate 111, a sliding plate 112, a fourth spring 113, a clamping plate 114, a wedge-shaped block 115 and a contact rod 116, the strip-shaped plate 111 is welded at the left and right parts of the upper side of the placing plate 62, the sliding plate 112 is connected at the front and rear parts of the strip-shaped plate 111 in a sliding manner, the fourth spring 113 is connected between the sliding plate 112 and the adjacent strip-shaped plate 111, the clamping plate 114 is welded at the inner ends of the two sliding plates 112 at the left side and the right side, the wedge-shaped block 115 is welded at the outer end of the sliding plate 112 at the front part, the contact rod 116 is welded at the lower part of the fixing frame 103, and the contact rod 116 moves downwards to be in contact with the adjacent wedge-shaped block 115.

When the crematory urn is used, a worker places the crematory urn on the placing plate 62, when the fixing frame 103 slides downwards, the contact rod 116 also moves downwards, when the contact rod 116 moves downwards to be in contact with the wedge block 115, the wedge block 115 is pressed to move inwards by the continued downwards movement of the contact rod 116, the wedge block 115 moves inwards to drive the sliding plate 112 to slide inwards, the fourth spring 113 deforms, the sliding plate 112 moves inwards to drive the clamping plate 114 to move inwards to limit the crematory urn, when the crematory urn needs to be folded, the fixing frame 103 moves upwards to drive the contact rod 116 to move upwards without pressing the wedge block 115, and under the reset action of the fourth spring 113, the sliding plate 112 drives the clamping plate 114 to move outwards to release the crematory urn.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims

1. The utility model provides an anti-deformation stone material bone ash storage rack, including bottom plate (1), curb plate (2), square board (3), riser (4) and rotating plate (5), a serial communication port, still including placing mechanism (6) and slide mechanism (7), bottom plate (1) left and right sides all rotates and is connected with curb plate (2), curb plate (2) upper portion all rotates and is connected with square board (3), bottom plate (1) rear side is connected with riser (4), riser (4) upper portion rotation is connected with rotating plate (5), be equipped with between curb plate (2) and riser (4) and be used for placing the placing mechanism (6) of cinerary casket, be equipped with between two square boards (3) about and be used for covering slide mechanism (7) at top;

the placing mechanism (6) comprises a first sliding block (61), a placing plate (62) and a supporting plate (63), wherein the left part and the right part of the vertical plate (4) are both connected with the first sliding block (61) in a sliding manner, the placing plate (62) for placing the crematory urn is rotationally connected between the left and the right first sliding blocks (61), the upper part of the inner side of the side plate (2) is both rotationally connected with the supporting plate (63), and the supporting plate (63) upwards rotates to support the placing plate (62);

the sliding mechanism (7) comprises a guide rail (71), second sliding blocks (72) and a top plate (73), wherein the front part and the rear part of the inner side of the square plate (3) are connected with the guide rail (71), the second sliding blocks (72) are connected in the guide rail (71) in a sliding manner, the top plate (73) is rotationally connected between the four second sliding blocks (72), and the top plate (73) covers between the left square plate (3) and the right square plate (3) and the top of the rotating plate (5);

the device is characterized by further comprising a pushing mechanism (8) for pushing the supporting plate (63) to rotate upwards, wherein the pushing mechanism (8) comprises a mounting block (81), a sliding rod (82), a first spring (83), a lower pressing plate (84) and a contact plate (85), the mounting block (81) is symmetrically connected to the upper portion of the outer side of the side plate (2) front and back, the sliding rod (82) is connected to the mounting block (81) in a sliding mode, the first spring (83) is connected between the sliding rod (82) and the adjacent mounting block (81), the lower pressing plate (84) is connected between the upper portions of the front sliding rod and the upper portion of the rear sliding rod (82), the contact plate (85) is connected to the upper portion of the supporting plate (63), the lower pressing plate (84) moves downwards to contact the adjacent contact plate (85), and then the contact plate (85) is extruded to rotate downwards, so that the supporting plate (63) is pushed to rotate upwards.

2. The deformation-preventing stone bone ash storage rack according to claim 1, further comprising a limiting mechanism (9) for limiting the position of the lower pressing plate (84), wherein the limiting mechanism (9) comprises square blocks (91), guide blocks (92), limiting plates (93) and second springs (94), the square blocks (91) are connected to the rear sides of the lower pressing plate (84), the guide blocks (92) are connected to the rear upper portions of the outer sides of the side plates (2), the limiting plates (93) are connected to the guide blocks (92) in a sliding mode, the square blocks (91) move downwards to be in contact with the adjacent limiting plates (93), the limiting plates (93) are extruded to slide backwards, and the second springs (94) are connected between the limiting plates (93) and the adjacent guide blocks (92).

3. The deformation-preventing stone bone ash storage rack according to claim 2, further comprising a fixing mechanism (10) for fixing the position between the side plate (2) and the square plate (3), wherein the fixing mechanism (10) comprises an L-shaped plate (101), a fixing block (102), a fixing frame (103) and a third spring (104), the front side of the lower pressing plate (84) is connected with the L-shaped plate (101), the lower part of the front part of the square plate (3) is connected with the fixing block (102), the lower part of the front part of the square plate (3) is connected with the fixing frame (103) in a sliding mode, the fixing frame (103) is sleeved at the joint of the side plate (2) and the square plate (3) in a downward sliding mode, the front part of the L-shaped plate (101) is in contact with the adjacent fixing frame (103), the third spring (104) is connected between the fixing frame (103) and the adjacent fixing block (102), and the third spring (104) is in a compressed state.

4. The anti-deformation stone bone ash storage rack according to claim 3, further comprising a clamping mechanism (11) for clamping the bone ash box, wherein the clamping mechanism (11) comprises a strip-shaped plate (111), a sliding plate (112), a fourth spring (113), clamping plates (114), wedge-shaped blocks (115) and contact rods (116), the left part and the right part of the upper side of the placement plate (62) are respectively connected with the strip-shaped plate (111), the front part and the rear part of the strip-shaped plate (111) are respectively connected with the sliding plate (112) in a sliding manner, the fourth spring (113) is respectively connected between the sliding plate (112) and the adjacent strip-shaped plate (111), the clamping plates (114) are respectively connected at the inner ends of the two sliding plates (112) on the left side and the two sliding plates (112) on the right side, the outer ends of the sliding plate (112) on the front part are respectively connected with the wedge-shaped blocks (115), the lower part of the fixing frame (103) is respectively connected with the contact rods (116), and the contact rods (116) are respectively moved downwards to be contacted with the adjacent wedge-shaped blocks (115), so that the wedge-shaped blocks (115) are respectively pressed to move inwards.

5. The deformation-preventing stone bone ash storage rack according to claim 4, further comprising supporting legs (12), wherein the supporting legs (12) are symmetrically connected to the left and right parts of the bottom plate (1).