CN216835221U - Cultural relic transfer box - Google Patents

Abstract

The invention provides a cultural relic transfer box which comprises a box assembly, wherein the box assembly comprises a space enclosed by box side walls and a bottom plate; the partition plate divides the space into a storage area and a vibration damping assembly area; further comprising: the first elastic supporting unit is positioned in the vibration damping assembly area and at least comprises: an upper support rod disposed at a lower side of the partition plate for supporting the partition plate; a lower support bar disposed on the bottom plate; a transverse arrangement unit which is a spring with a horizontally arranged spiral axis; the transverse arrangement unit is positioned between the upper support rod and the lower support rod, and the transverse arrangement unit can realize vibration reduction by a spring in the horizontal length direction, so that the vibration reduction effect has the same effect.

Description

Cultural relic transfer box

Technical Field

The invention relates to the field of precious and fragile product transportation, in particular to a cultural relic transfer box.

Background

Along with the increase of the culture investment of the country and the continuous change of city planning, new museums are continuously invested in construction, so that the reconstruction or reconstruction of museums or cultural relic storehouses is caused, particularly in recent years, the increase of new museums is realized, the remote extension situations of old museums are also increased, and the moving work of historical cultural relics collected by the museums for many years is followed, so how to safely move the large number of cultural relics is a major problem facing the current people.

When the cultural relics are transported, the cultural relics packaging method generally adopts the following modes:

suspension damping method: and (3) erecting a support in the box, and placing the cultural relic on the support to be overhead and then fixing the cultural relic on the support.

The binding method comprises the following steps: the two multilayer boards are made into a right-angle frame, cultural relics are placed on the right-angle frame, and the cultural relics are tied on the back board by a belt. Note that the bottom plate and the back plate should be adhered with thick shockproof layers, and the anti-spreading layer of the back plate should be dug into a groove according to the shape chain of the article to increase the contact surface so as to increase the fixing effect.

Point fixation method: two groups of symmetrical points are selected on the inner wall of the box, and high and medium density blow molding plates are adhered to fix the cultural relics in the box.

A compacting method: selecting a plurality of stress parts, and tightly pressing and fixing the object on the box body by using a batten wrapped with sponge or stuck with a felt.

Chain digging method: according to the shape of the cultural relics, grooves are dug on the thicker middle density board and the sponge board, and the utensils are placed in the grooves so as not to be displaced. The method is suitable for small jade ware, porcelain, gold and silver ware and cultural relics with irregular shapes. And designing a forming padding material opposite to the concave-convex shape of the cultural relic model for protecting the corners and local decorations of the cultural relic.

The cultural relic transfer box is an important tool for protecting cultural relics in transportation, and comprises a vibration damping material, wherein the vibration damping material is selected as an important link of preparation work for moving cultural relic storehouses, and through multiple discussion and research, the performance of the used material can pollute the cultural relics, can hide or attract pests and the like, and the damage to the cultural relics in transportation and transportation is avoided. The shockproof layer of the inner and outer packages is preferably wrapped by high-density baoli velvet or shockproof bubble film with flexible texture and good elasticity. However, the vibration damping materials in the prior art have poor vibration damping effect and are easy to cause pest breeding or mildew.

Disclosure of Invention

The present invention is directed to solving at least one of the above problems.

The cultural relic transfer box comprises a box assembly, wherein the box assembly comprises a space enclosed by a box side wall and a bottom plate; the partition plate divides the space into a storage area and a vibration damping assembly area; further comprising: a first elastic support unit located in the vibration damping assembly region, the first elastic support unit including at least: an upper support rod disposed at a lower side of the partition plate for supporting the partition plate; a lower support bar disposed on the bottom plate; a transverse arrangement unit which is a spring with a horizontally arranged spiral axis; the transverse arrangement unit is located between the upper support rod and the lower support rod.

One of the important points of the invention is that the cultural relic transfer box uses a transverse arrangement unit as a damping element, and no report that the axis of a spring is transversely arranged in a box body for damping is found in the prior art. The transverse arrangement unit can be damped by one spring in the horizontal length direction relative to the springs arranged along the longitudinal axis, so that the damping effect is the same, and the possibility of the partition plate deflecting to a certain direction is reduced.

The other important point of the invention is that the cultural relic transfer box uses the upper support rod and the lower support rod, the horizontally arranged springs respectively penetrate and are fixed on the upper support rod and the lower support rod, so that the rotation can not occur, the upper support rod and the lower support rod are also in full contact with the partition board and the bottom board, and the support effect is very stable.

The first elastic supporting unit further includes: a longitudinally arranged unit comprising: the fixed sleeve is detachably fixed on the lower side of the upper supporting rod; a movable post inserted into the lower support rod; the movable column is positioned in the inner cavity of the fixed sleeve, a spring with a vertically arranged spiral axis is further arranged between the fixed sleeve and the movable column, and the length of the longitudinally arranged unit is changed in the vertical direction according to different loads.

Preferably, the upper support rod further comprises an upper mounting hole, the upper mounting hole is a three-section stepped hole with the diameter gradually increasing from top to bottom, and an internal thread is arranged in the middle stepped hole; the fixed sleeve also comprises an upper positioning column, a stud and a loading column which are arranged in sequence, and the upper positioning column, the stud and the loading column respectively correspond to the three sections of stepped holes from top to bottom.

Preferably, the circumferential side wall of the loading column is a smooth plane, and a counter bore is formed in the lower end face of the loading column.

Preferably, the lower support rod further comprises a lower mounting hole, and the lower mounting hole is two sections of stepped holes with diameters gradually reduced from top to bottom; the movable column comprises a body and a lower positioning column below the body; and respectively correspond to the two sections of stepped holes from top to bottom.

Preferably, the upper support rod comprises a first upper rod and a second upper rod, the end part of the first upper rod sequentially comprises a first upper piece, a first accommodating space and a first lower piece, the first upper piece is provided with a first guide hole, and the first lower piece is provided with a second guide hole; the end part of the second upper rod comprises a first middle piece, and the first middle piece is provided with an internal threaded hole; the first middle piece is arranged in the first accommodating space, and the first guide hole, the internal thread hole and the second guide hole form three sections of stepped holes;

the lower supporting rod comprises a first lower rod and a second lower rod; the end part of the first lower rod sequentially comprises a second upper piece, a second containing space and a second lower piece, the second upper piece is provided with a first hole, and the second lower piece is provided with a third hole; the end part of the second lower rod comprises a second middle piece, the second middle piece comprises a second hole, the second middle piece is arranged in the second containing space, the first hole and the second hole are adaptive to the shape of the body, the third hole is adaptive to the lower positioning column, and the first hole, the second hole and the third hole are integrally formed into a two-section stepped hole.

Preferably, the second elastic supporting unit is an elastic pad, and a gap is reserved between the second elastic supporting unit and the partition board; the at least two first elastic supporting units are respectively positioned at two sides of the second elastic supporting unit and are biased to the side wall of the box by the second elastic supporting unit; the rigidity of the second elastic supporting unit is greater than that of the first elastic supporting unit.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural diagram of a cultural relic transfer box according to the invention;

FIG. 2 is a schematic view of the first elastic supporting unit shown in FIG. 1 according to another embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of the first elastic supporting unit shown in FIG. 1 according to the present invention;

FIG. 4 is a schematic cross-sectional view of the first elastic supporting unit shown in FIG. 1 according to another embodiment of the present invention;

FIG. 5 is a schematic view of the end of the first upper rod according to the present invention;

fig. 6 is a perspective view of the longitudinally arranged unit of the present invention, particularly when compressed to be assembled.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

100: first elastic support unit, 200: second elastic supporting unit, 300: tank assembly, 301: tank side wall, 302: separator, 110: upper support rod, 120: lower support bar, 130: transverse arrangement unit, 140: longitudinal arrangement unit, 111: first upper sheet, 112: first middle piece, 113: first lower sheet, 114: first upper bar, 115: second upper rod, 116: first guide hole, 117: second guide hole, 118: first accommodation space, 121: second upper sheet, 122: second middle piece, 123: second lower sheet, 124: first lower lever, 125: second lower lever, 141: upper positioning posts, 142: stud, 143: loading column, 144: return spring, 145: fixing sleeve, 146: movable column, 147: lower locating post, 148: body, 149: counter bore, 150: gap, M: an article.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Hereinafter, a cultural relic transfer box according to some embodiments of the invention will be described with reference to fig. 1 to 6.

Example 1:

the method is characterized in that the cultural relics are safely transported, and the key of the protection of the unearthed cultural relics on the field or the key of the transfer work of the cultural relics comprise two important links, namely packaging and transportation. The packaging is one of means for carrying out safety protection and preservation treatment on the cultural relics by using a packaging material which is harmless to the cultural relics. The cultural relic packaging ensures that the appearance of the cultural relic is not damaged and the internal organization structure of the cultural relic is not damaged, so that the packaging of the cultural relic takes corresponding measures in consideration of possible adverse situations after the cultural relic is packaged, such as bad road conditions, mechanical vibration and collision impact during transportation. The cultural relics should be packaged correspondingly according to the size, the quality, the thickness, the length and the decoration condition of the cultural relics.

The embodiment provides a cultural relic transfer box, which comprises a box assembly 300, wherein the box assembly 300 comprises a space enclosed by a box side wall 301 and a bottom plate. The box assembly 300 can be divided into different specifications, the thickness of the wood plates of the large-size cultural relic box used for the side walls 301 and the bottom plate of the box is not less than 2.6cm, the thickness of the middle-size wooden box is not less than 1.8cm, the thickness of the small-size wooden box is not less than 1.3cm, all wooden boxes can be transported by using equipment such as a forklift, and the marks such as water resistance, shock resistance, inversion resistance and the like are jet-printed according to the international standard. When necessary, battens can be used as frames and cross braces for reinforcement. The phenomena of deformation, damage and the like of the packing box are avoided. The dimension of the cultural relic packaging box can meet the requirements of each link of transportation, loading and unloading and the like as much as possible by referring to relevant regulations in the 'foreign (border) cultural relic packaging work specification' of the State cultural relic administration and the 'hard rectangular solid transportation and packaging dimension series' of GB/T4892-1996.

A partition 302 dividing the space into a storage area and a damping member area; in fig. 1, the article M is schematically shown to be placed in a storage area, and according to the classification of the prior art, the article M is placed on the partition 302 closer to the suspension damping method, that is, the partition 302 is erected in the box, and the cultural relic is placed on the partition 302 and is then fixed on the partition. However, unlike the prior art, the partition 302 uses a damping structure when being overhead, and specifically includes:

a first elastic support unit 100 located in the vibration damping assembly region, the first elastic support unit including at least: an upper support bar 110 disposed at a lower side of the partition 302 for supporting the partition 302; a lower support bar 120 disposed on the base plate; a transverse arrangement unit 130 which is a spring whose spiral axis is horizontally arranged; the lateral arrangement unit 130 is located between the upper support bar 110 and the lower support bar 120.

The size of the bottom of the cultural relic and the actual condition of the storage area in the box assembly can be considered when the size of the partition plate 302 is selected, the partition plate 302 is not suitable to be too large, otherwise the partition plate can collide with the side wall of the box in the transportation process, the partition plate is like hanging the box, and the cultural relic is damaged.

As one of the important points of the present embodiment, the transverse arrangement unit 130 is used, and there is no report in the prior art that the spring axis is transversely arranged for vibration damping. The lateral arrangement unit 130 may be damped by one spring in the horizontal length direction with respect to the longitudinal axis arranged spring, so that the damping effect is the same and the possibility of the diaphragm 302 being deflected in a certain direction is reduced.

The other important point of the present embodiment is that the upper support rod 110 and the lower support rod 120 are used, and it is found in experiments that when the partition plate 302 is supported by using the transverse arrangement unit 130 alone, the horizontally arranged springs of the transverse arrangement unit 130 are rotated under the action of vibration, so that a winding phenomenon may be generated on other rope structures in the box, which threatens the safety of the cultural relics, and after the upper support rod 110 and the lower support rod 120 are used, the horizontally arranged springs respectively pass through and are fixed on the upper support rod 110 and the lower support rod 120, so that the rotation does not occur, and the upper support rod 110 and the lower support rod 120 are also in sufficient contact with the partition plate 302 and the bottom plate, so that the supporting effect is very stable.

Example 2:

in addition to the content of the previous embodiment, the first elastic supporting unit 100 further includes:

a longitudinal arrangement unit 140, comprising: a fixing sleeve 145 detachably fixed to a lower side of the upper support pole 110; a movable post 146 inserted into the lower support bar 120; wherein, movable post 146 is located in the inner cavity of fixed sleeve 145, a spring with a vertically arranged screw axis is further arranged between fixed sleeve 145 and movable post 146, and the length of longitudinally arranged unit 140 varies according to different loads.

Here, the concept of damping the nonlinear vibration isolation elements needs to be presented. The spring is an elastic structure which accords with Hooke's law, so that a single spring is easy to resonate under Hooke's law and after a certain frequency occurs, for example, a vehicle resonates under a certain frequency in the transportation process, namely, the cultural relic vibrates up and down on the partition board with large amplitude, which is very unfavorable for the cultural relic. In the present embodiment, a longitudinally arranged unit 140 is introduced, and the longitudinally arranged unit 140 includes a spring whose spiral axis is vertically arranged inside. In fact, the parallel connection of two springs with different performances and parameters can be simplified, after the parallel connection of the two springs with different arrangement modes is adopted, the first elastic supporting unit 100 is an elastic supporting structure with nonlinear elastic force change, the two springs are mutually influenced, and the possibility of resonance occurrence is greatly reduced.

Example 3:

in addition to the foregoing, the present embodiment further provides a specific longitudinal arrangement unit 140 for easy installation.

The upper supporting rod 110 further comprises an upper mounting hole, the upper mounting hole is a three-section stepped hole with the diameter gradually increasing from top to bottom, and an internal thread is arranged in the middle stepped hole; the fixing sleeve 145 further includes an upper positioning post 141, a stud 142 and a loading post 143, which are sequentially disposed, and correspond to the three stepped holes from top to bottom.

The lower support rod 120 further comprises a lower mounting hole, and the lower mounting hole is two sections of stepped holes with diameters gradually decreasing from top to bottom; movable post 146 includes a body 148 and a lower positioning post 147 below body 148; and respectively correspond to the two sections of stepped holes from top to bottom.

Referring to fig. 5, when installing, the longitudinal arrangement unit 140 is first compressed to minimize its length, the upper positioning posts 141 of the fixing sleeves 145 are placed in the first guide holes 116, the movable posts 146 are also inserted into the two stepped holes of the lower support bar 120 after releasing the longitudinal arrangement unit 140, the longitudinal arrangement unit 140 is preliminarily positioned between the upper support bar 110 and the lower support bar 120, and then the fixing sleeves 145 are rotated to couple the studs 142 with the internal threads in the middle stepped holes, so that the longitudinal arrangement unit 140 is finally installed between the upper support bar 110 and the lower support bar 120.

Example 4:

in addition to the foregoing, the present embodiment further provides a specific longitudinal arrangement unit 140 for easy installation.

In this embodiment, the lower end surface of the loading column 143 is provided with a counter bore 149, and the circumferential side wall is a smooth plane. The loading posts 143 are larger in diameter than the studs 142 so that counterbores 149 are provided in the lower end face, and preferably two counterbores 149 are provided and are symmetrically distributed about the center of the cross-section. Counterbore 149 is used to drive stationary sleeve 145 for rotational use after insertion of an instrument.

The fixing sleeve 145 is a structure with a small wall thickness, if a clamping tool is used for clamping and rotating the driving device, the fixing sleeve 145 can be deformed, the working stability of the reset spring 144 is further influenced, and the floating smoothness of the partition plate 302 can be seriously influenced, so that the size of the loading column 143 is increased, the counter bore 149 is arranged on the lower end face of the loading column, the structural strength of the position of the counter bore 149 is high, and when the fixing sleeve 145 is driven to rotate, the clamping cylinder wall is not needed, and the structure of the fixing sleeve is protected. Further, the fixing sleeve 145 can be reduced in length in the axial direction without additionally providing a clamping position in the length direction thereof, and the fixing sleeve 145 can completely feed the loading column 143 into the second guide hole 117 when rotated to the extreme position.

Example 5:

in addition to the foregoing description, the present embodiment further provides a specific first elastic supporting unit 100 that is adapted to different shapes of the damping member region.

The damping assembly zones in different tank assemblies are shaped differently such that the first flexible support unit 100 is preferably formed by a plurality of sub-units which may be assembled according to the actual shape requirements.

Specifically, a preferred embodiment may be provided, in which the upper supporting rod 110 includes a first upper rod 114 and a second upper rod 115, an end of the first upper rod 114 sequentially includes a first upper plate 111, a first accommodating space 118 and a first lower plate 113, the first upper plate 111 is provided with a first guiding hole 116, and the first lower plate 113 is provided with a second guiding hole 117; the end part of the second upper rod 115 comprises a first middle sheet 112, and the first middle sheet 112 is provided with an internal threaded hole; the first middle piece 112 is disposed in the first accommodating space 118, and three stepped holes are formed by the first guide hole 116, the internal threaded hole, and the second guide hole 117.

The lower support bar 120 includes a first lower bar 124 and a second lower bar 125; the end of the first lower rod 124 sequentially comprises a second upper piece 121, a second accommodating space and a second lower piece 123, the second upper piece 121 is provided with a first hole, and the second lower piece 123 is provided with a third hole; the end of the second lower rod 125 includes a second middle piece 122, the second middle piece 122 includes a second hole, wherein the second middle piece 122 is disposed in the second receiving space, the first hole, the second hole and the body 148 are adapted to form a shape, the third hole and the lower positioning column 147 are adapted to form a two-step hole, and the first hole, the second hole and the third hole are integrally formed into a two-step hole.

In the present embodiment, the first upper lever 114 and the second upper lever 115 represent two different sub-units, and the two sub-units can be fixed by using the longitudinally arranged unit 140 as a pivot after being adjusted in angle. The shorter the sub-unit length of the first elastic support unit 100, the more adaptable the shape of the vibration damping member region, but the more complicated the installation, the lower the elastic identity of the first elastic support unit 100, and the operator can select it according to the actual situation.

Moreover, the longitudinally-arranged unit 140 just serves as a pivot shaft to connect two different sub-units, and no additional mounting hole for the longitudinally-arranged unit 140 is needed, which greatly reduces the structural complexity of the first elastic supporting unit 100.

Another advantage is that the longitudinal arrangement unit 140 is easier to install at the junction of two sub-units, the transverse arrangement unit 130 is a complete continuous spring structure, it is not easy to install the longitudinal arrangement unit 140 within its length, and the installation of the longitudinal arrangement unit 140 at the junction of two sub-units is not restricted or interfered by the transverse arrangement unit 130.

Example 6:

in addition to the content of the previous embodiment, the embodiment further provides a technical scheme for accommodating heavy cultural relics.

The second elastic supporting unit 200 is an elastic pad, and a gap is reserved between the second elastic supporting unit and the partition plate 302; at least two first elastic support units 100 are respectively positioned at both sides of the second elastic support unit 200 and biased toward the cabinet side wall 301 by the second elastic support unit 200; the second elastic support unit 200 has greater rigidity than the first elastic support unit 100.

When the first elastic supporting unit 100 is compressed, deformation occurs, for example, the transverse arrangement unit 130 is compressed into an oval shape in cross section, the longitudinal arrangement unit 140 is compressed and shortened, and when the transverse arrangement unit 130 contacts the box side wall 301, the upper supporting rod 110 and the lower supporting rod 120 are displaced because the transverse arrangement unit 130 is lengthened in the horizontal direction, and after the shape of the first elastic supporting unit 100 is restored, the upper supporting rod 110 and the lower supporting rod 120 are still left at the displaced positions, so that an element for resetting the upper supporting rod 110 and the lower supporting rod 120 is required.

In addition, when the weight of the cultural relic is heavy and may exceed the working range of the first elastic support unit 100, the second elastic support unit 200, which is an elastic pad, is introduced and is arranged below the partition plate 302 and spaced from the partition plate 302 to a certain extent, the partition plate 302 and the second elastic support unit 200 are in elastic contact only when the first elastic support unit 100 is deformed to a certain extent, and the rigidity of the second elastic support unit 200 is greater than that of the first elastic support unit 100, so that the cultural relic can be effectively supported. This can also be reduced to a physical model of three springs of different properties connected in parallel, further reducing the possibility of resonance.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The cultural relic transfer box comprises a box assembly (300), wherein the box assembly (300) comprises a space enclosed by a box side wall (301) and a bottom plate; a partition (302) dividing the space into a storage area and a damping member area;

it is characterized by also comprising:

a first elastic support unit (100) located in the damping assembly zone, the first elastic support unit comprising at least: an upper support bar (110) disposed at a lower side of the diaphragm (302) for supporting the diaphragm (302); a lower support bar (120) disposed on the base plate; a transverse arrangement unit (130) which is a spring with a horizontally arranged spiral axis; the transverse arrangement unit (130) is located between the upper support bar (110) and the lower support bar (120).

2. The cultural relic transfer box of claim 1, wherein the first elastic support unit (100) further comprises:

a longitudinally arranged unit (140) comprising:

a fixing sleeve (145) detachably fixed to the lower side of the upper support rod (110);

a movable column (146) inserted into the lower support rod (120);

wherein, the movable column (146) is positioned in the inner cavity of the fixed sleeve (145), a spring with a vertically arranged spiral axis is further arranged between the fixed sleeve (145) and the movable column (146), and the length of the longitudinally arranged unit (140) is changed according to different loads in the vertical direction.

3. The cultural relic transfer box according to claim 2, wherein:

the upper supporting rod (110) also comprises an upper mounting hole, the upper mounting hole is three sections of stepped holes with diameters gradually increasing from top to bottom, and an internal thread is arranged in the middle stepped hole;

the fixed sleeve (145) further comprises an upper positioning column (141), a stud (142) and a loading column (143) which are sequentially arranged, and the upper positioning column, the stud (142) and the loading column respectively correspond to the three sections of stepped holes from top to bottom.

4. The cultural relic transfer box according to claim 3, characterized in that:

the circumferential side wall of the loading column (143) is a smooth plane, and a counter bore (149) is formed in the lower end face.

5. The cultural relic transfer box according to claim 3, characterized in that:

the lower support rod (120) also comprises a lower mounting hole, and the lower mounting hole is two sections of stepped holes with diameters gradually reduced from top to bottom;

the movable column (146) comprises a body (148) and a lower positioning column (147) below the body (148); and respectively correspond to the two sections of stepped holes from top to bottom.

6. The cultural relic transfer box according to claim 5, wherein:

the upper support pole (110) comprises a first upper pole (114) and a second upper pole (115),

the end part of the first upper rod (114) sequentially comprises a first upper sheet (111), a first accommodating space (118) and a first lower sheet (113), the first upper sheet (111) is provided with a first guide hole (116), and the first lower sheet (113) is provided with a second guide hole (117);

the end part of the second upper rod (115) comprises a first middle piece (112), and the first middle piece (112) is provided with an internal threaded hole;

the first middle piece (112) is arranged in the first accommodating space (118), and three sections of stepped holes are formed by the first guide hole (116), the internal thread hole and the second guide hole (117);

the lower support bar (120) comprises a first lower bar (124) and a second lower bar (125);

the end part of the first lower rod (124) sequentially comprises a second upper piece (121), a second containing space and a second lower piece (123), the second upper piece (121) is provided with a first hole, and the second lower piece (123) is provided with a third hole;

the end of the second lower rod (125) comprises a second middle sheet (122), the second middle sheet (122) comprises a second hole,

the second middle sheet (122) is arranged in the second containing space, the first hole and the second hole are adaptive to the shape of the body (148), the third hole is adaptive to the lower positioning column (147), and the first hole, the second hole and the third hole are integrally formed into a two-section stepped hole.

7. The cultural relic transfer box according to claim 2, wherein:

the second elastic supporting unit (200) is an elastic cushion and has a gap with the partition plate (302);

at least two first elastic supporting units (100) are respectively positioned at two sides of the second elastic supporting unit (200) and are biased to the box side wall (301) by the second elastic supporting unit (200);

the rigidity of the second elastic support unit (200) is greater than that of the first elastic support unit (100).

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