CN210681768U - Pottery transportation is with guard box that has mobility - Google Patents

Abstract

The utility model provides a pottery transportation is with guard box that has mobility belongs to ceramic technology field, including shell, block rubber, little spring, inner shell, rubber slab, a piston section of thick bamboo, inner spring, piston plate, bracing piece, backing plate, sheet rubber, big spring, apron, discharge orifice and top cap, it has four block rubbers all to bond through the structure glue on five faces of shell inner wall, and all the welding is provided with four little springs on five faces of shell inner wall, and the one end of little spring is all welded and is set up the surface at the inner shell. The utility model provides a little spring can cushion the vibrations between inner shell and the shell, and little spring supports the inner shell in the shell, because the water between inner shell and the shell has mobility, so receive the striking back when a face of shell, the water of five faces of shell inner wall can produce simultaneously and exert oneself and cushion vibrations, and the buffering impact that can be fine guarantees the stability of pottery in the inner shell, has extremely protective capability.

Description

Pottery transportation is with guard box that has mobility

Technical Field

The utility model relates to a pottery worker technical field, it is specific, relate to a pottery guard box.

Background

The ceramic is a general name of pottery, stoneware and porcelain, clay with two different properties, namely pottery clay and porcelain clay, is used as raw materials, and ware manufactured by technological processes of proportioning, forming, drying, roasting and the like can be called ceramic, the ceramic is hard but can not be damaged by impact force, so the ceramic needs great care in transportation, particularly, some ceramic with great value in the city generally needs a special protection box for protection, and the protection box in the prior art generally wraps the ceramic by plastic foam, so the problems of insufficient buffer capacity, insufficient protection capacity, easy damage of the ceramic in the transportation process and the like exist. Therefore, it is necessary to provide a protective case for ceramic transportation, which has fluidity, by further research on the protective case.

SUMMERY OF THE UTILITY MODEL

This kind of pottery transportation is with having mobile guard box solves the impulsive ability not enough that the aforesaid proposed, the protective capacities is not enough makes the damaged problem of pottery in the transportation easily, provide a pottery transportation is with having mobile guard box, vibrations between inner shell and the shell can be cushioned to the little spring in this guard box, the little spring supports the inner shell in the shell, because water between inner shell and the shell has mobility, so receive the striking back when a face of shell, the water of five faces of shell inner wall, can produce the power simultaneously and cushion vibrations, buffering impact force that can be fine, guarantee the stability of pottery in the inner shell, extremely protective capacities has.

The utility model provides a following technical scheme: a protective box with fluidity for ceramic transportation comprises an outer shell, rubber blocks, small springs, an inner shell, rubber plates, a piston cylinder, inner springs, a piston plate, a supporting rod, a base plate, rubber sheets, a large spring, a cover plate, a water flowing hole and a top cover, wherein four rubber blocks are bonded on five surfaces of the inner wall of the outer shell through structural adhesives, four small springs are welded on five surfaces of the inner wall of the outer shell, one ends of the small springs are welded on the surface of the inner shell, the rubber plates are bonded at the bottom of the inner wall of the inner shell, the piston cylinder is embedded and welded around the inner wall of the inner shell, two inner springs are welded on the inner wall of the piston cylinder, the inner springs are respectively welded on two sides of the four piston plates, the piston plates slide on the inner wall of the piston cylinder in a seamless mode, the supporting rod is welded on the surface of the piston plate, the base plate is welded at one end of the supporting rod, the rubber sheet is embedded and bonded on one side of the base plate, the top cover is seamlessly sleeved on the top of the shell, a large spring is welded to the bottom of the top cover, a cover plate is welded to the bottom of the large spring, and a plurality of drain holes are formed in one side of the piston cylinder in an opening mode.

Further preferred embodiments: water with an indefinite shape is filled between the outer shell and the inner shell, and the piston cylinders are arranged in a cross shape and surround the inner wall of the inner shell.

Further preferred embodiments: the piston cylinder is filled with water with an indefinite shape and is positioned above the rubber plate.

Further preferred embodiments: the discharge orifices are S-shaped, are uniformly distributed in the piston cylinder at equal intervals, and one end of each discharge orifice is positioned on the surface of the inner shell.

Further preferred embodiments: one side of the rubber sheet is curved, and the rubber sheet is arranged in a cross shape and surrounds the inner shell.

Further preferred embodiments: the height of the rubber block is smaller than that of the small spring, and the vertical distance between the rubber block and the inner shell is kept consistent.

Has the advantages that: the little spring can cushion the vibrations between inner shell and the shell, the little spring supports the inner shell in the shell, because water between inner shell and the shell has mobility, so receive the striking back when a face of shell, the water of five faces of shell inner wall, can produce the power simultaneously and cushion vibrations, buffering impact that can be fine, guarantee the stability of pottery in the inner shell, have extreme protective capacities, the sheet rubber supports can with ceramic positioning in the inner shell on ceramic surface, when rocking appears, the piston board removes in the piston barrel, the water that the water in the piston barrel will make a round trip flows through the discharge opening, when rivers flow through the discharge opening, the velocity of flow can slow down can further buffering impact, and two inner springs also can play the effect of buffering.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged schematic view of a point a in fig. 1 according to the present invention.

Fig. 3 is an enlarged schematic view of the present invention at B in fig. 2.

In FIGS. 1-3: the rubber piston comprises an outer shell 1, a rubber block 2, a small spring 3, an inner shell 4, a rubber plate 5, a piston cylinder 6, an inner spring 7, a piston plate 8, a support rod 9, a base plate 10, a rubber sheet 11, a large spring 12, a cover plate 13, a water flowing hole 14 and a top cover 15.

Detailed Description

Referring to fig. 1 to 3, in the embodiment of the present invention, a fluid protection box for ceramic transportation includes an outer shell 1, rubber blocks 2, small springs 3, an inner shell 4, rubber plates 5, a piston cylinder 6, inner springs 7, piston plates 8, support rods 9, a pad plate 10, rubber sheets 11, large springs 12, a cover plate 13, a drain hole 14, and a top cover 15, wherein four rubber blocks 2 are bonded to five surfaces of an inner wall of the outer shell 1 through structural adhesives, four small springs 3 are welded to five surfaces of an inner wall of the outer shell 1, one end of each small spring 3 is welded to the surface of the inner shell 4, the rubber plates 5 are bonded to the bottom of the inner wall of the inner shell 4, the piston cylinder 6 is embedded and welded to the periphery of the inner wall of the piston cylinder 6, two inner springs 7 are welded to the inner wall of the piston cylinder 6, the inner springs 7 are respectively welded to two sides of the four piston plates 8, and the piston plates 8 slide on the inner wall of the piston cylinder 6 in a, the surface of the piston plate 8 is welded with a support rod 9, one end of the support rod 9 is welded with a backing plate 10, one side of the backing plate 10 is nested and bonded with a rubber sheet 11, the top of the shell 1 is seamlessly sleeved with a top cover 15, the bottom of the top cover 15 is welded with a large spring 12, the bottom of the large spring 12 is welded with a cover plate 13, and one side of the piston cylinder 6 is opened and provided with a plurality of drain holes 14.

Preferably, water with indefinite shape is filled between the outer shell 1 and the inner shell 4, the small spring 3 can buffer the vibration between the inner shell 4 and the outer shell 1, the small spring 3 supports the inner shell 4 in the outer shell 1, because the water between the inner shell 4 and the outer shell 1 has fluidity, when one surface of the outer shell 1 is impacted, water on five surfaces of the inner wall of the outer shell 1 can simultaneously generate force to buffer the vibration, the impact force can be well buffered, the stability of the ceramic in the inner shell 4 is ensured, the piston cylinder 6 has extreme protection capability, the piston cylinder 6 is arranged in a cross shape and surrounds the inner wall of the inner shell 4, the piston cylinder 6 is filled with water with indefinite shape, the piston cylinder 6 is positioned above the rubber plate 5, the water flow holes 14 are in an S shape, the water flow holes 14 are uniformly distributed in the piston cylinder 6 at equal intervals, one end of the water flow holes 14 is positioned on the surface of the inner shell 4, one side of the rubber sheet 11 is, and the rubber sheet 11 is arranged in a cross shape and surrounds the inner shell 4, the rubber sheet 11 abuts against the surface of the ceramic and can position the ceramic in the inner shell 4, when the ceramic shakes, the piston plate 7 moves in the piston cylinder 6, water in the piston cylinder 6 flows through the water flowing holes 14 back and forth, when the water flows through the water flowing holes 14, the flow speed can be reduced to further buffer the impact force, the height of the rubber block 2 is smaller than that of the small spring 3, the vertical distance between the rubber block 2 and the inner shell 4 is kept consistent, the rubber block 2 can avoid the inner shell 4 from impacting the inner wall of the outer shell 1, the buffering vibration can be realized, the small spring 3 can be prevented from being compressed excessively, and the effect of protecting the small spring 3 is realized.

The working principle is as follows:

use the utility model relates to a pottery transportation is with having mobile guard box, at first, open top cap 15, pour water into between inner shell 4 and the shell 1, the water level of messenger's water is located the below of piston cylinder 6, secondly put into the pottery on the rubber slab 5 in the inner shell 4, the little spring 3 of inner shell 4 bottom is compressed, make the sheet rubber 11 hug closely on porcelainous surface, fix ceramic in inner shell 4, the inner spring 7 of piston slab 8 both sides is compressed one and is stretched, secondly pour water into between inner shell 4 and the shell 1 again, make water pass through discharge orifice 14 and get into in piston cylinder 6, the water level is hidden rubber block 2 and all withheld little spring 3 can, then cover top cap 15 covers the top of shell 1, apron 13 will hug closely at porcelainous top can, big spring 12 is compressed.

Claims (6)

1. The utility model provides a pottery transportation is with guard box that has mobility, includes shell (1), block rubber (2), little spring (3), inner shell (4), rubber slab (5), piston cylinder (6), innerspring (7), piston plate (8), bracing piece (9), backing plate (10), sheet rubber (11), big spring (12), apron (13), discharge orifice (14) and top cap (15), its characterized in that: the novel piston is characterized in that four rubber blocks (2) are bonded on five surfaces of the inner wall of the outer shell (1) through structural adhesive, four small springs (3) are welded on five surfaces of the inner wall of the outer shell (1), one ends of the small springs (3) are welded on the surface of the inner shell (4), rubber plates (5) are bonded at the bottom of the inner wall of the inner shell (4), piston cylinders (6) are embedded and welded on the periphery of the inner wall of the inner shell (4), two inner springs (7) are welded on the inner wall of each piston cylinder (6), the inner springs (7) are welded on two sides of four piston plates (8) respectively, the piston plates (8) slide on the inner wall of the piston cylinders (6) in a seamless mode, supporting rods (9) are welded on the surfaces of the piston plates (8), and backing plates (10) are welded on one ends of the supporting rods (9), rubber sheets (11) are all nested and bonded on one side of the base plate (10), a top cover (15) is seamlessly sleeved on the top of the shell (1), a large spring (12) is welded and arranged at the bottom of the top cover (15), a cover plate (13) is welded and arranged at the bottom of the large spring (12), and a plurality of water flow holes (14) are formed in one side of the piston cylinder (6) in an opening mode.

2. The ceramic transport protection box with fluidity according to claim 1, characterized in that: water with an indefinite shape is filled between the outer shell (1) and the inner shell (4), and the piston cylinders (6) are arranged in a cross shape and surround the inner wall of the inner shell (4).

3. The ceramic transport protection box with fluidity according to claim 1, characterized in that: the piston cylinder (6) is filled with water with an indefinite shape, and the piston cylinder (6) is positioned above the rubber plate (5).

4. The ceramic transport protection box with fluidity according to claim 1, characterized in that: the water flow holes (14) are S-shaped, the water flow holes (14) are uniformly distributed in the piston cylinder (6) at intervals and at equal intervals, and one ends of the water flow holes (14) are located on the surface of the inner shell (4).

5. The ceramic transport protection box with fluidity according to claim 1, characterized in that: one side of the rubber sheet (11) is curved, and the rubber sheet (11) is arranged in a cross shape and surrounds the inner shell (4).

6. The ceramic transport protection box with fluidity according to claim 1, characterized in that: the height of the rubber block (2) is smaller than that of the small spring (3), and the vertical distance between the rubber block (2) and the inner shell (4) is kept consistent.

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