CN111573021A

CN111573021A - A conveyer for precision instruments

Info

Publication number: CN111573021A
Application number: CN202010439598.XA
Authority: CN
Inventors: 吴朝凤
Original assignee: Individual
Current assignee: Apa Digital Technology Co ltd
Priority date: 2020-05-22
Filing date: 2020-05-22
Publication date: 2020-08-25
Anticipated expiration: 2040-05-22
Also published as: CN111573021B

Abstract

The invention discloses a conveying device for a precision instrument, which comprises an outer box with a rectangular box-packed structure, wherein an opening is formed in the upper end of the outer box, a box cover is arranged inside the opening in the upper end of the outer box, eight groups of threaded holes are formed in the edge of the outer box, threaded rods are arranged inside the eight groups of threaded holes in the outer box, a rotating seat is arranged on the part, located in the inner space of the outer box, of each threaded rod, the rotating seat is rotatably connected with the threaded rods, the rotating seat is connected with a tension spring, the other end of the tension spring is buckled in a buckling hole in a cladding frame, two groups of cladding frames are arranged in the outer box, an upper cushion is arranged inside the upper cladding frame, a lower cushion is arranged inside the lower cladding frame, the two groups of cladding frames are connected through eight groups of fixing modules, and a plurality of groups of damping modules. This a conveyer for precision instruments can reduce the probability that precision instruments are damaged by vibrations when transporting, is fit for generally using widely.

Description

A conveyer for precision instruments

Technical Field

The invention belongs to the technical field of transportation devices, and particularly relates to a transportation device for a precision instrument.

Background

Transportation generally refers to the logistics of transporting items from one location to another using specific equipment and tools, which are represented in different geographical areas, with the purpose of spatially displacing objects with the purpose of changing their spatial position. The space benefit of the commodity is created through the displacement, the use value of the commodity is realized, and different requirements of the society are met. Transportation is one of the central links of logistics and is also one of the most important functions of modern logistics activities.

In the existing transportation operation, some precision instruments are often required to be transported, and because the precision instruments are internally provided with more easily damaged parts, the vibration and the impact in the transportation process are easy to cause the damage of elements in the precision instruments, so that the instruments are broken down.

Disclosure of Invention

The present invention is directed to a transportation device for precision instruments to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a conveying device for precision instruments comprises an outer box with a rectangular box-packed structure, wherein an opening is formed in the upper end of the outer box, a box cover is arranged inside the opening in the upper end of the outer box, eight groups of threaded holes are formed in the edge of the outer box, threaded rods are arranged inside the eight groups of threaded holes in the outer box, a rotating seat is arranged on the part, located in the inner space of the outer box, of each threaded rod, the rotating seat is rotatably connected with the corresponding threaded rod, the rotating seat is connected with an extension spring, and the other end of the extension spring is buckled in a buckling hole in a cladding frame;

the novel packaging box is characterized in that two groups of coating frames are arranged in the outer box, an upper pad is arranged inside the coating frame on the upper side, a lower pad is arranged inside the coating frame on the lower side, the two groups of coating frames are connected through eight groups of fixing modules, and a plurality of groups of damping modules are connected to the coating frames through threads.

Preferably, the box cover at the upper end of the outer box is of a rectangular plate-shaped structure, and the outline of the box cover corresponds to the outline of the opening at the upper end.

Preferably, the cladding frame includes that the profile is the frame box of rectangle box-like structure, open the frame box upper end has the frame screw hole that is the distribution of rectangle array, the frame box is connected with the frame through the wainscot, frame upper end edge is opened there is the knot hole, the frame is opened there are four groups of openings, open at opening lower limb middle part in the frame has the notch, it is inside that upper padding and lower padding are located the frame box in the cladding frame, it is fixed with the handle strip to bond on the rod-like structure of the cladding frame that the knot hole is adjacent.

Preferably, the damping module comprises a fixing rod, a plurality of groups of rod grooves are formed in the fixing rod, rubber rings are arranged in the rod grooves, the fixing rod is located in the inner portion of the ring hole in each rubber ring, an outer ring groove is formed in the outer circle of the ring hole, steel rings are arranged in the outer ring groove, and the steel rings are fixed in the outer ring groove through viscose glue.

Preferably, the fixing module comprises a buckling strip and two groups of fixing screws, the buckling strip is welded and fixed with the strip ring, two groups of buckling threaded holes and buckling through holes are formed in the buckling strip, the fixing screws are located inside the buckling threaded holes and the buckling through holes, and the fixing screws penetrate through frame through holes in the inner frame and the outer frame of the coating frame.

Preferably, the lower end profile of the upper cushion and the upper end profile of the lower cushion correspond to the outer profile of an instrument transported inside the upper cushion and the lower cushion, and the upper cushion and the lower cushion are made of flexible sponge.

As a further scheme of the invention, the upper end of a fixed rod in the damping module is provided with a hexagonal groove, and the threaded part at the lower end of the fixed rod is positioned in a frame threaded hole at the upper end of a frame box.

The invention has the technical effects and advantages that: according to the transporting device for the precision instrument, the fixed rod, the steel ring and the rubber ring which form the damping module play a role in absorbing vibration, the steel ring presses the rubber ring due to the inertia effect when the vibration is generated, and a part of vibration is absorbed in a mode of pressing the rubber ring to cause deformation, so that the damping effect is realized, and the probability of damage to the precision instrument due to vibration during transportation is reduced; the two groups of coating frames coat the upper pad and the lower pad to be contacted with a transported instrument, the upper pad and the lower pad made of sponge materials are soft in texture, the function of absorbing impact can be achieved, the probability of damage caused by vibration during transportation of the precision instrument is further reduced, and the structure of the coating frames is favorable for lifting and hanging by hands; the fixing screws and the buckling strips which form the fixing module clamp and fix the two groups of coating frames, compared with the mode of adopting thread fixing, the fixing mode has better reliability, and because the fixing of the plurality of groups, the whole fixing effect cannot be influenced even if one group or two groups of fixing screws are loosened; eight groups of extension springs on the outer side also play a role in hoisting two groups of cladding frames, and the extension springs also play a part in absorbing vibration.

Drawings

FIG. 1 is a schematic structural view of a cover frame and its inner member in a separated state according to the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of the assembled structure of the covering frame according to the present invention;

FIG. 4 is a schematic view of a cover frame according to the present invention;

FIG. 5 is a schematic structural view of the shock absorbing module of the present invention in a separated state;

fig. 6 is a schematic structural view of the fixing module in a separated state according to the present invention.

In the figure: the novel shock-absorbing frame comprises a 1 covering frame, a 101 frame box, a 102 frame threaded hole, a 103 veneering, a 104 frame perforated hole, a 105 buckling hole, a 106 outer frame, a 107 notch, a 2 shock-absorbing module, a 201 fixing rod, a 202 rod groove, a 203 steel ring, a 204 rubber ring, a 205 ring outer groove, a 206 ring central hole, a 3 fixing module, a 301 fixing screw, a 302 buckling strip, a 303 buckling threaded hole, a 304 buckling through hole, a 305 strip ring, a 4 handle strip, a 5 upper pad, a 6 lower pad, a 7 outer box, an 8 box cover, a 9 extension spring, a 10 threaded rod and a 11 rotating seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a transportation device for a precision instrument as shown in figures 1-6, which comprises an outer box 7 with a rectangular box-packed structure, wherein the upper end of the outer box 7 is provided with an opening, a box cover 8 is arranged inside the opening at the upper end of the outer box 7, eight groups of threaded holes are arranged at the edge of the outer box 7, threaded rods 10 are arranged inside the eight groups of threaded holes in the outer box 7, a rotating seat 11 is arranged on the part of the threaded rod 10 positioned in the inner space of the outer box 7, the rotating seat 11 is rotationally connected with the threaded rod 10, the rotating seat 11 is connected with an extension spring 9, and the other end of the extension spring 9 is buckled in a buckling hole 105 in a cladding frame 1;

be provided with two sets of cladding frames 1 in

outer box

7, 1 inside upper padding 5 that is provided with of cladding frame of upside, 1 inside lower padding 6 that is provided with of cladding frame of downside, two sets of cladding frames 1 are connected through eight fixed module 3 of group, threaded connection has a plurality of groups of shock-absorbing module 2 on the cladding frame 1, and two sets of cladding frames 1 are used for holding upper padding 5 and lower padding 6, and upper padding 5 and lower padding 6 are used for contacting with the instrument of transportation.

Specifically, the contour of the box cover 8 at the upper end of the outer box 7 is a rectangular plate-shaped structure, the contour of the box cover 8 corresponds to the contour of the opening at the upper end of the outer box 7, and the box cover 8 seals the inner space of the outer box 7.

Specifically, cladding frame 1 is the frame box 101 of rectangle box-like structure including the profile, open frame box 101 upper end has the frame screw hole 102 that is the distribution of rectangular array, frame box 101 is connected with frame 106 through wainscot 103, frame 106 upper end edge is opened there is detained hole 105, frame 106 is opened there are four groups of openings, open at opening lower limb middle part in frame 106 has notch 107, it is inside to fill up 5 and lower 6 frame box 101 that are located cladding frame 1, it is fixed with handle strip 4 to detain the structural bonding of pole-like of cladding frame 1 that hole 105 is adjacent, and handle strip 4 adopts for rubber, and the edge scratch operator's of cladding frame 1 hand when avoiding mentioning.

Specifically, shock attenuation module 2 includes dead lever 201, it has a plurality of groups pole groove 202 to open on the dead lever 201, the inside rubber ring 204 that is provided with of pole groove 202, dead lever 201 is arranged in the ring hole 206 inside of rubber ring 204, it has outer groove 205 to open on the ring hole 206 excircle, the inside steel ring 203 that is provided with of outer groove 205 of ring, inside steel ring 203 passed through the viscose to be fixed at outer groove 205 of ring, and shock attenuation module 2 has played the effect of direct absorption vibrations.

Specifically, the fixing module 3 includes a buckle strip 302 and two sets of fixing screws 301, the buckle strip 302 is welded and fixed with a strip ring 305, two sets of buckle screw holes 303 and buckle through holes 304 are opened in the buckle strip 302, the fixing screws 301 are located inside the buckle screw holes 303 and the buckle through holes 304, the fixing screws 301 pass through frame through holes 104 in the inner frame 106 and the outer frame 106 of the cladding frame 1, and the fixing module 3 buckles the two sets of cladding frames 1 through the notches 107.

Specifically, the lower extreme profile of upper pad 5 and the upper end profile of lower bolster 6 correspond rather than the outside profile of the instrument of inside transportation, the material of upper pad 5 and lower bolster 6 is flexible sponge, and the upper pad 5 and the lower bolster 6 of flexible sponge can play partly effect of absorbing vibrations, and can not fish tail instrument.

Specifically, the upper end of the fixing rod 201 in the damping module 2 is provided with a hexagonal groove, the threaded part of the lower end of the fixing rod 201 is located in the frame threaded hole 102 at the upper end of the frame box 101, and the contour of the hexagonal groove corresponds to the contour of the wrench.

Specifically, according to the transporting device for the precision instrument, firstly, two groups of coating frames 1 are buckled on the upper side and the lower side of the instrument to be transported, then the fixed module 3 is buckled into the edge of an opening part of an outer frame 106 through a notch 107, then a fixing screw 301 passes through a frame through hole 104 and is arranged inside a buckling screw hole 303 to complete connection of the fixed module 3, then one end of an extension spring 9 is buckled on a buckling hole 105, the other end of the extension spring 9 is buckled on a rotating seat 11, the rotation of the rotating seat 11 is rotatably connected with a threaded rod 10, the extension spring 9 can be tensioned by rotating the threaded rod 10, so that the two groups of coating frames 1 are lifted in an outer box 7, finally, a box cover 8 is covered, and the damping module 2, an upper pad 5, a lower pad 6 and the extension spring 9 can absorb vibration when vibration occurs.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A transport device for precision instruments, comprising an outer box (7) with a rectangular box-packed structure outline, characterized in that: the upper end of the outer box (7) is provided with an opening, a box cover (8) is arranged inside the opening at the upper end of the outer box (7), eight groups of threaded holes are formed in the edge of the outer box (7), threaded rods (10) are arranged inside the eight groups of threaded holes in the outer box (7), a rotating seat (11) is arranged on the part, located in the inner space of the outer box (7), of the threaded rod (10), the rotating seat (11) is rotatably connected with the threaded rods (10), the rotating seat (11) is connected with an extension spring (9), and the other end of the extension spring (9) is buckled in a buckling hole (105) in the cladding frame (1);

be provided with two sets of cladding frame (1) in outer box (7), the inside upper padding (5) that is provided with of cladding frame (1) of upside, the inside lower padding (6) that is provided with of cladding frame (1) of downside, two sets of cladding frame (1) are connected through eight fixed module (3), threaded connection has a plurality of groups of shock-absorbing module (2) on cladding frame (1).

2. A transporting apparatus for a precision instrument as claimed in claim 1, wherein: the outline of a box cover (8) at the upper end of the outer box (7) is of a rectangular plate-shaped structure, and the outline of the box cover (8) corresponds to the outline of an opening at the upper end of the outer box (7).

3. A transporting apparatus for a precision instrument as claimed in claim 1, wherein: cladding frame (1) is frame box (101) that the profile is rectangle box-like structure, open frame box (101) upper end has frame screw hole (102) that are the distribution of rectangle array, frame box (101) are connected with frame (106) through wainscot (103), frame (106) upper end edge is opened there is detained hole (105), frame (106) are opened there are four groups of openings, opening lower limb middle part in frame (106) is opened there is notch (107), it is inside that upper padding (5) and lower padding (6) are located frame box (101) in cladding frame (1), it is fixed with handle strip (4) to bond on the rod-shaped structure of the adjacent cladding frame (1) in detaining hole (105).

4. A transporting apparatus for a precision instrument as claimed in claim 1, wherein: shock attenuation module (2) are including dead lever (201), it has a plurality of groups pole groove (202) to open on dead lever (201), pole groove (202) inside is provided with rubber ring (204), dead lever (201) are arranged in ring mesopore (206) in rubber ring (204) inside, it has outer groove of ring (205) to open on ring mesopore (206) excircle, the inside steel ring (203) that is provided with in outer groove of ring (205), steel ring (203) are fixed inside outer groove of ring (205) through the viscose.

5. A transporting apparatus for a precision instrument as claimed in claim 1, wherein: fixed module (3) are including profile (302) and two sets of fixed screw (301), profile (302) and strip ring (305) welded fastening, it detains screw hole (303) and detains through-hole (304) to open two sets of knot in profile (302), fixed screw (301) are located and detain screw hole (303) and detain through-hole (304) inside, frame perforation (104) in the outer frame (106) in cladding frame (1) are passed in fixed screw (301).

6. A transporting apparatus for a precision instrument as claimed in claim 1, wherein: the lower end profile of the upper cushion (5) and the upper end profile of the lower cushion (6) correspond to the external profile of an instrument transported inside the upper cushion, and the upper cushion (5) and the lower cushion (6) are made of flexible sponge.

7. A transporting apparatus for a precision instrument as claimed in claim 1, wherein: the upper end of a fixing rod (201) in the damping module (2) is provided with a hexagonal groove, and the thread part at the lower end of the fixing rod (201) is positioned in a frame thread hole (102) at the upper end of a frame box (101).