CN210285116U

CN210285116U - Storage and transportation box for detection equipment

Info

Publication number: CN210285116U
Application number: CN201921004418.4U
Authority: CN
Inventors: 何保林; 陈龙; 陆晓雯; 杨佳嘉; 秦伟超; 陈梦
Original assignee: Nantong Qingyuan Testing Technology Co Ltd
Current assignee: Nantong Qingyuan Testing Technology Co Ltd
Priority date: 2019-06-28
Filing date: 2019-06-28
Publication date: 2020-04-10
Anticipated expiration: 2029-06-28

Abstract

The utility model provides a check out test set storage box relates to storage and transportation equipment's technical field, has solved the instrument and/or spare part warehousing and transportation and/or the inconvenient technical problem of taking that are used for detecting X ray equipment among the prior art. The storage and transportation box for the detection equipment comprises a box body, a shockproof inner pad, a support piece, a first storage box and a second storage box, wherein the shockproof inner pad is embedded in the box body and is provided with a positioning groove for placing the first storage box, the second storage box and the equipment to be stored; the support piece is embedded in the shockproof inner pad; the first storage box comprises at least two storage layers, and the storage layer positioned at the bottom layer is fixedly connected with the box body and used for storing special parts of the perspective detection equipment and the DR detection equipment; the second storage box and the box body are arranged in a split mode and used for storing common parts of dental detection equipment, CT detection equipment, perspective detection equipment and/or DR detection equipment. The utility model discloses a carry out categorised the operation of taking of placing in order to simplify check out test set to check out test set.

Description

Storage and transportation box for detection equipment

Technical Field

The utility model relates to a storage and transportation equipment especially relates to a check out test set storage and transportation case.

Background

The medical X-ray equipment is one of the equipment with more common clinical application, adopts X-rays as a detection and diagnosis basis, controls the X-rays to be used for carrying out radio examination and radiotherapy on human tissues, and can help doctors to judge the specific state of illness of patients. However, the application of X-rays is twofold, and the medical X-ray equipment which is newly installed and heavily repaired can be put into use only after being qualified in detection because the medical X-ray equipment can be damaged when the penetrating ability of the medical X-ray equipment is utilized to diagnose and treat the human body.

There are many instruments and/or components for detecting X-ray devices, and the devices to be detected can be mainly classified into: fluoroscopy detection equipment, DR detection equipment, CT detection equipment and dentistry detection equipment. The detection equipment mainly comprises a screen brightness meter, an aluminum block, a comparison test card, a lead block, a copper plate, an aluminum plate, a detection cylinder, a lead ruler, a level bar and a straight ruler. Wherein part of the components can be used for inspection of one and/or more devices, for example: the lead block, the copper plate and the aluminum plate can be used for detection of a fluoroscopy device, a DR device, a CT device and/or a dental device; some of the devices are dedicated inspection devices, such as a screen luminance meter for fluoroscopy device detection and a level bar and ruler for CT device detection. In the prior art, no box body for storing and transporting the inspection equipment and/or the parts is provided, so that part of the parts are easily damaged and/or lost in the storage and transportation processes, and the storage position is messy, so that the required equipment and/or parts cannot be quickly and accurately taken when in use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an one of them purpose provides a check out test set storage box, has solved the instrument and/or spare part warehousing and transportation and/or the inconvenient technical problem of taking that are used for detecting X ray equipment among the prior art. The utility model discloses preferred technical scheme can reach a great deal of beneficial technological effect, specifically see the following explanation.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model discloses a check out test set storage box includes box, shockproof inner pad, support piece, first receiver and second receiver, wherein, shockproof inner pad is embedded in the box, and shockproof inner pad includes the constant head tank, constant head tank and first receiver, second receiver and wait to store the equipment phase-match, and first receiver, second receiver and wait to store the equipment and embed in the constant head tank; the supporting piece is positioned between two adjacent positioning grooves and embedded in the shockproof inner pad; the first storage box comprises at least two storage layers which are overlapped up and down, and the storage layer positioned at the bottom layer is fixedly connected with the box body and used for storing and/or fixing special block-shaped parts for perspective detection equipment and/or DR detection equipment in an isolated mode; the second receiver sets up with the box components of a whole that can function independently, and the second receiver includes the baffle to be used for keeping apart to deposit in order to be used for depositing dental detection equipment, CT check out test set, perspective check out test set and/or the general spare part of DR check out test set.

As a further preferred technical scheme, the shockproof inner pad further comprises a taking and placing groove, and the taking and placing groove is located on one side, away from the connecting position of the box cover and the box body, of the positioning groove.

As further preferred technical scheme, the constant head tank includes first constant head tank, second constant head tank, and first constant head tank and second constant head tank are located the one side that box and case lid are connected, and just first constant head tank is used for fixed and/or deposits the screen luminance meter, and the second constant head tank is used for depositing and/or fixed second receiver.

As a further preferred technical scheme, the positioning groove further comprises a third positioning groove, the third positioning groove is located on one side, far away from the connecting position of the box body and the box cover, of the box body, and the third positioning groove is used for storing and/or fixing a level ruler, a straight ruler and/or a lead ruler.

As further preferred technical scheme, first receiver still includes synchronous connecting piece, and synchronous connecting piece is used for connecting upper and lower two-layer and/or the multilayer and accomodates the layer.

As a further preferred technical scheme, the detection equipment storage and transportation box comprises at least four synchronous connecting pieces, each synchronous connecting piece comprises at least two hinge holes, and each synchronous connecting piece is hinged to the side wall of the corresponding storage layer through the hinge holes.

As a further preferred technical scheme, the hinge holes on the same synchronous connecting piece are distributed on the synchronous connecting piece at equal intervals; the interval between two adjacent hinge holes equals among the synchronous connecting piece of difference to make synchronous connecting piece can support and accomodate the layer and be parallel to each other.

As further preferred technical scheme, the interval between two adjacent hinge holes in the synchronous connecting piece is greater than the sum of the thicknesses of two adjacent layers of storage layers, so that when the synchronous connecting piece is perpendicular to the storage layers, the synchronous connecting piece can support the two adjacent layers of storage layers to be separated.

As a further preferred technical scheme, the supporting piece comprises a supporting rod, a first supporting seat and a second supporting seat, one end of the supporting rod is fixedly connected with the first supporting seat, and the other end of the supporting rod is detachably connected with the second supporting seat; the first supporting seat is fixedly connected with the bottom of the box body, and the second supporting seat is fixedly connected with the box cover.

As a further preferred technical scheme, the second supporting seat includes a positioning hole, the positioning hole is located at one end far away from the case cover, and the positioning hole is matched with the supporting rod, so that the supporting rod can be embedded in the positioning hole.

As a further preferred technical scheme, the support rod further comprises a first magnet and a second magnet, and the first magnet is positioned at the end part connected with the second support seat; the second magnet is positioned at the bottom of the positioning hole, and when the supporting rod is embedded into the positioning hole, the magnetic pole of one end, close to the second magnet, of the first magnet is opposite to the magnetic pole of one end, close to the first magnet, of the second magnet.

As a further preferred technical scheme, the storage and transportation box of the detection equipment further comprises a dragging component, wherein the dragging component comprises a pull rod and wheels, and the wheels are connected with the outer wall of the box body and used for supporting the box body; the pull rod is connected with the box body and used for dragging the box body.

The utility model provides a check out test set storage box has following beneficial technological effect at least:

the utility model can fix the inspection equipment and/or the parts in the box body by arranging the positioning groove on the shockproof inner pad, so as to prevent the inspection equipment from shaking and/or colliding with each other in the storage and transportation process; the deformation resistance of the positioning groove support and/or the fixed detection equipment can be effectively improved by arranging the support piece between the adjacent positioning grooves, so that the situation that the detection equipment is too heavy and extrudes the equipment in another positioning groove is avoided.

The first storage box and the second storage box are used for classifying and isolating the flaky parts in the detection equipment, specifically, the flaky equipment and/or the parts which are required to be used in the detection process of various kinds of equipment, namely, the universal parts in the specification are placed in the second storage box, when the detection equipment is used, an operator can directly take all the parts by taking and placing the second storage box, so that the operation of taking and placing the parts for multiple times is avoided, and the operation of taking and placing the detection equipment and/or the parts is simplified; the dedicated cubic spare part of perspective check out test set and/or DR check out test set is deposited to first receiver, accomodates the layer through setting up the multilayer and makes each cubic spare part can overlap when placing, can also independently get the spare part of putting the corresponding layer when not moving other parts, further makes getting of check out test set put more conveniently.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a preferred embodiment test equipment tote of the present invention;

FIG. 2 is a schematic view of a preferred embodiment of the present invention illustrating an open inspection device container;

FIG. 3 is a transverse cross-sectional view of a preferred embodiment of the present invention with the storage and transport container of the test device closed;

FIG. 4 is a transverse cross-sectional view of a preferred embodiment of the present invention with the inspection equipment tote open;

fig. 5 is a schematic view of a first storage case according to a preferred embodiment of the present invention when the first storage case is closed;

fig. 6 is a schematic view of a first storage box according to a preferred embodiment of the present invention when opened;

figure 7 is a longitudinal cross-sectional view of a preferred embodiment of the storage and shipping box of the present invention.

In the figure: 1-a box body; 2-shockproof inner pad; 21-a positioning groove; 211-a first positioning groove; 212-a second detent; 213-third positioning groove; 22-taking and placing groove; 3-a support; 31-a support bar; 32-a first support; 33-a second support seat; 331-locating holes; 4-a first storage box; 41-a receiving layer; 42-synchronizing connection; 421-hinge hole; 5-a second storage box; 51-a separator; 6-box cover; 7-a pulling assembly; 71-a pull rod; 72-wheels.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 4 and 7, the storage and transportation box for the detection equipment comprises a box body 1, an inner shockproof pad 2, a support member 3, a first storage box 4 and a second storage box 5, wherein the inner shockproof pad 2 is embedded in the box body 1, the inner shockproof pad 2 comprises a positioning groove 21, the positioning groove 21 is matched with the first storage box 4, the second storage box 5 and the equipment to be stored, and the first storage box 4, the second storage box 5 and the equipment to be stored are embedded in the positioning groove 21; the support piece 3 is positioned between two adjacent positioning grooves 21, and the support piece 3 is embedded in the shockproof inner pad 2; the first storage box 4 comprises at least two storage layers 41, the storage layers 41 are overlapped up and down, and the storage layer 41 positioned at the bottom layer is fixedly connected with the box body 1 so as to be used for isolating and storing and/or fixing special block-shaped parts for perspective detection equipment and/or DR detection equipment; second receiver 5 sets up with 1 components and parts of a whole that can function independently of box, and second receiver 5 includes baffle 51 to be used for keeping apart to deposit in order to be used for depositing the general spare part of dentistry check out test set, CT check out test set, perspective check out test set and/or DR check out test set. Preferably, the shape of the inner crash pad 2 is matched with the inner space of the case 1 so that the inner crash pad 2 can be embedded in the case 1 and fixed. More preferably, the inner pad 2 may be made of foam material or EPP material.

In a preferred embodiment, the first storage case 4 is fixedly connected to the case 1 by screws. More preferably, the first storage case 4 and the second storage case 5 are acrylic plates.

It should be noted that, since the block components for the inspection of the fluoroscopy equipment and the DR equipment include the aluminum blocks of 200mm × 20mm and/or 180mm × 20mm, the block components cubic used for the inspection of the fluoroscopy equipment and the DR equipment may increase the thickness and/or height of the container body 1, thereby being disadvantageous to reduce the volume of the storage and transportation container. Therefore, through setting up the first receiver 4 that includes the multilayer and accomodate layer 41 for cubic spare part that is used for perspective equipment and DR equipment to detect can keep flat with the box 1 inside, not only can effective control box 1's thickness and/or height, can also be to the aluminium pig that is used for perspective equipment to detect and the aluminium pig separation setting that is used for DR equipment to detect, so that the user can get as required and put corresponding spare part, and does not move other spare parts, even the user can get as required and put the spare part of depositing in arbitrary accomodating layer 41.

The second storage box 5 is used for storing parts common to the dental detection device, the CT detection device, the fluoroscopy detection device and/or the DR detection device, that is, the second storage box 5 is used for storing parts which may be used in each detection. Because second receiver 5 sets up with box 1 components and parts for the operator can once only take out general spare part through carrying second receiver 5 when detecting the operation. Further, since the universal parts are sheet-shaped copper plates, aluminum plates, lead blocks and cylindrical detection cylinders, atoms in the copper plates, the aluminum plates and/or the lead blocks are easy to permeate each other due to diffusion after the lead blocks and/or the lead blocks are overlapped with the copper plates and the aluminum plates, so that the lead blocks, the aluminum plates and/or the copper plates are polluted. For this reason, set up baffle 51 in the second receiver 5, and the baffle 51 material sets up to the ya keli board, not only can be used for the classification to place copper, aluminum plate and/or stereotype, can also avoid copper, aluminum plate and/or stereotype to receive the pollution. In order to fix the cylindrical detection cylinder, preferably, the shock-proof inner pad 2 is arranged on the interlayer for placing the detection cylinder. Preferably, the opening of the second storage box 5 for taking the detection device is located at one end and/or two ends of the detection cylinder. Specifically, the detection can be achieved by taking the detection cylinder in an extraction mode.

Referring to fig. 2, the inner pad 2 further includes a pick-and-place slot 22, and the pick-and-place slot 22 is located on a side of the positioning slot 21 away from a connection portion of the box cover 6 and the box body 1. The access slot 22 is a notch formed at the edge of the positioning slot 21 for facilitating an operator to access instruments and/or components placed in the positioning slot 21, so that the operator can access the instruments and/or devices placed in the positioning slot 21. The taking and placing groove 22 is arranged on one side of the positioning groove 21 far away from the joint of the box cover 6 and the box body 1, so that the distance between the taking and placing positions of the inspection equipment and/or the parts and the operating personnel can be effectively shortened, and the operating personnel can be facilitated to quickly and stably take and place the equipment and/or the rear parts placed in the positioning groove 21.

Preferably, the inner crash pad 2 is disposed inside the cover 6, and when the cover 6 is closed with the case 1, the inner crash pad 2 inside the cover 6 and the inner crash pad 2 inside the case 1 contact and/or press each other, thereby fixing and/or protecting the inspection equipment in the case 1.

Referring to fig. 2, the positioning groove 21 includes a first positioning groove 211 and a second positioning groove 212, and the first positioning groove 211 and the second positioning groove 212 are located at a side where the case body 1 is connected to the case cover 6. Preferably, the first positioning groove 211 is used for fixing and/or storing the screen brightness meter, and the second positioning groove 212 is used for storing and/or fixing the second storage case 5.

Referring to fig. 2 and 4, the positioning groove 21 further includes a third positioning groove 213, and the third positioning groove 213 is located on a side of the box body 1 away from a connection portion of the box body 1 and the box cover 6. Preferably, the third positioning slot 213 is used to store and/or secure a level, ruler and/or lead ruler.

It should be noted that the width and/or length of the screen brightness meter and/or the second storage box 5 are/is much greater than the width of the horizontal ruler, the straight ruler and/or the lead ruler, so that the screen brightness meter and/or the second storage box 5 is/are placed on the side where the box body 1 is connected with the box cover 6, and the third positioning groove 213 is disposed on the side away from the connection between the box body 1 and the box cover 6, so as to reduce the span of the arm of the operator when the detection instrument is taken and placed to the maximum extent, so that the operator can take and place the inspection equipment in the box body 1.

Referring to fig. 5 and 6, the first storage cassette 4 further includes a synchronizing connector 42, and the synchronizing connector 42 is used to connect the upper and lower storage layers 41 and/or the multi-layer storage layer. In the multilayer housing layer 41 described in the present specification, the number of layers of the housing layer 41 is three and/or more.

Referring to fig. 5 and 6, the first storage box 4 includes at least four synchronizing connectors 42, each synchronizing connector 42 includes at least two hinge holes 421, and each synchronizing connector 42 is hinged to a side wall of the storage layer 41 through the hinge hole 421.

As a preferred embodiment of the present invention, the hinge holes 421 on the same synchronous connecting piece 42 are equidistantly distributed on the synchronous connecting piece 42; the spacing between two adjacent hinge holes 421 in different synchronizing connectors 42 is equal so that the synchronizing connectors 42 can support the receiving layers 41 in parallel with each other.

As a preferred embodiment of the present invention, the distance between two adjacent hinge holes 421 in the synchronous connecting member 42 is greater than the sum of the thicknesses of the adjacent two layers of storage layers 41, so that when the synchronous connecting member 42 is perpendicular to the storage layers 41, the synchronous connecting member 42 can support the separation of the adjacent two layers of storage layers 41.

Synchronous connection piece 42 is through articulated with accomodating layer 41 to the length of synchronous connection piece 42 between two adjacent layers of accomodating layer 41 equals, makes synchronous connection piece 42 can steadily support and accomodate layer 41 and go up and down, avoids accomodating the check-out set and/or the landing of spare part that deposit in layer 41.

Referring to fig. 3 and 4, the supporting member 3 includes a supporting rod 31, a first supporting seat 32 and a second supporting seat 33, one end of the supporting rod 31 is fixedly connected with the first supporting seat 32, and the other end is detachably connected with the second supporting seat 33; the first support seat 32 is fixedly connected with the bottom of the box body 1, and the second support seat 33 is fixedly connected with the box cover 6.

Referring to fig. 3 and 4, the second support seat 33 includes a positioning hole 331, the positioning hole 331 is located at an end away from the case cover 6, and the positioning hole 331 is matched with the support rod 31, so that the support rod 31 can be embedded in the positioning hole 331.

In the above embodiment, the supporting member 3 is connected to the box body 1 and the box cover 6 through the first supporting seat 32 and the second supporting seat 33, so that the supporting member 3 can provide a supporting force for the inspection equipment and/or the components placed in the box body 1.

As a preferred embodiment of the present invention, the support rod 31 further includes a first magnet and a second magnet, the first magnet is located at the end connected to the second support seat 33; the second magnet is located at the bottom of the positioning hole 331, and when the supporting rod 31 is inserted into the positioning hole 331, the magnetic pole of the end of the first magnet close to the second magnet is opposite to the magnetic pole of the end of the second magnet close to the first magnet.

Through setting up first magnet and second magnet, can effectively increase the steadiness that bracing piece 31 and second supporting seat 33 are connected, can effectively prevent that box 1 and/or case lid 6 from receiving the too big emergence deformation of pressure to can effectively avoid bracing piece 31 and second supporting seat 33 separation.

It should be noted that, two ends of the supporting rod 31 are respectively connected through the first supporting seat 32 and the second supporting seat 33, so that the pressure of the detecting device acting on the supporting rod 31 by the supporting rod 31 can be prevented from being only transmitted to the box bottom and/or the box cover 6, and further the deformation of the bottom of the box body 1 and/or the box cover 6 due to the excessive stress can be prevented.

Preferably, the first support seat 32 and the second support seat 33 are fixedly connected with the box body 1 and/or the box cover 6 through screws.

Referring to fig. 1, the storage and transportation box for the detection equipment further comprises a dragging assembly 7, wherein the dragging assembly 7 comprises a pull rod 71 and wheels 72, and the wheels 72 are connected with the outer wall of the box body 1 and used for supporting the box body 1; the pull rod 71 is connected with the box body 1 for dragging the box body 1.

In a preferred embodiment, the wheels and the rods 71 are identical to the wheels and rods provided on prior art luggage cases.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A storage and transportation box for detection equipment is characterized by comprising a box body (1), a shockproof inner pad (2), a supporting piece (3), a first storage box (4) and a second storage box (5), wherein,

the shockproof inner pad (2) is embedded in the box body (1), the shockproof inner pad (2) comprises a positioning groove (21), the positioning groove (21) is matched with the first storage box (4), the second storage box (5) and equipment to be stored, and the first storage box (4), the second storage box (5) and the equipment to be stored are embedded in the positioning groove (21);

the supporting piece (3) is positioned between two adjacent positioning grooves (21), and the supporting piece (3) is embedded in the shockproof inner pad (2);

the first storage box (4) comprises at least two storage layers (41), the storage layers (41) are overlapped up and down, and the storage layer (41) positioned at the bottom layer is fixedly connected with the box body (1) and used for isolating and storing and/or fixing special block-shaped parts for perspective detection equipment and/or DR detection equipment;

the second storage box (5) and the box body (1) are arranged in a split mode, and the second storage box (5) comprises a partition plate (51) used for storing common parts of dental detection equipment, CT detection equipment, perspective detection equipment and/or DR detection equipment in an isolated mode.

2. The storage and transportation box for the detection equipment as claimed in claim 1, wherein the shockproof inner pad (2) further comprises a pick-and-place groove (22), and the pick-and-place groove (22) is located on one side of the positioning groove (21) far away from the connection position of the box cover (6) and the box body (1).

3. The inspection equipment storage box according to claim 2, wherein the positioning grooves (21) include a first positioning groove (211) and a second positioning groove (212), the first positioning groove (211) and the second positioning groove (212) are located on the side where the box body (1) and the box cover (6) are connected, the first positioning groove (211) is used for fixing and/or storing a screen brightness meter, and the second positioning groove (212) is used for storing and/or fixing the second storage box (5).

4. The test equipment tote of claim 3, wherein the positioning slot (21) further comprises a third positioning slot (213), wherein the third positioning slot (213) is located in the side of the box (1) remote from the connection of the box (1) and the box lid (6), and wherein the third positioning slot (213) is used for storing and/or holding a level, a ruler, and/or a lead ruler.

5. The inspection equipment storage box according to claim 1, characterized in that the first storage box (4) further comprises a synchronous connector (42), and the synchronous connector (42) is used for connecting the upper and lower layers and/or the plurality of layers (41).

6. The inspection equipment storage box according to claim 5, characterized in that the first storage box (4) comprises at least four of said synchronizing connectors (42), said synchronizing connectors (42) comprise at least two hinge holes (421), and said synchronizing connectors (42) are hinged to the side wall of said storage layer (41) through said hinge holes (421).

7. The inspection equipment storage and transport box according to claim 6, characterized in that said hinge holes (421) of the same synchronization connector (42) are equally distributed on said synchronization connector (42); the distance between two adjacent hinge holes (421) in different synchronous connecting pieces (42) is equal, so that the synchronous connecting pieces (42) can support the storage layers (41) to be parallel to each other.

8. The storage and transportation box for test equipment as claimed in claim 7, wherein the distance between two adjacent hinge holes (421) in the synchronization connector (42) is greater than the sum of the thicknesses of two adjacent receiving layers (41), so that the synchronization connector (42) can support the two adjacent receiving layers (41) to be separated when the synchronization connector (42) is perpendicular to the receiving layers (41).

9. The storage and transport box for test equipment according to claim 8, wherein said support (3) comprises a support rod (31), a first support seat (32) and a second support seat (33), one end of said support rod (31) being fixedly connected to said first support seat (32) and the other end being detachably connected to said second support seat (33); the first supporting seat (32) is fixedly connected with the bottom of the box body (1), and the second supporting seat (33) is fixedly connected with the box cover (6).

10. The inspection equipment storage box according to claim 9, wherein the second support base (33) comprises a positioning hole (331), the positioning hole (331) is located at an end away from the box cover (6), and the positioning hole (331) is matched with the support rod (31) so that the support rod (31) can be embedded in the positioning hole (331).