CN220088940U - Accommodation mechanism and data acquisition device - Google Patents

Abstract

The present utility model provides a housing mechanism and a data acquisition device, the housing mechanism comprising: the locking piece and the accommodating part, the accommodating part comprises an accommodating wall and an accommodating piece; the container has a container opening formed around an edge thereof; the locking piece is movably arranged on the opening side of the accommodating part; the storage of the target object is realized through the containing part, the outward extending path of the opening of the containing part is blocked through the locking part in the locking state, the locking of the containing part is realized, the limitation of storing or taking out the stored target object is further realized, and the technical problem that the stored object is easy to be stolen or stolen is solved.

Description

Accommodation mechanism and data acquisition device

Technical Field

The utility model relates to the technical field of mechanical structures, in particular to a containing mechanism and data acquisition equipment.

Background

The storage mechanism for storing the objects which are frequently accessed in the prior art is not provided with a locking function, and the phenomenon that the stored objects are stolen or stolen easily occurs. For example, mobile digital radiography (Digital Radiography, DR) medical equipment in hospitals, by being equipped with flat panel detectors, meets the imaging requirements for a variety of indoor and outdoor settings. When the flat panel detector is not exposed, the flat panel detector is mostly placed in a flat panel storage area on the machine body; when exposure is needed, the flat plate is taken out from the flat plate accommodating area for use.

The flat panel storage area generally only has the function of storing flat panel detectors, and the mobile DR equipment needs to be moved to an emergency room or each ward for use, and the phenomenon that the flat panel detectors are stolen or stolen easily occurs due to the large personnel flow amount and complex personnel constitution of hospitals.

Disclosure of Invention

Accordingly, an objective of the present utility model is to provide a housing mechanism and a data collection device for solving the technical problem that the stored objects in the existing housing mechanism are easy to be stolen or stolen.

In a first aspect, embodiments of the present utility model provide a housing mechanism, comprising: a locking member and a receiving portion;

the accommodating part comprises an accommodating wall and an accommodating piece;

the accommodating member is disposed around the accommodating wall;

the container has a container opening formed around an edge thereof; the accommodation portion is configured to accommodate a target object;

the locking piece is movably arranged on the opening side of the accommodating part;

the locking piece comprises a locking state and an unlocking state; when the locking piece is in the locking state, the locking piece locks the containing part through blocking a path of the containing part opening extending outwards.

In the implementation process, the containing mechanism comprises the locking piece and the containing part, the storage of the target object is realized through the containing part, the outward extending path of the opening of the containing part is blocked through the locking piece in the locking state, the locking of the containing part is realized, the limitation of storing or taking out the stored target object is further realized, and the technical problem that the stored object is easy to be stolen or stolen is solved.

Optionally, in an embodiment of the present utility model, the locking member includes a rotation shaft, a rotation end close to the rotation shaft, and a locking end far from the rotation shaft; the locking end is configured to block a path of the receptacle opening extending outwardly in the locked state; the rotating end is configured to effect switching of the locking member between the locked state and the unlocked state by rotation about the rotational axis.

In the implementation process, the locking piece is switched between the locking state and the unlocking state through rotation around the rotating shaft; and the locking end is used for blocking the outward extending path of the opening of the accommodating part in the locking state, so that the accommodating part is locked, and further, the limitation of storing or taking out the stored target object is realized. By rotating around the rotating shaft, the switching of the locking piece between the locking state and the unlocking state is realized, the operation space for switching the locking piece between the locking state and the unlocking state is reduced, and the installation space required by installing the containing mechanism is further reduced.

Optionally, in an embodiment of the present utility model, the accommodating mechanism further includes: the pin shaft and the telescopic piece; the pin shaft comprises a limiting end close to the rotating end of the locking piece and a telescopic end far away from the rotating end of the locking piece; the telescopic piece is connected with the telescopic end of the pin shaft; the limiting end is configured to extend into a movement path of the locking piece through the telescopic piece so as to limit the movement of the locking piece; the restraining end is also configured to retract through the telescoping member away from the path of movement of the locking member.

In the implementation process, the pin limiting end extends into the motion path of the locking piece through the telescopic piece so as to limit the motion of the locking piece; and the telescopic piece is contracted to be far away from the movement path of the locking piece, so that the movement restriction of the locking piece is released. The extension of the telescopic piece can limit the movement range of the locking piece in the movement range of the locking state or the movement range of the unlocking state, so that the locking piece is limited in the locking state or the unlocking state, namely, the switching of the locking piece between the locking state and the unlocking state is limited through the extension of the pin shaft, and the limitation taking of objects in the accommodating part is further ensured under the condition that the locking piece is in the locking state.

Optionally, in an embodiment of the present utility model, the accommodating mechanism further includes: a locking member; the locking piece is connected with the telescopic piece; the locking piece comprises a locking state and an unlocking state; wherein the locking member is configured to limit extension and retraction of the telescoping member in the locked state.

In the above-described implementation, in the case where the locking member is in the locked state, the locking member is restricted in the locked state or the unlocked state by restricting the extension and retraction of the extension member. Because the locking piece can restrict the extension and the contraction of the telescopic piece under the locking state, the state of the locking piece is prevented from being randomly switched by other people, and the reliability of the accommodating mechanism is improved. When the target object needs to be stored for a long time or no nursing staff is needed, the locking piece is limited in the locking state by the locking piece, so that the storage safety of the stored target object is improved; the locking piece can be limited to the unlocking state when the target object needs to be frequently accessed and operated or other conditions with non-lockable demands exist, and the operability of the accommodating mechanism is improved.

Optionally, in an embodiment of the present utility model, a locking hole is formed on the locking member; the limiting end is configured to extend into a locking hole of the locking piece through the telescopic piece so as to limit the movement of the locking piece; the housing mechanism further includes: an elastic member; the elastic piece is arranged on the outer side of the pin shaft; a pillow block is arranged on the pin shaft, one end of the elastic piece is fixed at the pillow block, and the other end of the elastic piece is fixed at one side of the locking piece, on which the locking hole is formed; the initial length of the elastic piece is larger than the farthest distance between the other end of the pin shaft and the pillow block in the extending and contracting process of the telescopic piece.

In the implementation process, the expansion piece extends into the locking hole of the locking piece so as to limit the movement of the locking piece. The initial length of the elastic piece is larger than the furthest distance between the other end of the pin shaft and the pillow block in the extending and contracting process of the elastic piece, so that the elastic piece is always in a compressed state in the extending and contracting process of the elastic piece, the telescopic end of the pin shaft and the telescopic piece are always in a contact connection state through the elastic force of the elastic piece, and the telescopic end of the pin shaft is contracted and extended through the extension of the telescopic piece.

Optionally, in an embodiment of the present utility model, the accommodating mechanism further includes: the first limiting piece and the second limiting piece; the first limiting piece is connected with the locking piece; the second limiting piece is configured to limit the movement of the first limiting piece by moving into a movement path of the first limiting piece, so that the movement of the locking piece is limited.

In the implementation process, the second limiting piece limits the movement of the first limiting piece, so that the movement of the locking piece is limited, and the locking piece is limited in a locking state or an unlocking state. For example, when the locking piece is in the unlocking state, the second limiting piece limits the movement range of the first limiting piece, and limits the movement range of the locking piece in the movement range of the unlocking state, so that the blocking of the outward extending path of the opening of the accommodating part by the locking end is avoided, and the locking of the accommodating part by the locking piece is further avoided. According to the scheme, when the target object needs to be frequently accessed and operated or other conditions with the requirement of non-locking, the locking piece is limited in the unlocking state, the function that the locking piece cannot be locked is achieved, and the operability of the accommodating mechanism is improved.

Optionally, in an embodiment of the present utility model, the first limiting member is connected to a rotation shaft of the locking member; or, the first limiting piece is connected with the rotating end of the locking piece.

Optionally, in an embodiment of the present utility model, the second limiting member includes a knob and a limiting plate; the knob is connected with the limiting plate, and the limiting plate is provided with a limiting end close to the first limiting piece; the limiting end is configured to move into a movement path of the first limiting piece through the knob so as to limit the movement of the first limiting piece and further limit the movement of the locking piece.

In the implementation process, the second limiting piece comprises a knob and a limiting plate; through the knob, the motion of limiting plate is realized to realize the motion restriction to first locating part through the spacing end, reduced the complexity that the second locating part carries out spacing operation to the locking piece.

In a second aspect, an embodiment of the present utility model further provides a data acquisition device, including: a collection device body, a detector, and a containment mechanism as described in the first aspect above; wherein, the accommodating wall of the accommodating part in the accommodating mechanism is attached to the collecting equipment main body; the accommodating part of the accommodating mechanism is used for accommodating the detector.

Optionally, in an embodiment of the present utility model, the collecting device body includes: an equipment operation table and a stand column; wherein, hold the holding wall laminating of holding portion in the hold mechanism in be close to in the equipment operation panel one side of stand, just hold the locking piece of mechanism install in be close to on the stand one side of equipment operation panel.

By adopting the accommodating mechanism and the data acquisition equipment provided by the utility model, the object is stored through the accommodating part, and the outward extending path of the opening of the accommodating part is blocked through the locking piece in the locking state, so that the locking of the accommodating part is realized, the limitation of storing or taking out the stored object is further realized, and the technical problem that the stored object is easy to be stolen or stolen is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments of the present utility model will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present utility model and should not be considered as limiting the scope, and other related drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a housing mechanism according to an embodiment of the present utility model;

fig. 2 is a schematic view illustrating a movable range of a locking member according to an embodiment of the present utility model;

FIG. 3 is a schematic top view of a locking member and related structures in a receiving mechanism according to an embodiment of the present utility model;

fig. 4 (a) is a schematic front view of a locking member and related structures in a receiving mechanism according to an embodiment of the present utility model;

fig. 4 (b) is a schematic left view of a locking member and related structures in a receiving mechanism according to an embodiment of the present utility model;

fig. 5 is a schematic position diagram of a movable range among the first limiting member, the second limiting member and the locking member when the movement path of the second limiting member provided by the embodiment of the present utility model is linear;

fig. 6 is a schematic position diagram of a moving range among the first limiting member, the second limiting member and the locking member when the moving path of the second limiting member provided by the embodiment of the present utility model is arc-shaped;

fig. 7 is a schematic structural diagram of a data acquisition device according to an embodiment of the present utility model.

Icon: 10-a receiving mechanism; 11-a locking member; 111-a rotation axis; 112-a rotating end; 113-locking end; 114-a locking hole; 12-a housing; 121-a containment wall; 122-a receiver; 1221-receptacle opening; 13-pin shafts; 131-a limiting end; 132—telescoping end; 133-pillow blocks; 14-telescoping pieces; 15-locking member; 16-an elastic member; 17-a first limiting piece; 18-a second limiting piece; 181-a knob; 182-limiting plates; 20-data acquisition equipment; 201-collecting a device body; 2011—an equipment console; 2012-upright posts; 2013-X-ray generator; 2014-a post mounting platform; 2015-body; 202-detector.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs; the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

In the description of embodiments of the present utility model, the technical terms "first," "second," and the like are used merely to distinguish between different objects and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, a particular order or a primary or secondary relationship. In the description of the embodiments of the present utility model, the meaning of "plurality" is two or more unless otherwise specifically defined.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a housing mechanism according to an embodiment of the utility model. The housing mechanism 10 includes: a lock member 11 and a housing 12; the housing 12 includes a housing wall 121 and a housing piece 122; the accommodating piece 122 is disposed around the accommodating wall 121; the receiving part 122 has a receiving part opening 1221 formed around an edge thereof; the accommodating portion 12 is configured to accommodate a target object; the lock member 11 is movably provided on the opening side of the accommodating portion 12; the lock member 11 includes a locked state and an unlocked state; wherein, when the locking member 11 is in the above-described locked state, the locking member 11 achieves locking of the housing 12 by blocking the path along which the housing opening 1221 extends outward. It is noted that, for clarity of illustration, only the locking member 11 and the receiving portion 12 of the receiving mechanism 10 of the present utility model are shown in fig. 1, and portions not directly related to the receiving mechanism 10, such as how the locking member 11 is mounted and fixed, and other structures involved in how the receiving portion 12 is mounted and fixed, are omitted. And such other structures may be derived by those skilled in the art based on their experience in this or related fields.

The locking member 11 may be rectangular, cylindrical, a combination of rectangular and cylindrical, or any other irregular shape. The accommodation space of the accommodation portion 12 may be larger than the volume of the target object or smaller than the volume of the target object. The size of the accommodation opening 1221 is adapted to the target object or larger than the cross-sectional area of the target object. The height of the receiving wall 121 may be identical to the height of the receiving member 122, or may be higher or lower than the height of the receiving member 122.

The movable track of the locking member 11 may be linear or arc. Specifically, when the locking member 11 is switched between the locked state and the unlocked state around the rotatable shaft portion, the movement locus thereof is arc-shaped; for example, one end of the locking member 11 near the housing opening 1221 rotates around an end far from the housing opening 1221. When the locking piece 11 realizes the switching of the locking state and the unlocking state along the linear movement track; for example, the lock member 11 moves from both ends of the housing opening 1221 to the intermediate position of the housing opening 1221 along a linear movement track, so that the movement track of the lock member 11 is linear when switching from the unlock state to the lock state is realized.

When the target object is placed in the accommodating portion 12, the target object is blocked from being taken out of the accommodating portion 12 by the blocking of the path of the outward extension of the accommodating portion opening 1221 by the lock member 11, and the lock of the accommodating portion 12, that is, the lock of the target object stored in the accommodating portion 12 is achieved. The target object may be an article having a relatively large hardness such as a flat panel detector, a mobile phone, or a ceramic device, and not easily deformed, or may be an article having a relatively easy folding or deformation such as a book or clothing, and the utility model is not limited thereto.

It can be seen that, in the accommodating mechanism 10 including the locking member 11 and the accommodating portion 12 provided in the embodiment of the present utility model, the accommodating portion 12 is used to store the target object, and the locking member 11 is used to block the outward extending path of the accommodating portion opening 1221 in the locked state, so as to lock the accommodating portion 12, thereby restricting the storing or taking out of the stored target object, and solving the technical problem that the stored object is easy to be stolen or stolen.

Referring to fig. 2, fig. 2 is a schematic view illustrating a movable range of a locking member according to an embodiment of the utility model. The boundary unlocking position, the critical locking position, the boundary locking position shown in fig. 2 correspond to three different positions of the same locking element.

In some alternative embodiments, the locking member 11 includes a rotational axis 111, a rotational end 112 proximal to the rotational axis 111, and a locking end 113 distal to the rotational axis 111; the locking end 113 is configured to block a path through which the container opening 1221 extends outward in the locked state; the rotation end 112 is configured to realize switching of the lock member 11 between the locked state and the unlocked state by rotation about the rotation shaft 111.

The center of the rotation shaft 111 may be located on a straight line formed by the "center of the rotation end 112 and the lock end 113", or the rotation shaft 111 may be located on both sides of a straight line formed by the "center of the rotation end 112 and the lock end 113", or on both sides of a rotation plane formed by the rotation of the rotation end 112 around the rotation shaft 111.

In fig. 2, the critical locking position refers to a critical position of the locking member 11 in the critical locking state, and when the locking member 11 is in the critical locking position, the locking member is in the unlocking state if rotated in the unlocking state. The boundary unlock position refers to a boundary position at which the movement of the lock 11 is restricted during the movement from the critical lock position to the unlock state. The boundary lock position refers to a boundary position at which the movement of the lock member 11 is restricted during the movement from the critical lock position to the lock state. It should be noted that the critical locking position, the boundary unlocking position, and the boundary locking position in fig. 2, the corresponding movement positions are merely exemplary; the critical locking position, the boundary unlocking position, and the boundary locking position may be adjusted according to the size of the target object stored in the storage portion 12 of the storage mechanism 10, the position of the stored target object, and other practical situations.

The movement range of the locked state of the locking member 11 refers to a rotation angle range of the rotation end 112 (or the locking end 113, or the locking member 11) in which "the target object stored in the storage portion 12 can be prevented from being taken out by blocking the path of the storage portion opening 1221 extending outward", such as the rotation angle range of the rotation end 112 (or the locking end 113, or the locking member 11) from the critical locking position to the boundary locking position (including the critical locking position) in fig. 2. The movement range of the unlocked state of the locking member 11 refers to a rotation angle range of the rotation end 112 (or the locking end 113, or the locking member 11) of "the target object stored in the storage portion 12 is not prevented from being taken out by blocking (or not blocking) the path of the storage portion opening 1221, such as the rotation angle range of the rotation end 112 (or the locking end 113, or the locking member 11) from the critical locking position to the boundary unlocking position (excluding the critical locking position) in fig. 2.

Referring to the drawings, fig. 3 is a schematic top cross-sectional view of a locking member and related structures in a housing mechanism according to an embodiment of the utility model.

Referring to fig. 4 (a), fig. 4 (a) is a front schematic view of a locking member and related structures in a receiving mechanism according to an embodiment of the present utility model; referring to fig. 4 (b), fig. 4 (b) is a schematic left view of a locking member and related structures in a receiving mechanism according to an embodiment of the utility model.

In some alternative embodiments, the containment mechanism 10 further comprises: a pin 13 and a telescopic member 14; the pin 13 includes a limiting end 131 near the rotational end 112 of the locking member 11, and a telescoping end 132 remote from the rotational end 112 of the locking member 11; the telescopic piece 14 is connected with the telescopic end 132 of the pin shaft 13; the limiting end 131 is configured to extend into the movement path of the locking member 11 through the telescopic member 14 to achieve a movement limitation of the locking member 11; the limiting end 131 is also configured to retract by the telescoping member 14 away from the path of movement of the locking member 11.

The limiting end 131 of the pin 13 is extended into the movement path of the locking member 11 by extending the telescopic member 14, so that the movement range of the locking member 11 can be limited within the movement range of the locking state, or the movement range of the locking member 11 can be limited within the movement range of the unlocking state. Specifically, when the locking member 11 is in the unlocked state, the restricting end 131 of the pin 13 is extended to a movement path of the locking member 11 from the unlocked state to the locked state, so that the movement of the locking member 11 from the unlocked state to the locked state is prevented, and the locking member 11 is restricted to the unlocked state. When the locking member 11 is in the locked state, the restricting end 131 of the pin 13 extends to a movement path of the locking member 11 from the locked state to the unlocked state, thereby preventing the movement of the locking member 11 from the locked state to the unlocked state, and restricting the locking member 11 to the locked state.

In some alternative embodiments, the containment mechanism 10 further comprises: a locking member 15; the locking piece 15 is connected with the telescopic piece 14; the locking member 15 includes a locked state and an unlocked state; wherein the locking member 15 is configured to limit extension and retraction of the telescoping member 14 in the locked state.

The locking member 15 may be implemented by a locking structure such as a combination lock, a mechanical lock, or a fingerprint lock. The locking member 15 may be mounted on a mounting housing of the receiving mechanism. When the lock member 11 is restricted to the locked state by the restricting end 131 of the pin 13, the contraction of the telescopic member 14 is restricted by restricting the lock member 11 to the locked state, thereby restricting the contraction of the restricting end 131 which "has been extended into the movement path of the lock member 11 and restricts the movement range of the lock member 11 to the movement range of the locked state" thereby restricting the lock member 11 to the locked state.

When the lock member 11 is restricted to the unlock state by the restricting end 131 of the pin 13, the contraction of the telescopic member 14 is restricted by restricting the lock member 11 to the lock state, the contraction of the telescopic member 14 which has been extended into the movement path of the lock member 11 and the movement range of the lock member 11 to the movement range of the unlock state is restricted, and the lock member 11 is restricted to the unlock state.

When the "restricting end 131 of the pin 13" does not extend to the movement path of the locking member 11, the locking member 11 is restricted to the locked state, so that the extension of the telescopic member 14 is restricted, and the extension of the telescopic member 14 "the movement of the locking member 11 is not restricted" is restricted, and at this time, the locking member 11 can complete the state switching between the locked state and the unlocked state.

In some alternative embodiments, the locking member 11 is provided with a locking hole 114; the limiting end 131 is configured to extend into the locking hole 114 of the locking member 11 through the telescoping member 14 to effect movement limiting of the locking member 11;

the housing mechanism 10 further includes: an elastic member 16; the elastic piece 16 is arranged on the outer side of the pin shaft 13; a pillow block 133 is arranged on the pin shaft 13, one end of the elastic piece 16 is fixed at the pillow block 133, and the other end of the elastic piece 16 is fixed at one side of the locking piece 11 provided with the locking hole 114; wherein the initial length of the elastic member 16 is greater than the furthest distance between the other end of the pin 13 and the pillow block 133 on the pin 13 during extension and retraction of the telescoping member 14.

The locking hole 114 may be a through hole, a blind hole or a counter bore, and the movement of the locking member 11 may be limited by extending the limiting end 131 into the locking hole 114. The elastic member 16 refers to a mechanical part that works by using elasticity, and the initial length of the elastic member 16 refers to an initial length of the elastic member that is not elastically deformed.

By limiting the initial length of the elastic member 16, it is ensured that the elastic member 16 is in a compressed state during the extension and contraction of the telescopic member 14, and then a force generated by the compression of the elastic member 16 to be restored to the initial state acts on the pillow block 133, so as to ensure the close fit between the telescopic end 132 of the pin 13 and the telescopic member 14 during the contraction of the telescopic member 14, so that the limiting end 131 of the pin 13 is far away from the movement path of the locking member 11 through the contraction of the telescopic member 14.

In some alternative embodiments, the containment mechanism 10 further comprises: a first stopper 17 and a second stopper 18; the first limiting piece 17 is connected with the locking piece 11; the second limiting member 18 is configured to limit the movement of the first limiting member 17 by moving into the movement path of the first limiting member 17, thereby limiting the movement of the locking member 11.

The first limiting member 17 may be a limiting plate or a limiting block, the second limiting member 18 may also be a limiting plate or a limiting block, and the shapes of the first limiting member 17 and the second limiting member 18 may be the same or different, and specifically, may be determined according to a specific application scenario of the embodiment of the present utility model. The first limiting member 17 is fixedly connected with the locking member 11, so that when the second limiting member 18 limits the movement path of the first limiting member 17, the movement limitation of the locking member 11 can be realized.

In some alternative embodiments, the first stop 17 is connected to the rotation shaft 111 of the locking member 11; alternatively, the first limiting member 17 is connected to the rotating end 112 of the locking member 11.

Specifically, when the rotating end 112 rotates around the rotating shaft 111, the rotating shaft 111 rotates synchronously, that is, the rotating shaft 111, the rotating end 112 and the locking end 113 are fixedly connected, and the first stopper 17 may be connected to the rotating shaft 111 of the locking member 11 or may be connected to the rotating end 112 of the locking member 11. If the rotation shaft 111 does not rotate synchronously (the rotation shaft 111 does not rotate, or the rotation of the rotation shaft 111 and the rotation of the rotation end 112 are not synchronized) at the time of "the rotation end 112 rotates around the rotation shaft 111", that is, the rotation shaft 111 and the rotation end 112 and the locking end 113 are not fixedly connected, the first stopper 17 is connected to the rotation end 112 of the locking member 11.

In some alternative embodiments, the second stop 18 includes a knob 181 and a stop plate 182; the knob 181 is connected with a limiting plate 182, and the limiting plate 182 is provided with a limiting end 1821 close to the first limiting piece 17; the stop end 1821 is configured to move into the path of movement of the first stop 17 via the knob 181 to effect movement restriction of the first stop 17 and, thus, movement restriction of the locking member 11.

The path of movement of the limiting end 1821 through the knob 181 may be linear or arc-shaped, which is not particularly limited in the present utility model. The movement limitation of the locking piece 11 is achieved through the movement limitation of the limiting end 181 to the first limiting piece 17, specifically, when the locking piece 11 is in the unlocking state, the limiting end 181 in the second limiting piece 18 limits the first limiting piece 17 between the first boundary unlocking position and the first critical locking position (excluding the first critical locking position), at this time, the movement range of the locking piece 11 is also limited between the boundary unlocking position and the critical locking position (excluding the critical locking position), and the locking piece 11 is limited in the unlocking state, so that the function of unlocking the locking piece 11 is achieved.

Referring to fig. 5, fig. 5 is a schematic position diagram of the movable range among the first limiting member 17, the second limiting member 18 and the locking member 11 when the movement path of the second limiting member provided by the embodiment of the utility model is linear. The first and second threshold lock positions shown in fig. 5 correspond to different positions of the same second limiter 18.

Taking the first limiting piece 17 as a first limiting plate, the second limiting piece 18 as a second limiting plate, and the movement path of the second limiting plate as a straight line as an example, specifically, the first critical locking position refers to that when the second limiting plate is at the position, the bottom plate position of the second limiting plate is just lower than the position of the top plate of the first limiting plate when the locking piece 11 is at the critical locking position; the second critical locking position refers to the position of the bottom plate of the first limiting plate when the second limiting plate is at the position, and the top plate position of the second limiting plate is just equal to the position of the bottom plate of the first limiting plate when the locking piece 11 is at the critical locking position.

When the locking member 11 is in the unlocked state and the second limiting plate is located at the first critical locking position, the second limiting plate limits the first limiting plate between the first boundary unlocking position (the position of the first limiting plate when the locking member 11 is in the boundary unlocking position) and the first critical locking position (the position of the first limiting plate when the locking member is in the critical locking position) (excluding the first critical locking position), at this time, the movement range of the locking member 11 is also limited between the boundary unlocking position and the critical locking position (excluding the critical locking position), and the locking member 11 is limited in the unlocking state, thereby realizing the function of unlocking the locking member 11. When the locking member 11 is in the locked state and the second limiting plate is located at the second critical locking position, the second limiting plate limits the first limiting plate between the first critical locking position and the first boundary locking position (including the first critical locking position) when the locking member 11 is located at the boundary locking position, and at this time, the movement range of the locking member 11 is also limited between the critical locking position and the boundary locking position (including the critical locking position), the locking member 11 is limited in the locked state, and further, the limitation of the locking member 11 on the storing or taking out of the target object stored in the storage portion 12 is realized.

It should be noted that the first critical locking position and the second critical locking position shown in fig. 5 are merely exemplary, and specifically, the positions of the second limiting members corresponding to the first critical locking position and the second critical locking position may be adjusted according to the actual application scenario of the accommodating mechanism 10, which is not limited in the present utility model.

Referring to fig. 6, fig. 6 is a schematic position diagram of the movable range among the first limiting member 17, the second limiting member 18 and the locking member 11 when the movement path of the second limiting member provided by the embodiment of the utility model is arc-shaped. Specifically, the second limiter 18 may rotate about the limiter rotation axis from the second critical locking position to the first critical locking position.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a data acquisition device 20 according to an embodiment of the utility model.

The embodiment of the present utility model further provides a data acquisition device 20, where the data acquisition device 20 includes: a collection device body 201, a detector 202, and a housing mechanism 10 according to any of the first aspect described above; wherein, the accommodating wall 121 of the accommodating part 12 in the accommodating mechanism 10 is attached to the collecting device main body 201; the housing 12 of the housing mechanism 10 is used to house the detector 202.

Wherein the data acquisition device 20 may be a mobile DR device, the acquisition device body 201 may include an X-ray generator 2013, an integrated operation platform, some mechanical connection components, etc., and the detector 202 is a flat panel detector. The accommodating mechanism 10 may be provided on an integrated work platform, wherein the accommodating wall 121 of the accommodating portion 12 may be attached to any side surface of the integrated work platform, or one side surface of the integrated work platform may be used as the accommodating wall 121 of the accommodating portion 12 in the accommodating mechanism 10. The flat panel detector is stored by the housing 12 in the housing mechanism 10.

In some alternative embodiments, the collection device body 201 includes: a device console 2011 and a stand 2012;

the accommodating wall 121 of the accommodating portion 12 of the accommodating mechanism 10 is attached to a side of the equipment console 2011 near the stand 2012, and the locking member 11 of the accommodating mechanism 10 is mounted to the stand 2012 near the equipment console 2011.

The equipment console 2011 may be the integrated workstation described above, with the stand 2012 being part of the mechanical linkage and having one end connected to the X-ray generator 2013 and the other end connected to the integrated workstation. The mechanical connection component further includes a column mounting platform 2014, wherein the column mounting platform 2014 is connected to the integrated work platform, and one end of the column 2012 is specifically mounted to the column mounting platform 2014 and connected to the integrated work platform through the column mounting platform 2014. The integrated operation platform comprises a vehicle body 2015, and the movement of the mobile DR equipment is realized through the vehicle body 2015; the integrated workstation further includes an image acquisition system, a control system for the X-ray generator 2013, an image processing system, and the like. Specifically, the accommodating wall 121 of the accommodating portion 12 in the accommodating mechanism 10 may be attached to a side of the vehicle body near the pillar 2012, or a side of the vehicle body near the pillar 2012 may be used as the accommodating wall 121 of the accommodating portion 12 in the accommodating mechanism 10.

It should be understood that the data acquisition device 20 corresponds to the above-described embodiment of the housing mechanism 10, and specific functions of the data acquisition device 20 may be referred to in the foregoing description, and detailed descriptions thereof are omitted herein as appropriate to avoid redundancy.

The functional modules in the embodiments of the present utility model may be integrated together to form a single part, or each module may exist alone, or two or more modules may be integrated to form a single part.

The foregoing description is merely an optional implementation of the embodiment of the present utility model, but the scope of the embodiment of the present utility model is not limited thereto, and any person skilled in the art may easily think about changes or substitutions within the technical scope of the embodiment of the present utility model, and the changes or substitutions are covered by the scope of the embodiment of the present utility model.

Claims (10)

1. A containment mechanism, the containment mechanism comprising: a locking member and a receiving portion;

the accommodating part comprises an accommodating wall and an accommodating piece;

the accommodating member is disposed around the accommodating wall;

the container has a container opening formed around an edge thereof; the accommodation portion is configured to accommodate a target object;

the locking piece is movably arranged on the opening side of the accommodating part;

the locking piece comprises a locking state and an unlocking state; when the locking piece is in the locking state, the locking piece locks the containing part through blocking a path of the containing part opening extending outwards.

2. The containment mechanism of claim 1, wherein the locking member comprises a rotational axis, a rotational end proximal to the rotational axis, and a locking end distal to the rotational axis;

the locking end is configured to block a path of the receptacle opening extending outwardly in the locked state;

the rotating end is configured to effect switching of the locking member between the locked state and the unlocked state by rotation about the rotational axis.

3. The containment mechanism of claim 2, further comprising: the pin shaft and the telescopic piece;

the pin shaft comprises a limiting end close to the rotating end of the locking piece and a telescopic end far away from the rotating end of the locking piece; the telescopic piece is connected with the telescopic end of the pin shaft;

the limiting end is configured to extend into a movement path of the locking piece through the telescopic piece so as to limit the movement of the locking piece;

the restraining end is also configured to retract through the telescoping member away from the path of movement of the locking member.

4. A containment mechanism as recited in claim 3, wherein the containment mechanism further comprises: a locking member;

the locking piece is connected with the telescopic piece;

the locking piece comprises a locking state and an unlocking state;

wherein the locking member is configured to limit extension and retraction of the telescoping member in the locked state.

5. A containment mechanism according to claim 3, wherein the locking member is provided with a locking hole; the limiting end is configured to extend into a locking hole of the locking piece through the telescopic piece so as to limit the movement of the locking piece;

the housing mechanism further includes: an elastic member; the elastic piece is arranged on the outer side of the pin shaft;

a pillow block is arranged on the pin shaft, one end of the elastic piece is fixed at the pillow block, and the other end of the elastic piece is fixed at one side of the locking piece, on which the locking hole is formed;

the initial length of the elastic piece is larger than the farthest distance between the other end of the pin shaft and the pillow block in the extending and contracting process of the telescopic piece.

6. The containment mechanism of claim 2, further comprising: the first limiting piece and the second limiting piece;

the first limiting piece is connected with the locking piece;

the second limiting piece is configured to limit the movement of the first limiting piece by moving into a movement path of the first limiting piece, so that the movement of the locking piece is limited.

7. The containment mechanism of claim 6, wherein the first stop is coupled to a rotational axis of the locking member; or, the first limiting piece is connected with the rotating end of the locking piece.

8. The containment mechanism of claim 7, wherein the second stop comprises a knob and a stop plate;

the knob is connected with the limiting plate, and the limiting plate is provided with a limiting end close to the first limiting piece;

the limiting end is configured to move into a movement path of the first limiting piece through the knob so as to limit the movement of the first limiting piece and further limit the movement of the locking piece.

9. A data acquisition device, the data acquisition device comprising: a collecting device body, a detector and a housing mechanism as claimed in any one of the preceding claims 1-8;

wherein, the accommodating wall of the accommodating part in the accommodating mechanism is attached to the collecting equipment main body; the accommodating part of the accommodating mechanism is used for accommodating the detector.

10. The data acquisition device of claim 9, wherein the acquisition device body comprises: an equipment operation table and a stand column;

wherein, hold the holding wall laminating of holding portion in the hold mechanism in be close to in the equipment operation panel one side of stand, just hold the locking piece of mechanism install in be close to on the stand one side of equipment operation panel.