CN216962967U - Long-distance image fusion training frame - Google Patents

Abstract

The utility model provides a remote image fusion training frame which comprises a first fixing frame, a second fixing frame, a lifting structure and a conveying belt structure, wherein the first fixing frame is arranged on one side of the conveying belt structure, the top of the conveying belt structure is detachably connected to the lifting structure, one side of the lifting structure is detachably clamped to the second fixing frame, and the first fixing frame and the second fixing frame are arranged in parallel. The remote image fusion training frame is simple in structure and reasonable in design, can be used for training a polarization vector diagram, a red-green vector diagram and an eccentric circular card in remote image fusion range training, and is wide in application; the patient can sit 3 ~ 5m departments apart from the drawing, removes through remote controller control drawing, need not to stand up and changes the drawing distance, has guaranteed the training distance, also makes the training process more succinct laborsaving.

Description

Remote image fusion training frame

Technical Field

The utility model belongs to the technical field of visual training tools, and particularly relates to a remote image fusion training frame.

Background

At present, aiming at the problem of scattering, a remote image fusion function needs to be trained. For training of a long-distance image fusion range, a long-distance polarization/red-green stereogram and an eccentric circle card are important training items. At present, no complete training equipment exists for training a far fusion function by using a far polarization/red green stereogram and an eccentric circular card. The distance of 3-5 m needs to be kept for training of the far-fusion function, and two methods are often adopted when the training is carried out by using the above items: one method is that a patient wears corresponding polarization/red-green glasses (special glasses are not needed for training of the eccentric circular card) under the state of full refraction correction, each hand holds one picture, the two arms stretch flat, the picture is moved by hands, the distance between the two pictures is adjusted, and therefore the far fusion function is trained. Due to the limited arm length, the training distance of 3-5 m cannot be guaranteed by the method, and in addition, due to the insufficient distance, the patient still has an adjustable set, so that the training effect and accuracy are influenced. Secondly, the picture is fixed in a clamping groove on a wall, a patient sits at a distance of 3-5 m away from the picture, and wears corresponding polarization/red-green glasses (special glasses are not needed for training of the eccentric circular card) under the full-correcting state of refraction. Firstly, the pictures are separated by a certain distance, after the patient establishes the fusion, the patient stands up to change the distance between the pictures, and then the patient sits back to the original position to continue establishing the fusion. The method ensures the training distance of 3-5 m, but the patient needs to continuously stand up to change the position of the picture and then sit back to the original position, which is tedious and laborious, and certain errors exist in the moving distance of the patient every time in the process of changing the position of the picture, thereby influencing the training effect and accuracy. In addition, the method cannot perform smoothness training for a remote fusion range, only can perform step training or jumping training, and a patient faces a process of reestablishing fusion every time the patient stands up and sits back, thereby invisibly increasing the training difficulty.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a remote image fusion training frame to solve the deficiencies of the prior art.

In order to achieve the purpose, the technical scheme of the utility model is realized as follows:

the utility model provides a remote fusional training frame, includes a mount, No. two mounts, elevation structure and conveyer belt structure, conveyer belt structure one side is equipped with the mount No. one, and conveyer belt structure top can be dismantled and be connected to elevation structure, and elevation structure one side can be dismantled the joint and to No. two mounts, and the two parallel arrangement of mount, No. two mounts, elevation structure and conveyer belt structure equal signal connection to controller.

Furthermore, a mount includes a support body and 2 couples, a draw-in groove has been seted up on a support body surface, 2 couples of a support body top fixed connection.

Further, No. two mounts include No. two support bodies and the card strip of integrated into one piece structure, No. two support bodies and a support body structure are the same, and No. two support body bottom one side is equipped with the card strip, and card strip joint to elevation structure one side, No. two draw-in grooves have been seted up on No. two support body surfaces.

Further, elevation structure includes crane body, slide and electric telescopic handle, electric telescopic handle bottom is fixed to the conveyer belt structure on, and electric telescopic handle installs to the crane body one side, and electric telescopic handle's telescopic link passes crane body fixed connection to the inboard middle part of slide, and slide inboard both sides and crane body sliding connection have seted up No. three draw-in grooves in the slide outside, and No. three draw-in grooves use with the cooperation of card strip, electric telescopic handle signal connection to controller.

Furthermore, the lifting structure further comprises a distance sensor, the distance sensor is installed on one side of the lifting frame body, and signals of the distance sensor are connected to the controller.

Further, the conveyer belt structure includes conveyer belt support, conveyer belt body and driving motor, and conveyer belt support top installation conveyer belt body, conveyer belt support side-mounting driving motor, driving motor's output shaft transmission is connected to the conveyer belt body, conveyer belt body top fixed connection electric telescopic handle, driving motor signal connection to controller.

Compared with the prior art, the remote image fusion training frame has the following advantages:

(1) the remote image fusion training frame is simple in structure and reasonable in design, can be used for training a polarization vector diagram, a red-green vector diagram and an eccentric circular card in remote image fusion range training, and is wide in application; the patient can sit 3 ~ 5m departments apart from the drawing, removes through remote controller control drawing, need not to stand up and changes the drawing distance, has guaranteed the training distance, also makes the training process more succinct laborsaving.

(2) According to the remote image fusion training frame, a patient can control the distance between the pictures through the remote controller and also can control the moving speed of the pictures, and can stop at any time, so that errors caused by manual movement of the pictures are avoided, the training is more accurate, and the patient can slowly move the pictures through the remote controller, so that the smoothness training of a remote image fusion range is performed; and the ladder-type and jumping-type training can be stopped after the picture is moved for a certain distance, so that the difficulty range of the training is widened.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a front view of an overall structure of a remote image fusion training stand according to an embodiment of the present invention;

FIG. 2 is a schematic view of a first fixing frame of the remote image fusion training frame according to the embodiment of the present invention;

FIG. 3 is a schematic view of a second fixing frame of the remote image fusion training frame according to the embodiment of the present invention;

FIG. 4 is a schematic diagram of a lifting structure of a remote distance image fusion training frame according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a structure of a conveyor belt of a remote image fusion training frame according to an embodiment of the utility model.

Description of reference numerals:

1. a first fixing frame; 11. a first stent body; 111. a first card slot; 12. hooking; 2. a second fixing frame; 21. a second stent body; 211. a second card slot; 22. clamping the strip; 3. a lifting structure; 31. a lifting frame body; 32. a slide plate; 321. a third clamping groove; 33. an electric telescopic rod; 4. a conveyor belt structure; 41. a conveyor belt support; 42. a conveyor belt body; 43. the motor is driven.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1 to 5, remote fusion training frame includes a first fixed mount 1, a second fixed mount 2, a lifting structure 3 and a conveyor belt structure 4, one side of the conveyor belt structure 4 is provided with the first fixed mount 1, the top of the conveyor belt structure 4 is detachably connected to the lifting structure 3, one side of the lifting structure 3 is detachably clamped to the second fixed mount 2, the first fixed mount 1 and the second fixed mount 2 are arranged in parallel, and the lifting structure 3 and the conveyor belt structure 4 are connected to a controller in a signal mode. The remote image fusion training frame has simple structure and reasonable design, can be used for training a polarization vector diagram, a red-green vector diagram and an eccentric circular card in remote image fusion range training, and has wide application; the patient can sit 3 ~ 5m departments apart from the drawing, removes through remote controller control drawing, need not to stand up and changes the drawing distance, has guaranteed the training distance, also makes the training process more succinct laborsaving.

A mount 1 includes a support body 11 and 2 couples 12, a draw-in groove 111 has been seted up on 11 surfaces of a support body, 11 top fixed connection 2 couples 12 of a support body, in this embodiment, a draw-in groove 111 is used for the eccentric circle card A of joint, and medical personnel can hang a mount 1 on the wall through couple 12, and the medical personnel of being convenient for get and put.

No. two mount 2 includes No. two support bodies 21 and the card strip 22 of integrated into one piece structure, No. two support bodies 21 and 11 structures of a support body are the same, No. two support body 21 bottom one side is equipped with card strip 22, card strip 22 joint to elevating structure 3 one side, No. two draw-in grooves 211 have been seted up on No. two support body 21 surfaces, in this embodiment, No. two draw-in grooves 211 are used for the eccentric circle card B of joint, thereby medical personnel can use No. two mount 2 fixed card to connect to elevating structure 3 one side through the cooperation of card strip 22 with elevating structure 3, be convenient for medical personnel to carry out follow-up visual training.

Lifting structure 3 includes crane body 31, slide 32 and electric telescopic handle 33, electric telescopic handle 33 bottom is fixed to conveyer belt structure 4 on, and electric telescopic handle 33 one side is installed to crane body 31, and electric telescopic handle 33's telescopic link passes crane body 31 fixed connection to slide 32 inboard middle part, slide 32 inboard both sides and crane body 31 sliding connection, and No. three draw-in grooves 321 have been seted up in the slide 32 outside, and No. three draw-in grooves 321 uses with the cooperation of card strip 22, electric telescopic handle 33 signal connection is to the controller. In this embodiment, medical personnel go up and down through the telescopic link of control electric telescopic handle 33 to drive slide 32 and go up and down, thereby slide 32 goes up and down to drive No. two mount 2 and goes up and down, thereby No. two mount 2 go up and down can adjust eccentric circle card B's height. The height of the eccentric circular card A is manually adjusted.

Lifting structure 3 still includes distance sensor, and distance sensor installs to crane body 31 one side, distance sensor signal connection to controller, and distance sensor is prior art, can be infrared sensor, can also be photoelectric sensor, and the purpose is in order to detect the distance between mount 1, No. two mounts 2 to in time convey the controller with the distance of the two.

The conveyor belt structure 4 comprises a conveyor belt support 41, a conveyor belt body 42 and a driving motor 43, wherein the conveyor belt body 42 is installed at the top of the conveyor belt support 41, the driving motor 43 is installed at one side of the conveyor belt support 41, an output shaft of the driving motor 43 is connected to the conveyor belt body 42 in a transmission manner, the top of the conveyor belt body 42 is fixedly connected with an electric telescopic rod 33, and the driving motor 43 is connected to a controller in a signal manner. The driving motor 43 is a prior art, in this embodiment, the driving motor 43 may be a servo motor, and the transmission manner of the conveyor belt body 42 and the driving motor 43 may be the existing roller transmission or may be the gear engagement transmission. The effect of conveyor belt structure 4 is just being convenient for adjust the distance between 1, No. two mounts 2 of a mount, and conveyor belt structure 4's transmission can be controlled driving motor 43's the rotation to and the rotational speed through current remote controller to reach the purpose of using manpower sparingly, improving vision training efficiency.

The controller is a PLC or a single chip microcomputer, the model of the controller can be S7-200smart, and the electric telescopic rod 33 is in the prior art. When in actual use, the controller outside still is equipped with the touch-sensitive screen, and the model of touch-sensitive screen is ZB00000003, and medical personnel operate through having touch-sensitive screen control controller.

Example 1

Comprises a first fixing frame 1, a second fixing frame 2, a lifting structure 3 and a conveying belt structure 4.

1. No. 1 mount is fixed on the wall through fixed pivot, and No. 2 mounts are fixed in 1 the place ahead of a mount, and No. 2 bottoms of mount are fixed with mobilizable conveyer belt, and the conveyer belt passes through the gear and links to each other with the engine. The direction and the speed of the moving belt can be controlled through a remote controller, so that the direction and the speed of the moving upper far-fusing training card can be controlled.

2. Can make the conveyer belt pause through the pause key and remove through the direction key control drive belt removal left right direction on the remote control, also can be through the speed adjustment key on the remote control according to self demand regulation different speeds, divide into 5 grades according to by slow speed to fast.

When the technology of the utility model is used, the tedious labor force can be avoided in the training of the far-fusion range, the influence of human factors is reduced, and the training is simpler and more accurate. The concrete expression is as follows:

the device can be used for training the polarization vector diagram, the red-green vector diagram and the eccentric circular card in the training of the far fusion range, and has wide application.

The patient can sit 3 ~ 5m departments apart from the drawing, removes through remote controller control drawing, need not to stand up and changes the drawing distance, has guaranteed the training distance, also makes the training process more succinct laborsaving.

The patient can control the distance between the paintings through the remote controller, also can control the speed that the paintings removed, can stop at any time, has avoided the artifical error that removes the paintings and causes, makes the training more accurate.

The patient can make the picture move slowly through the remote controller, so as to carry out the smoothness training of the far-melting range; and the ladder-type and jumping-type training can be stopped after the picture is moved for a certain distance, so that the difficulty range of the training is widened.

Example 2

Take training of a remote eccentric circular card as an example.

Firstly, the remote image fusion training frame is fixed on a wall, the eccentric circular card A is placed in the clamping groove of the first fixing frame 1 and fixed, and the eccentric circular card B is placed in the clamping groove of the second fixing frame 2 connected with the conveyor belt. The patient can keep the full refraction correction and sit at the position 3-5 m away from the long-distance image fusion training frame, and the sight is flush with the eccentric circular card. When the set function is trained, the patient can watch two eccentric circular cards A, B with eyes to find the feeling of focusing of the eyes, and at the moment, the fused circular ring with stereoscopic impression can be seen. When the patient achieved a fusion, three circles were visible. Attention is paid to the middle ring, at the moment, a patient can see that the ring has floating feeling, the small circle is raised, and can see that a square frame is arranged in the small circle, the X and the small circle are vertically aligned, the fusion is kept for 5 seconds, the fusion is ensured to be stable, and the process is repeated for 10 times; then, the eccentric circular card B is moved by using a direction button on the remote controller, the moving speed is adjusted by using a speed adjusting button on the remote controller according to the self requirement, the focusing feeling is kept, and the smooth training is carried out; or after the eccentric circular card B is moved for a certain distance by a direction button on a remote controller, the eccentric circular card B is stopped by a pause key, the training steps are repeated, and the ladder training is carried out until the cards are separated by 12 cm. Training scatter and training set steps are consistent, what is different is that after the fusion image is positioned on the card, when a three-dimensional fusion image is obtained, the small circle is sunken, and two cards are scattered and trained to be separated by 6 cm.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. Remote image fusion training frame, its characterized in that: including mount (1), No. two mount (2), elevation structure (3) and conveyer belt structure (4), conveyer belt structure (4) one side is equipped with mount (1) No. one, and conveyer belt structure (4) top can be dismantled and be connected to elevation structure (3), and elevation structure (3) one side can be dismantled the joint and to No. two mount (2), and mount (1), No. two parallel arrangement of mount (2), elevation structure (3) and conveyer belt structure (4) equal signal connection to controller.

2. The remote frame for performing fusion training of claim 1, wherein: a mount (1) includes a support body (11) and 2 couple (12), draw-in groove (111) have been seted up on a support body (11) surface, 2 couple (12) of a support body (11) top fixed connection.

3. The remote frame for performing fusion training of claim 2, wherein: no. two mount (2) are including No. two support body (21) and card strip (22) of integrated into one piece structure, No. two support body (21) and a support body (11) structure are the same, and No. two support body (21) bottom one side is equipped with card strip (22), and card strip (22) joint is to elevation structure (3) one side, and No. two draw-in grooves (211) have been seted up on No. two support body (21) surface.

4. The remote frame for fusion training of claim 3 wherein: elevation structure (3) are including crane body (31), slide (32) and electric telescopic handle (33), electric telescopic handle (33) bottom is fixed to conveyer belt structure (4) on, electric telescopic handle (33) one side-mounting to crane body (31), the telescopic link of electric telescopic handle (33) passes crane body (31) fixed connection to slide (32) inboard middle part, slide (32) inboard both sides and crane body (31) sliding connection, No. three draw-in grooves (321) have been seted up in slide (32) outside, No. three draw-in grooves (321) are used with card strip (22) cooperation, electric telescopic handle (33) signal connection is to the controller.

5. The remote frame for performing fusion training of claim 4, wherein: the lifting structure (3) further comprises a distance sensor, the distance sensor is installed on one side of the lifting frame body (31), and signals of the distance sensor are connected to the controller.

6. The remote frame for training fusion of claim 4 wherein: conveyer belt structure (4) are including conveyer belt support (41), conveyer belt body (42) and driving motor (43), conveyer belt support (41) top installation conveyer belt body (42), conveyer belt support (41) one side-mounting driving motor (43), and the output shaft transmission of driving motor (43) is connected to conveyer belt body (42), conveyer belt body (42) top fixed connection electric telescopic handle (33), driving motor (43) signal connection to controller.

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