CN212433764U - Man-machine test simulator of vertical terminal - Google Patents

Abstract

The utility model discloses a man-machine test simulator provides a convenient to use, can simulate multiple vertical terminal equipment user state to can shorten product development cycle and save the man-machine test simulator at the vertical terminal of research and development expense by a wide margin, solve the research and development cycle length that exists among the prior art, need a large amount of manpower and material resources, the technical problem that research and development expense is high etc., it includes the base and locates the fuselage on the base, the fuselage passes through elevating system and connects on the base, is equipped with display screen and operating window on the fuselage, and the display screen passes through slewing mechanism and rotates the top of connecting at the fuselage, and operating window swing joint is on the outside wall of fuselage.

Description

Man-machine test simulator of vertical terminal

Technical Field

The utility model relates to a man-machine test analog machine especially relates to a convenient to use, can simulate multiple vertical terminal equipment user state to can shorten product research and development cycle and save the man-machine test analog machine at the vertical terminal of research and development expense by a wide margin.

Background

The vertical terminal device is widely applied to places such as banks, markets, communities and the like, and has various types, external dimensions and structures according to different purposes. In the research and development process of the vertical terminal equipment, the human-computer interaction experience is very important, and whether the function use of the later-stage product is reasonable or not is directly determined. The man-machine test performed in the initial stage of research and development of the existing vertical terminal equipment is often only performed through virtual test by software or by the design experience of a designer, so that various problems after the terminal prototype product is molded are easily caused, such as: the screen is too high, so that part of users are difficult to operate, the screen inclination angle is unreasonable, so that the display content cannot be identified, the position of the operation opening is unreasonable, so that the users cannot normally use the screen, the operation platform where the screen is located is not suitable in height, so that the operation is difficult, the terminal equipment needs to be adjusted and modified in the later period, the product research and development period is prolonged, a large amount of manpower and material resources are wasted, and the research and development cost of the product is increased. In order to solve the problems, a man-machine test simulator needs to be manufactured for each product in the initial stage of research and development, and the technical problems of long research and development period, large manpower and material resources, high research and development cost and the like exist.

Disclosure of Invention

The utility model mainly provides a convenient to use can simulate multiple vertical terminal equipment user state to the human-computer test analog machine at the vertical terminal that can shorten product development cycle and save the research and development expense by a wide margin has solved the research and development cycle length that exists among the prior art, needs a large amount of manpower and material resources, the technical problem that research and development expense height etc..

The above technical problem of the present invention can be solved by the following technical solutions: the utility model provides a man-machine test simulator of vertical terminal, includes the base and locates the fuselage on the base, the fuselage passes through elevating system and connects on the base, is equipped with display screen and operating window on the fuselage, and the display screen passes through slewing mechanism and rotates the top of connecting at the fuselage, and operating window swing joint is on the outside wall of fuselage. The fuselage is fixed on elevating system, the display screen on the fuselage passes through slewing mechanism and rotates and connect on the fuselage, operating window keeps swing joint again with the fuselage, when vertical terminal class equipment research and development, can adjust fuselage to suitable height according to this design terminal equipment's in-service use state, adjust display screen to suitable angle, and adjust operating window to suitable high position, thereby need not special preparation model machine when equipment research and development and directly to get into and put into production in batches, in-process regulation convenient to use, time saving and labor saving, can simulate multiple vertical terminal equipment user state after the regulation, the commonality is good, can shorten product research and development cycle, and save research and development expense by a wide margin, overall structure is simple, low in manufacturing cost.

The lifting mechanism can use air cylinders, hydraulic pressure and the like, preferably comprises a lifting motor vertically fixed on the base and a screw rod connected to an output shaft of the lifting motor, and a sliding block screwed on the screw rod is fixedly connected to the machine body. The lifting mechanism formed by screw transmission has simple structure and low manufacturing cost.

The rotating mechanism can rotate by a connecting rod sliding block and the like, preferably comprises a rotating motor horizontally fixed on the machine body and a gear connected to an output shaft of the rotating motor, an arc-shaped rack is connected to the gear in a matched and meshed mode, and one end of the arc-shaped rack is fixedly connected to the display screen. The display screen is driven to rotate by the gears and the arc-shaped racks which are meshed in a matched mode, so that the angle of the display screen is adjusted, the display screen is guaranteed to rotate at a constant speed in the rotation adjusting process, and fine adjustment of the display screen is facilitated.

More preferably, a horizontal support plate is provided in the body, and the rotating motor is fixed to the horizontal support plate. The rotating motor is fixed through the horizontal supporting plate, and the motor is convenient to install and fixed in rotating.

Preferably, a portable power source is arranged in the base, and the portable power source is electrically connected with a lifting motor on the lifting mechanism and a rotating motor on the rotating mechanism through a controller. Through required operation panel height of display screen input design equipment and screen angle, confirm back controller can automatic control elevator motor and rotate the motor and carry out the operation that corresponds, directly satisfy the experience demand after adjusting many times repeatedly, adjust whole adoption automated control, labour saving and time saving.

Preferably, the operation window is magnetically attracted to the body. Through the magnetic adsorption fixation, the fixing mode is simple and convenient to adjust.

Preferably, the body comprises an upper casing and an operating platform arranged at an upper port of the upper casing, the display screen is arranged on the operating platform, and the rotating mechanism is arranged in an upper casing accommodating cavity close to the operating platform. The operation platform is convenient to use and operate through the display screen; the rotating mechanism is arranged close to the operating platform, and the space structure is compact and reasonable.

More preferably, the display screen is rotatably connected to the inner side edge of the operating platform, and when the display screen rotates to a horizontal state towards a direction away from the operating platform, the display screen and the operating platform jointly block the upper port of the upper casing. When the display screen is horizontally placed, the upper port of the upper shell is sealed up together with the operation platform, so that the storage and the transportation are convenient, and the integrity and the attractiveness of the appearance of the device are kept.

Therefore, the utility model discloses a man-machine test analog machine at vertical terminal has following advantage: the height of the machine body, the angle of the display screen and the position of the operation window are adjusted according to the actual using state of the corresponding designed terminal equipment, so that relevant position parameters can be accurately determined without a prototype manufacturing during research and development, the adjustment is convenient in the using process, time and labor are saved, the using states of various vertical terminal equipment can be simulated, the universality is good, the research and development period of products can be shortened, and the research and development cost is greatly saved; the lifting mechanism formed by the transmission of the screw rod has simple structure and low manufacturing cost; the display screen is driven to rotate through the gears and the arc-shaped racks which are meshed with each other, the rotation adjustment is stable, and the accurate positioning of the display screen is ensured.

Description of the drawings:

fig. 1 is a schematic structural diagram of a man-machine test simulator of a vertical terminal according to the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is an external view of the present invention.

The specific implementation mode is as follows:

the technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b):

as shown in fig. 1 and fig. 2, the man-machine testing simulator of vertical terminal of the present invention comprises a base 1 and a cubic lower housing 8 covering the base 1, a lifting motor 51 is fixed on the base 1, an output shaft of the lifting motor 51 extends vertically and upwardly, a lead screw 52 is coaxially and fixedly connected to the output shaft of the lifting motor 51, a slider 53 is screwed on the lead screw 52, a body 2 is disposed above the lower housing 8, the body 2 comprises an upper housing 21 having the same size and shape as the lower housing 8, a lower port of the upper housing 21 is butted on an upper port of the lower housing 8, the lead screw 52 extends into the upper housing 21, the slider 53 is fixed on an inner wall surface of the upper housing 21, a rectangular operating platform 22 is flatly laid on an upper port of the upper housing 21, an inner side edge of the operating platform 22 is rotatably connected to one end of a display screen 3, a rotating mechanism is disposed in a containing cavity of the upper housing 21 close to an opposite side of the other end of the display screen 3, the display screen 3 is driven by the rotating mechanism to rotate within the range of 0-90 degrees, and when the display screen 3 rotates to a horizontal state towards a direction far away from the operating platform 22, the display screen 3 and the operating platform 22 jointly block the upper port of the upper casing 21. Horizontal supporting plate 7 is being tiled in last casing 21 upper port both sides that correspond with display screen 3 and is being installed, and slewing mechanism includes that horizontal hoist and mount fixes rotating motor 61 in horizontal supporting plate 7 below, and coaxial fixed connection gear 62 is being rotated on the output shaft of motor 61, and the inner annular surface of arc rack 63 is being connected in the intermeshing meshing on gear 62, and the middle part at the outside end of display screen 3 is upwards fixed connection to the one end of arc rack 63. As shown in fig. 3, an operation window 4 is provided on an outer wall surface of the upper housing 21 corresponding to the rotation connection end of the display screen 3, and the operation window 4 is fixed to the upper housing 21 by magnet attraction. The base 1 is also provided with a mobile power supply 9, the mobile power supply 9 is electrically connected with the lifting motor 51 and the rotating motor 61 through a controller 10, and the controller 10 is fixed on the inner wall surface of the lower shell 8 close to the base 1.

During the use, through the operation platform 22 height of display screen 3 input design equipment and the 3 angles of display screen, confirm back controller 10 can automatic control elevator motor 51 and rotate motor 61 and carry out the lift or rotate the operation that corresponds, can directly satisfy the experience demand after adjusting the affirmation many times repeatedly.

The specific embodiments described herein are merely illustrative of the principles of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides a man-machine test simulator of vertical terminal, includes base (1) and locates fuselage (2) on base (1), its characterized in that: fuselage (2) are connected on base (1) through elevating system, are equipped with display screen (3) and operating window (4) on fuselage (2), and display screen (3) rotate through slewing mechanism and connect in the top of fuselage (2), and operating window (4) swing joint is on the outside wall of fuselage (2).

2. The human-machine test simulator of a vertical terminal according to claim 1, characterized in that: the lifting mechanism comprises a lifting motor (51) vertically fixed on the base (1) and a screw rod (52) connected to an output shaft of the lifting motor (51), and a sliding block (53) screwed on the screw rod (52) is fixedly connected to the machine body (2).

3. The human-machine test simulator of a vertical terminal according to claim 1, characterized in that: the rotating mechanism comprises a rotating motor (61) horizontally fixed on the machine body (2) and a gear (62) connected to an output shaft of the rotating motor (61), arc-shaped racks (63) are meshed with each other on the gear (62), and one ends of the arc-shaped racks (63) are fixedly connected to the display screen (3).

4. The human-machine test simulator of vertical terminal of claim 3, characterized in that: a horizontal supporting plate (7) is arranged in the machine body (2), and a rotating motor (61) is fixed on the horizontal supporting plate (7).

5. The human-machine test simulator of a vertical terminal according to claim 1, characterized in that: a mobile power supply (9) is arranged in the base (1), and the mobile power supply (9) is electrically connected with a lifting motor (51) on the lifting mechanism and a rotating motor (61) on the rotating mechanism through a controller (10).

6. The human-machine test simulator of a vertical terminal according to claim 1, characterized in that: the operation window (4) is magnetically adsorbed on the machine body (2).

7. The human-machine test simulator of a vertical terminal according to claim 1, characterized in that: the machine body (2) comprises an upper machine shell (21) and an operating platform (22) arranged at an upper port of the upper machine shell (21), the display screen (3) is arranged on the operating platform (22), and the rotating mechanism is arranged in an accommodating cavity of the upper machine shell (21) close to the operating platform (22).

8. The human-machine test simulator of a vertical terminal according to claim 7, wherein: display screen (3) rotate to be connected on the inboard border of operation platform (22), and when display screen (3) rotated to the horizontality towards the direction of keeping away from operation platform (22), the last port of upper casing (21) was blocked up with operation platform (22) common in display screen (3).

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