CN218032271U - Rotary operating panel structure and ultrasonic medical equipment - Google Patents

Abstract

The application discloses operating panel structure and supersound medical equipment of rotary type relates to operating panel technical field to solve the position that how not restrict corner mechanism, but the human-machine engineering that combines that again can be fine, maneuverability is strong in narrow region relatively, realizes operating panel's angle rotation and the fixed problem of angle. The operation panel structure comprises an operation panel assembly, and the operation panel assembly is provided with a constraint channel; the keyboard supporting arm rotary disc wheel is rotationally arranged on the operation panel assembly, and a plurality of tooth grooves are formed in the edge side of the keyboard supporting arm rotary disc wheel along the circumferential direction; the guide seat is fixedly arranged on the operation panel assembly and is positioned on one side of the keyboard supporting arm turntable wheel, and a guide cavity is formed in the guide seat; the support arm limiting pin is arranged on the guide cavity in a sliding manner; one end of the support arm limiting pin, which is close to the keyboard support arm turntable wheel, is provided with pin teeth corresponding to the tooth grooves.

Description

Rotary operating panel structure and ultrasonic medical equipment

Technical Field

The application relates to the technical field of operation panels, in particular to a rotary operation panel structure and ultrasonic medical equipment.

Background

Existing ultrasonic medical equipment is generally equipped with an operation panel. For the convenience of medical staff, a rotation angle mechanism is generally arranged on the ultrasonic medical equipment to rotate an operation panel, so that the operation range of the medical staff is wider. However, the turning mechanism on the market generally adopts a dial switch, a knob handle or a tooth meshing limit switch, etc., and the turning mechanism is close to the rotation axis, when the turning mechanism needs to be installed on the medical equipment in the supermarket, the turning mechanism needs to be installed on the ultrasonic medical equipment and also needs to be installed at a relatively open position to be operated because the structure of the ultrasonic medical equipment is generally compact. How not to restrict the position of corner mechanism, can fine combine the human-computer engineering again, but maneuverability is strong in narrow region relatively, realizes operating panel's angular rotation and angle fixed, is the problem that engineering technical staff awaits the solution urgently.

SUMMERY OF THE UTILITY MODEL

To prior art's not enough, this application provides operating panel structure and supersound medical equipment of rotary type to solve the position that how not restrict corner mechanism, but the very good human-machine engineering that combines again, maneuverability is strong in narrow region relatively, realizes operating panel's angle rotation and angle fixation's problem.

In order to solve the above technical problem, a first aspect of the embodiments of the present application provides a rotary type operation panel structure, including:

an operation panel assembly;

the keyboard support arm rotating disc wheel is rotatably arranged on the operation panel assembly, and a plurality of tooth grooves are formed in the side edge of the keyboard support arm rotating disc wheel along the circumferential direction;

the guide seat is fixedly arranged on the operation panel assembly and positioned on the outer side of the keyboard supporting arm turntable wheel, and a guide cavity is formed in the guide seat;

the support arm limiting pin is arranged in the guide cavity in a sliding manner; one end of the support arm limiting pin, which is close to the keyboard support arm turntable wheel, is provided with pin teeth corresponding to the tooth grooves;

one end of the stay wire spring is fixedly arranged on the guide seat, and the other end of the stay wire spring is connected with the support arm limiting pin;

the cable handle is arranged on the operation panel component in a sliding mode and penetrates out of the operation panel component;

and one end of the inhaul cable is connected with the support arm limiting pin, and the other end of the inhaul cable is connected with the inhaul cable handle.

In one implementation, a first linear bearing is arranged in the guide cavity, and the support arm limit pin is slidably arranged in the first linear bearing.

In one implementation mode, the operation panel structure further comprises a guide post, the guide post is fixedly arranged on the operation panel assembly, a guide channel is formed in the guide post, and the inhaul cable handle is arranged in the guide channel in a sliding mode.

In one implementation, the guide post includes a second linear bearing, and the cable handle is slidably disposed within the second linear bearing.

In one implementation mode, the operation panel assembly is provided with a stay cable fixing plate, the stay cable fixing plate is provided with a constraint hole, and the stay cable is constrained in the constraint hole.

In one implementation mode, the operation panel assembly is provided with a panel handle, the guide column is arranged on an inner cavity of the panel handle, a sliding limiting hole is further formed in one side, close to the guide column, of the panel handle, and one end of the inhaul cable handle penetrates out of the guide channel and the sliding limiting hole in sequence.

In one implementation, the operation panel structure further includes a rebound spring, one end of the rebound spring abuts against the cable handle, and the other end of the rebound spring abuts against the inner wall of the panel handle.

In one implementation mode, a plurality of restraint columns are arranged on the operation panel assembly, a plurality of restraint columns are arranged in a staggered mode to form a plurality of restraint clamp grooves, a plurality of restraint clamp grooves are combined to form a restraint channel, and the inhaul cable is arranged on the restraint channel in a spiral mode.

In one implementation, the cable handle is provided with anti-slip threads.

A second aspect of the embodiments of the present application provides an ultrasonic medical apparatus including a rotary operating panel structure as described above.

Has the advantages that: according to the keyboard support arm rotating disc wheel, the rotatable keyboard support arm rotating disc wheel is arranged on the operation panel assembly, a plurality of tooth grooves are formed in the edge side of the keyboard support arm rotating disc wheel along the circumferential direction, and the support arm limiting pin is arranged corresponding to the tooth grooves, the support arm limiting pin is guided through the guide seat, the inhaul cable is driven through the inhaul cable handle penetrating out of the operation panel assembly, the support arm limiting pin is driven, so that pin teeth on the support arm limiting pin are separated from the tooth grooves, the keyboard support arm rotating disc wheel is rotated, and the adjustment of the rotating angle of the operation panel assembly is achieved; this application still at the guide holder with set up the spring of acting as go-between the support arm spacer pin, when adjusting operating panel assembly's turned angle back, loosen the cable, the cable can act as go-between and kick-back under spring's the effect, and can drive the round pin tooth of support arm spacer pin blocks into the tooth's socket again to realize the auto-lock, that is to say, this application passes through keyboard support arm carousel wheel realizes operating panel assembly's rotatability, and pass through the cable is realized the support arm spacer pin with the separation or the auto-lock of keyboard support arm carousel wheel, thereby adjustment or fixed operating panel assembly's angle, this application is through setting up the cable, and set up the restraint passageway on the operating panel assembly, will the cable restraint is in the restraint passageway, thereby make the cable of this application can adapt to the structure on the operating panel assembly well, combine human-machine engineering well to maneuverability is strong in narrow region relatively, realizes operating panel's angle rotation and angle fixation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without any inventive work.

Fig. 1 is a schematic view of an angle of a rotating operation panel structure provided in the present application.

Fig. 2 is another angle structure diagram of the rotating operation panel structure provided in the present application.

Fig. 3 is a schematic structural diagram of the rotary operating panel structure provided by the present application, in which the operating panel assembly is removed.

Fig. 4 is an enlarged view of fig. 3 at a.

In the figure: 10. an operation panel assembly; 101. a restraint post; 102. a panel handle; 103. an annular hole; 104. sliding the limiting hole; 11. a keyboard support arm turntable wheel; 111. a tooth socket; 12. a guide seat; 121. a baffle plate is abutted; 122. a first connecting post; 13. a support arm limit pin; 131. a pin tooth; 14. a wire-drawing spring; 15. a cable handle; 151. a second connecting column; 16. a cable; 17. a guide post; 171. a second linear bearing; 18. a rebound spring; 19. a stay cable fixing plate; 191. and (4) restraining the hole.

Detailed Description

In order to make the purpose, technical scheme and effect of the present application clearer and clearer, the present application is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The following description of the embodiments is provided to further explain the present disclosure by way of example in connection with the appended drawings.

The first aspect of this embodiment provides the operating panel structure of rotary type, as shown in fig. 1, fig. 2 and fig. 3, the operating panel structure includes operating panel subassembly 10, keyboard support arm carousel wheel 11, guide holder 12, support arm spacer pin 13, guy wire spring 14, guy cable handle 15 and guy cable 16, operating panel subassembly 10 has seted up restraint passageway (not shown in the figure), keyboard support arm carousel wheel 11 can through bearing or oil free bush rotate set up in on the operating panel subassembly 10, a plurality of tooth spaces 111 have been seted up along circumference to the avris of keyboard support arm carousel wheel 11, guide holder 12 pass through the fix with screw set up in operating panel subassembly 10, and lie in the outside of keyboard support arm carousel wheel 11, guide holder 12 has seted up direction chamber (not shown in the figure), support arm spacer pin 13 slide set up in the direction intracavity, support arm spacer pin 13 is close to the one end of keyboard support arm carousel wheel 11 be provided with the corresponding pin tooth 131 of tooth space 111, pin tooth 131 is used for the card to go into in tooth space 111, the one end of guy wire spring 14 fix set up in guide holder 12, the other end with support arm spacer pin 13 connect the handle subassembly 15, the other end is worn out the operation panel subassembly 10, the connection handle subassembly is connected with guy cable handle subassembly 10, the other end is connected. In this embodiment, a rotatable keyboard supporting arm turning wheel 11 is arranged on the operation panel assembly 10, a plurality of tooth grooves 111 and a supporting arm limiting pin 13 arranged corresponding to the tooth grooves 111 are formed on the edge side of the keyboard supporting arm turning wheel 11 along the circumferential direction, the supporting arm limiting pin 13 is guided through a guide seat 12, a cable 16 is driven through a cable handle 15 penetrating out of the operation panel assembly 10, and then the supporting arm limiting pin 13 is driven, so that a pin tooth 131 on the supporting arm limiting pin 13 is separated from the tooth grooves 111, the keyboard supporting arm turning wheel 11 is rotated, and further the adjustment of the rotation angle of the operation panel assembly 10 is realized; in this embodiment, a pull wire spring 14 is further disposed between the guide seat 12 and the support arm limiting pin 13, and after the rotation angle of the operation panel assembly 10 is adjusted, the pull wire 16 is loosened, the pull wire 16 rebounds under the action of the pull wire spring 14 and drives the pin teeth 131 of the support arm limiting pin 13 to re-snap into the tooth sockets 111 to realize self-locking, that is, the keyboard support arm rotating disk wheel 11 is used to realize the rotatability of the operation panel assembly 10 in this embodiment, and the pull wire 16 is used to realize the separation or self-locking of the support arm limiting pin 13 and the keyboard support arm rotating disk wheel 11, so as to adjust or fix the angle of the operation panel assembly 10, and in this embodiment, the pull wire 16 is disposed through the pull wire 16 and a constraint channel is disposed on the operation panel assembly 10 to constrain the pull wire 16 in the constraint channel, so that the pull wire 16 of this application can be well adapted to the structure on the operation panel assembly 10, so as to combine with human engineering well, and the operability is strong in a relatively narrow area, thereby realizing the angle rotation and angle fixation of the operation panel.

In one embodiment, the operating panel assembly 10 is provided with a plurality of constraining pillars 101, as shown in fig. 1, the plurality of constraining pillars 101 are arranged in a staggered manner to form a plurality of constraining clip grooves (not shown), the plurality of constraining clip grooves are combined to form a constraining channel, and the pulling cable 16 is spirally arranged on the constraining channel.

In an embodiment, a cable fixing plate 19 is disposed on the operation panel assembly 10 in the constraint channel, as shown in fig. 1 and 3, a constraint hole 191 is formed in the cable fixing plate 19, the cable 16 is constrained in the constraint channel through the constraint hole 191, and in this embodiment, the cable fixing plate 19 is disposed on the constraint channel, so that the cable 16 is prevented from being separated from the constraint channel, and is prevented from being stuck in other structures on the operation panel assembly 10 and being unable to slide.

In one embodiment, the guide seat 12 is provided with a baffle plate 121 at an end away from the keyboard arm rotating wheel 11, as shown in fig. 3 and 4, the baffle plate 121 is provided with a first connecting column 122, and an end of the arm limiting pin 13 close to the first connecting column 122 is provided with an extending portion (not shown in the figure) extending outwards, wherein the extending portion may be an extending piece or at least two extending rods; one end of the pull wire spring 14 is fixedly sleeved on the first connecting column 122, and the other end abuts against the extending portion.

In an embodiment, a first linear bearing (not shown) is disposed in the guide cavity, wherein the first linear bearing may be fixedly disposed on the operation panel assembly 10 or may be fixedly disposed on the guide seat 12, the support arm limit pin 13 is slidably disposed in the first linear bearing, and in this embodiment, by disposing the first linear bearing, the contact friction force between the support arm limit pin 13 and the guide cavity (outside) can be reduced, and the wear of the support arm limit pin 13 is reduced, so that the support arm limit pin 13 slides more smoothly.

In an embodiment, the operation panel structure further includes a guiding post 17, as shown in fig. 1 and fig. 3, the guiding post 17 is fixedly disposed on the operation panel assembly 10, the guiding post 17 is opened with a guiding channel (not shown), the cable handle 15 is slidably disposed in the guiding channel, and by disposing the guiding post 17, the pulling direction of the cable handle 15 and the pulling direction of the pulling cable 16 are guided, so that the pulling force on the cable handle 15 and the pulling cable 16 can be reduced, and the operation comfort is improved.

In an embodiment, the guide post 17 includes a second linear bearing 171, as shown in fig. 1 and fig. 3, the cable handle 15 is slidably disposed in the second linear bearing 171, and in this embodiment, by disposing the second linear bearing 171, the contact friction between the cable handle 15 and the guide channel (outside) can be reduced, and the wear of the cable handle 15 and the cable 16 can be reduced, so that the cable handle 15 and the cable 16 can slide more smoothly.

In one embodiment, the operation panel assembly 10 is provided with a panel handle 102, as shown in fig. 1 and 2, the panel handle 102 is half-H-shaped, the panel handle 102 and the operation panel assembly 10 enclose an annular hole 103, the guide post 17 is disposed on an inner cavity of the panel handle 102, a sliding limiting hole 104 is disposed on one side of the panel handle 102 close to the guide post 17, one end of the cable handle 15 sequentially penetrates through the guide channel and the sliding limiting hole 104 and is located in the annular hole 103, in this embodiment, by pinching the cable handle 15 with fingers, the cable handle 15 is pulled towards one side of the panel handle 102 through the sliding limiting hole 104, so that the pin 131 of the arm limiting pin 13 is separated from the spline 111 of the keyboard arm turn wheel 11 by the cable 16, when the cable handle 15 is loosened, the cable handle 15 and the cable handle 16 move in a direction away from the panel handle 102 on the sliding limiting hole 104 until the pin 131 of the arm limiting pin 13 and the spline 111 of the keyboard arm turn wheel 11 move away from the panel handle 102, and the self-locking arm handle 102 stops moving against the panel handle 102.

In an embodiment, the operation panel structure further includes a rebound spring 18, as shown in fig. 1, a second connecting post 151 is disposed on the cable handle 15, one end of the rebound spring 18 abuts against the second connecting post 151 of the cable handle 15, and the other end abuts against an inner wall of the panel handle 102, in this embodiment, by disposing the rebound spring 18, on one hand, the rebound spring 18 and the cable spring 14 are respectively disposed at two ends of the cable 16 to balance a rebound force on the cable 16, so as to avoid abrasion of the cable 16 due to uneven force when the cable 16 is acted by the single-end cable spring 14, and enable the cable 16 to more smoothly drive the limiting arm pin 13 to be self-locked with the keyboard arm turntable wheel 11, and on the other hand, by rebounding simultaneously the rebound spring 14 and the rebound spring 18, a rebound speed of the cable 16 can be increased, so that when the angle of the cable handle assembly 10 is adjusted, when the angle of the cable handle 15 is released, the limiting arm pin 13 and the keyboard arm turntable wheel 11 can immediately achieve self-locking, so as to improve stability of the operation panel assembly 10, and to improve stability of the operation panel assembly, and to select a comfortable feeling of the cable handle 18; the specific operation can be as follows: the palm is pressed on the panel handle 102, the pull cable handle 15 is pinched by fingers, the pull cable handle 15 is pulled towards one side of the panel handle 102 through the sliding limiting hole 104, so that the pin teeth 131 of the support arm limiting pin 13 are separated from the tooth grooves 111 of the keyboard support arm turntable wheel 11 through the pull cable 16, and when the pull cable handle 15 is loosened, the pin teeth 131 of the support arm limiting pin 13 and the tooth grooves 111 of the keyboard support arm turntable wheel 11 are self-locked immediately under the action of the pull cable spring 14 and the rebound spring 18 by the pull cable handle 15 and the pull cable 16.

In one embodiment, the cable handle 15 is provided with a non-slip thread (not shown) to prevent the hand from slipping off when pressing the cable handle 15 to affect the operating experience.

A second aspect of the present embodiment provides an ultrasonic medical apparatus including a rotary operation panel structure as described above.

Finally, this embodiment provides the operating panel structure of rotary type, the operating panel structure includes operating panel subassembly 10, keyboard support arm carousel wheel 11, guide holder 12, support arm spacer pin 13, acts as go-between spring 14, cable handle 15 and cable 16, the restraint passageway has been seted up to operating panel subassembly 10, keyboard support arm carousel wheel 11 can through bearing or oil free bush rotate set up in on the operating panel subassembly 10, a plurality of tooth spaces 111 have been seted up along circumference to the avris of keyboard support arm carousel wheel 11, guide holder 12 through the fix with screw set up in on the operating panel subassembly 10, and be located the outside of keyboard support arm carousel wheel 11, the direction chamber has been seted up to guide holder 12, support arm spacer pin 13 slide set up in the direction chamber, support arm spacer pin 13 is close to the one end of keyboard support arm carousel wheel 11 be provided with the corresponding round pin tooth 131 of tooth space 111, round pin tooth 131 is used for the card to go into in the tooth space 111, the one end of spring 14 is fixed set up in on the guide holder 12, the other end with support arm spacer pin 13 connects, 15 sets up in the handle subassembly 10 slides and wears out the restraint passageway 16 is connected with the other end of operation panel subassembly and handle 15. In this embodiment, a rotatable keyboard support arm rotating disc wheel 11 is arranged on the operation panel assembly 10, a plurality of tooth grooves 111 and support arm limiting pins 13 arranged corresponding to the tooth grooves 111 are arranged on the side edge of the keyboard support arm rotating disc wheel 11 along the circumferential direction, the support arm limiting pins 13 are guided by a guide seat 12, pull cables 16 are driven by pull cable handles 15 penetrating through the operation panel assembly 10, and then the support arm limiting pins 13 are driven, so that pin teeth 131 on the support arm limiting pins 13 are separated from the tooth grooves 111, the keyboard support arm rotating disc wheel 11 is rotated, and further, the adjustment of the rotation angle of the operation panel assembly 10 is realized; this embodiment still sets up between guide holder 12 and support arm spacer pin 13 and acts as go-between spring 14, and after adjusting operating panel subassembly 10's turned angle, loosen cable 16, cable 16 can kick-back under the effect of acting as go-between spring 14 to can drive support arm spacer pin 13's round pin tooth 131 blocks again in tooth's socket 111, in order to realize the auto-lock, that is, this embodiment passes through keyboard support arm carousel wheel 11 and realizes operating panel subassembly 10's rotatability, and through cable 16 realizes support arm spacer pin 13 with the separation or the auto-lock of keyboard support arm carousel wheel 11, thereby adjustment or fixed operating panel subassembly 10's angle, this embodiment is through setting up cable 16, and set up the restraint passageway on operating panel subassembly 10, will cable 16 retrains in the restraint passageway, thereby makes the cable 16 of this application adapt to the structure on operating panel subassembly 10 well, combines human-machine engineering well, and can do very strong in relatively narrow region, realizes operating panel's angle rotation and angle is fixed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. Operation panel structure of rotary type, its characterized in that, operation panel structure includes:

an operation panel assembly;

the keyboard support arm rotating disc wheel is rotatably arranged on the operation panel assembly, and a plurality of tooth grooves are formed in the side edge of the keyboard support arm rotating disc wheel along the circumferential direction;

the guide seat is fixedly arranged on the operation panel assembly and positioned on the outer side of the keyboard supporting arm turntable wheel, and a guide cavity is formed in the guide seat;

the support arm limiting pin is arranged in the guide cavity in a sliding manner; one end of the support arm limiting pin, which is close to the keyboard support arm turntable wheel, is provided with pin teeth corresponding to the tooth grooves;

one end of the stay wire spring is fixedly arranged on the guide seat, and the other end of the stay wire spring is connected with the support arm limiting pin;

the cable handle is arranged on the operation panel component in a sliding mode and penetrates out of the operation panel component;

the cable, the one end of cable with support arm spacer pin is connected, the other end with the cable handle is connected.

2. A rotary operator panel structure according to claim 1, wherein a first linear bearing is disposed in said guide cavity, and said arm stop pin is slidably disposed in said first linear bearing.

3. A rotary operating panel structure according to claim 1, further comprising a guide post, wherein the guide post is fixedly disposed on the operating panel assembly, the guide post defines a guide channel, and the cable handle is slidably disposed in the guide channel.

4. A rotary operator panel structure according to claim 3 wherein said guide post includes a second linear bearing within which said cable handle is slidably disposed.

5. A rotary operating panel structure according to claim 1, wherein a cable fixing plate is disposed on the operating panel assembly, and a constraining hole is formed on the cable fixing plate, and the cable is constrained in the constraining hole.

6. A rotary operating panel structure according to claim 3, wherein the operating panel assembly is provided with a panel handle, the guide post is disposed on the inner cavity of the panel handle, a sliding limiting hole is further formed on one side of the panel handle close to the guide post, and one end of the cable handle sequentially penetrates through the guide channel and the sliding limiting hole.

7. A rotary operator panel structure according to claim 6, further comprising a resilient spring having one end abutting said cable handle and the other end abutting an inner wall of said panel handle.

8. A rotary operating panel structure according to claim 1, wherein a plurality of restraining columns are disposed on the operating panel assembly, the plurality of restraining columns are disposed in a staggered manner to form a plurality of restraining clip grooves, the plurality of restraining clip grooves are combined to form a restraining channel, and the cable is spirally disposed on the restraining channel.

9. A rotary operator panel structure according to claim 5, wherein said cable handle is provided with non-slip threads.

10. Ultrasonic medical device, characterized in that it comprises a rotating operating panel structure according to any of claims 1-9.

Images