JP2005300922A - Stand for display monitor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a stand for a display monitor which is made small in size and light in weight to reduce an operating force and can suppress generation of abnormal sound as much as possible. <P>SOLUTION: The stand for the display monitor comprises a base member, a guide member stood on the base member, an elevation member which is provided to slide up from and down to the guide member, a bracket for display monitor fitting which is fitted onto the elevation member through a tilt mechanism, an elastic means which energizes the elevation member to slide up, and a friction mechanism which generates friction during the slide of the elevation member, the friction mechanism which is composed of a one-way clutch and a torque limiter generating weak friction during the upward movement of the elevation member. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a display monitor stand suitable for use in a display monitor such as a notebook computer, a liquid crystal monitor placed on a table, and a thin monitor.

  Conventionally, in order to adjust the height and angle of a display monitor placed on a table, various display monitor stands disclosed in the following patent documents are known.

Registration No. 3063920 Registration Utility Model Gazette The lifting mechanism for adjusting the height of the display monitor stand shown in these patent documents is an elastic means comprising a friction mechanism, a compression spring, a tension spring, and a conston spring. It was a combination.

  A conventional display monitor stand having a lifting mechanism composed of a combination of these friction mechanisms and elastic means has the same force when the lifting mechanism is operated in the upward direction and in the downward direction. Because it is necessary to set the elasticity of elastic means such as Conston springs to be strong, the device becomes large in size and requires a strong operating force. There was a problem that abnormal noise was likely to occur.

  An object of the present invention is to provide a display monitor stand capable of reducing the size and weight of the apparatus, reducing the operating force, and suppressing the generation of abnormal noise as much as possible.

  To achieve the above-described object, the present invention provides a base member, a guide member erected from the base member, an elevating member that is slidable in the vertical direction with respect to the guide member, and the elevating member A display monitor mounting bracket attached to the upper part of the display through a tilt mechanism, elastic means for slidingly urging the lifting member upward, and a friction mechanism for generating friction when the lifting member slides. The friction mechanism is constituted by a one-way clutch that weakly creates friction when the elevating member moves upward.

  The present invention also provides a base member, a guide member erected from the base member, an elevating member provided so as to be slidable in the vertical direction with respect to the guide member, and a tilt mechanism disposed above the elevating member. A display monitor mounting bracket, an elastic means for slidably urging the elevating member, and a friction mechanism for generating friction when the elevating member slides. It is characterized by a torque limiter that creates friction weakly when the member moves up.

  In that case, this invention can comprise the said elastic means with a compression spring or a Conston spring.

  The present invention further includes a friction case in which the one-way clutch is interposed between the guide member and the elevating member so as to be movable up and down, and is attached to the elevating member and accommodated in the friction case so as to be movable up and down. A guide member, a spacer interposed between the guide member and the friction case, elastic means provided between the spacer and the friction case, and a side of the guide member facing the spacer And a control pin accommodated in the inclined groove in a direction orthogonal to the elevating member.

  In the present invention, the torque limiter includes a support pin, a friction roller in which the support pin is loosely inserted in the central axis direction, and a conston spring in which the winding portion is wound around the friction roller. be able to.

  According to the present invention, since the one-way clutch and the torque limiter constituting the friction mechanism create weak friction when the elevating member moves upward, the elasticity of the elastic means applied to the elevating member can be set weakly, so that the overall size of the apparatus can be reduced. The weight can be reduced, the display monitor can be lifted and lowered with a light operating force, and the occurrence of abnormal noise can be suppressed.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

  In FIG. 1 to FIG. 6, a reference member 1 indicates a base member, and a guide member 2 having both side plates 2 a and 2 a is erected on the base member 1 so as to be rotatable in the horizontal direction. The reference symbol 3 is a lower case body that covers the outer periphery of the guide member 2.

  An elevating member 4 having both side plates 4a, 4a is provided so as to be slidable in the vertical direction with respect to the guide member 2, and both side plates 7a of the bracket 7 are disposed on the upper side plates of the elevating member 4 via tilt mechanisms 6, 6. , 7a are attached to be swingable in the vertical direction, and a display monitor 8 is attached to the bracket 7. In addition, the thing of the instruction symbol 9 is an upper case body which covers the circumference | surroundings of the raising / lowering member 4, and the upper part of the lower case body 3 is accommodated in the lower part.

  One end portion of the elastic means 10 made of a conston spring is fixed to the upper side of the guide member 2, and the winding portion 10 a of the elastic means 10 made of the conston spring is on both sides on the lower side of the elevating member 4. It is wound around a pin 11 attached between the plates 4a and 4a.

  Between the side plates 2a, 2a of the guide member 2 and the side plates 4a, 4a of the elevating member 4, friction mechanisms 12, 12 using a one-way clutch are provided. Since the friction mechanisms 12 and 12 have the same structure, only one structure will be described in detail. As shown in detail in FIGS. 3 and 5, the friction mechanism 12 includes a friction case 13 in which one surface is in contact with the side plate 2 a of the guide member 2 and a side plate 4 a of the elevating member 4 that is fixed to the friction case 13. A guide member 14 accommodated in a slightly movable manner, a spacer 15 interposed between the guide member 14 and the friction case 13, and a leaf spring provided between the spacer 15 and the friction case 13. Comprising the elastic means 16, the three inclined grooves 14a provided on the spacer 15 side of the guide member 14, and the control pins 17 accommodated in the inclined grooves 14a. The guide member 2 is pressed against the side plate 2a. Note that the number of the inclined grooves is not limited to three.

  Since the structures of the tilt mechanisms 6 and 6 are of the same structure, only one of them will be described. The hinge pin 20 that connects the upper part of the side plate 4a of the elevating member 4 and the side plate 7a of the bracket 7; Between the head plate 20a of the hinge pin 20 and the side plate 7a, the hinge pin 20 is inserted into the central portion thereof and interposed between the first friction washer 21 and the side plate 7a and the side plate 4a. A side plate 7a of the bracket 7 is formed by a spring washer 22 provided and a second friction washer 23 provided in contact with the spring washer 22, and one end portion of the hinge pin 20 is caulked to form a caulking portion 20b. The friction washer 21 and the second friction washer 23 are configured to rotate in a pressure contact state. Incidentally, the spring washer 22 and the second friction washer 23 are also inserted with the hinge pin 20 in the axial direction of the central portion in the same manner as the first friction washer 21.

  The configuration of the tilt mechanism 6 is an example, and is not limited to the illustrated one, and various known tilt mechanisms can be employed as necessary. For example, the types and number of friction washers, as well as the spring washers of various types and numbers of known configurations including disc springs can be adopted as necessary, and the caulking portion can be replaced with a tightening nut. Further, the number of the hinge pins may be one, and the tilt mechanism may be provided only at one place.

  Next, the operation will be described. When the display monitor 8 is held and pulled upward or pushed, the elastic means 10 urges the display monitor 8 upward via the elevating member 4, and the friction is adjusted in accordance with the ascending operation of the elevating member 4. Since the guide member 14 of the mechanism 12 slightly moves up in the friction case 13 and the control pin 17 in the inclined groove 14a moves to the wider side of the inclined groove 14a, the spacer 15 and the elastic means 16 are used. As a result of the reduction of the pressing force applied to the friction case 13 side, the pressing force of the friction case 13 against the side plate 2a of the guide member 2 decreases, so that the elevating member 4 can smoothly move without encountering a large friction resistance. It will move upward. As a result, the display monitor 8 attached to the elevating member 4 can also be moved up with a light force while its original weight is reduced.

  When the display monitor 8 moves upward, the display monitor 8 is stopped and held at an arbitrary height position when the hand is released due to the elastic force of the elastic means 16 and the weak friction action of the friction mechanism 12.

  Further, it is possible to rotate the display monitor 8 in the horizontal direction by using the above-described horizontal rotating means, and the vertical swinging motion can be performed by the tilt mechanism 6, and an arbitrary horizontal rotation angle and It can be stopped and held at a vertical inclination angle.

  Next, when the display monitor 8 is moved downward, when the display monitor 8 is pushed downward, the display monitor 8 can be moved downward via the elevating member 4 that descends simultaneously. At that time, resistance due to the elastic force of the elastic means 10 is received, and at the same time, the control pin 17 of the friction mechanism 12 moves to the narrow side of the inclined groove 14 a of the guide member 14, thereby causing friction via the spacer 15 and the elastic means 16. When the case 13 is in strong pressure contact with the side plate 2a of the guide member 2, it receives friction resistance. However, the downward movement of the display monitor 8 does not require a large force because the weight of the display monitor 8 is added. When the display monitor 8 releases the pressing force applied to the display monitor 8 while moving downward, the display monitor 8 is stopped and held at an arbitrary position by the friction mechanism 12.

  Thus, the raising / lowering operation with respect to the display monitor 8 can be lightly operated without requiring a larger force than that of a conventionally known configuration.

  The elastic means that acts on the elevating member 4 of the first embodiment may be replaced with a compression spring, a tension coil spring or the like in addition to the conston spring.

  7 to 10 show another embodiment of the display monitor stand according to the present invention. According to the drawing, the second embodiment is the same as the first embodiment except for the configuration of the friction mechanism, and the rest is the same. Therefore, in the same configuration as in the first embodiment, the instruction symbols are written in the same manner as in the first embodiment, and the spacer 30 is interposed between the side plate 2a of the guide member 2 and the side plate 4a of the elevating member 4. . Of course, the spacer 30 may be a friction member. Furthermore, the spacers and friction members can be omitted by bringing the side plates 2a and 4a close to each other.

  The friction mechanism 31 according to the second embodiment is a torque limiter, and the torque limiter is interposed between the winding portion 32a of the Conston spring 32 and the support pin 33 attached to the lower portion of the elevating member 4. It is composed of a friction roller 34, for example, made of rubber and having elasticity and frictional force, which is rotatably attached to the shaft 33, that is, the support pin 33 is loosely inserted in the axial direction thereof. By winding the winding portion 32a of the conston spring 32 around the friction roller 34, when the display monitor (not shown) is lifted, the winding force of the winding portion 32a on the friction roller 34 is weakened. Since the elevating member 4 can be smoothly moved upward by the elasticity of the conston spring 32 even when a weak elastic force is used for the conston spring 32, the display monitor 8 is lightly applied. It is possible to operate with.

  Further, when the display monitor 8 is moved downward, the winding portion 32a of the conston spring 32 increases the winding force with respect to the friction roller 34. As a result, the friction roller 34 is bent and strongly pressed against the outer periphery of the support pin 33. Therefore, a friction torque is generated against the acceleration force that comes from the weight of the display monitor 8.

  In this way, since a conston spring having a weaker elasticity than that of a conventionally known one can be used, the raising / lowering operation of the display monitor 8 can be performed with a lighter operating force than that of a conventionally known configuration. It can be done.

  As described in detail above, the present invention is particularly suitable as a stand that supports a display monitor on a table and can easily operate the height and angle of the display monitor with a light operating force.

It is a side view of the stand for display monitors concerning this invention. FIG. 2 is a front view of a part of the display monitor stand shown in FIG. It is an enlarged view of the part of A view of FIG. FIG. 2 is a partially omitted front view of the display monitor as viewed from the state shown in FIG. It is an enlarged view of the part of B view of FIG. It is a longitudinal cross-sectional view of the tilt mechanism part of the display monitor shown in FIG. It is a front view which shows the other Example of the stand for display monitors which concerns on this invention. FIG. 8 is an enlarged front sectional view of a friction mechanism portion of the display monitor shown in FIG. 7. It is explanatory drawing explaining the state at the time of the descent | fall of the raising / lowering member of the friction mechanism shown in FIG. It is explanatory drawing explaining the state at the time of the raising of the raising / lowering member of the friction mechanism shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Base member 2 Guide member 2a Side plate 3 Lower case body 4 Elevating member 4a Side plate 6 Tilt mechanism 7 Bracket 7a Side plate 8 Display monitor 9 Upper case body 10 Elastic means (Conston spring)
10a Entrainment part 11 Pin 12 Friction mechanism (One-way clutch)
13 Friction Case 14 Guide Member 14a Inclined Groove 15 Spacer 16 Elastic Means 17 Control Pin 20 Hinge Pin 20a Head 20b Caulking Part 21 First Friction Washer 22 Spring Washer 23 Second Friction Washer 30 Spacer 31 Friction Mechanism (Torque Limiter)
32 Conston spring 32a Winding part 33 Support pin 34 Friction roller

Claims (6)

  A base member, a guide member erected from the base member, an elevating member slidable in the vertical direction with respect to the guide member, and a display attached to the upper part of the elevating member via a tilt mechanism A bracket for mounting the monitor, an elastic means for slidably energizing the elevating member, and a friction mechanism for generating friction when the elevating member slides. A stand for display monitors, characterized by a one-way clutch that creates weak friction.   A base member, a guide member erected from the base member, an elevating member slidable in the vertical direction with respect to the guide member, and a display attached to the upper part of the elevating member via a tilt mechanism It comprises a bracket for mounting the monitor, elastic means for slidably urging the elevating member, and a friction mechanism for generating friction when the elevating member slides. A stand for display monitors, which consists of a torque limiter that weakly creates friction.   The display monitor stand according to claim 1, wherein the elastic means is a compression spring.   The display monitor stand according to claim 1, wherein the elastic means is a conston spring.   A friction case in which the one-way clutch is interposed between the guide member and the elevating member so as to be movable up and down; a guide member attached to the elevating member and accommodated in the friction case so as to be movable up and down; A spacer interposed between the guide member and the friction case, elastic means elastically provided between the spacer and the friction case, and an inclined groove provided on a side of the guide member facing the spacer The display monitor stand according to claim 1, comprising a control pin accommodated in a direction orthogonal to the elevating member. The torque limiter is composed of a support pin, a friction roller in which the support pin is loosely inserted in the central axis direction, and a conston spring in which the winding portion is wound around the friction roller. The display monitor stand according to claim 2.

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