KR100473023B1 - vibraion transmission ascertain device - Google Patents

Abstract

The present invention relates to a vibration transmission confirmation device, in particular, the general spring structure and the pocket spring structure that is built into the mattress before purchasing a bed for general people who do not have expertise in the spring structure by installing in a store selling the bed, etc. It is intended to contribute to the selection of a better product by making it easy to identify immediately.

The gas on which the different spring structures of the mattress, which is the test object, is placed on the upper surface, and the gas is placed vertically on the upper surface of the mattress. Strike members and lifters are installed on the base to be vertically elevated in the upper position of these striking members, and lifters for raising and releasing the falling striking members to their respective positions.

Description

Vibration transmission ascertain device

The present invention relates to a vibration transmission confirmation device, and more particularly, to a vibration transmission confirmation device for confirming that the impact applied to any part of the spring structure mounted on the inside of the mattress used in the bed to other parts will be.

In general, a spring structure is mounted in the mattress to cushion a cushion and cushion it when an impact is applied. The spring structure includes a plurality of coil springs arranged vertically and horizontally between upper and lower steel wire frames. They bind the parts adjacent to each other with helical coils, and the parts adjacent to the wire frame are made of band clips and those made of pocket springs in which coil springs are integrated in the pocket independently of each other.

The general spring structure of the former is because all coil springs are connected vertically and horizontally by helical coils and band clips, and are integrated. Therefore, when a shock is applied to any part during use, the vibration is transmitted to all parts that are not adjacent to each other. In the case of the bed gave a lot of inconvenience to the users.

However, the latter spring structure is that all the coil springs are independently connected to each other without being connected to each other, so that an impact is applied to one part but is not transmitted to another part that is not adjacent to each other.

However, such a difference between the spring structure was not easily distinguished by non-professional users, there was a problem that the advantage of the mattress is equipped with an excellent pocket spring is effective.

The present invention has been invented in view of the above, and its object is to enable anyone without specialized knowledge to readily visually distinguish the difference between the spring structure of the former and the spring structure using the latter pocket spring. It is to provide a vibration transmission confirmation device.

The above object of the present invention is to visually immediately know whether the shock is transmitted to another part which is not adjacent to the affected part when the former is applied to the spring structure and the spring structure using the latter pocket spring. It is achieved by providing a vibration transmission confirmation device, which is simultaneously dropped to one end of the spring structures on the upper side of the body to be placed on the upper surface of the spring structure using the general spring structure and the pocket spring to be isolated from each other. It is to be provided with a lifter for raising the striking members to strike the impact of the one end of each of the spring structure with the same force and the falling striking members back to a predetermined position. During the test, the vibrations generated by the striking member are not adjacent to each other by placing an object such as a bowling pin that easily shakes or falls by vibration on the upper surface of the other end to which the spring structures are not applied. It is to know immediately whether it is delivered.

Hereinafter, the vibration transmission confirmation apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a vibration transmission device according to an embodiment of the present invention, Figures 2 and 3 are a perspective view and a side view showing a part removed from the device, Figure 4a-c is a rear view showing the same operation state.

Numeral 10 denotes a gas, and the upper surface of the body is such that the general spring structure 1 in which the coil springs are connected both vertically and horizontally and the pocket spring structure 2 embedded in the pockets are separated from each other independently of each other. Put on.

At this time, it is preferable that the diaphragm 11 which isolates the spring structures 1 and 2 from contacting each other is installed in the front and rear longitudinal direction in the middle of the upper surface of the base 10.

This is to prevent the interference occurs when the vibration test is carried out when the spring structure (1) (2) is in contact with each other to prevent the correct identification is disturbed.

Then, on both sides of the crosspiece 13 across the upper portion of the base 12, which is installed on the upper surface rear side of the base 10, it is vertically dropped onto the spring structures (1) and (2) by their own weight, respectively, and these are applied with an appropriate force. Strike members (20, 20 ') to strike the impact is installed to be elevated.

The striking members 20 and 20 'are made of heavy materials, and each of the striking members has guide holes 21 through which a pair of guide rods 14 vertically pass.

Guide rods 14, each upper end is fixed at regular intervals on both sides of the crosspiece 13 so that each lower end is located at a height that does not touch each upper surface of the spring structure (1) (2).

Therefore, the striking members 20 and 20 'are vertically lifted in a state that both sides are supported by a pair of guide rods 14, respectively.

In addition, the frame 12 is provided with lifters 30 and 30 'which raise the dropped striking members 20 and 20' to be stopped at the corresponding positions.

The lifters 30 and 30 'are respectively provided with a lift table 31 formed with guide holes 311 through which a pair of guide rods 14 vertically penetrate, and an upper end 13 in the middle of the guide rods. Fixed to the lower end vertically passing through the through-holes 22 and 312 respectively formed in the middle of the striking member 20 and 20 'and the lifting platform does not reach each upper surface of the spring structure (1) (2). A rack 32 positioned at a height of the motor, a motor 33 on which the pinion 331 interlocked with the rack and engaged with the rack is condensed, a solenoid 34 mounted on a bottom surface of the platform, and the solenoid. And the movable member 36 installed horizontally forward and backward by the action of the spring and the spring 35, and the movable member 36 on which the hook piece 361 is installed, and when the movable member is advanced, is installed on the striking members to be hooked on the hook piece. The locking member 37 is provided.

The catching members 37 are condensed to the upper side of the bracket 38, the lower ends of which are respectively fixed to the striking members 20 and 20 ', and are not rotated upwards above the state where the catching jaw is kept horizontal. It is installed so as to rotate, and when rotated downward, it is reversed by the action of a torsion spring (not shown) to maintain the original state.

In addition, limit switches 40 and 40 'are installed at upper predetermined positions of the guide rods 14 and one side of the bottom surface of the lift table 31 to detect lift positions of the lifters 30 and 30', respectively. The coil spring 15 hangs between the 13 and the motor 33.

When using the vibration transmission confirmation apparatus according to the embodiment of the present invention configured as described above. First, turn on the power switch in the state of placing the objects (3) that fall well to the vibration, such as bowling pins at the proper position on the upper surface of each spring structure (1) (2).

At this time, the striking members 20 and 20 'are respectively lifted by the lifters 30 and 30' as shown in FIG. 4A. In this state, magnetic force is generated when the solenoid 34 is energized. The member 36 is reversed.

In this case, since the locking state of the locking member 37 which is hooked to the hook piece 361 is released, the striking members 20 and 20 'are instantaneously dropped vertically at the same time by their own weight, and the solenoid 34 is energized. Since the movable member 36 is blocked and advanced by the repulsive force of the spring 35 that has been compressed at the time of reversing, the hook piece 361 is returned to its original position.

On the other hand, since the striking members 20 and 20 'that fall simultaneously hit each of the same corresponding portions of the spring structures 1 and 2 as shown in FIG. In the case of the spring structure (1), since the coil springs are connected horizontally and horizontally by the helical coil and are integrated, the object (3) is far from the hitting part because the vibration generated from any part is transmitted to all parts. It is shaken even if it exists.

However, in the case of the spring structure using the pocket spring, since the coil spring is embedded in the pocket independently of each other, vibration is transmitted to a part adjacent to the hitting part, but is not transmitted to another part not adjacent to the object ( 3) is not shaken.

Accordingly, it is possible to visually check whether the vibration is transmitted simply by seeing whether or not the objects 3 placed on each spring structure 1 and 2 are shaken. Anyone can easily and easily know the difference between the spring structure and the pocket spring structure.

Next, the motor 33 is driven forward and rotates the pinion 331 forward. At this time, since the pinion is engaged with the rack 32, the pinion 331 rotates along the rack, so that the lifting platform 31 is simultaneously lowered and the coil spring is rotated. 15 is tensioned.

In this operation, when the platform 31 is lowered and approaches the upper surface of the dropped striking members 20 and 20 ', the hook piece 361 re-engages the locking jaw of the locking member 37, and at the same time, The limit switch 40 'installed on the bottom of the 31 is grounded on the upper surface of the striking member, and the contact thereof is short-circuited, so that the regular driving of the motor 33 is stopped and the lifting platform 31 stops descending.

This time, since each motor 33 of the lifter 30, 30 'is driven back to reverse the pinion 331, the pinion rises while being rotated along the engaged rack 32. And the striking members 20 and 20 'are raised together by the catching members 37 hanging on the hook pieces 361 of the lifting platform, and at this time, the striking force of the coil spring 15, which is tensioned, rises. The operation is more smooth.

In this process, if the limit switch 40 installed on the upper portion of the guide rod 14 on the upper surface of the lifting platform 31 is grounded and its contact is short-circuited, the power supplied to the motor is cut off and reverse driving is stopped. As a result, the lift operation is stopped.

This operation is to complete the one-time drop and lift operation of the striking member 20, 20 ', all the operation is automatically made according to the control of the general automatic control system just by turning on the power switch. .

In addition, the drop and rise operations may be made intermittently, and may be made only once when the power switch is "on".

In the above embodiment, the striking member and the lifter are installed at two places, respectively, so that they are operated at the same time so as to hit each of the different spring structures. However, the present invention is not limited thereto. In this case, it is, of course, belonging to the rights of the present invention.

Such vibration transmission confirmation device according to an embodiment of the present invention is to be installed and used in particular, such as stores that sell beds, general people who do not have specialized knowledge of the spring structure is built in the mattress before purchasing a bed By making it easy to see the difference between the spring structure and the pocket spring structure on the spot, it is a feature that greatly contributes to the selection of a better product.

1 is a perspective view of a vibration transmission confirmation apparatus according to an embodiment of the present invention

Figure 2 is a perspective view of a part removed from the device

Figure 3 is a side view of a part of the same device removed

Figure 4a-c is a rear view showing the operating state of the device

5 is an enlarged rear view showing a part of the same apparatus;

Figure 6 is an exploded perspective view extracting the striking member and the lifter in the device

Figure 7a-b is an enlarged rear view of the operation state of the solenoid in the apparatus

* Description of the symbols for the main parts of the drawings *

10; gas

  13; Crossbar 14; Guide rod

20,20 '; Strike Member

  21; Guide hole 22; Through hole

30, 30 '; Lifter

  31; Platform 32; Rack

  33; Motor 34; Solenoid

  35; Spring 36; Movable member

  37; Engaging member 311; Guide

  312; Through hole 331; Pinion

Claims (4)

The gas on which the spring structure embedded in the mattress under test is placed on the upper surface: A pair of guide rods installed vertically on the upper portion of the body so that the lower end does not touch the upper surface of the spring structure is installed to penetrate both sides to rise and fall vertically along the guide rod, when the spring structure falls vertically by its own weight Strike member hitting: A lifter installed at an upper side of the striking member so that the guide rod penetrates both sides, and is vertically lifted, and when the striking member falls, the lifter lowers and raises and releases the striking member; A rack installed vertically on an upper portion of the base such that a lower end thereof does not contact the spring structure and penetrates the middle of the lifter and the striking member; A pinion installed on the lifter to mesh with the rack, the pinion being rotated by a motor and lifting the lifter in accordance with the rotation direction thereof; A catching member mounted on the hitting member; It is installed on the lifter, and when the lifter is lowered, it hangs the locking member so that the striking member is raised together when the lifter is raised, and when the lifting is completed, the striking member is released to release the striking member by its own weight. Vibration transmission confirmation device, characterized in that provided with a member. The method of claim 1, The striking member and the lifter installed to be elevated vertically, a rack penetrating the middle of the striking member and the lifter, a pinion rotated by a motor to lift the lifter, and a catching member installed on the striking member; The vibration transmission confirmation device, characterized in that the movable member is installed on the lifter when the lowering to hang the locking member, and the movable member to be released when raised to the upper two places of the body. The method according to claim 1 or 2, The striking member is a heavy object, the vibration transmission confirmation device, characterized in that each of the guide holes through which the guide rods penetrates and through holes through which the rack penetrates. The method according to claim 1 or 2, The lifter has a lifting hole formed with guide holes through which guide rods penetrate at both sides thereof, and through holes through which racks penetrate at the middle thereof. It is installed on the rear side of the bottom of the front and back horizontally by the action of the spring and the solenoid, the locking member is installed on the upper side of the rear of the striking member to be released when the movable member is moved and the reversed state is released. Vibration transmission confirmation device.