DE202021105606U1 - Multidirectional shock-absorbing warning light for safety technology - Google Patents

Abstract

Multidirectional shock-absorbing warning light for safety technology, characterized in that it comprises a fixed base (1), a lamp housing (2) being arranged over the fixed base (1), the lamp housing (2) and the fixed base (2) being connected by a A plurality of support columns (6) are fixedly connected with a movable roller (7) fixedly installed on the lower surface of the fixed base (2);
wherein a warning lamp is permanently installed on the outer surface of the lamp housing (2), a cabinet door (22) is permanently installed on one side of the lamp housing (2), and a rain cover (23) is permanently installed on the top of the lamp housing (2) , wherein an inner cabinet (3) is arranged in the interior of the lamp housing (2) and a buffer mechanism (4) is permanently installed between the inner cabinet (3) and the lamp housing (2), and a counterweight (5) is fixed to the bottom of the lamp housing (2) is installed;
wherein the buffer mechanism comprises a first buffer mechanism (41) and a second buffer mechanism (42), wherein the first buffer mechanism (41) comprises at least one central shock absorbing column (411) and at least four peripheral shock absorbing columns (412), wherein the upper surface of the central shock absorbing column ( 411) is firmly installed on the underside of the inner cabinet (3), with the lower surface of the central shock absorbing column (411) firmly installed on the upper surface of the underside of the lamp housing (2), with the undersides of all peripheral shock absorbing columns (412) being firmly installed the upper surface of the underside of the lamp housing (2) are installed, the second buffer mechanism (42) being filled between the outer walls around the inner cabinet (3) and the outer walls around the lamp housing (2).

Description

TECHNICAL AREA

The present utility model relates to the technical field of warning lights for safety technology, in particular a multidirectional shock-absorbing warning light for safety technology.

STATE OF THE ART

With the advancement of science and technology, China's construction industry is also developing rapidly. As the construction industry develops rapidly, it also places higher demands on management in the construction industry. Warning lights should be set up during the construction process, where there are safety risks, and the function of the warning lights is to alert passers-by passing the construction site to possible dangers. However, when the warning lamp is placed on the construction site, the working environment of the warning lamp is influenced by the surroundings and vibrates frequently. Most existing warning lights do not have the anti-vibration function and the anti-vibration mechanism is relatively simple. If the working environment is poor, the internal electronic components cannot be protected well, which affects the life of the warning light.

In order to overcome the above-mentioned shortcomings, the experts in the relevant technical field are actively researching and innovating to create a multidirectional shock-absorbing warning light for safety technology.

CONTENTS OF THE PRESENT USED MODEL

In view of the problems in the prior art, the present utility model provides a multidirectional shock-absorbing warning lamp for safety technology in order to solve the problem that most of the existing warning lamps proposed in the prior art do not have an anti-vibration function. The existing warning lights have a relatively simple anti-vibration mechanism. In poor working conditions, the internal electronic components cannot be protected well, which affects the service life of the warning light.

In order to solve the above technical problems, a technical solution adopted by the present utility model is to provide a multidirectional shock-absorbing warning light for safety engineering, which comprises a fixed base, wherein a lamp housing is arranged above the fixed base, the lamp housing and the fixed base through a plurality of support columns are fixedly connected with a movable roller fixedly installed on the lower surface of the fixed base;
A warning lamp is permanently installed on the outer surface of the lamp housing, a cabinet door is permanently installed on one side of the lamp housing, a rain cover is permanently installed on the top of the lamp housing, an inner cabinet is arranged inside the lamp housing, a buffer mechanism is permanently between the inner cabinet and installed on the lamp housing, and a counterweight is fixedly installed on the bottom of the lamp housing;
The buffer mechanism includes a first buffer mechanism and a second buffer mechanism. The first buffer mechanism includes at least one central shock absorbing column and at least four peripheral shock absorbing columns. The top surface of the central shock absorbing column is permanently installed on the bottom of the inner cabinet. The lower surface of the central shock absorbing column is permanently installed on the upper surface of the underside of the lamp housing. The undersides of all peripheral shock absorbing pillars are fixedly installed on the upper surface of the underside of the lamp housing. A second buffer mechanism is filled between the outer walls around the inner cabinet and the outer walls around the luminaire housing.

Preferably, the number of the central shock absorbing pillars is one, the number of the peripheral shock absorbing pillars is six, and the peripheral shock absorbing pillars are evenly distributed along the circumferential direction of the central shock absorbing pillar.

Both the central shock-absorbing column and the peripheral shock-absorbing columns are preferably compression springs.

The number of support columns is preferably four.

Preferably, a roof panel of the rain cover is an inclined structure with a high center and two low sides, and the roof panel of the rain cover is fastened over the lamp housing with screws.

The movable roller is preferably provided with a shock-absorbing spring.

Preferably, the upper surface of the second buffer mechanism is in contact with the outer walls around the inner cabinet, the lower surface of the second buffer mechanism is in contact with the inner walls around the lamp housing, and the second buffer mechanism is a serpentine spring.

1. 1. Durch die Kombination des ersten Puffermechanismus und des zweiten Puffermechanismus weist der gesamte Mechanismus eine gewisse Stoßfestigkeit auf. Der erste Puffermechanismus kann die Vibration des gesamten Mechanismus in der vertikalen Richtung reduzieren und der zweite Änderungsmechanismus kann die Vibration des gesamten Mechanismus in der horizontalen Richtung reduzieren. Es ist erwähnenswert, dass die Unterseite der Warnleuchte bevorzugt mit einer beweglichen Rolle mit einer stoßdämpfenden Feder ausgestattet ist. Das Vorhandensein der stoßdämpfenden Feder kann die Stoßfestigkeit des gesamten Mechanismus weiter verbessern.

The beneficial effects of the present utility model are:

1. 1. By combining the first buffer mechanism and the second buffer mechanism, the entire mechanism has a certain impact resistance. The first buffer mechanism can reduce the vibration of the entire mechanism in the vertical direction, and the second changing mechanism can reduce the vibration of the entire mechanism in the horizontal direction. It is worth noting that the bottom of the warning light is preferably equipped with a movable roller with a shock-absorbing spring. The presence of the shock absorbing spring can further improve the shock resistance of the whole mechanism.

The above description represents only an overview of the technical solution of the present utility model. For a better understanding of the technical measure of the present utility model and for implementation in accordance with the content of the description, a detailed description of the preferred exemplary embodiments of the present utility model with accompanying drawings follows.

Figure list

• 1 Fig. 13 is a schematic diagram of a structure of the present utility model;
• 2 Fig. 13 is a schematic diagram of an internal structure of the present utility model;
• 3 Fig. 13 is a schematic diagram of a structure of a portion AA of the present utility model.

List of reference symbols

1

Solid base;

2

Luminaire housing;

21

Warning light;

22nd

Cabinet door;

23

Rain protection;

3

Interior cabinet;

4th

Buffer mechanism;

41

First buffer mechanism;

411

Central shock absorption column;

412

Peripheral shock absorption column;

42

Second buffer mechanism;

5

Counterweight;

6th

Support column;

7th

Moving role;

71

Shock absorbing spring.

DETAILED DESCRIPTION

Specific embodiments of the present utility model are described below through specific working examples, and those skilled in the relevant technical field can easily understand the advantages and effects of the present utility model from the contents disclosed in this specification. The present utility model can be implemented in other different ways, that is, various modifications and changes can be made without departing from the scope of the present utility model.

Embodiment: A multidirectional shock-absorbing warning light for safety technology includes, as in 1 until 3 shown a solid base 1 , with a lamp housing 2 is disposed over the fixed base, the lamp housing and the fixed base supported by a plurality of support columns 6th are firmly connected, with a movable roller 7th is firmly installed on the lower surface of the fixed base.

A warning light is permanently installed on the outer surface of the light housing, and a cabinet door is on one side of the light housing 22nd permanently installed, on the top of the luminaire housing is a rain cover 23 permanently installed, there is an inner cabinet inside the luminaire housing 3 arranged, a buffer mechanism 4th is permanently installed between the inner cabinet and the luminaire housing, and a counterweight 5 is permanently installed at the bottom of the light housing, with the counterweight serving to stabilize the entire warning light.

The buffer mechanism includes a first buffer mechanism 41 and a second buffer mechanism 42 . The first buffer mechanism includes at least one central shock absorbing column 411 and at least four peripheral shock absorption pillars 412 . The top surface of the central shock absorbing column is permanently installed on the bottom of the inner cabinet. The lower surface of the central shock absorbing column is permanently installed on the upper surface of the underside of the lamp housing. The undersides of all peripheral shock absorbing columns are fixedly installed on the upper surface of the underside of the lamp housing. A second buffer mechanism is filled between the outer walls around the inner cabinet and the outer walls around the luminaire housing. There is a clearance of 1-2 mm between the upper surface of the peripheral shock absorbing column and the inner cabinet, and the clearance between the peripheral shock absorbing column and the inner cabinet can allow the central shock absorbing column to elastically deform.

The number of the central shock absorbing pillars is one, the number of the peripheral shock absorbing pillars is 6, and the peripheral shock absorbing pillars are evenly distributed along the circumferential direction of the central shock absorbing pillar.

Both the central shock absorbing column and the peripheral shock absorbing columns are compression springs, and the rigidity coefficient of the compression spring used in the central shock absorbing column is smaller than the rigidity coefficient of the compression spring used in the peripheral shock absorbing columns.

The number of support columns is four.

The rain cover is a sloping structure with a high center and two low sides, and the rain cover is fastened over the lamp housing with screws.

A shock absorbing spring 71 is fixedly installed on the top of the movable roller, the upper surface of the shock absorbing spring is connected to the lower surface of the fixed base, and the lower surface of the shock absorbing spring is connected to the top of the movable roller.

The upper surface of the second buffer mechanism is in contact with the outer walls around the inner cabinet, the lower surface of the second buffer mechanism is in contact with the inner walls around the lamp housing, and the second buffer mechanism is a serpentine spring. In the event of vibrations, the serpentine spring can absorb the energy transferred from the luminaire housing to the interior cabinet by elastic deformation.

• Platzieren der Warnleuchte an der Stelle, an der sie gewarnt werden müssen. Bewegen Sie sie während des Transports auf dem ebenen Boden mit der unteren beweglichen Rolle. Wenn die Warnleuchte vibriert, wirkt zuerst die stoßdämpfende Feder an der beweglichen Rolle und absorbiert Energie. Wenn die stoßdämpfende Feder den Stoß nicht vollständig absorbieren kann, können sich der erste Puffermechanismus und der zweite Puffermechanismus verformen, um die Energie, die der gesamte Mechanismus erhält, zu absorbieren.

The working process and working principle of the present utility model are as follows:

• Place the warning light where it needs to be warned. Use the lower moving roller to move them around on the level floor during transport. When the warning light vibrates, the shock-absorbing spring on the moving roller acts first and absorbs energy. If the shock absorbing spring cannot fully absorb the shock, the first buffer mechanism and the second buffer mechanism may deform to absorb the energy that the entire mechanism receives.

Claims (7)

Multidirectional shock-absorbing warning light for safety technology, characterized in that it comprises a fixed base (1), a lamp housing (2) being arranged over the fixed base (1), the lamp housing (2) and the fixed base (2) being connected by a A plurality of support columns (6) are fixedly connected with a movable roller (7) fixedly installed on the lower surface of the fixed base (2); wherein a warning lamp is permanently installed on the outer surface of the lamp housing (2), a cabinet door (22) is permanently installed on one side of the lamp housing (2), and a rain cover (23) is permanently installed on the top of the lamp housing (2) , wherein an inner cabinet (3) is arranged in the interior of the lamp housing (2) and a buffer mechanism (4) is permanently installed between the inner cabinet (3) and the lamp housing (2), and a counterweight (5) is fixed to the bottom of the lamp housing (2) is installed; wherein the buffer mechanism comprises a first buffer mechanism (41) and a second buffer mechanism (42), wherein the first buffer mechanism (41) comprises at least one central shock absorbing column (411) and at least four peripheral shock absorbing columns (412), wherein the upper surface of the central shock absorbing column ( 411) is firmly installed on the underside of the inner cabinet (3), with the lower surface of the central shock absorbing column (411) firmly installed on the upper surface of the underside of the lamp housing (2), with the undersides of all peripheral shock absorbing columns (412) being firmly installed the upper surface of the underside of the lamp housing (2) are installed, the second buffer mechanism (42) being filled between the outer walls around the inner cabinet (3) and the outer walls around the lamp housing (2). Multidirectional shock-absorbing warning light for safety technology according to Claim 1 , characterized in that the number of the central shock absorbing pillars (411) is one, the number of the peripheral shock absorbing pillars (412) is six, and the peripheral shock absorbing pillars (412) are evenly distributed along the circumferential direction of the central shock absorbing pillar (411). Multidirectional shock-absorbing warning light for safety technology according to Claim 1 , characterized in that both the central shock-absorbing column (411) and the peripheral shock-absorbing columns (412) are compression springs. Multidirectional shock-absorbing warning light for safety technology according to Claim 1 , characterized in that the number of support columns (6) is four. Multidirectional shock-absorbing warning light for safety technology according to Claim 1 , characterized in that the rain cover (23) is an inclined structure with a high center and two low sides, and the rain cover (23) is fixed above the lamp housing (2) with screws. Multidirectional shock-absorbing warning light for safety technology according to Claim 1 , characterized in that the top of the movable roller (7) is provided with a shock absorbing spring (71). Multidirectional shock-absorbing warning light for safety technology according to Claim 1 , characterized in that the upper surface of the second buffer mechanism (42) is in contact with the outer walls around the inner cabinet (3), the lower surface of the second buffer mechanism (42) is in contact with the inner walls around the lamp housing (2) , and the second buffer mechanism (42) is a serpentine spring.

Images