TRACK LAMP WITH SWIVEL ARM

Abstract

 The invention discloses a track lamp, comprising an adapter, a swivel arm and a lamp body, wherein the swivel arm comprises a first rotating shaft in tight fit connection with the adapter, and the first rotating shaft is divided into a first rotating half shaft and a second rotating half shaft along the direction vertical to a first rotating central line. The rotating shaft of the swivel arm is arranged in a split mode along the direction perpendicular to the first rotating center line, so that the rotating shaft is more convenient to manufacture. The swivel arm can be formed by connecting the first rotating half shaft and the second rotating half shaft, which is more convenient to mount on the adapter. By splitting the swivel arm into two half casings each preferably being made of a different material, the friction and abrasive characteristics of each of the rotation axes can be adjusted conveniently, and manufacturing costs can be reduced significantly.

Description

Technical field

[0001] The present invention generally relates to lighting equipment, and relates in particular to a track lamp comprising a swivel arm rotatable in a plane in parallel to a mounting plane of a power supply track and rotatably supporting a lamp body.

Background of invention

[0002] In the field of lighting, in order to achieve the flexible application of lamps, the lamp body will be set to the form that can be rotated, which is especially the case for a track lamp, with an adapter that matches an associated power supply track, wherein the lamp body and the adapter are connected by a swivel arm, the lamp body can be rotated relative to the swivel arm, and the swivel arm can be rotated relative to the adapter, so that the lamp body enables the function of multi-angle lighting.

[0003] In the prior art, in order to achieve the rotational connection between the swivel arm and the adapter, the swivel arm is set up separately, including a connecting shaft provided on the adapter, wherein the connecting shaft is then fixedly connected to the main body of the swivel arm, and a plastic spacer for rotational stop is also required to be set in the connecting shaft and the adapter. This results in a complicated structure, the requirement of high manufacturing precision particularly for the connecting shaft, and in high overall costs.

[0004] Therefore, it becomes important to provide a track lamp of simple structure and low costs.

Summary of Invention

[0005] In view of this, the present invention provides a track lamp to solve the above technical problems.

[0006] According to the present invention there is provided track lamp comprising an adapter, a swivel arm and a lamp body, wherein the swivel arm comprises a first rotating shaft connected with the adapter in a tight fit mode. According to the present invention the first rotating shaft is divided into a first rotating half shaft and a second rotating half shaft along a direction of a first rotating center line.

[0007] According to a further embodiment, the connection surfaces of the first rotating half shaft and the second rotating half shaft coincide with the first rotating center line.

[0008] According to a further embodiment, the first rotating shaft is formed as a disc structure.

[0009] According to a further embodiment, the disc structure is provided with a ring-shaped clamping groove in the middle section.

[0010] According to a further embodiment, the adapter comprises a left housing and a right housing joined along a direction perpendicular to the first rotation center line, and the left housing and the right housing together clamp the first rotating shaft for a tight fit mounting.

[0011] According to a further embodiment, the swivel arm further comprises a second rotating shaft tightly fitted to the lamp body.

[0012] According to a further embodiment, the lamp body comprises a base for supporting the second rotating shaft and a pressing block for pressing the second rotating shaft against the base.

[0013] According to a further embodiment, the second rotating shaft comprises an inner shaft and an outer shaft sleeved on the inner shaft.

[0014] According to a further embodiment, the swivel arm is split into two halves and comprises an inner half-arm disposed close to the lamp body and an outer half-arm remote from the lamp body, wherein the first rotating half shaft and the outer shaft are integrally formed with the inner half arm, and the second rotating half shaft and the inner shaft are formed integrally with the outer half arm.

[0015] According to a further embodiment, the outer arm half is made of metal, in particular of a thin metal sheet.

[0016] According to a further embodiment, the inner arm half is formed of a plastic material that is highly resistant to abrasion, in particular of polyamide.

[0017] According to a further embodiment, a cavity is provided between the inner half-arm and the outer half-arm, for guiding a wire from the adapter to the lamp body.

Technical effects of the present invention.

[0018] In a track lamp according to the present invention, the rotating shaft of the swivel arm is arranged in a split mode along the direction of the first rotating center line, so that the rotating shaft is more convenient to manufacture. By first forming the first rotating half shaft and the second rotating half shaft and the connecting the two rotating half shafts to form a first rotating axis, the swivel arm is more convenient to be mount on a track adapter, and thus a standard high-voltage track adapter can be adopted. Moreover, by splitting the swivel arm into two half casings each preferably being made of a different material, the friction and abrasive characteristics of each of the rotation axes can be adjusted conveniently, and manufacturing costs can be reduced significantly.

Overview on Drawings

[0019] Hereinafter, the invention will be described with reference to the accompanying drawings, wherein:

Fig. 1 shows a schematic perspective top view of a track lamp of an embodiment according to the present invention;

Fig. 2 shows an exploded top view of the track lamp of the embodiment of Fig. 1;

Fig. 3 shows an exploded bottom view of the track lamp of the embodiment of Fig. 1;

Fig. 4 shows a schematic diagram of the three-dimensional structure of the swivel (rotating) arm of the embodiment of Fig. 1;

FIG. 5 is a cross-sectional schematic view of the track lamp of the embodiment of Fig. 1; and

Fig. 6 shows a partial view of a detail of the track lamp of the embodiment of Fig. 1.

[0020] Throughout the drawings, the like reference numerals designate the same or technically equivalent members or groups of members.

Detailed Description of Preferred Embodiments

[0021] Specific embodiments of the present invention will be described in further detail below based on the accompanying drawings. It should be understood that the description of the embodiments of the present invention here is not intended to limit the protection scope of the present invention.

[0022] As shown in Figs. 1 to 6, the track lamp of this embodiment comprises an adapter 100, a swivel arm 200 and a lamp body 300. At the end close to the adapter 100, the swivel arm 200 comprises a first rotating axis 201, which is divided into a first rotating half-axis 2011 and a second rotating half-axis 2012, which together define the first rotating axis 201 and each extend along a direction perpendicular to the first rotating centerline 2013. The configuration and function of the adapter 100 and lamp body 300 is generally known from the prior art except for the part connected to the swivel arm 200, so that details thereof will not be described in the following.

[0023] In the swivel arm 200 of the present embodiment, the first rotating shaft 201 is arranged split along the direction of the first rotating center line 2013, i.e. the first rotating shaft 201 consists of two separate bearing shells connected to each other. This structure is more convenient to manufacture, because the first rotating shaft 201 originally needs to be finished, and after being separated, the first rotating shaft can be directly formed by casting, thereby reducing the cost.

[0024] In this embodiment, the connection surfaces of the first rotating half shaft 2011 and the second rotating half shaft 2012 coincide with the first rotating center line 2013. The first rotating half shaft 2011 and the second rotating half shaft 2012 can be fixedly connected by means of screws (as shown in the drawings) or by other fixed connection methods.

[0025] The first rotation axis 201 is used for realizing a horizontal rotation of the track lamp, and maximum angle of the horizontal rotation can be limited by limiting protrusions, as generally known from prior art, so that there is no need to repeat details of this setting, and in this embodiment, maximum angle of the horizontal rotation may be set to 255 degrees.

[0026] In this embodiment, the first rotating axis 201 is formed as a disc structure. The disc structure offers more contact surfaces, increasing the friction surface, and rotation connection with damping can be obtained if the opposite contact surfaces are tightly mated, thereby enabling a smoother hand feeling of the rotating movement, when horizontally rotating the track lamp.

[0027] Further, in this embodiment, the middle section of the disc structure is provided with an annular (ring-shaped) clamping groove 2014, thereby increasing the contact surface with the adapter 100.

[0028] In this embodiment, the adapter 100 includes a left housing 101 and a right housing 102 split along the vertical first rotating center line 2013. The left housing 101 and the right housing 102 are formed as separate members that are connected with each other to clamp the first rotating shaft 201 properly and enable a tight-fit installation. The above structure is more convenient to manufacture and install. The inner shapes of the left housing 101 and right housing 102 in the region accommodating and supporting the first rotating shaft 201 correspond to the shape of the first rotating shaft 201. In this embodiment, the left housing 101 and right housing 102 are provided with grooves and faces adapted to the disc structure of the first rotating shaft 201. Moreover, the left housing 101 and right housing 102 are provided with annular clamping edges 103 inserted into the clamping grooves 2014 to clamp the first rotating shaft 201.

[0029] In this embodiment, the swivel arm 200 further comprises a second rotating shaft 202 tightly fitted and connected to the lamp body 300. As shown in Fig. 5, the lamp body 300 comprises a base 301 for mounting the second rotating shaft 202 and a pressing block 302 for pressing the second rotating shaft 202 against the base 301 to adjust the friction at the second rotating shaft 202. This structure is convenient to install and manufacture. The pressing block 302 is semicircular and fixed by screws on both sides, and the base 301 and the pressing block 302 are further provided with grooves for axially limiting the second rotating shaft 202. The base 301 and the lamp body 300 can be made of the same material, generally of metal and particularly of a thin metal sheet. On the other hand, the pressing block 302 can be made of a plastic material that is highly resistant to abrasion, particularly of polyamide, so that the track lamp according to the present invention has good fatigue resistance and can rotate more smoothly. Polyamide can be used e.g. in a low-pressure molding process for manufacturing the pressing block 302 at high precision.

[0030] In this embodiment, the splicing or splitting direction of the first rotating half shaft 2011 and the second rotating half shaft 2012 is parallel to the centerline of the second rotating shaft 202, that is, when the connecting surface of the first rotating half shaft 2011 and the second rotating half shaft 2012 is horizontal, the connecting surface is perpendicular to the centerline of the second rotating shaft 202.

[0031] The second rotating shaft 202 is used for realizing a vertical rotation of the lamp body 300, and is limited by arranging a protrusion, as is generally known from the prior art, so that details thereof need not be described here. In this embodiment, the maximum angle of the vertical rotation my be set to 220 degrees.

[0032] In this embodiment, the second rotating shaft 202 formed at the end of the swivel arm 200 opposite to the first rotating axis 201 comprises an inner shaft 2021 and an outer shaft 2022 sleeved or snapped on the inner shaft 2021, as shown in Fig. 5. As can be concluded from Figs. 2 and 3, the swivel arm 200 is split into two halves (casings) and comprises an inner half arm 203 disposed close to the lamp body 300 and an outer half arm 204 remote from the lamp body 300. While the first rotating half shaft 2011 and the outer shaft 2022 are integrally formed with the inner half arm 203, the second rotating half shaft 2012 and the inner shaft 2021 are formed integrally with the outer half arm 204. Preferably, the outer half arm 203 is made of metal such as aluminum alloy, steel and the like, in particular of a thin metal sheet by punching and stamping, whereas the inner half arm 202 is made of a plastic material that is highly resistant to abrasion, such as polyamide, and can be manufactured by an injection molding process, in particular low-pressure molding process. Overall, this results in a rotational support of the lamp body 300 which has high reliability and good fatigue resistance, makes the rotation arm 200 rotate more smoothly and stably, and can be manufactured at high precision at low costs.

[0033] With the above arrangement, a high mechanical strength and stability of the swivel arm 200 can be ensured, and the manufacturing cost can be reduced. Preferably, the inner shaft 2021 is made of metal, such as aluminum alloy, steel and the like, in particular of a thin metal sheet by punching and stamping, whereas the outer shaft 2022 is made of a plastic material that is highly resistant to abrasion, such as polyamide, and can be manufactured by an injection molding process, in particular low-pressure molding process.. Overall, this enables a mechanical strength and stability of the second rotating shaft 202, that can be manufactured at high precision at low costs, so that the rotation of the lamp body 300 can be smoother.

[0034] In this example, a cavity 205 is provided between the two casing halves of the swivel arm 200, namely between the inner arm half 203 and the outer arm half 204, that can be used to guide a wire from the adapter 100 to the lamp body 300 for supplying electric power to a light emitting element or a power supply disposed in the lamp body 300.

[0035] In this embodiment, the swivel arm 200 is L-shaped, which facilitates mounting the lamp body 300 stably. Moreover, the lamp body 300 includes a housing 303, a top cover 304, a power source 305, a heat sink 306 and a light emitting element 307, such as an LED-array. Further details of the lamp body 300 need not be described as they are generally known from the prior art, and, of course, the swivel arm according to the present invention can be adopted also to other forms of track lamps.

[0036] The adapter 100 is mated to a track (not shown in the drawings), that can be mounted on a horizontal mounting plane, such as a ceiling or a board of a shelf system, and can be moved along the track by sliding to an appropriate location for lighting and supplies electric power to the lamp. By means of the swivel arm 200 the lamp body 300 can be rotated about the first rotating shaft 201 in a horizontal plane, which is in general parallel to the horizontal mounting plane, as well as about the second rotating shaft 202 in a direction perpendicular to the horizontal mounting plane.

[0037] As will become apparent to the skilled person, the above describes only preferred exemplary embodiments of the present invention, and shall not be construed to delimit the scope of protection of the present invention. Any modification, equivalent replacement or improvement within the spirit of the present invention is to e covered by the appended claims and their scope of protection.

Claims

1. A track lamp comprising an adapter (100), a swivel arm (200) and a lamp body (300), wherein the swivel arm (200) comprises a first rotating shaft (201) connected with the adapter (100) in a tight fit mode,
characterized in that the first rotating shaft (201) is divided into a first rotating half shaft (2011) and a second rotating half shaft (2012) along a direction of a first rotating center line (2013).

2. The track lamp as claimed in claim 1, wherein the connection surfaces of the first rotating half shaft (2011) and the second rotating half shaft (2012) coincide with the first rotating center line (2013).

3. The track lamp as claimed in claim 1 or 2, wherein the first rotating shaft (201) is formed as a disc structure.

4. The track lamp as claimed in claim 3, wherein the disc structure is provided with a ring-shaped clamping groove (2014) in the middle section.

5. The track lamp as claimed in any of the preceding claims, wherein

the adapter (100) comprises a left housing (101) and a right housing (102) joined along a direction perpendicular to the first rotation center line (2013), and

the left housing (101) and the right housing (102) together clamp the first rotating shaft (201) for a tight fit mounting.

6. The track lamp as claimed in any of the preceding claims, wherein the swivel arm (200) further comprises a second rotating shaft (202) tightly fitted to the lamp body (300).

7. The track lamp as claimed in claim 6, wherein the lamp body (300) comprises a base (301) for supporting the second rotating shaft (202) and a pressing block (302) for pressing the second rotating shaft (202) against the base (301).

8. The track lamp of claim 6 or 7, wherein the second rotating shaft (202) comprises an inner shaft (202) and an outer shaft (2022) sleeved on the inner shaft (2021).

9. The track lamp according to claim 8, wherein the swivel arm (200) is split into two halves and comprises an inner half-arm (203) disposed close to the lamp body (400) and an outer half-arm (204) remote from the lamp body (300), wherein

the first rotating half shaft (2011) and the outer shaft (2022) are integrally formed with the inner half arm (203), and

the second rotating half shaft (2012) and the inner shaft (2021) are formed integrally with the outer half arm (204).

10. The track lamp as claimed in claim 9, wherein the outer arm half (203) is made of metal, in particular of a thin metal sheet.

11. The track lamp of claim 10, wherein the inner arm half (202) is formed of a plastic material that is highly resistant to abrasion, in particular of polyamide.

12. The track lamp as claimed in any of claims 9 to 11, wherein a cavity (205) is provided between the inner half-arm (203) and the outer half-arm (204), for guiding a wire from the adapter (100) to the lamp body (300).

Drawing