CN109882770A - It is a kind of can bidirectional modulation spot size lamps and lanterns - Google Patents

Abstract

The present invention relates to it is a kind of can bidirectional modulation spot size lamps and lanterns, including the interior spherical lamp body for setting installation space, light source heat radiation mould group and lens module, light source heat radiation mould group and lens module are mounted in the installation space of spherical lamp body and can be respectively up and down to adjust the spacing between light source heat radiation mould group and lens module in the installation space of spherical lamp body.The present invention can be by adjusting light source heat radiation mould group or lens module respectively, keep it up and down in the installation space of spherical lamp body, it can reach the purpose for adjusting the spacing between light source heat radiation mould group and lens module, to achieve the purpose that the size of bidirectional modulation lamps and lanterns hot spot.

Description

It is a kind of can bidirectional modulation spot size lamps and lanterns

Technical field

The present invention relates to technical field of lamps, more particularly, to it is a kind of can bidirectional modulation spot size lamps and lanterns.

Background technique

In places such as museum, the Art Museum, exhibition centers, some materials are gold, silver, copper, the implements of jade, calligraphy and painting, spectacular Deng can all be placed on inside a special cabinet, be show stand, surrounding below cabinet be glass structure, top is mounted lamp It is fit with the box of electric appliance etc.；There are two types of glass structures, cannot open one is completely enclosed, another kind is that have a surface glass can To open；Fit also to exist there are two types of mode: one is that can open its upper cover after mounted lamp on zoarium, another kind is to close Its upper cover cannot be opened after mounted lamp on body；It and is that completely enclosed or fit upper cover cannot be opened in glass structure In the case where, when showing the showpiece of different sizes, the hot spot of lamps and lanterns is also unadjustable, influences bandwagon effect.

Summary of the invention

In order to solve the above technical problems, The present invention provides it is a kind of can bidirectional modulation spot size lamps and lanterns.

It is a kind of can bidirectional modulation spot size lamps and lanterns, including the interior spherical lamp body for setting installation space, light source heat radiation mould group And lens module, the light source heat radiation mould group and lens module are mounted in the installation space of the spherical lamp body and can distinguish It is up and down in the installation space of the spherical lamp body, between adjusting between the light source heat radiation mould group and lens module Away from.

Further, as optimal technical scheme, the contact surface of the light source heat radiation mould group and the spherical lamp body it Between be equipped with the first damping piece, the light source heat radiation mould group is by first damping piece in the installation space of the spherical lamp body It is up and down；The second damping piece, the lens module are equipped between the lens module and the contact surface of the spherical lamp body It is up and down in the installation space of the spherical lamp body by second damping piece.

Further, as optimal technical scheme, wall is equipped with only for one week along the spherical lamp body in the globe lamp body Retaining ring, the light source heat radiation mould group are mounted on the upper end of the spherical lamp body and the activity above the Sealing shield ring；The lens Mould group is mounted on the lower end of the spherical lamp body and in the Sealing shield ring underside.

Further, as optimal technical scheme, along the light source heat radiation mould group on the light source heat radiation mould group outer wall It is equipped with the first annular groove for installing first damping piece within outer wall one week；Along the lens mould on the lens module outer wall It is equipped with the second annular groove for installing second damping piece within group outer wall one week.

Further, as optimal technical scheme, along the light source heat radiation mould group on the light source heat radiation mould group outer wall It is protruding within outer wall one week first annular chuck, the first annular groove is located in the first annular chuck；In the lens The second annular chuck is protruding within one week along the lens module outer wall on mould group outer wall, and the second annular groove is located at described the In second ring chuck.

Further, as optimal technical scheme, in the top and bottom of the spherical lamp body respectively to the globe lamp Extend third annular chuck and fourth annular chuck in the installation space of body, when the light source heat radiation mould group activity to the ball When shape lamp body upper end, the third annular chuck offsets with the first annular chuck to limit the light source heat radiation mould group Position, when the lens module activity to the spherical lamp body lower end, the fourth annular chuck and second annular chuck It offsets to be limited to the lens module.

Further, as optimal technical scheme, the spherical shape lamp body includes the first hemispherical lamp body to match and the Two hemispherical lamp bodies, the first hemispherical lamp body and the second hemispherical lamp body are connected by Sealing shield ring；The third annular snap Platform is located at the upper end of the first hemispherical lamp body, and the fourth annular chuck is located at the lower end of the second hemispherical lamp body.

Further, as optimal technical scheme, the lamps and lanterns further include the interior face ring and retaining ring for being equipped with installation space, The face ring is set in the globe lamp and is used to install the spherical lamp body in vitro after connecting with the retaining ring button bit；Described Face ring inner wall is equipped with the third damping piece to offset with the globe lamp contact level, is equipped with and the ball in the retaining ring inner wall The 4th damping piece that shape lamp body contact surface offsets, the spherical shape lamp body is by the third damping piece and the 4th damping piece described Rotation in the installation space of face ring and retaining ring.

Further, as optimal technical scheme, the third for installing the third damping piece is equipped in the face ring inner wall Annular groove is equipped with the fourth annular groove for installing the 4th damping piece in the retaining ring inner wall.

Further, as optimal technical scheme, the light source heat radiation mould group includes radiator and is mounted on described scattered LED light source in hot device；The lens module includes lens sleeve and the lens that are mounted in the lens sleeve, described Lens sleeve inner wall is equipped with the 5th annular groove, and the lens are mounted in the 5th annular groove by fixing piece, in institute State lens sleeve inner wall and be additionally provided with the 5th annular chuck, the 5th annular chuck be located at below the 5th annular groove and with The lens offset.

Compared with prior art, the beneficial effect of technical solution of the present invention is: the present invention passes through in light source heat radiation mould group Second damping piece of the outer wall setting of the first damping piece and lens module of outer wall setting makes light source heat radiation mould group and lens mould Group difference can be up and down in globe lamp body, so that can be by moving up and down light source heat radiation mould group or lens module Reach the spacing adjusted between light source heat radiation mould group and lens module, to achieve the purpose that change the size of lamps and lanterns hot spot, meets In the places such as museum, the Art Museum, exhibition center, glass structure is the feelings that completely enclosed or fit upper cover cannot be opened Under condition, the size of equal adjustable luminaire hot spot makes it meet the showpiece of different sizes；Meanwhile by face ring and locking The third damping piece being in contact with spherical lamp body and the 4th damping piece being arranged in ring, so that spherical lamp body can be in face ring and locking It rotates horizontally in ring and rotates vertically.

Detailed description of the invention

Fig. 1 is explosive view of the present invention.

Fig. 2 is structure of the invention figure.

Fig. 3 is structure of the invention figure.

Fig. 4 is sectional view of the present invention.

Fig. 5 is sectional view of the present invention.

Fig. 6 is sectional view of the present invention.

Fig. 7 is sectional view of the present invention.

Specific embodiment

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawing, so that advantages and features of the invention are more It is easily readily appreciated by one skilled in the art, to make apparent define to protection scope of the present invention.

Embodiment 1:

It is a kind of can bidirectional modulation spot size lamps and lanterns, as shown in Figs. 1-3: including interior spherical lamp body 1, the light source for setting installation space Heat radiation module 2, lens module 3 and interior face ring 6 and retaining ring 7 equipped with installation space；Light source heat radiation mould group 2 and lens module 3 are mounted in the installation space of spherical lamp body 1 and can be up and down in the installation space of spherical lamp body 1 respectively, to adjust light Spacing between source heat-dissipating mould group 2 and lens module 3；The is equipped between light source heat radiation mould group 2 and the contact surface of spherical lamp body 1 One damping piece 4, light source heat radiation mould group 2 are up and down in the installation space of spherical lamp body 1 by the first damping piece 4；In lens The second damping piece 5 is equipped between mould group 3 and the contact surface of spherical lamp body 1, lens module 3 is by the second damping piece 5 in globe lamp It is up and down in the installation space of body 1.Therefore, light source heat radiation mould group 2 can be made by the first damping piece 4 in spherical lamp body 1 respectively It is interior up and down, or keep lens module 3 up and down in spherical lamp body 1 by the second damping piece 5, to adjust light source heat radiation Spacing between mould group 2 and lens module 3, achieve the purpose that change lamps and lanterns spot size, meet museum, the Art Museum, In the places such as exhibition center, glass structure is equal adjustable luminaire in the case that completely enclosed or fit upper cover cannot be opened The size of hot spot makes it meet the showpiece of different sizes.

In the present invention, as shown in Figure 7: face ring 6 is set in outside globe lamp body 1 for pacifying after connecting with 7 button bit of retaining ring Fill spherical lamp body 1, be equipped with the third damping piece 8 inconsistent with spherical lamp body 1 in 6 inner wall of face ring, 7 inner wall of retaining ring be equipped with The 4th inconsistent damping piece 9 of spherical lamp body 1 is equipped with the third annular groove of installation third damping piece 8 in 6 inner wall of face ring, 7 inner wall of retaining ring is equipped with the fourth annular groove of the 4th damping piece 9 of installation；Spherical lamp body 1 passes through third damping piece 8 and the 4th resistance Damping member 9 rotates in the installation space of face ring 6 and retaining ring 7；By being arranged in face ring 6 and retaining ring 7 with spherical lamp body 1 The third damping piece 8 and the 4th damping piece 9 being in contact so that spherical lamp body 1 can be rotated horizontally in face ring 6 and retaining ring 7 with Vertical rotation can reach 360 ° of level and rotate without dead angle, vertical 0-35 ° of rotation.

In the present invention, as Figure 4-Figure 6: light source heat radiation mould group 2 includes radiator and the LED being mounted in radiator Light source；Lens module 3 include lens sleeve 32 and be mounted in lens sleeve 32 lens 33, set in 32 inner wall of lens sleeve There is the 5th annular groove, lens 33 are mounted in the 5th annular groove by circlip 34, are additionally provided with the in 32 inner wall of lens sleeve Five annular chucks 321, the 5th annular chuck 321 is located at below the 5th annular groove and offsets with lens 33, to prevent lens 33 It falls off.Wherein, LED light source is oppositely arranged with lens 33.

Sealing shield ring 13 is equipped within 1 one weeks along spherical lamp body in spherical 1 inner wall of lamp body, in the top and bottom of spherical lamp body 1 point Do not extend third annular chuck 111 and fourth annular chuck 121, light source heat radiation mould group 2 into the installation space of spherical lamp body 1 It is mounted on the upper end of spherical lamp body 1, the first damping piece 4 being arranged thereon can be between Sealing shield ring 13 and third annular chuck 111 Activity；Lens module 3 is mounted on the lower end of spherical lamp body 1, and the second damping piece 5 being arranged thereon can be at Sealing shield ring 13 and Fourth Ring It is movable between shape chuck 121.

The first of the first damping piece 4 of installation was equipped with along 2 outer wall of light source heat radiation mould group one week on 2 outer wall of light source heat radiation mould group Annular groove is protruding with first annular chuck 21 for one week along 2 outer wall of light source heat radiation mould group on 2 outer wall of light source heat radiation mould group, the One annular groove is located in first annular chuck 21；Installation the was equipped with along 3 outer wall of lens module one week on 3 outer wall of lens module The second annular groove of two damping pieces 5 is protruding with the second annular snap in one week along 3 outer wall of lens module on 3 outer wall of lens module Platform 31, second annular groove are located in the second annular chuck 31.Preferably, first annular chuck 21 is located at light source heat radiation mould group 2 The middle lower end position of outer wall, the second annular chuck 31 are located at the middle upper end position of 3 outer wall of lens module, in the present embodiment, the One annular chuck 21 is located at the middle position of 2 outer wall of light source heat radiation mould group, and the second annular chuck 31 is located at 3 outer wall of lens module Upper end position.

When 2 activity of light source heat radiation mould group to spherical 1 upper end of lamp body, third annular chuck 111 and first annular chuck 21 It offsets to be limited to light source heat radiation mould group 2, when 3 activity of lens module to spherical 1 lower end of lamp body, fourth annular chuck 121 offset with the second annular chuck 31 to limit to lens module 3.

In the present invention, spherical lamp body 1 includes interior the first hemispherical lamp body 11 and second for setting installation space and matching Hemispherical lamp body 12, the first hemispherical lamp body 11 and the second hemispherical lamp body 12 are connected by Sealing shield ring 13；Light source heat radiation mould group 2 It is mounted in the first hemispherical lamp body 11, lens module 3 is mounted in the second hemispherical lamp body 12；Third annular chuck 111 In the upper end of the first hemispherical lamp body 11, fourth annular chuck 121 is located at the lower end of the second hemispherical lamp body 12, works as light source heat radiation In the first hemispherical lamp body 11 when upward activity to upper end, first annular chuck 21 offsets mould group 2 with third annular chuck 111 To limit to light source heat radiation mould group 2, prevent light source heat radiation mould group 2 from skidding off the first hemispherical lamp in the process movable upwards Body 11；When lens module 3 is moveed downward in the second hemispherical lamp body 12 to lower end, the second annular chuck 31 and fourth annular Chuck 121 offsets to limit to lens module 3, prevents lens module 3 from skidding off the second hemisphere in the process movable upwards Shape lamp body 12.

In the present embodiment, moving distance of the light source heat radiation mould group 2 in the first hemispherical lamp body 11 is third annular snap For platform 111 to the spacing between Sealing shield ring 13, moving distance of the lens module 3 in the second hemispherical lamp body 12 is fourth annular card Platform 121 is to the spacing between Sealing shield ring 13；Stop circle 13 plays the role of stop and connection；The damping of first damping piece 4, second Part 5, third damping piece 8, the 4th damping piece 9 include silica gel ring, which plays the role of smooth adjusting and angle positioning.

Embodiments of the present invention are explained in detail above in conjunction with attached drawing, but the present invention is not limited to above-mentioned implementations Mode within the knowledge of a person skilled in the art can also be without departing from the purpose of the present invention Various changes can be made.

Claims (10)

1. one kind can bidirectional modulation spot size lamps and lanterns, which is characterized in that including the interior spherical lamp body (1) for setting installation space, Light source heat radiation mould group (2) and lens module (3), the light source heat radiation mould group (2) and lens module (3) are mounted on the spherical shape And can be up and down in the installation space of the spherical lamp body (1) respectively in the installation space of lamp body (1), to adjust the light Spacing between source heat-dissipating mould group (2) and lens module (3).

2. it is according to claim 1 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the light source heat radiation mould The first damping piece (4) are equipped between group (2) and the contact surface of the spherical lamp body (1), the light source heat radiation mould group (2) passes through institute It is up and down in the installation space of the spherical lamp body (1) to state the first damping piece (4)；The lens module (3) with it is described The second damping piece (5) are equipped between the contact surface of spherical lamp body (1), the lens module (3) passes through second damping piece (5) It is up and down in the installation space of the spherical lamp body (1).

3. it is according to claim 2 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the spherical lamp body (1) inner wall is equipped with Sealing shield ring (13) in (1) one week along the spherical lamp body, and the light source heat radiation mould group (2) is mounted on the spherical shape The upper end of lamp body (1) and the activity above the Sealing shield ring (13)；The lens module (3) is mounted on the spherical lamp body (1) Lower end and in the Sealing shield ring (13) underside.

4. it is according to claim 3 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the light source heat radiation mould It was equipped on group (2) outer wall along the light source heat radiation mould group (2) outer wall one week and the first annular recessed of first damping piece (4) is installed Slot；It is equipped within outer wall one week on the lens module (3) outer wall along the lens module (3) and second damping piece (5) is installed Second annular groove.

5. it is according to claim 4 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the light source heat radiation mould It is protruding with first annular chuck (21) within outer wall one week on group (2) outer wall along the light source heat radiation mould group (2), it is described first annular recessed Slot position is on the first annular chuck (21)；Along the lens module (3) outer wall one week on the lens module (3) outer wall It is protruding with the second annular chuck (31), the second annular groove is located on second annular chuck (31).

6. it is according to claim 5 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the spherical lamp body (1) extend third annular chuck (111) and the 4th into the installation space of the spherical lamp body (1) respectively in top and bottom Annular chuck (121), when light source heat radiation mould group (2) activity to described spherical lamp body (1) upper end, the third annular snap Platform (111) offsets with the first annular chuck (21) to limit to the light source heat radiation mould group (2), when the lens mould When group (3) activity to described spherical lamp body (1) lower end, the fourth annular chuck (121) and second annular chuck (31) It offsets to be limited to the lens module (3).

7. it is according to claim 6 can bidirectional modulation spot size lamps and lanterns, which is characterized in that it is described spherical shape lamp body (1) Including the first hemispherical lamp body (11) and the second hemispherical lamp body (12) to match, the first hemispherical lamp body (11) and Two hemispherical lamp bodies (12) are connected by Sealing shield ring (13)；The third annular chuck (111) is located at the first hemispherical lamp The upper end of body (11), the fourth annular chuck (121) are located at the lower end of the second hemispherical lamp body (12).

8. it is according to claim 1 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the lamps and lanterns further include Face ring (6) and retaining ring (7) equipped with installation space, the face ring (6) are set in institute after connecting with the retaining ring (7) button bit Spherical lamp body (1) is stated outside for installing the spherical lamp body (1)；It is equipped with and the spherical lamp body (1) in the face ring (6) inner wall The third damping piece (8) that contact surface offsets is equipped in the retaining ring (7) inner wall and offsets with described spherical lamp body (1) contact surface The 4th damping piece (9), it is described spherical shape lamp body (1) by the third damping piece (8) and the 4th damping piece (9) in the face ring (6) and in the installation space of retaining ring (7) it rotates.

9. it is according to claim 8 can bidirectional modulation spot size lamps and lanterns, which is characterized in that in the face ring (6) Wall is equipped with the third annular groove for installing the third damping piece (8), is equipped with installation the described 4th in the retaining ring (7) inner wall The fourth annular groove of damping piece (9).

10. it is according to claim 1 can bidirectional modulation spot size lamps and lanterns, which is characterized in that the light source heat radiation mould Group (2) includes radiator and the LED light source that is mounted in the radiator；The lens module (3) includes lens sleeve (32) and the lens (33) of (32) are mounted in the lens sleeve, are equipped with the 5th annular in the lens sleeve (32) inner wall Groove, the lens (33) are mounted in the 5th annular groove by fixing piece (34), in the lens sleeve (32) Wall is additionally provided with the 5th annular chuck (321), the 5th annular chuck (321) be located at below the 5th annular groove and with institute Lens (33) are stated to offset.