Split type single-buckle lamp

The present disclosure relates to the technical field of lamps, and discloses a split type single-buckle lamp. The split type single-buckle lamp includes an inner lamp holder, and a bulb in threaded connection with the inner lamp holder; the inner lamp holder is connected with a live conductor wire; a split type outer lamp holder sleeves the inner lamp holder; the outer lamp holder includes a first housing and a second housing which are buckled with each other. Furthermore, the first housing and the second housing are connected in a single-buckle manner, so that the outer lamp holder is replaceable and has high flexibility. The single-buckle design effectively improves the assembling efficiency of the outer lamp holder.

TECHNICAL FIELD

The present disclosure relates to the technical field of lamps, in particular to a split type single-buckle lamp.

BACKGROUND

With the development of science and technology, various types of lamps are constantly appearing. An outdoor lamp, as one type, is a lighting lamp exposed for outdoor use. The outdoor lamp can usually be combined with surrounding roads, landscapes, and buildings for lighting design and mounting, to achieve the unity of its function and artistry, and achieve effects of large-area lighting and decoration in surrounding regions.

Chinese patent No. CN202220806100.3 discloses a lamp with an improved bulb fitting structure, including a lamp holder and a bulb connected to the lamp holder. The lamp holder includes an inner lamp holder and an outer lamp holder; the bulb is connected to the inner lamp holder; and the inner lamp holder is nested inside the outer lamp holder. Although the inner lamp holder is nested inside the outer lamp holder in the prior art, which allows a bulb with a large volume to be connected to a small-sized lamp holder, thereby reducing the power consumption of a string light and saving the use costs, a forming method of the outer lamp holder is direct integrated encapsulation and injection molding outside the inner lamp holder. This connection manner makes it impossible to separate and replace the inner lamp holder and the outer lamp holder. The flexibility of the lamp is low. Once the outer lamp holder of the lamp is damaged, the entire lamp is scrapped. Even if other components are in good conditions, this will lead to a significant increase in the production and use costs of the lamp, which cannot meet the demands of customers. In view of this, the inventor has made a new invention.

SUMMARY

The present disclosure aims to overcome the shortcomings in the prior art and provide a split type single-buckle lamp, which has the characteristics of high flexibility and low cost.

In order to achieve the above objective, the present disclosure discloses a split type single-buckle lamp, including an inner lamp holder, and a bulb in threaded connection with the inner lamp holder; the inner lamp holder is connected with a live conductor wire; a split type outer lamp holder sleeves the inner lamp holder; the outer lamp holder includes a first housing and a second housing which are buckled with each other; a positioning ring for assisting in housing buckling is arranged at an upper end portion of the first housing; a buckling position is arranged in the middle of a lower end of the first housing; a buckling tongue matched with the buckling position is arranged in the middle of a lower end of the second housing; the first housing and the second housing are buckled with each other to form an accommodating position used for accommodating the inner lamp holder, and a wire accommodating channel for allowing the live conductor wire to pass; the split type single-buckle lamp further includes an outer bulb shell; the outer bulb shell sleeves the bulb; and the outer bulb shell is connected to the outer lamp holder.

Preferably, an annular assembling portion is arranged at an upper end of the second housing; and the annular assembling portion is of a structure having a narrow top and a wide bottom.

Preferably, a plurality of groups of first positioning blocks are symmetrically arranged at a side portion of the first housing; and a plurality of first clamping positions matched with the first positioning blocks are arranged at a side portion of the second housing.

Preferably, plug connectors are further arranged on two sides of the buckling tongue; and plugging positions into which the plug connectors are plugged are correspondingly arranged on two sides of the buckling position.

Further, two sides of the first housing outwards extend to form first semicircular slots with openings; two sides of the second housing outwards extend to form second semicircular slots with openings; both the first semicircular slots and the second semicircular slots are communicated with the accommodating position; and the first semicircular slots and the second semicircular slots cooperate with each other to form the wire accommodating channel.

Preferably, a group of second positioning blocks are symmetrically arranged at the first semicircular slots; and a group of second clamping positions matched with the second positioning blocks are correspondingly arranged at the second semicircular slots.

Preferably, a plurality of stoppers used for limiting a position of the inner lamp holder are arranged on an inner wall of the accommodating position.

Preferably, a suspension loop for suspending and positioning the bulb is further arranged at a bottom end of the first housing.

Preferably, the suspension loop partially protrudes out of the first housing, and the second housing is correspondingly provided with a gap used for accommodating the suspension loop.

Preferably, an opening through which the bulb is placed is formed in the accommodating position; a threaded portion is arranged at the end of the accommodating position provided with the opening; and the outer bulb shell is in threaded connection with the outer lamp holder through the threaded portion.

Beneficial effects: Compared with the prior art, the present disclosure is a split type single-buckle lamp, including an inner lamp holder, and a bulb in threaded connection with the inner lamp holder; the inner lamp holder is connected with a live conductor wire; a split type outer lamp holder sleeves the inner lamp holder; and the outer lamp holder includes a first housing and a second housing which are buckled with each other. The present disclosure has the following advantages: 1. The outer lamp holder is of a split type, so that the outer lamp holder is removable and replaceable, has high flexibility, and effectively reduces the use cost. 2. A large-volume bulb can be connected to a small-sized lamp holder, which saves the power consumption of the lamp, saves metal materials for the lamp holder, and reduces the production cost. 3. The outer lamp holder is positioned by the positioning ring at the top end and is assembled by the single buckle at the bottom end, so that the assembling efficiency is high, and the structure is firm.

REFERENCE NUMERALS INCLUDE

DETAILED DESCRIPTION OF THE EMBODIMENTS

The present disclosure is described in detail below in combination ofFIG.1-FIG.6.

The present disclosure discloses a split type single-buckle lamp, including an inner lamp holder1, and a bulb2in threaded connection with the inner lamp holder1. The inner lamp holder1is connected with a live conductor wire3. A split type outer lamp holder4sleeves the inner lamp holder1. The outer lamp holder4includes a first housing41and a second housing42which are buckled with each other. A positioning ring411for assisting in housing buckling is arranged at an upper end portion of the first housing41. A buckling position412is arranged in the middle of a lower end of the first housing41. A buckling tongue421matched with the buckling position412is arranged in the middle of a lower end of the second housing42. The first housing41and the second housing42are connected in a single-buckle manner through the buckling tongue421and the buckling position412, and the first housing41and the second housing42are buckled with each other to form an accommodating position5used for accommodating the inner lamp holder, and a wire accommodating channel6for allowing the live conductor wire3to pass; the split type single-buckle lamp further includes an outer bulb shell10; the outer bulb shell10sleeves the bulb2; and the outer bulb shell10is connected to the outer lamp holder4.

The outer lamp holder4of the present disclosure is of a split type structure. If it is broken, the outer lamp holder4can be removed for replacement. The outer lamp holder4has high flexibility and will not significantly increase the use cost of the lamp and not cause a waste of parts of the lamp. Then, the positioning ring411used for positioning the second housing42is arranged at the top of the first housing41, so that the second housing42can be quickly positioned, which significantly improves the assembling efficiency of the outer lamp holder4. Furthermore, the first housing41and the second housing42are only assembled by the single-buckle device at the bottom, so that the connected structure is simple. The single-buckle device is combined with the positioning ring411, so that the first housing41and the second housing42are connected firmly. On the other hand, the lamp adopts two lamp holders. A metal copper sleeve inside the outer lamp holder4is directly replaced with the inner lamp holder1, so that the lamp holder can be connected to the bulb2with a small-sized lamp cap, which saves the power consumption of a string light and can also save metal materials inside the lamp holder and reduce the production cost.

In the technical solution, the positioning ring411integrally formed at the top end of the first housing41has a relatively small thickness, so that the positioning ring411has certain plasticity. After the outer bulb shell10is connected to the outer lamp holder4, the outer bulb shell10tightly abuts against the positioning ring411to seal the end of the accommodating position5provided with the opening52, so that external water cannot enter the lamp from the opening52of the accommodating position5, which effectively improves the waterproof performance of the lamp.

As a preference, an annular assembling portion422is arranged at an upper end of the second housing42, and the annular assembling portion422is of a structure having a narrow top and a wide bottom. During assembling of the outer lamp holder4, the entire annular assembling portion422is assembled into the positioning ring411to quickly position the second housing42and improve the assembling efficiency. Furthermore, since the entire annular assembling portion422is assembled into the positioning ring411, the annular assembling portion422has an effect of assisting in fixing the second housing42, and the annular assembling portion422can be combined with the single-buckle device at the bottom to improve the assembling firmness.

As a further improved technical solution, a plurality of groups of first positioning blocks413are symmetrically arranged at a side portion of the first housing41; and a plurality of first clamping positions423matched with the first positioning blocks413are arranged at a side portion of the second housing42. After the annular assembling portion422basically positions the second housing42, the inventor further arranges positioning structures at two side portions of the first housing41and the second housing, to assist in precisely positioning the side portions of the two housings. When the various first positioning blocks413are not aligned with the first clamping positions423, the two housings cannot be assembled or are assembled incompletely.

As a further improved technical solution, plug connectors424are further arranged on two sides of the buckling tongue421, and plugging positions414into which the plug connectors424are plugged are correspondingly arranged on two sides of the buckling position412. The plug connectors424have effects of improving the connecting strength and improving the structural firmness.

In the technical solution, two sides of the first housing41outwards extend to form first semicircular slots7with openings; two sides of the second housing42outwards extend to form second semicircular slots8with openings; and both the first semicircular slots7and the second semicircular slots8are communicated with the accommodating position5. After the first housing41and the second housing42are buckled with each other, the first semicircular slots7and the second semicircular slots8cooperate with each other to form the wire accommodating channel6, so that the live conductor wire3is threaded out of the lamp holders from both sides, and at the same time, the live conductor wire3is limited. The beautiful degree of the lamp is improved, and the sense of abruptness caused by the fact that the conductor wire is threaded out of the lamp holders is reduced.

As a further improved technical solution, a group of second positioning blocks71are symmetrically arranged at the first semicircular slots7; and a group of second clamping positions81matched with the second positioning blocks71are correspondingly arranged at the second semicircular slots8. The second positioning blocks71have a positioning effect. The semicircular slots can be successfully assembled only when the second positioning blocks71are aligned with the second clamping positions81.

As an embodiment, a plurality of stoppers51used for limiting a position of the inner lamp holder1are arranged on an inner wall of the accommodating position5. According toFIG.5andFIG.6, it can be known that the plurality of stoppers51are uniformly distributed on inner walls of the first housing41and the second housing42. When the inner lamp holder1is put into the accommodating position5, the symmetrically arranged stoppers51form a small-sized stop slot to limit the position of the inner lamp holder1. The stoppers51are of sheet-like structures, so as to save the production cost.

In order to further improve the practicability of the lamp, a suspension loop9for suspending and positioning the bulb2is further arranged at a bottom end of the first housing41. Due to the suspension loop9, the lamp can be suspended and positioned at more outdoor scenarios, for example, a tree and a wall, so that the application range of the lamp is expanded.

In the technical solution, the suspension loop9partially protrudes out of the first housing41, and the second housing42is correspondingly provided with a gap415used for accommodating the suspension loop9. By this setting manner, after the first housing41and the second housing42are assembled, the positioning ring411is always located at a center of the bottom of the outer lamp holder4, so that during suspension, the lamp will not tilt towards one side, and the lamp has a better decorative effect. Meanwhile, the gap415is convenient for unbuckling the corresponding buckle with a tool, so that it is convenient to maintain the lamp and replace the outer lamp holder4.

As shown inFIG.3, an opening52through which the bulb2is placed is formed in the accommodating position5; a threaded portion53is arranged at the end of the accommodating position5provided with the opening52; and the outer bulb shell10is in threaded connection with the outer lamp holder4through the threaded portion53. After the bulb2is sleeved with the outer bulb shell10, a unique sense of beauty is achieved by lighting up the bulb2, which effectively improves the decorative effect of the lamp. Meanwhile, the outer bulb shell10can protect the bulb2inside to prolong the service life of the lamp.

The above contents are only preferred embodiments of the present disclosure. Those of ordinary skill in the art can make changes to the specific implementations and application scopes according to the idea of the present disclosure, and the contents of this specification shall not be understood as restrictions to the present disclosure.