CN110802001A

CN110802001A - Many sizes are LED lamps and lanterns for regulation encapsulating with assisting utensil

Info

Publication number: CN110802001A
Application number: CN201911110745.2A
Authority: CN
Inventors: 胡广; 储昭学
Original assignee: ANHUI LANRUI ELECTRONICS TECHNOLOGY Co Ltd
Current assignee: ANHUI LANRUI ELECTRONICS TECHNOLOGY Co Ltd
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2020-02-18
Anticipated expiration: 2039-11-14
Also published as: CN110802001B

Abstract

The invention relates to an auxiliary tool for glue filling of an LED lamp for multi-size adjustment, which comprises an A supporting piece and a B supporting piece which are arranged at intervals, wherein the upper part of the A supporting piece is provided with a supporting surface for supporting the middle part of the lower surface of the lamp, the B supporting piece is provided with a clamping groove for clamping a local lamp body at the lower end of the height of the lamp, the notch of the clamping groove points to the A supporting piece, the height of the clamping groove is lower than that of the supporting surface, the groove width of the clamping groove is matched with the vertical direction, and the groove width of the clamping groove. The middle of the lower surface of the lamp is supported by the upper surface of the support piece A, the clamping groove is formed in the support piece B, the height of the clamping groove is lower than that of the support surface, and the clamping groove is used for clamping a local lamp body at the lower end of the lamp, so that the aim of positioning and clamping the lamp to be filled with glue is fulfilled; the groove width of the clamping groove is matched with the vertical direction, and the groove width of the clamping groove can be adjusted, so that the clamping positioning device can meet the clamping positioning requirements of lamps with different sizes.

Description

Many sizes are LED lamps and lanterns for regulation encapsulating with assisting utensil

Technical Field

The invention relates to the field of lamp production equipment, in particular to an auxiliary tool for glue filling of a multi-size-adjustable LED lamp.

Background

In the lamp assembling process, the wiring board needs to be subjected to glue pouring treatment. When the glue is poured, the outer shell surface or the lamp holder of the lamp is arranged on the workbench downwards, so that the cavity opening of the lamp holder to be poured with the glue is arranged upwards. Since the outer surface of the lamp or the inner surface of the lamp holder (hereinafter, referred to as the lower surface of the lamp, the lower surface is the lower surface in the state where the lamp is in the glue-pouring state, and not the lower surface in the correct assembly state after the lamp is used) is a special-shaped surface, and the shapes of different lamps are different, it is difficult to reliably clamp and fix lamps of various shapes during the glue-pouring process, so that the cavity opening of the glue to be poured faces upward. Therefore, there is a need for a positioning fixture/device for lamp glue filling that is more convenient and simple to operate.

Disclosure of Invention

The invention aims to provide an auxiliary tool for glue pouring of a multi-size LED lamp for adjustment, which can meet the positioning requirements of lamps with different sizes.

The technical scheme adopted by the invention is as follows.

The utility model provides a many sizes are adjusted with LED lamps and lanterns encapsulating and are used assistive device, includes A support piece and the B support piece of interval arrangement, A support piece upper portion has the holding surface that supports lamps and lanterns lower surface middle part, has the draw-in groove that is used for the high lower part of clamping lamps and lanterns local lamp body on the B support piece, the directional A support piece of notch of draw-in groove, the height that highly is less than the holding surface of draw-in groove, the groove width and the vertical direction phase-match of draw-in groove, the groove width of draw-in groove can be adjusted.

Preferably, the clamping groove consists of a B1 groove piece part and a B2 groove piece part which are arranged on the B supporting piece at intervals up and down, the B1 groove piece part and/or the B2 groove piece part are/is connected with a groove width adjusting mechanism, and the groove width adjusting mechanism adjusts the groove width of the clamping groove.

Preferably, the groove width adjusting mechanism comprises a B1 groove width adjusting part and a B2 groove width adjusting part which are positioned at two ends of the B support member, and the B1 groove width adjusting part and the B2 groove width adjusting part synchronously adjust the groove width of the clamping grooves at two ends of the B support member.

Preferably, two ends of the B support piece are installed on the rack through the B installation seat, two ends of the B1 trough piece part and/or the B2 trough piece part are assembled with the B installation seat in a sliding mode along a direction a, and an included angle formed by the direction a and the groove width of the clamping groove is not equal to 90 degrees.

Preferably, the slot width adjustment mechanism is connected to the B1 and B2 slot parts, respectively.

Preferably, the angle formed by the direction a and the slot width of the slot is 45 °.

Preferably, the structure of the B1 groove width adjusting part is the same as that of the B2 groove width adjusting part, the B1 groove width adjusting part comprises a rotating part which is rotatably installed on the B installation seat, the end part of the B1 groove part is fixed on an end sliding block, the end sliding block is assembled with the B installation seat in a sliding mode along the direction a, and the rotating part is in transmission connection with the end sliding block.

Preferably, the B1 channel part and the B2 channel part are identical in structure, clamping grooves are formed in the upper surface, the lower surface, the left surface and the right surface of the B supporting piece, and the adjusting mechanism synchronously adjusts the width value of each clamping groove of the B supporting piece.

Preferably, the B support member is composed of 4 folded plates with L-shaped cross section, two plate surfaces of the folded plate respectively form a B1 slot part and a B2 slot part, an end slider is fixed at the end of the folded plate, a folding opening of the folded plate points to the inside of the B support member, a rotating member is provided with a vertically arranged disk surface, a disk wire is arranged on the disk surface, a plane thread is arranged on the end slider, the disk wire is meshed with the plane thread, an included angle formed by the moving directions of the sliders at two adjacent ends is 90 °, a rotating member on the B1 slot width adjusting part and the B2 slot width adjusting part is connected through a rotating shaft, and a slot width adjusting operation part is arranged at the end of the rotating shaft extending to the outer side of the rotating member.

Preferably, the automatic spacing adjusting device further comprises a spacing adjusting mechanism, the two ends of the A supporting piece are installed on the rack through the A installation seat, the A, B installation seats are arranged correspondingly, the spacing adjusting mechanism comprises A adjusting screw rods located at the two ends of the A supporting piece, an A screw thread section and a B screw thread section are arranged on the A adjusting screw rods, the A screw thread section and the A installation seat form screw nut matching, the B screw thread section and the B installation seat form screw nut matching, the A adjusting screw rods are rotated to adjust the A, B installation seats to be close to and far away from each other, and the two A adjusting screw rods are connected through a synchronous adjusting assembly.

Preferably, the end part sliding block comprises a first sliding block part and a second sliding block part, a plane thread is arranged on the first sliding block part and is assembled with the B mounting seat in a sliding mode, the end part of the B supporting piece is fixedly connected with the second sliding block part, the first sliding block part and the second sliding block part are assembled in a sliding mode along the sliding direction of the end part sliding block, and a sliding block movement adjusting mechanism is arranged between the first sliding block part and the second sliding block part.

The invention has the technical effects that:

the auxiliary tool for glue filling of the multi-size-adjustment LED lamp provided by the invention supports the middle part of the lower surface of the lamp through the upper surface of the support piece A, and clamps the local lamp body at the lower end of the lamp height by using the clamping groove by arranging the clamping groove of which the notch points to the support piece A on the support piece B, wherein the height of the clamping groove is lower than that of the supporting surface, so that the aim of positioning and clamping the lamp to be glue filled is fulfilled; and the groove width of the clamping groove is matched with the vertical direction, and the groove width of the clamping groove can be adjusted, so that the clamping positioning device can meet the clamping positioning requirements of lamps with different sizes.

Drawings

Fig. 1 is an isometric view of an auxiliary tool for glue filling of a multi-size-adjustment LED lamp provided in an embodiment of the present application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged partial view taken at B in FIG. 1;

FIG. 4 is a top view of FIG. 1;

FIG. 5 is a side view of FIG. 1;

FIG. 6 is a partial isometric view of an assembled connection of a support member and an A mount, or a B support member and a B mount provided by an embodiment of the present application;

FIG. 7 is a front view of the assembly connection between the A support and the A mounting seat or between the B support and the B mounting seat according to an embodiment of the present disclosure;

FIG. 8 is a front view of an assembly connection of the A support member and the A mounting seat or the B support member and the B mounting seat provided in another embodiment of the present application;

FIG. 9 is a front view of an assembly connection of the A support member and the A mounting seat or the B support member and the B mounting seat provided in another embodiment of the present application;

FIG. 10 is a front view of an assembly connection of the A support member and the A mounting seat or the B support member and the B mounting seat provided in another embodiment of the present application;

FIG. 11 is a front view of an assembly connection of the A support member and the A mounting seat or the B support member and the B mounting seat according to another embodiment of the present disclosure;

FIG. 12 is a front view of mount A/mount B provided by an embodiment of the present application;

FIG. 13 is a cross-sectional view taken along line A-A of FIG. 10;

FIG. 14 is an isometric view of mount A/mount B provided by an embodiment of the present application;

fig. 15 is an exploded view from one perspective of a mount a/B provided by an embodiment of the present application;

fig. 16 is an exploded view of an alternative perspective of the a/B mount provided in embodiments of the present application.

The corresponding relation of all the reference numbers is as follows:

100-A supporting piece, 200-B supporting piece, 210-clamping groove, 220-B1 groove piece part, 230-B2 groove piece part, 310-B1 groove width adjusting part, 320-B2 groove width adjusting part, 330-rotating piece, 331-wire disk, 340-end sliding block, 341-first sliding block part, 341 a-plane thread, 342-second sliding block part, 350-rotating shaft, 351-groove width adjusting operating part, 360-sliding block moving adjusting mechanism, 361-B adjusting screw rod, 362-sliding block moving operating part, 400-B mounting seat, 410-chuck, 420-sliding table, 500-A mounting seat, 600-spacing adjusting mechanism, 610-A adjusting screw rod, 611-A screw thread section, 612-B screw thread section, 700-synchronous adjusting component, 710-synchronous adjusting shaft, 720-A bevel gear, 730-B bevel gear, 740-synchronous adjustment operating part, 800-frame, 900-cover plate.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

Referring to fig. 1 to 16, the embodiment of the present application provides an auxiliary tool for glue filling of a multi-size-adjustable LED lamp, which aims to solve the problem that it is difficult to reliably clamp and fix lamps of different shapes and sizes in the prior art, so that a cavity opening of a to-be-filled glue body faces upward.

The technical scheme provided by the embodiment of the application is as follows: many size adjustment is with LED lamps and lanterns encapsulating with assisting utensil, it includes A support piece 100 and B support piece 200 of interval arrangement, A support piece 100 upper portion has the supporting surface who supports lamps and lanterns lower surface middle part, B support piece 200 is last to have the draw-in groove 210 that is used for the local lamp body of the lower end of clamping lamps and lanterns height, the notch of draw-in groove 210 points to A support piece 100, the height that highly is less than the supporting surface of draw-in groove 210, the groove width and the vertical direction phase-match of draw-in groove 210, the groove width of draw-in groove 210 can be adjusted.

According to the auxiliary tool for glue filling of the multi-size-adjustment LED lamp, the middle of the lower surface of the lamp is supported through the upper surface of the support piece A100, the groove 210 of the support piece B200, with the notch pointing to the support piece A100, is arranged, the height of the groove 210 is lower than that of the supporting surface, and the groove 210 is used for clamping a local lamp body at the lower end of the height of the lamp, so that the aim of positioning and clamping the lamp to be glue filled is fulfilled; the groove width of the clamping groove 210 is matched with the vertical direction, and the groove width of the clamping groove 210 can be adjusted, so that the clamping positioning device can meet the clamping positioning requirements of lamps with different sizes.

As shown in fig. 1 to 9, the preferred scheme of the embodiment of the present application is: the slot 210 is composed of a B1 slot part 220 and a B2 slot part 230 which are arranged on the B support 200 at intervals up and down, the B1 slot part 220 and/or the B2 slot part 230 are connected with a slot width adjusting mechanism, and the slot width adjusting mechanism adjusts the slot width of the slot 210. The principle implemented by the embodiment is as follows: if the B2 slot piece part 230 is not adjustable, the B1 slot piece part 220 is adjusted to be away from/close to the B2 slot piece part 230 along the vertical direction through the slot width adjusting mechanism so as to achieve the purpose of adjusting the slot width of the card slot 210; if the B1 slot piece part 220 is not adjustable, the B2 slot piece part 230 is adjusted to be away from/close to the B1 slot piece part 220 along the vertical direction through the slot width adjusting mechanism so as to achieve the purpose of adjusting the slot width of the card slot 210; or both the B1 and

B2 slot pieces

220, 230 can be adjusted to adjust the slot width of the card slot 210 by simultaneously adjusting the B1 and

B2 slot pieces

220, 230 toward/away from each other.

Preferably, as shown in fig. 1 to 16, the slot width adjusting mechanism includes B1 slot width adjusting parts 310 and B2 slot width adjusting parts 320 located at both ends of the B supporter 200, and the B1 slot width adjusting parts 310 and B2 slot width adjusting parts 320 synchronously adjust the slot widths of the card slots 210 at both ends of the B supporter 200. The implementation principle of the embodiment is as follows: the B1 slot width adjusting parts 310 and the B2 slot width adjusting parts 320 at the two ends of the B bracing piece 200 are used for adjusting the slot widths of the slots 210 at the two ends of the B bracing piece 200, so that the situation that the slot widths of the slots 210 at the two ends of the B bracing piece 200 are not adjusted uniformly can be prevented, and the slot width adjusting consistency of the slots 210 at the two ends of the B bracing piece 200 is ensured.

Referring to fig. 1 to 7, in order to adjust the slot width of the slot 210, specific preferred embodiments of the embodiment of the present application are: the two ends of the B-supporting member 200 are mounted on the rack 800 through the B-mounting seat 400, and the two ends of the B1 slot member portion 220 and/or the B2 slot member portion 230 are slidably assembled with the B-mounting seat 400 along a direction a, where an included angle formed by the direction a and the slot width of the slot 210 is not equal to 90 °. The implementation principle of the self-adaptive embodiment is as follows: if the B2 slot component 230 is fixedly mounted on the B mounting seat 400 and the position is not adjustable, and the B1 slot component 220 is slidably mounted on the B mounting seat 400 along the direction a, the B1 slot component 220 is adjusted to be far away from/close to the B2 slot component 230 along the direction a by the slot width adjusting mechanism, so as to achieve the purpose of adjusting the slot width of the card slot 210; if the B1 slot piece part 220 is fixedly installed on the B installation seat 400 and the position is not adjustable, and the B2 slot piece part 230 is slidably installed on the B installation seat 400 along the direction a, the B2 slot piece part 230 is adjusted to be far away from/close to the B1 slot piece part 220 along the direction a by the slot width adjusting mechanism so as to achieve the purpose of adjusting the slot width of the slot 210; or the B1 slot piece part 220 and the B2 slot piece part 230 are slidably assembled and position-adjustable in the direction a of the B mounting seat 400, and the slot width of the card slot 210 is adjusted by simultaneously adjusting the B1 slot piece part 220 and the B2 slot piece part 230 to approach/separate from each other in the direction a of the B mounting seat 400. The included angle formed by the direction a and the slot width of the slot 210 is not equal to 90 degrees, that is, the direction a has a component along the vertical direction or keeps consistent with the vertical direction, so that the purpose of realizing the slot width of the slot 210 can be achieved by adjusting two ends of the B1 slot part 220 and/or the B2 slot part 230 to slide along the direction a on the B mounting seat 400. It should be noted that the angle formed by the direction a and the groove width of the card slot 210 is not equal to 90 °, and is viewed from a perspective on a cross section of the B support member 200, which is perpendicular to the length direction of the B support member 200, so that the adjustment of the groove width of the card slot 210 can be realized only when the angle formed by the direction a and the groove width of the card slot 210 is not equal to 90 °.

As shown in fig. 4, the more preferable scheme of the embodiment of the present application is: the slot width adjustment mechanism is coupled to the B1 and

B2 channel pieces

220 and 230, respectively. Can slide along direction a on B mount pad 400 through the both ends of adjusting B1 trough part 220 and B2 trough part 230 like this, realize the purpose of adjusting the notch width of draw-in groove 210, will improve the regulation efficiency greatly moreover to be favorable to improving the efficiency of fixing a position the clamping to the lamps and lanterns.

Referring to fig. 6 and fig. 7, in practical implementation, a preferred scheme of the embodiment of the present application is: the angle formed by the direction a and the slot width of the slot 210 is 45 °.

As shown in fig. 1 to 6, in order to facilitate the adjustment of the slot width of the slot 210 on the B support member 200, in the preferred embodiment of the present application, the slot width adjusting portion 310 of B1 and the slot width adjusting portion 320 of B2 have the same structure, the slot width adjusting portion 310 of B1 includes a rotating member 330 rotatably mounted on the B mounting seat 400, the end of the B1 slot member portion 220 is fixed on the end slider 340, the end slider 340 is slidably mounted on the B mounting seat 400 along the direction a, and the rotating member 330 is in transmission connection with the end slider 340. The principle is as follows: by rotating the rotating member 330, the end slider 340 can be adjusted to slide on the B-mount 400 along the direction a, and then the B1 slot 220 can be adjusted to approach/depart from the B2 slot 230, thereby achieving the purpose of conveniently adjusting the width of the slot opening of the card slot 210.

As shown in fig. 8 and 9, as a first preferred embodiment of the present application: the structure of the B1 channel part 220 is the same as that of the B2 channel part 230, the left and right surfaces of the B supporting member 200 are provided with the slots 210, and the adjusting mechanism synchronously adjusts the width of each slot 210 of the B supporting member 200. The implementation principle of the scheme is as follows: in fig. 8 and 9, two end sliders 340 are provided, wherein the sliding directions of the two end sliders 340 in fig. 8 and the groove width direction respectively keep an included angle of 45 degrees, and the sliding directions of the two end sliders 340 in fig. 9 and the vertical direction keep the same; the adjustment mechanism adjusts the B1 and

B2 channel pieces

220 and 230 to approach/separate from each other in the vertical direction, thereby achieving the purpose of synchronously adjusting the width values of the card slots 210 on the left and right surfaces of the B supporter 200.

When the end slider 340 is arranged in the arrangement shown in fig. 8, the center of the profile of the B support 200 will move left/right as the width value of the card slot 210 increases/decreases; when the end slider 340 is arranged in the arrangement shown in fig. 8, the center of the profile of the B supporter 200 does not change as the width value of the card slot 210 changes.

As shown in fig. 10 and 11, as a second preferred embodiment of the present application: the upper surface and the left and right surfaces of the B-shaped supporting member 200 are provided with the slots 210, and the adjusting mechanism synchronously adjusts the width of each slot 210 of the B-shaped supporting member 200. The implementation principle of the scheme is as follows: in fig. 10 and 11, three end sliders 340 are provided, two of the end sliders 340 being located above and the other end slider 340 being located below, the B support 200 being formed by two L-shaped flaps located above and one U-shaped flap located below, the fold angle of the L-shaped flaps and the fold of the U-shaped flaps both pointing towards the inside of the B support 200. In fig. 10, the upper two end sliders 340 are respectively positioned at the inner corners of the two L-shaped folded plates, the lower end slider 340 is positioned at one inner corner of the U-shaped folded plate, and the sliding directions of the three end sliders 340 form an included angle of 45 degrees with the vertical direction; the arrangement of the upper two end sliders 340 in fig. 11 is the same as that in fig. 10, except that the lower end slider 340 is arranged in the middle of the U-shaped folded plate, i.e. between two corners, and the sliding direction of the upper two end sliders 340 forms an angle of 45 ° with the vertical direction, and the sliding direction of the lower end slider 340 is consistent with the vertical direction. The adjusting mechanism synchronously adjusts the B1 channel part 220 and the B2 channel part 230 to move away from/close to each other, so that the width values of the slots 210 on the upper surface and the left and right surfaces of the B supporting member 200 can be respectively adjusted.

When the end slider 340 is arranged in the arrangement shown in fig. 10, i.e., the lower end slider 340 is arranged at the left corner of the U-shaped flap, the slot width variation of the left slot 210 is different from the slot width variation of the right slot 210, except that the left B1 slot part 220 is moved in the same direction as the B2 slot part 230 in the horizontal direction, and the right B1 slot part 220 is moved in the opposite direction as the B2 slot part 230 in the horizontal direction; similarly, if the lower end slider 340 is disposed at the right corner of the U-shaped flap, the slot width change of the left slot 210 is different from the slot width change of the right slot 210, except that the moving directions of the right B1 slot part 220 and the B2 slot part 230 in the horizontal direction are the same, and the moving directions of the left B1 slot part 220 and the B2 slot part 230 in the horizontal direction are opposite. When the end sliders 340 are arranged in the arrangement shown in fig. 11, the two upper end sliders 340 have a vertical movement component and a horizontal movement component, and the movement directions of the two end sliders 340 in the horizontal direction are opposite to each other, while the end slider 340 in the lower end slider can only move in the vertical direction, which brings about an adjustment effect that the upper surface of the B support 200 is always kept flush during adjustment, and the outer side surfaces of the left and right sides are not flush at most and are flush at a certain moment.

The clamping groove 210 on the upper surface of the B-shaped support member 200 can be used for positioning the irregular protrusion on the lower surface of the lamp; in addition, when the B-shaped supporting member 200 is used as the a-shaped supporting member 100, the a-shaped supporting member 100 can support the lower surface of the lamp, and if the middle part of the lower surface of the lamp has the special-shaped protrusion, the a-shaped supporting member can be clamped, so that the adaptability of the a-shaped supporting member 100 to more positioning requirements is improved.

As shown in fig. 7, as a third preferred embodiment of the present application: the structure of the B1 channel part 220 is the same as that of the B2 channel part 230, the upper and lower surfaces and the left and right surfaces of the B supporting member 200 are provided with the slots 210, and the adjusting mechanism synchronously adjusts the width of each slot 210 of the B supporting member 200. The principle is as follows: in the preferred embodiment, since the upper and lower surfaces and the left and right surfaces of the B-shaped supporting member 200 are provided with the slots 210, the selectivity and flexibility are higher during assembly, that is, the slots 210 originally located on the upper and lower surfaces of the B-shaped supporting member 200 can be selected by changing an angle to serve as the slots 210 for clamping the lamp body at the lower end of the lower surface of the lamp, so that the interchangeability and the universality of the slots 210 are improved. Since the width of each card slot 210 can be adjusted synchronously by the adjusting mechanism, the width of each card slot 210 can be adjusted and controlled in a consistent manner by adjusting the travel of the B1 channel element part 220 and the B2 channel element part 230 to the same travel.

The third preferred embodiment is preferable in practical applications because the third preferred embodiment is implemented in a flexible way, that is, the B-supporting member 200 can be rotated by an angle around the axis of the rotating shaft 350, for example, by n × 90 °, where n is a positive integer; secondly, when the width value of the slot 210 on each side of the B-shaped support 200 is adjusted, each side is always kept flush, which is beneficial to using the B-shaped support as the a-shaped support 100 and adjusting each slot 210 on the a-shaped support 100, and because the upper surface of the a-shaped support 100 is kept flush in the width adjusting process of the slot 210, the middle part of the lower surface of the lamp is beneficial to providing stable support, the lamp is suitable for lamps with different shapes, and the interchangeability and compatibility of the structure are improved.

As shown in fig. 6 and 7, a further preferred solution of the embodiment of the present application is: the B supporting member 200 is composed of four L-shaped folded plates, two plate surfaces of the folded plates respectively form a B1 slot part 220 and a B2 slot part 230, an end sliding block 340 is fixed at the end part of the folded plates, the folding opening of the folded plates points to the inside of the B supporting member 200, a rotating member 330 is provided with a vertically arranged disk surface, a disk wire 331 is arranged on the disk surface, a plane thread 341a is arranged on the end sliding block 340, the disk wire 331 is meshed with the plane thread 341a, the included angle formed by the moving directions of the sliding blocks 340 at two adjacent ends is 90 degrees, the rotating members 330 on the B1 slot width adjusting part 310 and the B2 slot width adjusting part 320 are connected through a rotating shaft 350, and the end part of the rotating shaft 350 extending to the outer side of the rotating member 330 is provided with a slot width. The implementation principle of the scheme is as follows: according to the above solution, the card slot 210 is composed of the B1 slot parts 220 and the B2 slot parts 230 which are arranged on the B supporting member 200 at intervals up and down, while in the present solution, the B supporting member 200 is composed of four folded plates with L-shaped cross sections, two plate surfaces of the folded plates respectively constitute the B1 slot parts 220 and the B2 slot parts 230, and then the plate surfaces of the adjacent ends of two folded plates which are adjacent up and down are respectively the B1 slot parts 220 and the B2 slot parts 230, that is, the plate surfaces of the ends of the two folded plates which are adjacent to each other are used for constituting different slot parts; then, the folding opening of the folding plate part points to the inside of the B support member 200, so that the outer contour of the B support member 200 is square; the rotation piece 330 is provided with a disk surface which is vertically arranged, the disk surface is provided with a disk thread 331, and the end slide block 340 fixedly connected with the end part of the folded plate piece is provided with a plane thread 341a meshed with the disk thread 331, so that when the groove width adjusting operation part 351 connected with the end part of the rotation shaft 350 of the rotation piece 330 is rotated, and then each end slide block 340 is adjusted to synchronously approach/move towards the rotation shaft 350, thereby achieving the purpose of synchronously adjusting the width values of the clamping grooves 210 on the upper surface, the lower surface, the left surface and the right surface on the B support piece 200.

Since in practical application, the sizes of different lamps are likely to be different, in order to further adapt to the positioning requirements of lamps with different sizes, as shown in fig. 1 to 7, the more preferable solution of the embodiment of the present application is: the spacing adjusting mechanism 600 comprises A adjusting screws 610 located at two ends of the A supporting piece 100, an A thread section 611 and a B thread section 612 are arranged on the A adjusting screws 610, the thread turning direction of the A thread section 611 is opposite to the thread turning direction of the B thread section 612, the A thread section 611 and the A mounting seat 500 form screw rod nut matching, the B thread section 612 and the B mounting seat 400 form screw rod nut matching, the A adjusting screws 610 are rotated to adjust the A, B mounting seats 400 to be close to and far away from each other, and the two A adjusting screws 610 are connected through a synchronous adjusting assembly 700. The principle is that the purpose of adjusting the mutual approaching/separating of the mounting seat A500 and the mounting seat B400 can be realized by rotating the adjusting screw rod, and then the purpose of adjusting the distance between the supporting piece A100 and the supporting piece B200 is realized.

As shown in fig. 1 to 6, the synchronous adjusting assembly 700 includes a synchronous adjusting shaft 710, two sets of a bevel gears 720 are disposed on the synchronous adjusting shaft 710, a set of B bevel gears 730 are respectively mounted on the same ends of the two a adjusting screws 610, the two sets of a bevel gears 720 are respectively engaged with the two sets of B gears, the two a adjusting screws 610 are synchronously adjusted to rotate by rotating the synchronous adjusting shaft 710, and further the distance between the two ends of the a supporting member 100 and the two ends of the B supporting member 200 are synchronously adjusted. Both ends of the synchronization adjusting shaft 710 extend to the outside of the frame 800 and are formed/mounted with a synchronization adjusting operation part 740 for allowing a person to manipulate the synchronization adjusting shaft 710 to rotate by a tool. Specifically, the synchronization adjustment operation part 740 may adopt a structure similar to a bolt head.

As shown in fig. 6 to 16, in order to enable independent adjustment of each flap member on the B-bracing member 200, the embodiment of the present application more preferably includes: the end slider 340 includes a first slider portion 341 and a second slider portion 342, the first slider portion 341 is provided with a flat thread 341a and is slidably assembled with the B mounting seat 400, the end portion of the B support 200 is fixedly connected with the second slider portion 342, the first slider portion 341 and the second slider portion 342 are slidably assembled in the sliding direction of the end slider 340, and a slider movement adjusting mechanism 360 is provided between the first slider portion 341 and the second slider portion. The principle is as follows: after the width of the notch of each of the slots 210 is synchronously adjusted by rotating the rotating shaft 350, the width of the notch of the used slot 210 is usually required to be finely adjusted to a certain degree, and at this time, the second slider portion 342 is adjusted to move relative to the first slider portion 341 by the slider movement adjusting mechanism 360.

Specifically, as shown in fig. 6 to 16, the slider movement adjusting mechanism 360 includes a B adjusting screw 361 rotatably mounted on the first slider portion 341, the B adjusting screw 361 passes through the second slider portion 342 and forms a screw nut fit with the second slider portion 342, a rod length direction of the B adjusting screw 361 is consistent with a sliding direction of the second slider portion 342 on the first slider portion 341, an end portion of the B adjusting screw 361 extending to an outer side of the second slider portion 342 forms a slider movement operating portion 362 for a hand/tool to perform an adjusting operation, and the B adjusting screw 361 is rotated to adjust the second slider portion 342 to slide on the first slider portion 341, thereby finely adjusting a slot width value of the slot 210. Specifically, the slider moving operation part 362 may have a screw head-like structure, such as a cross-shaped groove provided on the end surface of the B adjustment screw 361, and may be adjusted by a cross screwdriver at the time of adjustment.

In order to improve the glue filling efficiency, referring to fig. 1 to 5, a more preferable scheme of the embodiment of the present application is: the parts such as the A-supporting part 100, the B-supporting part 200, the A-mounting seat 500, the B-mounting seat 400, the spacing adjusting mechanism 600, the synchronous adjusting assembly 700 and the like are arranged in two groups on the rack 800, and the two groups of parts are arranged on the rack 800 at intervals along the spacing direction between the A-supporting part 100 and the B-supporting part 200, so that the two sides of the rack 800 can be used for operators to clamp and position lamps and glue pouring operation of the lamps, and the positioning and glue pouring efficiency of the lamps can be improved.

The structures of the a mount 500 and the B mount 400 in the above solution are the same, the a support 100 and the B support 200 have the same structures, and the two ends of the a support 100 are also respectively provided with the B1 slot width adjusting part 310 and the B2 slot width adjusting part 320, which are used for adjusting the slot width of the slot 210 on the a support 100.

More specifically, as shown in fig. 7 to 16, each of the a mount 500 and the B mount 400 includes a chuck 410 and a sliding table 420, an a sliding groove for slidably fitting a first slider portion 341 is provided on a first surface of the chuck 410, a B sliding groove for slidably fitting a second slider portion 342 is provided on a surface of the first slider portion 341 on the same side as the first surface of the chuck 410, an inwardly recessed cavity having a contour matching an outer contour of the rotating member 330 is provided on a second surface of the chuck 410 for rotatably fitting the rotating member 330, a side surface of the first slider portion 341 near the rotating member 330 extends into the cavity and is provided with the above-mentioned flat thread 341a, and a surface of the rotating member 330 facing the first slider portion 341 is provided with the above-mentioned wire coil 331, and the wire coil 331 is fitted and engaged with the flat thread 341 a. The chuck 410 has a mounting hole formed at the center thereof for rotatably mounting the rotation shaft 350. A cover plate 900 is disposed on an end cap of the chamber far away from the first slider portion 341 for dust prevention and lubrication, the cover plate 900 is annular, and a through hole for the rotation shaft 350 to pass through is disposed in the middle of the cover plate 900. The edge of the chuck 410 is provided with a coupling lug for mounting the chuck 410 on the slide table 420 by a bolt, and the slide table 420 is slidably assembled on the frame 800.

Referring to fig. 6, 12-16, the second slider portion 342 has a first connecting portion for mounting the B1 slot portion 220 and a second connecting portion for mounting the B2 slot portion 230, and if the a supporting member 100 and the B supporting member 200 are respectively formed by the four L-shaped cross-sectional flaps, the first connecting portion and the second connecting portion are respectively flush-arranged connecting surfaces, and the angle between the first connecting portion and the second connecting portion is 90 °.

In order to prevent the B1 slot parts 220 and the B2 slot parts 230 at the slot 210, the lamp is scratched during the clamping and positioning or the taking-off process of the lamp. The preferable scheme of the embodiment of the application is as follows: the parts of the B1 channel part 220 and the B2 channel part 230, which are used for contacting with the lamp, are respectively provided with an anti-friction layer, and the anti-friction layers are made of soft materials. By arranging the anti-friction layer made of soft materials, the probability of scratches between the lamp and the B1 tank part 220 and/or the B2 tank part 230 can be effectively reduced.

Preferably, the anti-friction layer may be constructed of bristles or rubber.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides a many sizes are adjusted with LED lamps and lanterns encapsulating with assisting utensil which characterized in that: the lamp clamping device comprises a support piece A and a support piece B which are arranged at intervals, wherein the upper part of the support piece A is provided with a support surface for supporting the middle part of the lower surface of a lamp, the support piece B is provided with a clamping groove for clamping the local lamp body of the lower end of the height of the lamp, the notch of the clamping groove points to the support piece A, the height of the clamping groove is lower than the height of the support surface, the groove width of the clamping groove is matched with the vertical direction, and the groove width of the clamping.

2. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 1, wherein: the clamping groove consists of a B1 groove piece part and a B2 groove piece part which are arranged on the B supporting piece at intervals up and down, the B1 groove piece part and/or the B2 groove piece part are/is connected with a groove width adjusting mechanism, and the groove width adjusting mechanism adjusts the groove width of the clamping groove.

3. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 2, wherein: the groove width adjusting mechanism comprises a B1 groove width adjusting part and a B2 groove width adjusting part which are positioned at two end parts of the B supporting piece, and the B1 groove width adjusting part and the B2 groove width adjusting part synchronously adjust the groove widths of the clamping grooves at two ends of the B supporting piece.

4. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 3, wherein: the two ends of the B supporting piece are installed on the rack through the B installation seat, the two ends of the B1 groove piece part and/or the B2 groove piece part are assembled with the B installation seat in a sliding mode along the direction a, and the included angle formed by the direction a and the groove width of the clamping groove is not equal to 90 degrees.

5. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 4, wherein: the slot width adjustment mechanism is connected to the B1 and B2 slot members, respectively.

6. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 4, wherein: the angle formed by the direction a and the slot width of the slot is 45 degrees.

7. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 6, wherein: the structure of the B1 groove width adjusting part is the same as that of the B2 groove width adjusting part, the B1 groove width adjusting part comprises a rotating part rotatably installed on a B installation seat, the end part of the B1 groove part is fixed on an end part sliding block, the end part sliding block is assembled with the B installation seat in a sliding mode along the a direction, and the rotating part is in transmission connection with the end part sliding block.

8. The LED lamp for multi-size adjustment auxiliary tool for glue filling according to claim 7, wherein: the structure of the B1 trough part is the same as that of the B2 trough part, the upper surface, the lower surface, the left surface and the right surface of the B supporting piece are provided with clamping grooves, and the adjusting mechanism synchronously adjusts the width value of each clamping groove of the B supporting piece.

9. The assistive device for glue pouring of the multi-size-adjustment LED lamp according to claim 8, wherein: the B support piece is composed of 4L-shaped folded pieces, two plate surfaces of each folded piece respectively form a B1 groove part and a B2 groove part, an end sliding block is fixed at the end of each folded piece, a folded opening of each folded piece points to the inside of the B support piece, a rotating piece is provided with a vertically arranged disk surface, a disk wire is arranged on the disk surface, a plane thread is arranged on each end sliding block and meshed with the disk wire and the plane thread, an included angle formed by the moving directions of the sliding blocks at the two adjacent ends is 90 degrees, a B1 groove width adjusting part and a rotating piece on a B2 groove width adjusting part are connected through a rotating shaft, and the end part of the rotating shaft extending to the outer side of the rotating piece is provided with a groove width.

10. The assistive device for glue pouring of the multi-size-adjustment LED lamp according to claim 9, wherein: including at least one of the following features A, B:

A. the automatic spacing device comprises a rack, and is characterized by further comprising a spacing adjusting mechanism, wherein two ends of the A supporting piece are mounted on the rack through an A mounting seat, the A, B mounting seats are correspondingly arranged, the spacing adjusting mechanism comprises A adjusting screw rods positioned at two ends of the A supporting piece, an A thread section and a B thread section are arranged on the A adjusting screw rods, the A thread section and the A mounting seat form a screw nut fit, the B thread section and the B mounting seat form a screw nut fit, the A adjusting screw rods are rotated to adjust the A, B mounting seats to be close to and far away from each other, and the two A adjusting screw rods are connected through;

B. the end part sliding block comprises a first sliding block part and a second sliding block part, a plane thread is arranged on the first sliding block part and is assembled with the B mounting seat in a sliding mode, the end part of the B supporting piece is fixedly connected with the second sliding block part, the first sliding block part and the second sliding block part are assembled in a sliding mode along the sliding direction of the end part sliding block, and a sliding block movement adjusting mechanism is arranged between the first sliding block part and the second sliding block part.