CN108296697B - LED light source module welding fixture - Google Patents

Abstract

The invention provides a welding fixture for an LED light source module, which comprises a supporting bottom plate and further comprises: a vertical face portion provided on the support base plate; a front side pressing plate which is opposite to the vertical surface and can move in the front-back direction relative to the vertical surface; a plurality of adjustable pressing pieces which can move up and down relative to the supporting bottom plate, wherein the plurality of adjustable pressing pieces are arranged side by side along the left and right direction, and the interval between two adjacent adjustable pressing pieces is adjustable; at least by supporting baseplate, front side clamp plate, vertical facial jointly enclose the accommodation space that is used for placing welding object. By adopting the welding tool, the size of the accommodating space for placing the welding object is adjustable, so that the suitability of the welding tool and the welding object is strong, the universality is strong, the application range is wide, the number of devices of the required welding tool can be reduced, and the production cost can be saved.

Description

LED light source module welding fixture

Technical Field

The invention relates to a welding fixture for an LED light source module.

Background

Currently, a positioning tool for an LED lamp on a spot display in each field before welding does not have a general product, and tool devices with different sizes are customized when LED lamps with different sizes are welded, for example, as shown in ZL201220340891.1, ZL201310435096.X, ZL201310435464.0, etc., in these technical schemes, station slots matched with a circuit board and used for placing the LED lamps are formed on a base of the welding tool.

However, the fixture device of corresponding specification is customized when the LED lamps of different specifications are welded, so that the fixture device can only be matched with the LED lamps of the specification, and cannot be applied to welding clamping and positioning of the LED lamps of other specifications, so that the suitability of a welding fixture and a welding object is low, the requirement input amount of the welding fixture is large, the production cost is increased, and meanwhile, the fixture devices also occupy a large amount of factory building space, and the management cost of manpower and material resources is increased.

Disclosure of Invention

The invention mainly aims to provide an LED light source module welding tool which can adjust an accommodating space for accommodating a welding object so as to improve the application range of the welding tool.

The invention also provides an LED light source module welding tool, which comprises a supporting bottom plate and is characterized by further comprising: a vertical face portion provided on the support base plate; a front platen that is opposed to the vertical surface portion and is movable in a front-rear direction with respect to the vertical surface portion; a plurality of adjustable plates which can move up and down relative to the support base plate, wherein the adjustable plates are arranged side by side along the left and right direction, and the interval between two adjacent adjustable plates is adjustable; the supporting bottom plate, the front side pressing plate and the vertical face jointly enclose an accommodating space for accommodating welding objects.

By adopting the scheme, the front side pressing plate and the vertical surface part are used for positioning the welding object in the front-back direction, and the adjustable pressing plate is used for positioning the welding object in the vertical direction, because the positions of the front side pressing plate, the adjustable pressing plate in the front-back direction, the upper-lower direction and the left-right direction are adjustable, the size of the accommodating space for accommodating the welding object is adjustable, the accurate clamping and positioning of the welding object in different technical fields, different size specifications and different numbers can be realized by using the same welding tool, namely, the suitability of the welding tool and the welding object is strong, the universality is strong, the application range is wide, compared with the one-to-one correspondence of the welding tool and the welding object in the prior art, the number of devices of the required welding tool can be reduced, the occupied space for accommodating the welding tool is reduced, the investment of the welding tool is further reduced, and the production cost is saved.

Preferably, a plane portion is formed at one side of the support base plate on which the welding object is placed.

By adopting the scheme, compared with the prior art that the station grooves which are in one-to-one correspondence with the welding objects and are used for placing the welding objects are formed on the supporting bottom plate, the welding tool has the advantages that the plane parts are formed on one side of the supporting bottom plate, so that a plurality of welding objects with different specification sizes and different spacing requirements can be placed on the supporting bottom plate, the arrangement of the welding objects is prevented from being limited by the specific structure of one side of the supporting bottom plate, used for placing the welding objects, and the welding tool is high in adaptability, universality and application range.

In addition, the plane part is also used as a positioning reference for positioning the welding objects, and when the welding objects are placed on the plane part, the positions of a plurality of welding objects can be kept on the same horizontal line through the plane part, so that the position dislocation and the deviation of the welding objects are prevented, and the accuracy of clamping and positioning the welding objects is improved.

Preferably, the device further comprises a longitudinal pressing plate which is arranged along the left-right direction and can move up and down relative to the supporting bottom plate, and the plurality of adjustable pressing plates are detachably arranged on the longitudinal pressing plate.

By adopting the scheme, the position relation of the plurality of adjustable pressing plates relative to the supporting bottom plate in the up-down direction is adjusted through the movement of the longitudinal pressing plate in the up-down direction, so that the distance between the plurality of adjustable pressing plates and the supporting bottom plate in the up-down direction is adjusted, the structure for realizing the movement of the plurality of adjustable pressing plates in the up-down direction can be simplified, the processing process of the welding tool is simplified, and the processing difficulty of the welding tool is reduced.

Preferably, the single adjustable pressing piece is inserted into the longitudinal pressing plate through a notch formed in the single adjustable pressing piece, and a pressing piece positioning screw used for fastening the single adjustable pressing piece to the longitudinal pressing plate is arranged on the upper side wall portion of the notch.

With this arrangement, the upper side wall portion of the notch is moved downward with respect to the presser positioning screw by screwing the presser positioning screw upward until the upper side wall portion is abutted against the upper surface of the longitudinal presser plate, whereby positioning of the adjustable presser plate on the longitudinal presser plate can be achieved by a simple structure; the fastening relation between the adjustable pressing piece and the longitudinal pressing plate can be relieved by reversely screwing the pressing piece positioning screw, so that the adjustable pressing piece can move relative to the rear pressing piece, the distance between the adjacent adjustable pressing pieces can be conveniently adjusted, and the positioning of the adjustable pressing piece on the longitudinal pressing plate and the distance adjustment between the adjacent adjustable pressing pieces can be realized through a simple structure, so that the operation difficulty can be reduced.

Preferably, the longitudinal pressure plate is fastened to the support base plate by means of rear set screws arranged thereon.

By adopting the scheme, the disassembly and assembly convenience of the longitudinal pressing plate and the supporting bottom plate is improved, the connection structure of the longitudinal pressing plate and the supporting bottom plate can be simplified on the premise of ensuring the positioning stability of the longitudinal pressing plate, the processing process of a welding tool is simplified, and the processing difficulty of the welding tool is reduced.

Preferably, the device further comprises a pair of bases arranged opposite to each other on the left side and the right side of the supporting bottom plate, wherein a pair of transverse guide grooves which are arranged along the front-back direction and used for realizing the front-back movement of the front side pressing plate and a pair of longitudinal guide grooves which are arranged along the up-down direction and used for realizing the up-down movement of the longitudinal pressing plate are respectively arranged on the opposite sides of the pair of bases.

By adopting the scheme, the structure for realizing that the front side pressing plate and the longitudinal pressing plate move in the front-back direction and the up-down direction can be simplified, so that the processing process of the welding tool is simplified, and the processing difficulty of the welding tool is reduced.

Preferably, the pair of bases are respectively provided with avoidance grooves for taking and placing the PCB connected with the welding object in a welding manner on opposite sides.

By adopting the scheme, the avoidance grooves are formed in the pair of bases, so that the difficulty of taking and placing the PCB by an operator can be reduced, and the convenience of taking and placing the PCB is improved.

Preferably, a step is integrally formed on the support base, and the vertical surface is formed by a vertical portion of the step.

By adopting the scheme, the difficulty of arranging the vertical face on the supporting bottom plate can be reduced, the structure of the welding tool is simplified, the processing process of the welding tool is simplified, and the processing difficulty of the welding tool is reduced; simultaneously, still can improve vertical face with the setting steadiness of supporting baseplate can also follow the rear side with the welding object carries out reliable, stable support location, is favorable to improving the stability of fixing a position the welding object.

Optionally, the device further comprises a rear side pressing plate which is opposite to the front side pressing plate and can move relative to the front side pressing plate in the front-back direction, and the vertical face is formed by the side of the rear side pressing plate opposite to the front side pressing plate.

By adopting the scheme, the rear side pressing plate can move relative to the front side pressing plate in the front-back direction, so that the distance between the front side pressing plate and the rear side pressing plate in the front-back direction can be conveniently adjusted from the rear side, the convenience for adjusting the size of the accommodating space for accommodating the welding object is improved, and the welding object is convenient to use.

Preferably, a set screw for fastening the front side pressure plate and the rear side pressure plate to the support base plate is provided on at least one of them.

By adopting the scheme, the positioning of at least one of the front side pressing plate and the rear side pressing plate on the supporting bottom plate can be realized through a simple structure, so that the operation difficulty can be reduced, and the positioning stability of the two pressing plates can be ensured.

Drawings

FIG. 1 is an oblique view of a welding tool;

FIG. 2 is a schematic view of a base of a welding tool;

FIG. 3 is an assembly schematic diagram of a base and a supporting bottom plate of a welding fixture;

FIG. 4 is a schematic view of a front platen of a welding tool;

FIG. 5 is a schematic view of a longitudinal platen of a welding tool;

FIG. 6 is a schematic view of an adjustable blade of a welding tool;

FIG. 7 is an assembly schematic of an adjustable press plate and a longitudinal press plate of a welding tool;

FIG. 8 is a schematic diagram of the clamping of an LED lamp on a welding fixture;

FIG. 9 is a cross-sectional view taken along the direction A-A in FIG. 8;

FIG. 10 is a schematic diagram of welding an LED lamp using a welding fixture;

FIG. 11 is a cross-sectional view taken along the direction B-B in FIG. 10;

Fig. 12 is a schematic view of an LED lamp.

Detailed Description

The welding fixture for the LED light source module according to the invention is specifically described below with reference to fig. 1 to 12. The directions shown in fig. 1 are referred to as front, rear, up, down, left, and right in the following description.

Referring to fig. 1, the welding fixture for the LED light source module according to the present invention mainly includes a supporting base plate 100, left and right bases 200 and 300 installed at left and right sides of the supporting base plate 100 and disposed opposite to each other, a front pressing plate 400 disposed at front sides of the two bases and movable in a front-rear direction with respect to the two bases, a longitudinal pressing plate 500 disposed at rear sides of the two bases and movable in a vertical direction with respect to the two bases, and a plurality of adjustable pressing plates 600 detachably installed on the longitudinal pressing plate 500 and disposed in a left-right direction. Specifically:

As shown in fig. 1, the left chassis 200 and the right chassis 300 are installed on the left and right sides of the support base plate 100 and are disposed opposite to each other, and the structures of the left chassis 200 and the right chassis 300 are the same, and the specific structures of the two chassis are described below by taking the left chassis 200 as an example, and referring to fig. 2, the left chassis 200 is a block member having a rectangular parallelepiped shape as a whole, a left escape groove 210 having a front-rear direction and penetrating in the up-down direction and opening to the right is integrally formed on the right side of the left chassis main body, a left lateral guide groove 220 having a front-rear direction and penetrating at both ends and communicating at the rear end with the left escape groove 210 and opening to the right, a left longitudinal guide groove 230 having a top opening and opening to the right and a left chassis installation hole 240 having a left lateral guide groove 220 and a left longitudinal guide groove 230 below. Similarly, as shown in fig. 3, a right escape groove 310, a right lateral guide groove 320, a right longitudinal guide groove 330, and a right base mounting hole 340 are integrally formed on the right base 300.

As shown in fig. 1 and 3, the support base plate 100 is positioned between the left base 200 and the right base 300 and is installed at the bottom of the latter two, the support base plate 100 is a plate-shaped member having a rectangular shape as a whole, a planar portion 110 for placing the LED lamp 700 shown in fig. 12 is integrally formed at the front middle portion of the support base plate 100, a stepped portion 120 protruding upward is integrally formed at the rear side thereof, the stepped portion 120 has a vertical portion 121 and a horizontal portion 122, wherein the height of the vertical portion 121 in the up-down direction is kept identical to the height of the LED lamp 700 shown in fig. 12 in the up-down direction, and in this embodiment, the height of the vertical portion 121 is 5mm. The horizontal portion 122 is provided with a plurality of support floor mounting holes 123 uniformly distributed in the left-right direction. In addition, mounting holes corresponding to the base mounting holes 240 and 340 are further formed on the left and right sides of the support base plate 100, and when the left and right base plates and the support base plate 100 are assembled, the left and right base plates are disposed on the left and right sides of the support base plate 100, so that the base mounting holes on the base plates are aligned with the mounting holes on the left and right sides of the support base plate, and screws are used to sequentially penetrate the base mounting holes, the mounting holes on the left and right sides of the support base plate, and then the base plates are suspended on the mounting holes on the left and right sides of the support base plate.

As shown in fig. 1 and 4, the front platen 400 is a plate-like member having an elongated shape as a whole, a platen vertical surface portion 410 for abutting against the LED lamp 700 shown in fig. 12 is integrally formed on the rear side of the front platen 400, front platen mounting holes 421 uniformly distributed in the longitudinal direction of the front platen 400 are provided in the front platen 400, and front set screws 420 are respectively disposed in the front platen mounting holes. As shown in fig. 1, in an assembled state, the left and right sides of the front platen 400 are placed in the lateral guide grooves on the left and right bases, so that the front platen 400 is slidably connected to the left and right bases, the front platen 400 is moved along the lateral guide grooves to change the position of the front platen 400 in the front-rear direction, once the position of the front platen 400 in the front-rear direction is determined, the operator screws down the front set screw 420, the front platen 400 moves upward relative to the front set screw 420, so that the left and right sides of the front platen 400 abut against the upper side wall portions of the lateral guide grooves on the left and right bases, a downward pressure is applied to the front platen 400 by the upper side wall portions of the lateral guide grooves, and an upward thrust is applied to the front platen 400 by the spinning of the front set screw 420, so that the front platen 400 is positioned in the front-rear direction.

As shown in fig. 1 and 5, the longitudinal platen 500 is also a plate-like member having an overall elongated shape, and a platen step portion 510 provided approximately centrally in the front-rear direction and protruding upward in the left-right direction is integrally formed with the longitudinal platen 500, and the platen step portion 510 has a platen vertical portion 511 and a platen horizontal portion 512. The platen horizontal portion 512 is provided with a plurality of vertical platen mounting holes which are uniformly distributed along the longitudinal direction and aligned with the plurality of support base mounting holes 123 in the vertical direction, and the rear positioning screws 520 are respectively disposed in the vertical platen mounting holes. Guide blocks 530 are integrally formed at left and right sides of the longitudinal pressing plate 500, respectively, the guide blocks 530 correspond to cross sections of longitudinal guide grooves on the left and right bases, and the longitudinal pressing plate 500 is slidably coupled with the left and right bases by the guide blocks 530 being engaged with the longitudinal guide grooves on the left and right bases. The position of the longitudinal pressing plate 500 in the up-down direction is changed by sliding the longitudinal pressing plate 500 along the longitudinal guide grooves, and once the position of the longitudinal pressing plate 500 in the up-down direction is determined, the longitudinal pressing plate 500 can be positioned by tightening the rear set screw 520 and screwing it onto the support base mounting hole 123. In addition, scales 540 are provided on the front side portion (particularly, the portion disposed next to the platen step 510) of the longitudinal platen 500 in the left-right direction, and the provision of the scales 540 provides a basis for adjusting the distance between adjacent adjustable press plates 600, which is advantageous for precisely positioning the adjustable press plates 600 and thus more precisely adjusting the distance between the adjacent adjustable press plates 600.

As shown in fig. 6, the single adjustable blade 600 is a block-shaped member having a rectangular shape as a whole, a notch 610 penetrating in the left-right direction and having a rearward opening is formed in the rear side of the adjustable blade 600, an adjustable blade mounting hole is formed in the upper side wall portion of the notch 610, and a blade positioning screw 620 is disposed in the adjustable blade mounting hole. Wherein the opening height of the notch 610 in the up-down direction is slightly larger than the thickness of the front side portion of the longitudinal platen 500 (i.e., the portion located on the front side of the platen step 510). In particular, for convenience of processing, a through hole 630 aligned with the adjustable sheet mounting hole may be formed in the lower side wall of the opening 610, and the through hole 630 is consistent with the size and shape of the adjustable sheet mounting hole, so that in the processing process, holes can be directly formed in the upper and lower side wall of the opening 610, and the processing difficulty can be reduced compared with holes formed in the upper side wall of the opening 610 only.

As shown in fig. 1 and 7, a plurality of adjustable pressing plates 600 are sequentially arranged at the front side of the longitudinal pressing plate 500 in the left-right direction, a single adjustable pressing plate 600 is inserted into the front side portion of the longitudinal pressing plate 500 through a notch 610 formed therein, and then a pressing plate positioning screw 620 is screwed up, so that the adjustable pressing plate 600, particularly the upper side wall portion of the notch 610, moves downward relative to the pressing plate positioning screw 620 until being pressed against the longitudinal pressing plate 500, and thus a downward pressure is applied to the adjustable pressing plate 600 (particularly the upper side wall portion of the notch 610) through the pressing plate positioning screw 620, so that the upper side wall portion of the notch 610 is tightly attached to the longitudinal pressing plate 500, and further, the single adjustable pressing plate 600 is fastened on the longitudinal pressing plate 500; similarly, the opposite screwing of the tab set screw 620 can release the fastening relationship between the adjustable tabs 600 and the longitudinal presser 500, and the operator can adjust the spacing between adjacent adjustable tabs 600 in the left-right direction according to the graduations on the longitudinal presser 500.

The operation principle of the LED light source module welding tool will be briefly described below with reference to the above description of the structure, with reference to fig. 8 to 11, taking the welding positioning of the LED lamp shown in fig. 12 as an example. As shown in fig. 12, the LED lamp 700 mainly has a rectangular main body and a lamp foot 710 fixed thereon, and has the following dimensions: the lamp feet 710 are 11mm long, 5mm wide and 6mm high and 8mm long.

When in use, the whole welding fixture is generally horizontally placed on a horizontal workbench, an operator adjusts the distance between adjacent adjustable press plates 600 according to the actual size of the LED lamp 700 and the scale on the longitudinal press plate 500 until the distance between the adjacent adjustable press plates 600 is 1mm respectively, so that the adjacent adjustable press plates 600 can press the left and right sides of the LED lamp 700, and then the press plate positioning screws 620 are screwed to fix the positions of the adjustable press plates 600 on the longitudinal press plate 500;

The longitudinal pressing plate 500 is placed to a certain position along the longitudinal guide grooves on the left and right side bases so as to leave a space for mounting the LED lamp 700; the front side pressing plate 400 is firstly taken down to be installed later;

The top surface of the LED lamp 700 is downward, the lamp feet 710 are upward, the bottom surface of the LED lamp 700 is tightly attached to the plane part 110 on the supporting base plate 100 according to the direction and the position shown in fig. 8 and pushed in along the gap of the adjustable pressing plate 600, the rear side of the LED lamp 700 is abutted to the vertical part 121 on the supporting base plate 100, then the longitudinal pressing plate 500 is slowly moved down along the longitudinal guide grooves on the left and right side bases until the adjustable pressing plate 600 is tightly pressed on the upper side surface of the LED lamp 700, and then the rear positioning screw 520 is screwed to fix the longitudinal pressing plate 500 on the supporting base plate 100, as shown in fig. 9;

Slowly pushing the front side pressing plate 400 in along the transverse guide grooves on the left and right side bases until the pressing plate vertical part 410 of the front side pressing plate 400 presses the front side of the LED lamp 700, and then screwing the front positioning screw 420 to position the front side pressing plate 400 in the front-rear direction, so that the accurate clamping and positioning of the LED lamp 700 before welding are completed;

as shown in fig. 10 and 11, the soldering hole 810 on the PCB 800 is aligned with the lamp foot 710 of the LED lamp 700 and horizontally placed on the adjustable pressing plate 600, at this time, the lamp foot 710 of the LED lamp 700 passes through the corresponding hole on the PCB 800 to expose a soldering distance, at this time, the clamping, positioning and mounting of the LED lamp and the PCB 800 are all completed, and the soldering can be started;

After the plurality of LED lamps 700 are all soldered to the PCB 800, an operator reversely screws the front set screw 420 and the rear set screw 520 so that the front press plate 400 can move along the lateral guide grooves on the right and left bases and the longitudinal press plate 500 can move along the longitudinal guide grooves on the longitudinal base; then, the front side pressing plate 400 is slid forward along the lateral guide grooves on the left and right side bases, so that the front side pressing plate 400 is separated from the left and right side bases; finally, the assembly formed by the PCB 800 and the plurality of LED lamps 700 is moved forward relative to the left and right bases and the supporting base plate 100 along the front and rear direction until separated from the welding tool, thereby completing the whole process of welding the LED light source module.

By the above, the welding tool provided by the invention has the following technical effects:

First, because front side pressure plate 400, vertical clamp plate 500, adjacent adjustable clamp plate 600 is adjustable in the fore-and-aft direction, upper and lower direction, the position in the left and right directions for welding frock main part (namely by the structure that supporting baseplate and left and right sides base are assembled together), the size of the accommodation space that uses in order to place the welding object is adjustable, can realize utilizing same welding frock to carry out the accurate clamping before the welding to different technical fields, different size specifications, different quantity of welding object (mainly refer to the LED lamp), the location, the suitability of this welding frock and welding object is strong promptly, the commonality is strong, application scope is wide, compared with welding frock and welding object one-to-one among the prior art, the device quantity of the welding frock that can reduce required, space occupied when reducing the welding frock of placing, and then reduce the fund input of welding frock, be favorable to saving manufacturing cost.

Second, since the front side press plate 400 can position the welding object (for example, the LED lamp 700) in the front-rear direction, the longitudinal press plate 500 can adjust the position of the adjustable press plate 600 in the up-down direction, and the plurality of adjustable press plates 600 can position the left and right sides of the welding object (for example, the LED lamp 700) in the up-down direction, thereby realizing clamping and positioning of the welding object before welding, improving the accuracy and reliability of positioning the welding object (for example, the LED lamp 700) before welding, ensuring the assembly accuracy of the LED light source module, and in addition, making the welding process convenient and easy to implement and easy to operate, and being beneficial to improving the welding efficiency.

In addition, the fixture device disclosed by the invention not only can be applied to clamping and positioning the welding process of the LED lamp on the rod position display in the nuclear power field, but also can be applied to the fields of related instruments, communication and the like, and has a wide application range.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

For example, instead of the stepped portion 120, a rear side pressing plate that faces the front side pressing plate 400 and is movable in the front-rear direction with respect to the front side pressing plate 400 may be provided between the left and right side bases, and the vertical surface portion of the present invention may be formed by the side of the rear side pressing plate that faces the front side pressing plate.

Claims (7)

1. LED light source module welding frock, including supporting baseplate (100), its characterized in that still includes:

A vertical face portion provided on the support base plate (100);

A front platen (400) that is opposed to the vertical surface portion and is movable in the front-rear direction with respect to the vertical surface portion;

a plurality of adjustable plates (600) movable in an up-down direction with respect to the support base plate (100), the plurality of adjustable plates (600) being arranged side by side in the left-right direction, and an interval between two adjacent adjustable plates (600) being adjustable;

an accommodating space for accommodating welding objects is defined by the supporting bottom plate (100), the front side pressing plate (400) and the vertical face part;

The device further comprises a longitudinal pressing plate (500) which is arranged along the left-right direction and can move up and down relative to the supporting bottom plate (100), and the plurality of adjustable pressing plates (600) are detachably arranged on the longitudinal pressing plate (500); a scale (540) arranged along the left-right direction is arranged on the front side part of the longitudinal pressing plate (500), and the scale (540) is used for providing a basis for adjusting the interval between adjacent adjustable pressing plates (600);

Wherein, the single adjustable pressing piece (600) is inserted on the longitudinal pressing plate (500) through a notch (610) arranged on the single adjustable pressing piece, and a pressing piece positioning screw (620) used for fastening the single adjustable pressing piece on the longitudinal pressing plate (500) is arranged on the upper side wall part of the notch (610);

The device further comprises a pair of bases (200, 300) which are oppositely arranged on the left side and the right side of the supporting bottom plate (100), wherein transverse guide grooves (220, 320) which are arranged along the front-back direction and used for realizing the front-back movement of the front side pressing plate (400) and longitudinal guide grooves (230, 330) which are arranged along the up-down direction and used for realizing the up-down movement of the longitudinal pressing plate (500) are respectively arranged on the opposite sides of the bases (200, 300).

2. The LED light source module welding fixture according to claim 1, wherein a plane portion (110) is formed at a side of the support base plate (100) where the welding object is placed.

3. The LED light source module welding fixture of claim 1, wherein said longitudinal press plate (500) is fastened to said support base plate (100) by means of rear set screws (520) arranged thereon.

4. The welding fixture of the LED light source module according to claim 1, wherein the pair of bases (200, 300) are respectively provided with avoiding grooves (210, 310) for taking and placing a PCB (800) connected with the welding object in a welding manner at opposite sides.

5. The LED light source module welding fixture according to claim 1, wherein a stepped portion (120) is integrally formed on the support base plate (100), and the vertical face portion is constituted by a vertical portion (121) of the stepped portion (120).

6. The LED light source module welding fixture according to claim 1, further comprising a rear side pressing plate opposing the front side pressing plate (400) and movable in a front-rear direction with respect to the front side pressing plate (400), wherein the vertical surface portion is formed by a side of the rear side pressing plate opposing the front side pressing plate (400).

7. The LED light source module welding fixture according to claim 6, wherein a set screw (420) for fastening it on the support base plate (100) is provided on at least one of the front side pressing plate (400) and the rear side pressing plate.