CN210451298U - 48V socket welding platform for digital communication recorder - Google Patents

Abstract

The utility model provides a 48V socket welded platform for digital communication record appearance, including multiunit welding frock, multiunit the welding frock all sets up to including bottom plate, locating plate one and locating plate two, corresponding locating plate one and locating plate two that set up on the bottom plate, it places the chamber to form the socket between locating plate one and the locating plate two to the restriction treats the longitudinal movement of welding socket, the structure that the chamber was placed to the socket cooperatees with the structure of socket, the locating plate is one upward along its axis direction equipartition many pairs of welding groove one, and is every right can cooperate in the welding groove one and take the socket terminal, treat the transverse movement of welding socket with the restriction, realize treating the plane location of welding socket. The utility model discloses a this welded platform, simple and practical can carry out good location to the socket when carrying out the soldering of 48V socket for the digital communication record appearance and wire to the overlap joint position of wire soldering end is looked for fast on the socket terminal of being convenient for, improves welding efficiency, and guarantees welding quality.

Description

48V socket welding platform for digital communication recorder

Technical Field

The utility model relates to a digital communication is 48V socket welding auxiliary device technical field for the recorder, especially relates to a digital communication is 48V socket welded platform for the recorder.

Background

The digital communication recorder is a device for recording voice and time, and is mainly used for recording voice communication information carried out by telephone or radio so as to quickly and accurately inquire the required conversation content and time. In departments such as railway transportation communication dispatching, power dispatching, fire control command, flood prevention command, traffic, finance and the like, real-time communication records are indispensable means for ensuring safety. Among them, the 48V socket is one of the main components in the digital communication recorder, and the soldering connection quality with the lead is also one of the factors influencing the normal operation of the digital communication recorder, so the soldering connection reliability of the 48V socket and the lead needs to be ensured.

However, when I am directly carry out soldering connection between the two on the workbench, the alignment is found on the socket binding post at the soldering section of the lead easily, so that the 48V socket moves on the workbench, and meanwhile, the soldering section of the lead is thin, so that the alignment needs to be repeated continuously, the difficulty of manual operation is increased, in addition, the soldering connection between the two is easy to be inclined, the welding quality is poor, and the welding efficiency is low. Therefore, aiming at the problem, I design a 48V socket welding platform structure.

Disclosure of Invention

The utility model discloses a main aim at solves the problem that exists among the prior art, provides a simple and practical, can carry out well location to the socket when carrying out the soldering of 48V socket for the digital communication record appearance and wire to the overlap joint position of finding wire soldering end on the socket terminal of being convenient for fast improves welding efficiency, and guarantees the digital communication record appearance of welding quality and uses 48V socket welded platform.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a 48V socket welded platform for digital communication record appearance, wherein 48V socket welded platform for digital communication record appearance includes multiunit welding frock, multiunit the welding frock all sets up to including bottom plate, locating plate one and locating plate two, corresponding locating plate one and locating plate two that set up on the bottom plate, it places the chamber to form the socket between locating plate one and the locating plate two to the restriction treats the longitudinal movement of welding seat, the structure that the chamber was placed to the socket cooperatees with the structure of socket, a plurality of pairs of welding groove one of its axis direction equipartition is followed to locating plate one, and every is right can cooperate in the welding groove one and take the socket terminal, with the restriction treat the lateral shifting of welding seat, realize treating the plane location of welding seat.

Further, the welding tools can be integrally formed.

Further, the bottom plates in the two adjacent groups of welding tools are mutually inserted.

Furthermore, the starting end of the bottom plate is provided with an inserting column, the tail end of the bottom plate is provided with a slot, and the structure of the inserting column is matched with the structure of the slot so as to carry out mutual insertion of two adjacent groups of welding tools.

Further, the section of the inserting column is rectangular or trapezoidal.

Further, the bottom plates in the two adjacent groups of welding tools are mutually overlapped.

Further, the bottom plate is by taking portion, transition portion and holding to take portion to connect gradually and integrated into one piece, take portion and hold the structure of taking portion and cooperate to carry out the mutual overlap joint of adjacent two sets of welding frocks.

Further, set up multiunit recess along its axis direction equipartition of being parallel to on the portion diapire of putting, hold and set up along its axis direction equipartition multiunit bead of being parallel to in the portion, the structure of recess cooperatees with the structure of bead.

Further, the cross section of the convex rib is triangular, rectangular or arc-shaped.

Furthermore, a plurality of pairs of welding grooves II are uniformly distributed on the second positioning plate along the axis direction of the second positioning plate, and the welding grooves II and the welding grooves I are in the same structure.

Furthermore, the first welding groove and the second welding groove can be both set to be two groups of longitudinal arc-shaped through grooves.

Furthermore, two groups of clamping grooves are correspondingly formed in the bottom plate, clamping blocks are arranged at the bottoms of the first positioning plate and the second positioning plate, and the clamping blocks are arranged in the clamping grooves in a matched mode.

Furthermore, the first positioning plate and the second positioning plate can be both made of wood plates or ceramic plates.

The utility model has the advantages and positive effects that:

(1) through the multi-group welding tool structure, a plurality of groups of sockets to be welded and wires can be soldered simultaneously, or after the socket and the wires are soldered on one group of welding tools, finished products are aired on the tools to ensure that the soldered connection between the socket and the wires is solidified, and the next group of sockets and the wires can be soldered on another group of welding tools, so that the sockets and the wires can be soldered in batches.

(2) Through the cooperation structural design of locating plate one, locating plate two and welding groove one, can restrict and treat the vertical and horizontal drunkenness of welding socket, realize treating the good location of welding socket to make things convenient for the welding end of wire to find accurately in welding groove one fast, and take and accomplish the soldering on the socket terminal, effectively reduce and directly carry out both solders now, not only find the accuracy difficulty, easily lead to the junction welding crooked moreover, welding efficiency is low, the poor problem of welding quality.

(3) Through the integrated into one piece structure of welding frock, can effectively simplify this welded platform's production technology to reduction in production cost.

(4) Through the second welding groove of the second positioning plate, the second positioning plate can be matched with the first positioning plate to limit longitudinal movement of the socket to be welded, and the second welding groove is formed in the second positioning plate, so that after the first welding groove on the first positioning plate is damaged after long-term use, the second welding groove is used for tin soldering of the wiring terminal and the wire of the socket, the utilization rate of the welding platform is improved, and the cost is saved.

Drawings

Fig. 1 is a schematic view of an integrated forming structure of a multi-group welding tool in the first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a welding tool in the second embodiment of the present invention.

Fig. 3 is a schematic structural view of a welding platform of an intermediate socket in an embodiment of the present invention.

Fig. 4 is a schematic view of the structure of fig. 3 in which the sockets to be welded are placed.

Fig. 5 is a schematic diagram of the overlapping structure of the wire and the socket to be welded in fig. 4.

Fig. 6 is a first schematic structural diagram of a welding tool in a third embodiment of the present invention.

Fig. 7 is a schematic diagram of an insertion structure of two sets of welding tools in fig. 6.

Fig. 8 is a schematic structural diagram of a welding tool in the third embodiment of the present invention.

Fig. 9 is a first schematic structural diagram of a welding tool in the fourth embodiment of the present invention.

Fig. 10 is a schematic diagram of the overlapping structure of the two sets of welding tools in fig. 9.

Fig. 11 is a schematic structural diagram of a welding tool in the fourth embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a welding tool in the fifth embodiment of the present invention.

In the figure: the socket comprises a welding tool 10, a bottom plate 101, a plug column 1011, a slot 1012, a lapping part 1013, a transition part 1014, a lapping part 1015, a groove 1016, a rib 1017, a clamping groove 1018, a clamping block 1019, a first positioning plate 102, a second positioning plate 103, a socket placing cavity 104, a first welding groove 105, an arc-shaped through groove 1051, a second welding groove 106, a socket 20 to be welded, a socket terminal 201, a lead 30 and a welding end 301.

Detailed Description

For a better understanding of the present invention, the following further description is given in conjunction with the following embodiments and accompanying drawings.

Example one

As shown in FIG. 1, a 48V socket welding platform for a digital communication recorder comprises a plurality of groups of welding tools 10, wherein the plurality of groups of welding tools 10 are all arranged to comprise a bottom plate 101, a first positioning plate 102 and a second positioning plate 103, a plurality of groups of sockets 20 to be welded and wires 30 can be soldered simultaneously through the structure of the plurality of groups of welding tools 10, or after the sockets and the wires 30 on one group of welding tools 10 are soldered, a finished product is dried on the tool to ensure that the soldered joints of the sockets and the wires 30 are solidified, the next group of sockets and the wires 30 can be soldered on another welding tool 10, so that batch soldering of the sockets and the wires 30 is realized, the first positioning plate 102 and the second positioning plate 103 are correspondingly arranged on the bottom plate 101, a socket placing cavity 104 is formed between the first positioning plate 102 and the second positioning plate 103 to limit longitudinal movement of the sockets 20 to be welded, and the structure of the socket placing cavity 104 is matched with the structure of the sockets, a plurality of pairs of first welding grooves 105 are uniformly distributed on the first positioning plate 102 along the axial direction of the first positioning plate, a socket binding post 201 can be matched and placed in each pair of first welding grooves 105, the transverse movement of a to-be-welded socket 20 is limited, the planar positioning of the to-be-welded socket 20 is achieved, the first positioning plate 102, the second positioning plate 103 and the first welding groove 105 are matched and structurally designed, the longitudinal movement and the transverse movement of the to-be-welded socket 20 can be limited, the to-be-welded socket 20 is well positioned, the welding end 301 of the lead 30 can be conveniently and quickly aligned in the first welding groove 105, the tin soldering can be completed on the socket binding post 201 in a lap mode, the existing tin soldering between the two can be directly conducted, the alignment difficulty is overcome, the welding of the connecting position is prone to being caused to be.

Further, the plurality of groups of welding tools 10 can be integrally formed, and the production process of the welding platform can be effectively simplified through the integrally formed structure of the welding tools 10, so that the production cost is reduced.

Specifically, the bottom plate 101, the first positioning plate 102 and the second positioning plate 103 in the multiple sets of welding tools 10 are respectively integrally formed, and the first positioning plate 102 and the second positioning plate 103 can be welded or glued on the bottom plate 101 through industrial glue; because the socket is fixed a position on welding platform, its terminal is taken and is put in welding groove 105, so can effectively avoid having directly to place the socket on the workstation now, when carrying out the soldering of the welding end 301 of wire 30 and socket terminal 201, because of the soldering section of wire 30 is thinner, the socket position is unset again, easily in the centering alignment on socket terminal 201 at the soldering section of wire 30 when taking, make the socket remove, lead to constantly repeated alignment, the manual operation degree of difficulty has been increased, in addition, also easily make the soldering of both crooked, welding quality is relatively poor, the problem of welding inefficiency.

Further, the first positioning plate 102 and the second positioning plate 103 may be both made of wood or ceramic plates.

Example two

As shown in fig. 2 to 5, the difference from the first embodiment is that, furthermore, a plurality of pairs of welding grooves two 106 are uniformly distributed on the positioning plate two 103 along the axial direction thereof, the welding grooves two 106 and the welding grooves one 105 are set to the same structure, the positioning plate two 103 can be matched with the positioning plate one 102 to limit the longitudinal movement of the socket 20 to be welded through the welding grooves two 106 of the positioning plate two 103, and the welding grooves two 106 can be used for soldering the socket terminal 201 and the lead 30 after the welding grooves one 105 on the positioning plate one 102 are damaged after long-term use, so that the utilization rate of the welding platform is improved, and the cost is saved.

Further, the first welding groove 105 and the second welding groove 106 can be both set to be two sets of longitudinal arc-shaped through grooves 1051, and the arc-shaped through grooves 1051 can enable the socket wiring terminal 201 to be well placed on the first positioning plate 102 or the second positioning plate 103, so that limitation on overall transverse movement of the socket is guaranteed.

EXAMPLE III

As shown in fig. 6 to 8, the difference from the first embodiment and the second embodiment is that, further, the bottom plates 101 in two adjacent sets of welding tools 10 are inserted into each other.

Furthermore, the starting end of the bottom plate 101 is provided with an inserting column 1011, the tail end of the bottom plate 101 is provided with a slot 1012, and the structure of the inserting column 1011 is matched with the structure of the slot 1012 so as to perform mutual insertion of two adjacent groups of welding tools 10.

Specifically, the starting end of the bottom plate 101 may be integrally formed with the insertion post 1011, and the number of the insertion post 1011 and the insertion groove 1012 may be specifically determined according to the actual specification of the welding platform, and the like.

Further, the cross-section of inserting post 1011 is rectangle or trapezoidal, through setting up multiunit welding frock 10 to grafting structure each other, simple reliable can carry out the cartridge of corresponding group number welding frock 10 according to actual need to reduce the idle waste that causes of part frock in the multiunit welding frock 10 of integrated into one piece, and occupy the problem in more space.

Example four

As shown in fig. 9 to 11, the difference from the first embodiment and the second embodiment is that further, the bottom plates 101 in two adjacent sets of welding tools 10 overlap each other.

Further, the base plate 101 is integrally formed by sequentially connecting the placing part 1013, the transition part 1014, and the receiving part 1015, and the placing part 1013 and the receiving part 1015 are matched in structure to overlap the two adjacent welding tools 10.

Furthermore, a plurality of groups of grooves 1016 are uniformly distributed on the bottom wall of the lapping part 1013 along the direction parallel to the axis of the lapping part, a plurality of groups of convex ribs 1017 are uniformly distributed on the lapping part 1015 along the direction parallel to the axis of the lapping part, and the structures of the grooves 1016 are matched with the structures of the convex ribs 1017.

Further, the section of the protruding rib 1017 is triangular, rectangular or arc-shaped. Set up to mutual overlap joint structure through multiunit welding frock 10, can be according to actual need, conveniently carry out the equipment of taking of corresponding group number welding frock 10, satisfy the welding demand, wherein, take part 1013 and hold the cooperation structure of taking part 1015 upper groove 1016 and bead 1017, area of contact when can increasing adjacent welding frock 10 overlap joint, further improve overlap joint reliability between the two.

EXAMPLE five

As shown in fig. 12, the difference from the first to fourth embodiments is that two sets of locking grooves 1018 are correspondingly formed on the bottom plate 101, locking blocks 1019 are arranged at the bottoms of the first positioning plate 102 and the second positioning plate 103, the locking blocks 1019 are arranged in the locking grooves 1018 in a matched manner, and through the matching structure design of the locking grooves 1018 and the locking blocks 1019, the first positioning plate 102 and the second positioning plate 103 are conveniently assembled and disassembled on the bottom plate 101, and when one of the positioning plates is damaged, only the corresponding part is replaced, and the other undamaged part is reused, so that the utilization rate of the welding platform is improved, and the cost is saved.

Specifically, the cross sections of the locking groove 1018 and the locking block 1019 may be set to be trapezoidal, the locking block 1019 may be integrally formed at the bottoms of the first positioning plate 102 and the second positioning plate 103, and when the first positioning plate 102 and the second positioning plate 103 are mounted on the bottom plate 101, the first positioning plate 102 and the second positioning plate 103 may be pushed in from the end of the bottom plate 101, i.e., the locking block 1019 slides into the locking groove 1018 along the end of the locking groove.

Use the utility model provides a 48V socket welded platform for digital communication record appearance, simple and practical can carry out well location to the socket when carrying out the soldering of 48V socket for digital communication record appearance and wire 30 to be convenient for find the overlap joint position of wire 30 soldering end on the socket terminal 201 fast, improve welding efficiency, and guarantee welding quality. The assembly and use process of the welding platform is as follows:

taking the first embodiment as an example, the first positioning board 102 and the second positioning board 103 may be welded or glued to the bottom board 101 by industrial glue, so as to complete the assembly of the welding platform, then the socket 20 to be welded is placed in the socket placing cavity 104, and the socket terminal 201 is placed on the corresponding first welding groove 105, and then the end of the socket terminal 201 in the first welding groove 105 is filled with molten metal solder, and the welding end 301 of the lead 30 is quickly aligned and inserted into the molten metal solder (or the soldering section of the lead 30 is quickly aligned and placed on the socket terminal 201, and then the molten metal solder drops to wrap the lap joint of the socket terminal 201 and the socket terminal 201, so as to complete the soldering of the socket and the lead 30, and the soldering principle of the socket is the prior art and thus will not be described in detail herein), the foregoing operations are repeated to complete the rapid soldering of the batch of sockets to the wires 30.

Taking the second embodiment as an example, the operations in the first embodiment are repeated, the socket and the lead 30 can be soldered by the first welding groove 105 on the first positioning plate 102, and after the first welding groove 105 on the first positioning plate 102 is damaged after long-term use, the socket terminal 201 can be placed in the second welding groove 106 on the second positioning plate 103, so that the socket terminal 201 and the lead 30 can be soldered by the second welding groove 106, thereby improving the utilization rate of the soldering platform and saving the cost.

Taking the third embodiment (or the fourth embodiment) as an example, according to the number of the sockets 20 to be welded, the specification of the welding operation table, etc., selecting a corresponding number of sets of welding tools 10 to be inserted (or overlapped), that is, inserting the insertion columns 1011 on the bottom plate 101 of one set of welding tools 10 into the insertion slots 1012 of the bottom plate 101 of another set of welding tools 10 (or overlapping the overlapping parts 1013 on the bottom plate 101 of one set of welding tools 10 onto the overlapping parts 1015 of the bottom plate 101 of another set of welding tools 10), completing the assembly of the sets of welding tools 10 to form a welding platform, then placing the sockets 20 to be welded into the socket placing cavities 104, overlapping the socket posts 201 thereof onto the corresponding first welding grooves 105, pouring molten metal solder onto the ends of the socket posts 201 in the first welding grooves 105, quickly aligning and inserting the welding ends 301 of the lead 30 into the molten metal solder (or firstly placing the soldering sections of the lead 30 onto the overlapping socket posts 201, and then the molten metal solder is dripped and wrapped at the lap joint of the socket and the lead to complete soldering, the soldering principle is the prior art, and details are not repeated, the socket which is soldered is aired at the position to ensure that the soldering joint of the socket and the lead 30 is solidified, the next group of sockets and the lead 30 can be soldered on the other welding groove I105, the operations are repeated, so that the quick soldering of the sockets and the lead 30 in batches is completed, and after the welding groove I105 on the positioning plate I102 is damaged after long-term use, the socket wiring terminal 201 can be lapped in the welding groove II 106 on the positioning plate II 103, so that the socket wiring terminal 201 and the lead 30 can be soldered by using the welding groove II 106, the utilization rate of the welding platform is improved, and the cost is saved.

Taking the fifth embodiment as an example, the single-group welding tool 10 is first assembled, that is, the end of the bottom plate 101 is pushed into the first positioning plate 102 and the second positioning plate 103, so that the fixture block 1019 slides into the first positioning plate 102 and the second positioning plate 103 along the end of the clamping slot 1018, thereby realizing the assembly of the first positioning plate 102 and the second positioning plate 103 on the bottom plate 101, and the assembly and use processes of the third embodiment (or the fourth embodiment) can be repeated, thereby realizing the soldering of the batch sockets and the wires 30.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention should be covered by the present patent.

Claims (10)

1. The utility model provides a 48V socket welded platform for digital communication record appearance which characterized in that: the 48V socket welding platform for the digital communication recorder comprises a plurality of groups of welding tools (10), wherein the plurality of groups of welding tools (10) respectively comprise a bottom plate (101), a first positioning plate (102) and a second positioning plate (103), a first positioning plate (102) and a second positioning plate (103) are correspondingly arranged on the bottom plate (101), a socket placing cavity (104) is formed between the first positioning plate (102) and the second positioning plate (103), to limit the longitudinal movement of the sockets (20) to be welded, the structure of the socket placement cavity (104) cooperating with the structure of the socket, a plurality of pairs of first welding grooves (105) are uniformly distributed on the first positioning plate (102) along the axial direction of the first positioning plate, socket binding posts (201) can be placed in each pair of first welding grooves (105) in a matching mode, so as to limit the transverse movement of the socket (20) to be welded and realize the plane positioning of the socket (20) to be welded.

2. The 48V socket welding platform for digital communication recorder according to claim 1, wherein: the plurality of groups of welding tools (10) can be integrally formed.

3. The 48V socket welding platform for digital communication recorder according to claim 1, wherein: and bottom plates (101) in two adjacent groups of welding tools (10) are assembled with each other.

4. The 48V socket welding platform for the digital communication recorder as claimed in claim 3, wherein: the welding fixture is characterized in that an inserting column (1011) is arranged at the starting end of the bottom plate (101), a slot (1012) is formed in the tail end of the bottom plate (101), and the structure of the inserting column (1011) is matched with the structure of the slot (1012) so as to perform mutual insertion of two adjacent groups of welding fixtures (10).

5. The 48V socket welding platform for the digital communication recorder as claimed in claim 3, wherein: the bottom plate (101) is formed by sequentially connecting an overlapping part (1013), a transition part (1014) and a bearing part (1015) in an integrated manner, and the overlapping part (1013) is matched with the bearing part (1015) in structure so as to overlap two adjacent groups of welding tools (10).

6. The 48V socket welding platform for the digital communication recorder as claimed in claim 5, wherein: set up on portion (1013) diapire along being on a parallel with its axis direction equipartition and set up multiunit recess (1016), hold and set up portion (1015) and go up along being on a parallel with its axis direction equipartition multiunit bead (1017), the structure of recess (1016) cooperatees with the structure of bead (1017).

7. The 48V socket soldering platform for digital communication recorder according to any one of claims 1 to 6, wherein: and a plurality of pairs of welding grooves II (106) can be uniformly distributed on the second positioning plate (103) along the axial direction of the second positioning plate, and the welding grooves II (106) and the welding grooves I (105) are in the same structure.

8. The 48V socket welding platform for digital communication recorder as claimed in claim 7, wherein: the first welding groove (105) and the second welding groove (106) can be both set to be two groups of longitudinal arc-shaped through grooves (1051).

9. The 48V socket soldering platform for digital communication recorder according to any one of claims 1 to 6, wherein: two groups of clamping grooves (1018) are correspondingly formed in the bottom plate (101), clamping blocks (1019) are arranged at the bottoms of the first positioning plate (102) and the second positioning plate (103), and the clamping blocks (1019) are matched and arranged in the clamping grooves (1018).

10. The 48V socket soldering platform for digital communication recorder according to any one of claims 1 to 6, wherein: the first positioning plate (102) and the second positioning plate (103) can be both made of wood plates or ceramic plates.

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