CN217165846U - Tin silk production is with stretching line machine transmission case - Google Patents

Abstract

The utility model provides a tin silk production is with stretching line machine transmission case, including main part and closed frame, closed frame fixed connection is on the top of main part, and the fixed surface of main part is provided with the inlet wire board, and the entrance hole has been seted up to the fixed surface of inlet wire board, and the inboard fixed winding roller that is provided with of main part, the inboard fixed processing structure and the cooling structure that are provided with of main part, the setting of the vertical jingle bell of processing structure and cooling structure, the processing structure is located the inboard top position of main part. After the tin silk is carried through the winding roller, thereby carry out the inspection to the tin silk through the tensile hole that tensile frame bottom was seted up, can carry out secondary operation to it simultaneously, the tin silk is in the process of cooling structure, surrounds the tin silk through surrounding the frame all around, is favorable to cooling structure to concentrate the forced air cooling to it, reaches the effect of cooling, and reaches the effect of carrying out the transport to outside air current through air pump and cooling head to carry out the effect of forced air cooling to the tin silk.

Description

Tin silk production is with stretching line machine transmission case

Technical Field

The utility model relates to a tin silk processing technology field, more specifically the theory relates to a tin silk production is with stretching line machine transmission case.

Background

The tin wire is a common welding material, and consists of tin alloy and auxiliary agents, wherein the alloy components are usually tin-lead and lead-free auxiliary agents which are uniformly poured into the middle part of the tin alloy. The tin wire is characterized in that the tin wire has a certain length and diameter and can be used together with an electric soldering iron in the welding of electronic devices.

At present, in the production and processing technology of the solder wire, the solder wire with larger diameter is generally required to be stretched by a wire stretching machine to form the solder wire with smaller diameter. Therefore, a plurality of stretching processes are required in the solder wire processing process, and the semi-finished solder wire usually flows among the stretching processes in the form of a bobbin. In the wire feeding process, the semi-finished tin wire is uncoiled from the spool, and the tin wire can repeatedly move along the axial direction of the spool in the process.

When the solder wire is stretched repeatedly by the existing wire stretching machine, violent friction occurs between the wandering solder wire and the spool arranged in the wire stretching machine, so that the temperature of the solder wire is increased, and the defects of poor product quality and the like of the solder wire are easily caused.

Therefore, a new wire drawing machine transmission box for producing tin wires is needed.

SUMMERY OF THE UTILITY MODEL

The purpose of the wire stretcher transmission box for tin wire production in the embodiment is achieved by the following specific technical means:

a wire stretching machine transmission box for tin wire production comprises a main body and a closed frame, wherein the closed frame is fixedly connected to the top end of the main body, a wire inlet plate is fixedly arranged on the surface of the main body, a wire inlet hole is formed in the surface of the wire inlet plate, a wire winding roller is fixedly arranged on the inner side of the main body, a processing structure and a cooling structure are fixedly arranged on the inner side of the main body, vertical bells of the processing structure and the cooling structure are arranged, the processing structure is located at the top of the inner side of the main body and comprises a stretching frame, stretching holes, a reinforcing base and a reinforcing plate, the root portion of the stretching frame and the surface position of the outer end of the stretching frame are respectively and fixedly arranged on the reinforcing base and the reinforcing plate, the stretching holes are formed in the surface of the stretching frame, and the cooling structure integrally comprises an enclosing frame, support base, air pump and cooling head, surround frame fixed connection and support the base top, the air pump embedding is in supporting the base, and the cooling head is located surround frame inboard position.

Further preferred embodiments: the inlet wire board distributes in the both sides surface position of main part.

Further preferred embodiments: the wire inlet holes are transversely arranged and provided with a plurality of groups, and balls are movably embedded into the inner side surfaces of the wire inlet holes.

Further preferred embodiments: the inboard of winding roller in the main part sets up two sets ofly, and the outer end of winding roller is supporting to be provided with driving motor, and through axis body swing joint between winding roller and the main part, the fixed surface of winding roller has seted up the thread groove simultaneously.

Further preferred embodiments: tensile frame is whole to be vertical "E" form setting, and the bottom is extended perpendicularly and is set up three group's plate bodys, and tensile frame bottom extension plate body is located cooling structure top position placed in the middle, is buckle swing joint between tensile frame is whole and the main part.

Further preferred embodiments: the two ends of the surrounding frame are vertically and upwardly extended, and the surface is transversely provided with holes,

further preferred embodiments: the air pump is electrically connected with the external control device, and the cooling head is communicated and connected with the air pump through a pipeline.

Further preferred embodiments: the cooling head is set to be a U-shaped head and is positioned between the extension plates at the bottom end of the processing structure.

Has the advantages that:

1. this kind of tin silk production is with stretching line machine transmission case reaches the effect of carrying out the direction to outside tin silk through the entrance hole that line inlet plate and surface were seted up, and the inboard surface embedding in entrance hole is provided with the ball and is favorable to the transport of tin silk simultaneously.

2. This kind of tin silk production is with stretching line machine transmission case, when the tin silk carries, the tin silk carries out the single loop winding in the thread groove on winding roller surface, reaches the effect of carrying out the transport forward to winding tin silk through pivoted winding roller, and when the tin silk winding was in winding roller simultaneously, carried out heat transfer with the tin silk, reached the effect that reduces the tin silk temperature.

3. This kind of tin silk production is with stretching line machine transmission case, tin silk pass through the wire winding roller after carrying, thereby inspect the tin silk through the tensile hole that tensile frame bottom was seted up, can carry out secondary operation to it simultaneously.

4. This kind of tin silk production is with stretching line machine transmission case, the tin silk is in through cooling structure, surround the tin silk all around through surrounding the frame, be favorable to cooling structure to concentrate the forced air cooling to it, reach the effect of cooling, and reach the effect of carrying out the transport to outside air current through air pump and cooling head, thereby carry out the effect of forced air cooling to the tin silk, the cooling head is "U" type head setting, can surround the tin silk from the bottom position, the reinforcing is to the cooling effect of tin silk.

Drawings

Fig. 1 is a cross-sectional view of the overall structure of the present invention.

Fig. 2 is a sectional view of the inner structure of the backrest of the present invention.

Fig. 3 is a sectional view of the internal structure of the fixing base plate of the present invention.

Fig. 4 is a sectional view of the internal structure of the cooling structure of the present invention.

In FIGS. 1-4: the wire winding device comprises a main body 1, a closed frame 2, a wire inlet plate 3, a wire winding roller 4, a processing structure 5, a cooling structure 6, a wire inlet hole 7, a stretching frame 8, a stretching hole 9, a reinforcing base 10, a reinforcing plate 11, a supporting base 12, an air pump 13, a cooling head 14 and a surrounding frame 15.

Detailed Description

As shown in figures 1 to 4:

the utility model provides a tin wire production is with stretching line machine transmission case, including main part 1 and closed frame 2, closed frame 2 fixed connection is on the top of main part 1, the fixed surface of main part 1 is provided with line incoming plate 3, the fixed surface of line incoming plate 3 has seted up entrance hole 7, the fixed side of main part 1 is provided with winding roller 4, the fixed side of main part 1 is provided with processing structure 5 and cooling structure 6, processing structure 5 and cooling structure 6 vertical bell setting, processing structure 5 is located the inboard top position of main part 1, processing structure 5 includes tensile frame 8, tensile hole 9, reinforcing base 10 and gusset plate 11 are fixed respectively with the root and the outer end surface position of tensile frame 8, tensile hole 9 is seted up on the surface of tensile frame 8, cooling structure 6 wholly includes surrounding frame 15, supporting base 12, air pump 13 and cooling head 14, the surrounding frame 15 is fixedly connected to the top of the supporting base 12, the air pump 13 is embedded in the supporting base 12, and the cooling head 14 is located at the inner side of the surrounding frame 15.

Wherein the inlet wire plates 3 are distributed on the two side surface positions of the main body 1.

Wherein, the multiunit is seted up to entrance hole 7 transverse arrangement, and the inboard surperficial activity embedding in entrance hole 7 is provided with the ball, reaches the effect of carrying out the direction to outside tin silk through entrance plate 3 and entrance hole 7 that the surface was seted up, and the inboard surface embedding in entrance hole 7 is provided with the ball and is favorable to the transport of tin silk simultaneously.

Wherein, winding roller 4 sets up two sets ofly in the inboard of main part 1, and the outer end of winding roller 4 is supporting to be provided with driving motor, and through axis body swing joint between winding roller 4 and the main part 1, thread groove has been seted up to winding roller 4's fixed surface simultaneously, when the tin silk carries, the tin silk carries out the single winding in the thread groove on winding roller 4 surface, reach the effect of carrying forward winding tin silk through pivoted winding roller 4, when the tin silk winding is in winding roller 4 simultaneously, carry out heat transfer with the tin silk, reach the effect that reduces the tin silk temperature.

Wherein, tensile frame 8 wholly is vertical "E" form setting, and the bottom is extended perpendicularly and is set up three group's plate bodys, and tensile frame 8 bottom extension plate body is located 6 tops positions placed in the middle of the cooling structure, is buckle swing joint between tensile frame 8 is whole and the main part 1, thereby the tin silk inspects the tin silk through tensile hole 9 that tensile frame 8 bottom was seted up after 4 transport of wire winding roller, can carry out secondary operation to it simultaneously.

Wherein, two ends of the surrounding frame 15 are vertically and upwardly extended, and the surface is transversely provided with holes,

wherein, the air pump 13 is electrically connected with an external control device, and the cooling head 14 is communicated with the air pump 13 through a pipeline.

Wherein, the cooling head 14 sets up to "U" type head, be in simultaneously and process 5 bottom extension boards between the position, the tin silk is in through cooling structure 6, surround around the tin silk through surrounding frame 15, be favorable to cooling structure 6 to concentrate the forced air cooling to it, reach the effect of cooling, and reach the effect of carrying outside air current through air pump 13 and cooling head 14, thereby carry out the effect of forced air cooling to the tin silk, cooling head 14 is "U" type head setting, can surround the tin silk from the bottom position, the reinforcing is to the cooling effect of tin silk.

The working principle is as follows:

the specific use mode and effect of the embodiment are that a user enables a tin wire which is processed outside to enter the inner side position of a main body 1 through a wire inlet plate 3, when the tin wire is arranged on the inner side of the main body 1, the tin wire is wound for a single circle on a winding roller 4 and then conveyed to the front end again, after passing through the winding roller 4, the front end of the tin wire is embedded between a processing structure 5 and a cooling structure 6, then the outer end of the tin wire is conveyed outwards through another group of winding rollers 4, when the tin wire is arranged between the processing structure 5 and the cooling structure 6, the tin wire firstly passes through a stretching hole 9 on the surface of a stretching frame 8 in the processing structure 5, the diameter of the tin wire is checked through the stretching hole 9, if the tin wire is unqualified, secondary processing can be carried out through the stretching hole 9, an external control device controls an air pump 13 to operate, the air pump 13 conveys external air flow to carry out air cooling treatment on the tin wire through a cooling head 14, therefore, the temperature of the tin wire is reduced, and the temperature of the tin wire can be reduced by heat transfer when the tin wire is on the winding roller 4.

Claims (8)

1. The utility model provides a tin silk production is with stretching line machine transmission case, includes main part (1) and seals frame (2), seals frame (2) fixed connection on the top of main part (1), its characterized in that: the fixed surface of main part (1) is provided with inlet plate (3), inlet wire hole (7) have been seted up to the fixed surface of inlet plate (3), the inboard fixed winding roller (4) that is provided with of main part (1), the inboard fixed processing structure (5) and cooling structure (6) that are provided with of main part (1), processing structure (5) and the vertical jingle bell setting of cooling structure (6), processing structure (5) are located the inboard top position of main part (1), processing structure (5) are including tensile frame (8), tensile hole (9), consolidate base (10) and gusset plate (11) root and the outer end surface position that are provided with tensile frame (8) are fixed respectively, tensile hole (9) are seted up on the surface of tensile frame (8), cooling structure (6) are whole including enclosing frame (15), support base (12), The air pump (13) and the cooling head (14), the surrounding frame (15) is fixedly connected to the top of the supporting base (12), the air pump (13) is embedded in the supporting base (12), and the cooling head (14) is located at the inner side of the surrounding frame (15).

2. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: the wire inlet plates (3) are distributed on the two side surfaces of the main body (1).

3. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: the wire inlet holes (7) are transversely arranged and provided with a plurality of groups, and balls are movably embedded into the inner side surfaces of the wire inlet holes (7).

4. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: the winding roller (4) is arranged in two groups on the inner side of the main body (1), the outer end of the winding roller (4) is provided with a driving motor in a matched mode, the winding roller (4) is movably connected with the main body (1) through a shaft body, and meanwhile a threaded groove is formed in the surface of the winding roller (4) in a fixed mode.

5. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: tensile frame (8) wholly is vertical "E" form setting, and the bottom is extended perpendicularly and is set up three group's plate bodys, and tensile frame (8) bottom extends the plate body and is located cooling structure (6) top position placed in the middle, is buckle swing joint between tensile frame (8) wholly and main part (1).

6. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: the two ends of the surrounding frame (15) vertically extend upwards, and open holes are formed in the surface of the surrounding frame in a transversely distributed mode.

7. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: the air pump (13) is electrically connected with an external control device, and the cooling head (14) is communicated with the air pump (13) through a pipeline.

8. The tin wire production is with stretching line machine transmission case of claim 1, characterized in that: the cooling head (14) is arranged to be a U-shaped head and is arranged between the extension plates at the bottom end of the processing structure (5).

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