CN105880783A - Tin melting mechanism in induction transformer automatic tin pick-up machine - Google Patents

Abstract

The invention relates to a tin melting mechanism in an induction transformer automatic tin pick-up machine. Presently, there is no such a tin melting mechanism in the induction transformer automatic tin pick-up machine and applicable to tin pick-up operation for an induction transformer. The tin melting mechanism in the induction transformer automatic tin pick-up machine comprises a frame, a tin melting unit, a flux containing unit, induction transformer input units and an induction transformer output unit. The tin melting unit comprises a solder machine body and electrical heated tubes. A tin melting cavity is formed inside the solder machine body. The tin melting mechanism in the induction transformer automatic tin pick-up machine is characterized in that the tin melting unit further comprises a tin sludge collecting groove, a collecting groove support platform and a collecting groove limiting bar; a tin sludge outlet is formed in the solder machine body; the length of the tin sludge outlet is identical with that of the tin melting cavity; the collecting groove limiting bar is fixed to the collecting groove support platform; and the tin melting unit, the flux containing unit, the induction transformer output unit and the induction transformer input units are arranged in the horizontal direction in sequence. The tin melting mechanism in the induction transformer automatic tin pick-up machine enables tin sludge inside the tin melting cavity to be efficiently, thoroughly and effectively scraped into the tin sludge collecting groove.

Description

A kind of tin melting machine structure in inductive transformer automatic tin dipping machine

Technical field

The present invention relates to a kind of tin melting machine structure, especially relate to the tin melting machine structure in a kind of inductive transformer automatic tin dipping machine, belong to parts in solder machine, be primarily adapted for use in and inductive transformer is carried out tin sticky operation.

Background technology

The production process of inductive transformer needs carry out tin sticky operation, the mode of artificial tin sticky is the most generally used to complete tin sticky operation, need to use substantial amounts of manpower to complete, the quality of artificial tin sticky is unstable, and waste gas is harmful produced by tin sticky, additionally, along with employment cost be continuously increased with the market competition more and more fierce, artificial tin sticky considerably increases production cost, and reduces the market competitiveness.

Also there are some automatic tin dipping devices now, if publication date is on November 11st, 2015, in the Chinese patent of Publication No. CN105033396A, disclose a kind of automatic tin dipping machine；And for example publication date is December in 2012 26, in the Chinese patent of Publication No. CN102837096A, discloses a kind of automatic tin dipping machine；For another example publication date is on 07 25th, 2012, in the Chinese patent of Publication No. CN102601482A, discloses a kind of automatic tin dipping device；These wetting devices all can substitute artificial and realize the function of automatic tin dipping, but owing to the structure of inductive transformer is the most special, these wetting devices are not suitable for inductive transformer is carried out tin sticky operation.

In sum, there is presently no a kind of solder machine being applicable to inductive transformer carries out tin sticky operation, more there is no the tin melting machine structure in a kind of inductive transformer automatic tin dipping machine.

Summary of the invention

It is an object of the invention to overcome above-mentioned deficiency present in prior art, and a kind of reasonable in design is provided, it is possible to efficiently, thoroughly, effectively by the scruff in molten stannum chamber scrape the tin melting machine structure in the inductive transformer automatic tin dipping machine in scruff collecting tank.

nullThe present invention solves the problems referred to above and be the technical scheme is that the tin melting machine structure in this inductive transformer automatic tin dipping machine includes frame、Molten stannum device、Scaling powder contains device、Inductive transformer input equipment and inductive transformer output device，Described molten stannum device includes stannum furnace body and electrothermal tube，Described stannum furnace body is fixed in frame，Described stannum furnace body is rectangle structure，This stannum furnace body is provided with molten stannum chamber，Described molten stannum chamber is rectangle structure，Described electrothermal tube is arranged on molten stannum intracavity，The quantity of described electrothermal tube is two，The axis of two electrothermal tubes is the most horizontal and is positioned at sustained height，Distance between bottom and the bottom in molten stannum chamber of described electrothermal tube is 1-3cm，Distance between top and the top in molten stannum chamber of this electrothermal tube is more than 3cm，Its construction features is: described molten stannum device also includes scruff collecting tank、Collecting tank support platform and collecting tank positive stop strip，The top of one furnace wall of described stannum furnace body is provided with scruff outlet，The length of described scruff outlet and the length in molten stannum chamber are equal，Described collecting tank support platform is fixed on stannum furnace body and is provided with on the furnace wall of scruff outlet，This horizontal structure of collecting tank support platform，Described collecting tank positive stop strip is fixed in collecting tank support platform，This collecting tank positive stop strip is vertical with collecting tank support platform，Described scruff collecting tank is placed in collecting tank support platform，This scruff collecting tank is between collecting tank positive stop strip and stannum furnace body；nullDescribed scaling powder contains device and includes containing device case、For containing the flux bath of scaling powder、Left side lift cylinder and right side lift cylinder，The top of described splendid attire device case is plane，The top of this splendid attire device case is provided with rectangular-shaped scaling powder and contains body groove，It is parallel with molten stannum chamber that described scaling powder contains body groove，This scaling powder contains the length length more than molten stannum chamber of body groove，The bottom of described left side lift cylinder and the bottom of right side lift cylinder are each attached to contain on device case，Described left side lift cylinder and right side lift cylinder are all in vertical shape structure，The left end of described flux bath and right-hand member are separately fixed at top and the top of right side lift cylinder of left side lift cylinder，Described flux bath is parallel with molten stannum chamber，The length of this flux bath and the length in molten stannum chamber are equal，The width of described flux bath and the width in molten stannum chamber are equal，The degree of depth of this flux bath is 3-8cm，Described flux bath is positioned at scaling powder and contains body groove，When needing soldering flux applying until the inductive transformer of tin sticky，Described flux bath rises to scaling powder by left side lift cylinder and right side lift cylinder and contains the top of body groove，After being stained with scaling powder until the inductive transformer of tin sticky，Described flux bath resets to scaling powder by left side lift cylinder and right side lift cylinder and contains in body groove；Described inductive transformer input equipment and inductive transformer output device are installed in frame, the quantity of described inductive transformer input equipment is two sets, wherein there is a set of inductive transformer input equipment as standby, two set inductive transformer input equipment are arranged side by side, and described molten stannum device, scaling powder contain device, inductive transformer output device and inductive transformer input equipment and be arranged in order in the horizontal direction.

As preferably, a length of 20-50cm in molten stannum chamber of the present invention, the width in this molten stannum chamber is 5-20cm.

As preferably, electrothermal tube of the present invention is along the length direction arrangement in molten stannum chamber.

As preferably, the bottom of collecting tank support platform of the present invention and the bottom of stannum furnace body flush.

As preferably, the length of scruff collecting tank of the present invention is more than the length of scruff outlet.

As preferably, the position of inductive transformer output device of the present invention is less than the position of inductive transformer input equipment, and the position of described inductive transformer input equipment is less than the position of flux bath.

The present invention is compared with prior art, have the following advantages and effect: melt the reasonable in design of stannum device, easy to use, the top of one furnace wall of stannum furnace body is provided with scruff outlet, and the design science of scruff collecting tank, flexibly, it is simple to efficiently, thoroughly, effectively the scruff in molten stannum chamber is scraped in scruff collecting tank.

Scaling powder contains the reasonable in design of device, easy to use, flux bath is promoted by left side lift cylinder and right side lift cylinder, be conducive to improving the efficiency of the inductive transformer soldering flux applying treating tin sticky, decrease the time needed for treating the inductive transformer soldering flux applying of tin sticky, thus improve the tin sticky efficiency of entirety.

Accompanying drawing explanation

Fig. 1 is the structural representation of the tin melting machine structure in the embodiment of the present invention in inductive transformer automatic tin dipping machine.

Fig. 2 is molten stannum device and the structural representation of scruff removing device in the embodiment of the present invention.

Fig. 3 is stannum furnace body and the structural representation of electrothermal tube in the embodiment of the present invention.

Fig. 4 is the structure for amplifying schematic diagram between stannum furnace body in the embodiment of the present invention, scruff collecting tank and scruff importing tablet.

Fig. 5 is that in the embodiment of the present invention, scaling powder contains device, inductive transformer input equipment and the structural representation of inductive transformer output device.

Detailed description of the invention

The present invention is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following example are explanation of the invention and the invention is not limited in following example.

Embodiment.

Seeing Fig. 1 to Fig. 5, the tin melting machine structure in the present embodiment inductive transformer automatic tin dipping machine includes that frame 1, molten stannum device 2, scruff removing device 3, scaling powder contain device 4, inductive transformer input equipment 5 and inductive transformer output device 6.

Molten stannum device 2 in the present embodiment includes stannum furnace body 21, electrothermal tube 23, scruff collecting tank 24, collecting tank support platform 25, collecting tank positive stop strip 26 and scruff importing tablet 27, stannum furnace body 21 is fixed in frame 1, stannum furnace body 21 is rectangle structure, this stannum furnace body 21 is provided with molten stannum chamber 22, molten stannum chamber 22 is also rectangle structure, and stannum furnace body 21 forms four furnace walls.Under normal circumstances, length A in molten stannum chamber 22 is 20-50cm, and the width B in molten stannum chamber 22 is 5-20cm.

Electrothermal tube 23 in the present embodiment is arranged in molten stannum chamber 22, the quantity of electrothermal tube 23 can be two, the axis of two electrothermal tubes 23 is the most horizontal and is positioned at sustained height, i.e. two electrothermal tubes 23 flush, distance between bottom and the bottom in molten stannum chamber 22 of electrothermal tube 23 is 1-3cm, and the distance between top and the top in molten stannum chamber 22 of this electrothermal tube 23 is more than 3cm.Under normal circumstances, electrothermal tube 23 is arranged along the length direction in molten stannum chamber 22.

In the present embodiment, the top of a furnace wall of stannum furnace body 21 is provided with scruff outlet 28, and scruff outlet 28 is rectangle structure, and the bottom of scruff outlet 28 is plane, and length L of scruff outlet 28 and length A in molten stannum chamber 22 are equal.

Collecting tank support platform 25 in the present embodiment is fixed on the lateral surface of the furnace wall that stannum furnace body 21 is provided with scruff outlet 28, this horizontal structure of collecting tank support platform 25, and usual and stannum furnace body 21 bottom, the bottom of collecting tank support platform 25 flushes.Collecting tank positive stop strip 26 is fixed in collecting tank support platform 25, and this collecting tank positive stop strip 26 is vertical in vertical shape structure, i.e. collecting tank positive stop strip 26 and collecting tank support platform 25.

Scruff collecting tank 24 in the present embodiment is placed in collecting tank support platform 25, this scruff collecting tank 24 is between collecting tank positive stop strip 26 and stannum furnace body 21, by collecting tank positive stop strip 26, scruff collecting tank 24 carried out spacing and position, the low 3-5cm of height of the aspect ratio scruff outlet 28 of the notch of scruff collecting tank 24.The length of scruff collecting tank 24 is typically larger than length L of scruff outlet 28.

In the present embodiment, the top of scruff importing tablet 27 is fixed on the lateral surface of the furnace wall that stannum furnace body 21 is provided with scruff outlet 28, the bottom of this scruff importing tablet 27 is sagging, and the bottom of scruff importing tablet 27 is positioned at scruff collecting tank 24, scruff importing tablet 27 stretches into a length of 5-10mm in scruff collecting tank 24, stretches into the scruff importing tablet 27 in scruff collecting tank 24 and the contact internal walls of scruff collecting tank 24.Scruff effectively can be imported scruff collecting tank 24 from scruff outlet 28 by scruff importing tablet 27, improves the collection efficiency of scruff, prevents scruff from entering in the gap between scruff collecting tank 24 and stannum furnace body 21.The length of scruff importing tablet 27 is typically larger than length L of scruff outlet 28, and usual and scruff outlet 28 bottom, the top of scruff importing tablet 27 flushes.

Scruff removing device 3 in the present embodiment includes the scruff scraper plate 35 for scraping in scruff collecting tank 24 by the scruff on liquid tin surface in molten stannum chamber 22 from scruff outlet 28, for driving horizontal cylinder 33 and scruff scraper plate 35 in the vertical direction to carry out the vertical cylinder 31 moved back and forth, and for driving scruff scraper plate 35 to carry out the horizontal cylinder 33 moved back and forth in the horizontal direction.

Vertical cylinder 31 in the present embodiment is fixed in frame 1, vertically cylinder 31 is provided with vertical piston rod 32, vertically piston rod 32 is in vertical shape structure, horizontal cylinder 33 is provided with horizontal piston bar 34, the horizontal structure of horizontal piston bar 34, horizontal cylinder 33 is fixed on vertical piston rod 32, and this horizontal cylinder 33 is positioned at the surface of vertical cylinder 31.

Scruff scraper plate 35 in the present embodiment is fixed on horizontal piston bar 34, and scruff scraper plate 35 is generally in vertical shape structure.nullScruff scraper plate 35 and molten stannum chamber 22 coordinate，Scruff scraper plate 35 and stannum furnace body 21 coordinate，Scruff scraper plate 35 and scruff collecting tank 24 coordinate，When needing to strike off the scruff on the surface of liquid tin in molten stannum chamber 22，Scruff scraper plate 35 is positioned at the side in molten stannum chamber 22，Vertical cylinder 31 controls horizontal cylinder 33 and rises and drive scruff scraper plate 35 to rise，Make on the surface of the liquid tin that scruff scraper plate 35 is positioned at molten stannum chamber 22，Then control scruff scraper plate 35 by horizontal cylinder 33 to move forward，Scruff scraper plate 35 is made to shift to the opposite side in molten stannum chamber 22 from the side in molten stannum chamber 22，During until scruff scraper plate 35 moves to distance molten stannum chamber 22 opposite side 1-10mm，Control horizontal cylinder 33 by vertical cylinder 31 decline and drive scruff scraper plate 35 to decline，Scruff scraper plate 35 is immersed in the liquid tin in molten stannum chamber 22，Then control scruff scraper plate 35 by horizontal cylinder 33 to retreat，The scruff scraper plate 35 opposite side from molten stannum chamber 22 is made to be retracted into the side in molten stannum chamber 22，In this process，The scruff on liquid tin surface is scraped the side to molten stannum chamber 22 by scruff scraper plate 35，During until scruff scraper plate 35 moves to distance molten stannum chamber 22 side 1-10mm，Risen by the vertical cylinder 31 horizontal cylinder of control 33 until the bottom of scruff scraper plate 35 rises to the position flushed with the bottom of scruff outlet 28，Next proceed through horizontal cylinder 33 to control scruff scraper plate 35 and retreat，In this process，Most of scruffs are scraped in scruff outlet 28，In these scruffs scrape scruff collecting tank 24 the most at last.In remaining in molten stannum chamber 22, scruff is owing to being positioned at the side in molten stannum chamber 22, and the scruff amount of residual is little, carries out tin sticky operation so not affecting in molten stannum chamber 22.

Scruff removing device 3 in the present embodiment can also include the scraper plate connecting rod 36 preventing scruff to be bonded on horizontal piston bar 34, one end of scraper plate connecting rod 36 is fixed on scruff scraper plate 35, the other end of this scraper plate connecting rod 36 is fixed on horizontal piston bar 34, the diameter of scraper plate connecting rod 36 is overlapping less than the diameter of horizontal piston bar 34, the axis of this scraper plate connecting rod 36 and the axis of horizontal piston bar 34.Scruff removing device 3 could be included for the vertical cylinder bearing 37 being fixed in frame 1 by vertical cylinder 31, and vertical cylinder 31 is fixed in frame 1 by vertical cylinder bearing 37.

Scaling powder in the present embodiment contains device 4 and includes containing device case 41, for containing the flux bath 42 of scaling powder, left side lift cylinder 43 and right side lift cylinder, wherein, the top containing device case 41 is planar structure, the top containing device case 41 is provided with scaling powder splendid attire body groove 44, it is rectangular structure that solder flux contains body groove 44, it is parallel with molten stannum chamber 22 that scaling powder contains body groove 44, this scaling powder contains length length A more than molten stannum chamber 22 of body groove 44, scaling powder contains the length of body groove 44, width and the degree of depth are respectively greater than the length of flux bath 42, width and the degree of depth, whole flux bath 42 under scaling powder can be accommodated in containing body groove 44.

nullThe bottom of the left side lift cylinder 43 in the present embodiment and the bottom of right side lift cylinder are each attached to contain on device case 41，Left side lift cylinder 43 and right side lift cylinder are all in vertical shape structure，The horizontal structure of flux bath 42，The left end of this flux bath 42 and right-hand member are separately fixed at top and the top of right side lift cylinder of left side lift cylinder 43，Flux bath 42 is parallel with molten stannum chamber 22，The length of this flux bath 42 and length A in molten stannum chamber 22 are equal，The width of flux bath 42 and the width B in molten stannum chamber 22 are equal，The degree of depth of this flux bath 42 is 3-8cm，Flux bath 42 is positioned at scaling powder and contains body groove 44，When needing soldering flux applying until the inductive transformer of tin sticky，Flux bath 42 rises to scaling powder by left side lift cylinder 43 and right side lift cylinder and contains the top of body groove 44，Flux bath 42 remains horizontal structure during elevated，After being stained with scaling powder until the inductive transformer of tin sticky，Flux bath 42 resets to scaling powder by left side lift cylinder 43 and right side lift cylinder and contains in body groove 44，Flux bath 42 remains horizontal structure during being reset，Visible，Flux bath 42 in the present embodiment is can up and down formula structure，Be conducive to improving the efficiency of inductive transformer soldering flux applying.

Inductive transformer input equipment 5 and inductive transformer output device 6 in the present embodiment are installed in frame 1, inductive transformer input equipment 5, inductive transformer output device 6 are parallel with flux bath 42, inductive transformer input equipment 5 exports for the inductive transformer of conveyer belt tin sticky, the inductive transformer output device 6 inductive transformer after passing through tin sticky.The quantity of inductive transformer input equipment 5 is two sets, wherein there is a set of inductive transformer input equipment 5 as standby, two set inductive transformer input equipment 5 are arranged side by side, and scruff removing device 3, molten stannum device 2, scaling powder contain device 4, inductive transformer output device 6 and inductive transformer input equipment 5 and be arranged in order in the horizontal direction.

The position of the inductive transformer output device 6 in the present embodiment is less than the position of inductive transformer input equipment 5, and the position of inductive transformer input equipment 5, less than the position of flux bath 42, is conducive to improving tin sticky efficiency.Inductive transformer is common knowledge to those skilled in the art.

Furthermore, it is necessary to illustrate, the specific embodiment described in this specification, the shape of its parts and components, be named title etc. can be different, and the above content described in this specification is only to present configuration example explanation.All equivalence changes done according to structure, feature and the principle described in inventional idea of the present invention or simple change, be all included in the protection domain of patent of the present invention.Described specific embodiment can be made various amendment or supplements or use similar mode to substitute by those skilled in the art; without departing from the structure of the present invention or surmount scope defined in the claims, protection scope of the present invention all should be belonged to.

Claims (6)

1. null1. the tin melting machine structure in an inductive transformer automatic tin dipping machine，Including frame、Molten stannum device、Scaling powder contains device、Inductive transformer input equipment and inductive transformer output device，Described molten stannum device includes stannum furnace body and electrothermal tube，Described stannum furnace body is fixed in frame，Described stannum furnace body is rectangle structure，This stannum furnace body is provided with molten stannum chamber，Described molten stannum chamber is rectangle structure，Described electrothermal tube is arranged on molten stannum intracavity，The quantity of described electrothermal tube is two，The axis of two electrothermal tubes is the most horizontal and is positioned at sustained height，Distance between bottom and the bottom in molten stannum chamber of described electrothermal tube is 1-3cm，Distance between top and the top in molten stannum chamber of this electrothermal tube is more than 3cm，It is characterized in that: described molten stannum device also includes scruff collecting tank、Collecting tank support platform and collecting tank positive stop strip，The top of one furnace wall of described stannum furnace body is provided with scruff outlet，The length of described scruff outlet and the length in molten stannum chamber are equal，Described collecting tank support platform is fixed on stannum furnace body and is provided with on the furnace wall of scruff outlet，This horizontal structure of collecting tank support platform，Described collecting tank positive stop strip is fixed in collecting tank support platform，This collecting tank positive stop strip is vertical with collecting tank support platform，Described scruff collecting tank is placed in collecting tank support platform，This scruff collecting tank is between collecting tank positive stop strip and stannum furnace body；nullDescribed scaling powder contains device and includes containing device case、For containing the flux bath of scaling powder、Left side lift cylinder and right side lift cylinder，The top of described splendid attire device case is plane，The top of this splendid attire device case is provided with rectangular-shaped scaling powder and contains body groove，It is parallel with molten stannum chamber that described scaling powder contains body groove，This scaling powder contains the length length more than molten stannum chamber of body groove，The bottom of described left side lift cylinder and the bottom of right side lift cylinder are each attached to contain on device case，Described left side lift cylinder and right side lift cylinder are all in vertical shape structure，The left end of described flux bath and right-hand member are separately fixed at top and the top of right side lift cylinder of left side lift cylinder，Described flux bath is parallel with molten stannum chamber，The length of this flux bath and the length in molten stannum chamber are equal，The width of described flux bath and the width in molten stannum chamber are equal，The degree of depth of this flux bath is 3-8cm，Described flux bath is positioned at scaling powder and contains body groove，When needing soldering flux applying until the inductive transformer of tin sticky，Described flux bath rises to scaling powder by left side lift cylinder and right side lift cylinder and contains the top of body groove，After being stained with scaling powder until the inductive transformer of tin sticky，Described flux bath resets to scaling powder by left side lift cylinder and right side lift cylinder and contains in body groove；Described inductive transformer input equipment and inductive transformer output device are installed in frame, the quantity of described inductive transformer input equipment is two sets, wherein there is a set of inductive transformer input equipment as standby, two set inductive transformer input equipment are arranged side by side, and described molten stannum device, scaling powder contain device, inductive transformer output device and inductive transformer input equipment and be arranged in order in the horizontal direction.
2. Tin melting machine structure in inductive transformer automatic tin dipping machine the most according to claim 1, it is characterised in that: a length of 20-50cm in described molten stannum chamber, the width in this molten stannum chamber is 5-20cm.
3. Tin melting machine structure in inductive transformer automatic tin dipping machine the most according to claim 1, it is characterised in that: described electrothermal tube is along the length direction arrangement in molten stannum chamber.
4. Tin melting machine structure in inductive transformer automatic tin dipping machine the most according to claim 1, it is characterised in that: the bottom of described collecting tank support platform and the bottom of stannum furnace body flush.
5. Tin melting machine structure in inductive transformer automatic tin dipping machine the most according to claim 1, it is characterised in that: the length of described scruff collecting tank is more than the length of scruff outlet.
6. Tin melting machine structure in inductive transformer automatic tin dipping machine the most according to claim 1, it is characterized in that: the position of described inductive transformer output device is less than the position of inductive transformer input equipment, and the position of described inductive transformer input equipment is less than the position of flux bath.