CN209578420U - A kind of multi-functional overturning platform of scolding tin smelting tool - Google Patents

Abstract

The utility model relates to scolding tin smeltings to have overturning field, specifically, it is related to a kind of multi-functional overturning platform of scolding tin smelting tool, including flip-arm, synchronization mechanism, optoelectronic induction mechanism and rotating mechanism, flip-arm includes positioning strip, swingle, first positioning plate, second positioning plate, first straight line track, second straight line track, first gear and support frame, support frame is connect with synchronization mechanism, positioning strip and swingle are horizontally disposed, positioning strip and swingle are parallel to each other, positioning strip both ends are connect with the first positioning plate and the second positioning plate respectively, it is connect on the inside of first positioning plate with first straight line track, it is connect on the inside of second positioning plate with second straight line track, first gear and swingle are tightly connected by bolt lock, a kind of multi-functional overturning platform of scolding tin smelting tool of the utility model can quickly and easily replace smelting tool, have simultaneously to smelting multi-faceted Scolding tin is carried out, is easily installed and carries, mass production is suitble to use, the efficiency of smelting tool scolding tin can be improved.

Description

A kind of multi-functional overturning platform of scolding tin smelting tool

Technical field

The utility model relates to scolding tin smeltings to have overturning field, and in particular, to a kind of multi-functional overturning of scolding tin smelting tool is flat Platform.

Background technique

Scolding tin is the essential industry raw material that electronic component is connected in welding route, is a kind of lower melting-point weldering Material refers mainly to the solder made of kamash alloy, and the production method of scolding tin is first with melting legal system ingot, and then pressure processing is become a useful person, Smelting tool is a carpenter, ironworker, pincers worker, machinery, automatically controlled and some other artifacts major tool, primarily as association A kind of tool of control position or movement is helped, smelting tool can be divided into technique assembly class smelting tool, project testing class smelting tool and wiring board Test class smelting has three classes, and smelting tool needs to overturn during the manufacturing carry out scolding tin, and existing smelting tool is when carrying out scolding tin, usually The movement that can only carry out single direction, cannot comprehensively be overturn, and had each position to smelting and carried out scolding tin, need staff The adjustment of continuous progress position just can be carried out smelting tool scolding tin, in this way waste plenty of time and labour, be unfavorable for being mass produced, And staff may be injured when carrying out manual operations, so that worker safety is affected, has some large sizes to turn over Turn platform, complicated operation, and figure is larger to be unfavorable for carrying and install, and manufacturing cost is high, is not suitable for extensive Produce and use, it is therefore necessary to design it is a kind of can be convenient for changing smelting tool, multi-faceted can be overturn, be easily installed and carry Multi-functional overturning platform.

Utility model content

In view of the deficiencies of the prior art, the utility model provides a kind of multi-functional overturning platform of scolding tin smelting tool.

A kind of multi-functional overturning platform of scolding tin smelting tool disclosed by the utility model, including flip-arm, synchronization mechanism, photoelectricity Induction mechanism and rotating mechanism, flip-arm are connect with synchronization mechanism, and synchronization mechanism lower end is connect with rotating mechanism, optoelectronic induction machine Be attached with synchronous induction mechanism, rotating mechanism upper end is connect through synchronization mechanism with flip-arm, flip-arm include positioning strip, Swingle, the first positioning plate, the second positioning plate, first straight line track, second straight line track, first gear and support frame, support Frame is connect with synchronization mechanism, and swingle both ends pass through support frame both ends, first straight line track and second straight line from outer to inner respectively Orbital Symmetry setting, first straight line track are connect with swingle one end, and second straight line track and swingle are far from first straight line rail The one end in road connects, and first straight line track and second straight line track upper end are connect with positioning strip bottom surface, positioning strip and swingle Horizontally disposed, positioning strip and swingle are parallel to each other, and positioning strip both ends are connect with the first positioning plate and the second positioning plate respectively, It connect, is connect on the inside of the second positioning plate with second straight line track, first gear position with first straight line track on the inside of first positioning plate In the middle part of swingle, first gear and swingle are tightly connected by bolt lock.

Preferably, the rotating mechanism includes first servo motor, fixed frame, shaft coupling, outrigger shaft and second gear, and One servo motor is vertically arranged, and fixed frame bottom end is connect with first servo motor, and first servo motor output shaft and shaft coupling connect It connects, outrigger shaft is vertically arranged, and outrigger shaft lower end is connect with shaft coupling, and outrigger shaft passes through fixed frame, outrigger shaft top and the second tooth Wheel connection, second gear is by bolt and extends axis connection, and second gear is engaged with the first gear on swingle.

Preferably, the synchronization mechanism includes the second servo motor, the first synchronizing wheel, the second synchronizing wheel, belt, rotary sleeve And protective shell, the second servo motor are vertically arranged, and the first synchronizing wheel are arranged on the second servo motor output shaft, belt sleeve is first In synchronizing wheel and the second synchronizing wheel, the second synchronizing wheel is set on outrigger shaft, and the second synchronizing wheel bottom end and rotary sleeve pass through bolt Locking connection, rotary sleeve bottom end pass through fixed frame.

Preferably, the optoelectronic induction mechanism includes slot type photoelectric sensor and test disks, and test disks are horizontally disposed, The outer rim of test disks is located between the detection path of slot type photoelectric sensor, and the outer rim of test disks offers one for slot type The detection notch of photoelectric sensor detection, slot type photoelectric sensor and protection shell side wall locking connect, test disks and rotary sleeve Bottom end is tightly connected by bolt lock.

Preferably, first bearing and second bearing are arranged on the outrigger shaft, first bearing is located at outrigger shaft upper end, the Two bearings are located at outrigger shaft lower end, and first bearing and second bearing are connect with rotary sleeve inner wall.

Preferably, 3rd bearing and fourth bearing are arranged on the rotary sleeve outer wall, 3rd bearing is located on rotary sleeve End, fourth bearing are located in the middle part of rotary sleeve, and 3rd bearing and fourth bearing outer wall are connect with protective shell.

Preferably, it is provided with the first locating slot for accommodating scolding tin smelting tool on first positioning plate, is set on the second positioning plate It is equipped with the second locating slot for accommodating scolding tin smelting tool, the first locating slot is located at the one end of the first positioning plate far from first straight line track, Second locating slot is located at the one end of the second positioning plate far from second straight line track.

Preferably, the material path for accommodating scolding tin smelting tool is provided at the top of the positioning strip, material path is along positioning strip length direction, material Road both ends are connected with the first locating slot and the second locating slot respectively.

The utility model has the advantages that the multi-functional overturning platform that a kind of scolding tin smelting of the utility model has, when rotating arm is moved to initially When position, when manipulator pulls out jig into the first locating slot on the first positioning plate, smelting tool is continued to move to by material path, until pulling out The second locating slot smelting tool stops movement on into the second positioning plate, and spring ball, which has smelting in side, to be compressed, and smelting tool is positioned, and starts Have to smelting and carry out scolding tin, the procedural freedom flip angle of first servo motor and the setting of the second servo motor root Ju opens first Servo motor, the rotation of first servo motor output shaft drive the outrigger shaft rotation on shaft coupling, and the second gear on outrigger shaft turns Dynamic, second gear drives first gear rotation, and first gear rotation drives swingle rotation, and swingle rotation drives first straight line Track and second straight line track are swung, and positioning strip is connect with first straight line track and second straight line track, the first positioning plate with The connection of first straight line track, the second positioning plate are connect with second straight line track, and positioning strip, the first positioning plate and the second positioning plate are equal It swings, the smelting tool in positioning strip material path, the first locating slot and the second locating slot is also swung together, is convenient for scolding tin, together When the second servo motor rotate, the output shaft rotation on the second servo motor drives the rotation of the first synchronizing wheel, in the first synchronizing wheel Belt drive the rotation of the second synchronizing wheel, the rotation of the second synchronizing wheel drives support frame and rotary sleeve rotation, support frame and swingle Connection drives positioning strip, the first positioning plate and the rotation of the second positioning plate, rotary sleeve to connect with test disks, test disks rotation Slot type photoelectric sensor is detected, and slot type photoelectric sensor controls rotating arms horizontal and rotates angle, after the completion of smelting has scolding tin, First servo motor and the rotation of the second servo motor, while being controlled by test disks and slot type photoelectric sensor, by rotating arm On smelting tool ajust, photoelectric sensor detects that smelting tool is ajusted, and order manipulator pulls out next smelting tool again into the first positioning In slot, material path and the second locating slot, new smelting tool is just directly ejected into the smelting tool for having welded tin, is carried out continuously smelting tool weldering Tin, a kind of multi-functional overturning platform of scolding tin smelting tool of the utility model can quickly and easily replace smelting tool, while have to smelting more Orientation carries out scolding tin, is easily installed and carries, and mass production is suitble to use, and can improve the efficiency of smelting tool scolding tin.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present application, constitutes part of this application, this Shen Illustrative embodiments and their description please are not constituted an undue limitation on the present application for explaining the application.In the accompanying drawings:

Fig. 1 is the schematic perspective view one of utility model；

Fig. 2 is the schematic perspective view two of utility model；

Fig. 3 is the top view of utility model；

Fig. 4 is the cross-sectional view one of utility model；

Fig. 5 is the cross-sectional view two of utility model；

Fig. 6 is enlarged diagram at utility model A；

Fig. 7 is enlarged diagram at utility model B；

Description of symbols: positioning strip 1, swingle 2, the first positioning plate 3, the second positioning plate 4, first straight line track 5, Two rectilinear orbits 6, first gear 7, support frame 8, first servo motor 9, fixed frame 10, shaft coupling 11, outrigger shaft 12, the second tooth Take turns the 13, second servo motor 14, the first synchronizing wheel 15, the second synchronizing wheel 16, belt 17, rotary sleeve 18, protective shell 19, slot type light Electric inductor 20, test disks 21, first bearing 22, second bearing 23,3rd bearing 24, fourth bearing 25, the first locating slot 26, the second locating slot 27, material path 28.

Specific embodiment

Multiple embodiments that the utility model will be disclosed with schema below, as clearly stated, in many practices Details will be explained in the following description.It should be appreciated, however, that the details in these practices does not apply this with limitation practical new Type.That is, the details in these practices is non-essential in some embodiments of the utility model.In addition, for letter For the sake of changing schema, some known usual structures and component will be painted it in the drawings in simply illustrative mode.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and non-specifically The meaning of order or cis-position is censured, it is also non-to limit the utility model, it is retouched just for the sake of difference with same technique term The component stated or operation are not understood to indicate or imply its relative importance or implicitly indicate indicated technology The quantity of feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.It in addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution Conjunction is not present, also not within the protection scope of the requires of the utility model.

A kind of multi-functional overturning platform of scolding tin smelting tool referring to Figure 1 to Figure 7, including flip-arm, synchronization mechanism, optoelectronic induction Mechanism and rotating mechanism, flip-arm are connect with synchronization mechanism, and synchronization mechanism lower end is connect with rotating mechanism, optoelectronic induction machine and same Step induction mechanism is attached, and rotating mechanism upper end is connect through synchronization mechanism with flip-arm, and flip-arm includes positioning strip 1, rotation Bull stick 2, the first positioning plate 3, the second positioning plate 4, first straight line track 5, second straight line track 6, first gear 7 and support frame 8, Support frame 8 is connect with synchronization mechanism, and 2 both ends of swingle pass through 8 both ends of support frame, 5 He of first straight line track from outer to inner respectively Second straight line track 6 is symmetrical arranged, and first straight line track 5 is connect with 2 one end of swingle, and second straight line track 6 and swingle 2 are remote One end connection from first straight line track 5, first straight line track 5 and 6 upper end of second straight line track connect with 1 bottom surface of positioning strip It connects, positioning strip 1 and swingle 2 are horizontally disposed, and positioning strip 1 and swingle 2 are parallel to each other, and 1 both ends of positioning strip are respectively with first Positioning plate 3 and the connection of the second positioning plate 4, the inside of the first positioning plate 3 connects with first straight line track 5, on the inside of the second positioning plate 4 and Second straight line track 6 connects, and first gear 7 is located at 2 middle part of swingle, and first gear 7 is close to swingle 2 by bolt lock It connects.

The rotating mechanism includes first servo motor 9, fixed frame 10, shaft coupling 11, outrigger shaft 12 and second gear 13, First servo motor 9 is vertically arranged, and 10 bottom end of fixed frame is connect with first servo motor 9,9 output shaft of first servo motor and connection Axis device 11 connects, and outrigger shaft 12 is vertically arranged, and 12 lower end of outrigger shaft is connect with shaft coupling 11, and outrigger shaft 12 passes through fixed frame 10, 12 top of outrigger shaft is connect with second gear 13, and second gear 13 is connect by bolt with outrigger shaft 12, second gear 13 and rotation First gear 7 on bull stick 2 engages, and first servo motor 9 rotates, the outrigger shaft 12 on drive shaft coupling 11, on outrigger shaft 12 Second gear 13 rotate, drive rotating arm on swingle 2 rotate, change rotating arm on smelting tool scolding tin angle, revolve simultaneously Rotation mechanism is also that the smelting tool that scolding tin is completed is ajusted and provides power.

The synchronization mechanism includes the second servo motor 14, the first synchronizing wheel 15, the second synchronizing wheel 16, belt 17, rotation Set 18 and protective shell 19, the second servo motor 14 are vertically arranged, and the first synchronizing wheel 15 is arranged on 14 output shaft of the second servo motor, 17 sets of belt in the first synchronizing wheel 15 and the second synchronizing wheel 16, the second synchronizing wheel 16 is set on outrigger shaft 12, and second is synchronous It takes turns 16 bottom ends to be tightly connected with rotary sleeve 18 by bolt lock, 18 bottom end of rotary sleeve passes through fixed frame 10, the second 14 turns of servo motor Dynamic to drive the first synchronizing wheel 15 and the rotation of the second synchronizing wheel 16, the second synchronizing wheel 16 is connected with rotary sleeve 18 while rotation It connects, entire mechanism can drive rotating arm to rotate angle in the horizontal direction, carry out scolding tin operation convenient for smelting tool, guarantee smelting tool Carry out comprehensive scolding tin.

The optoelectronic induction mechanism includes slot type photoelectric sensor 20 and test disks 21, and test disks 21 are horizontally disposed, The outer rim of test disks 21 is located between the detection path of slot type photoelectric sensor 20, and the outer rim of test disks 21 offers one For the detection notch that slot type photoelectric sensor 20 detects, slot type photoelectric sensor 20 and the locking of 19 side wall of protective shell are connected, detection Disk 21 is tightly connected with 18 bottom end of rotary sleeve by bolt lock, and slot type photoelectric sensor 20 is electrically connected with the second servo motor 14, Slot type photoelectric sensor 20 is used cooperatively with test disks 21, test disks 21 in the rotation, slot type optoelectronic induction The circle number and angle that device 20 rotates test disks 21 control, while controlling the rotation of the second servo motor 14, adjust rotation Arm ajusts smelting tool.

First bearing 22 and second bearing 23 are arranged on the outrigger shaft 12, first bearing 22 is located on outrigger shaft 12 End, second bearing 23 are located at 12 lower end of outrigger shaft, and first bearing 22 and second bearing 23 are connect with 18 inner wall of rotary sleeve, and first Bearing 22 and second bearing 23 are arranged between outrigger shaft 12 and rotary sleeve 18, when outrigger shaft 12 rotates, pass through first The effect rotary sleeve 18 of the second bearing 23 of 22 sum of bearing is unaffected, and the rotation of rotary sleeve 18 does not influence outrigger shaft 12 and rotates, and two Person does not interfere with each other, and being simultaneously operable respectively to work independently.

3rd bearing 24 and fourth bearing 25 are arranged on 18 outer wall of rotary sleeve, 3rd bearing 24 is located at rotary sleeve 18 Upper end, fourth bearing 25 are located at 18 middle part of rotary sleeve, and 3rd bearing 24 and 25 outer wall of fourth bearing are connect with protective shell 19, the Three bearings 24 and fourth bearing 25 between protective shell 19 and rotary sleeve 18, rotary sleeve 18 rotation protective shell 19 between not by The problem of influencing, and play connection between protective shell 19 and rotary sleeve 18, guaranteeing that overall structure is stablized, be not in offset, Reduce the generation of machine operation failure.

It is provided with the first locating slot 26 for accommodating scolding tin smelting tool on first positioning plate 3, is provided on the second positioning plate 4 The second locating slot 27 of scolding tin smelting tool is accommodated, the first locating slot 26 is located at one of the first positioning plate 3 far from first straight line track 5 End, the second locating slot 27 are located at second one end of positioning plate 4 far from second straight line track 6, the first locating slot 26 and the second positioning Slot 27 is respectively intended to the both ends of fixed smelting tool, guarantees that smelting tool is stably fixed in rotating arm, guarantees smelting during rotation The problem of tool can be stabilized in rotating arm, will not shift.

The material path 28 for accommodating scolding tin smelting tool is provided at the top of the positioning strip 1, material path 28 is along 1 length direction of positioning strip, material 28 both ends of road are connected with the first locating slot 26 and the second locating slot 27 respectively, when material path 28 is mainly that smelting tool entirety is placed, mention For a track, smelting tool can be guided to be placed into correct position in rotating arm well, guarantee that smelting tool can accurately be with first Locating slot 26 and the fitting of the second locating slot 27.

Working principle: when rotating arm is moved to initial position, manipulator pulls out jig into first on the first positioning plate 3 When locating slot 26, smelting tool is continued to move to by material path 28, stops moving until pulling out into 27 smelting of the second locating slot tool on the second positioning plate 4 Dynamic, spring ball, which has smelting in side, to be compressed, and smelting tool is positioned, and starts to carry out scolding tin, first servo motor 9 and second to smelting tool The procedural freedom flip angle of 14 Jus of servo motor setting, opens first servo motor 9, and 9 output shaft of first servo motor turns The dynamic outrigger shaft 12 driven on shaft coupling 11 rotates, and the second gear 13 on outrigger shaft 12 rotates, and second gear 13 drives first Gear 7 rotates, and the rotation of first gear 7 drives swingle 2 to rotate, and the rotation of swingle 2 drives first straight line track 5 and second straight line Track 6 is swung, and positioning strip 1 is connect with first straight line track 5 and second straight line track 6, the first positioning plate 3 and first straight line rail Road 5 connects, and the second positioning plate 4 is connect with second straight line track 6, and positioning strip 1, the first positioning plate 3 and the second positioning plate 4 are put Dynamic, the smelting tool in 1 material path 28 of positioning strip, the first locating slot 26 and the second locating slot 27 is also swung together, is convenient for scolding tin, The second servo motor 14 rotates simultaneously, and the output shaft rotation on the second servo motor 14 drives the first synchronizing wheel 15 to rotate, and first Belt 17 in synchronizing wheel 15 drives the rotation of the second synchronizing wheel 16, and the rotation of the second synchronizing wheel 16 drives support frame 8 and rotary sleeve 18 Rotation, support frame 8 connect with swingle 2, and positioning strip 1, the first positioning plate 3 and the second positioning plate 4 is driven to rotate, rotary sleeve 18 and Test disks 21 connect, and test disks 21 rotate slot type photoelectric sensor 20 and detected, the control rotation of slot type photoelectric sensor 20 Pivoted arm horizontal rotation angle, after the completion of smelting has scolding tin, first servo motor 9 and the rotation of the second servo motor 14 pass through simultaneously Test disks 21 and slot type photoelectric sensor 20 control, and the smelting tool on rotating arm is ajusted, and photoelectric sensor detects smelting tool pendulum Just, order manipulator pulls out next smelting tool into the first locating slot 26, material path 28 and the second locating slot 27 again, new smelting tool Have into the smelting for having welded tin and be just directly ejected, is carried out continuously smelting tool scolding tin.

Upper described only the embodiments of the present invention, is not intended to limit the utility model.For this field For technical staff, various modifications and changes may be made to the present invention.The interior institute of all spirit and principle in the utility model Any modification, equivalent substitution, improvement and etc. of work should all include within the scope of the claims of the utility model.

Claims (8)

1. a kind of multi-functional overturning platform of scolding tin smelting tool, which is characterized in that including flip-arm, synchronization mechanism, optoelectronic induction machine Structure and rotating mechanism, flip-arm are connect with synchronization mechanism, and synchronization mechanism lower end is connect with rotating mechanism, optoelectronic induction machine with it is synchronous Induction mechanism is attached, and rotating mechanism upper end is connect through synchronization mechanism with flip-arm, and flip-arm includes positioning strip (1), rotation Bull stick (2), the first positioning plate (3), the second positioning plate (4), first straight line track (5), second straight line track (6), first gear (7) it is connect with support frame (8), support frame (8) with synchronization mechanism, swingle (2) both ends pass through support frame (8) from outer to inner respectively Both ends, first straight line track (5) and second straight line track (6) are symmetrical arranged, first straight line track (5) and swingle (2) one end Connection, second straight line track (6) are connect with swingle (2) far from the one end of first straight line track (5), first straight line track (5) It is connect with positioning strip (1) bottom surface with second straight line track (6) upper end, positioning strip (1) and swingle (2) are horizontally disposed, fixed Position item (1) and swingle (2) are parallel to each other, and positioning strip (1) both ends connect with the first positioning plate (3) and the second positioning plate (4) respectively It connects, is connect on the inside of the first positioning plate (3) with first straight line track (5), the second positioning plate (4) inside and second straight line track (6) Connection, first gear (7) are located in the middle part of swingle (2), and first gear (7) is tightly connected with swingle (2) by bolt lock.

2. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 1, it is characterised in that: the rotating mechanism Including first servo motor (9), fixed frame (10), shaft coupling (11), outrigger shaft (12) and second gear (13), the first servo electricity Machine (9) is vertically arranged, and fixed frame (10) bottom end is connect with first servo motor (9), first servo motor (9) output shaft and shaft coupling Device (11) connection, outrigger shaft (12) are vertically arranged, and outrigger shaft (12) lower end is connect with shaft coupling (11), and outrigger shaft (12) passes through solid Determine frame (10), outrigger shaft (12) top is connect with second gear (13), and second gear (13) is connected by bolt and outrigger shaft (12) It connects, second gear (13) is engaged with the first gear (7) on swingle (2).

3. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 2, it is characterised in that: the synchronization mechanism Including the second servo motor (14), the first synchronizing wheel (15), the second synchronizing wheel (16), belt (17), rotary sleeve (18) and protection Shell (19), the second servo motor (14) are vertically arranged, and are arranged the first synchronizing wheel (15), skin on the second servo motor (14) output shaft Band (17) covers in the first synchronizing wheel (15) and the second synchronizing wheel (16), and the second synchronizing wheel (16) is set on outrigger shaft (12), Second synchronizing wheel (16) bottom end is tightly connected with rotary sleeve (18) by bolt lock, and rotary sleeve (18) bottom end passes through fixed frame (10).

4. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 3, it is characterised in that: the optoelectronic induction Mechanism includes slot type photoelectric sensor (20) and test disks (21), and test disks (21) are horizontally disposed, test disks (21) Outer rim is located between the detection path of slot type photoelectric sensor (20), and the outer rim of test disks (21) offers one for slot type light The detection notch of electric inductor (20) detection, slot type photoelectric sensor (20) and the locking of protective shell (19) side wall connect, detection circle Disk (21) is tightly connected with rotary sleeve (18) bottom end by bolt lock, slot type photoelectric sensor (20) and the second servo motor (14) electricity Connection.

5. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 4, it is characterised in that: the outrigger shaft (12) first bearing (22) and second bearing (23) are arranged on, first bearing (22) is located at outrigger shaft (12) upper end, the second axis It holds (23) and is located at outrigger shaft (12) lower end, first bearing (22) and second bearing (23) are connect with rotary sleeve (18) inner wall.

6. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 5, it is characterised in that: the rotary sleeve (18) 3rd bearing (24) and fourth bearing (25) are arranged on outer wall, 3rd bearing (24) is located at rotary sleeve (18) upper end, the Four bearings (25) are located in the middle part of rotary sleeve (18), and 3rd bearing (24) and fourth bearing (25) outer wall connect with protective shell (19) It connects.

7. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 1, it is characterised in that: first positioning It is provided with the first locating slot (26) for accommodating scolding tin smelting tool on plate (3), is provided on the second positioning plate (4) and accommodates scolding tin smelting tool Second locating slot (27), the first locating slot (26) be located at the first positioning plate (3) far from first straight line track (5) one end, second Locating slot (27) is located at the one end of the second positioning plate (4) far from second straight line track (6).

8. a kind of multi-functional overturning platform of scolding tin smelting tool according to claim 7, it is characterised in that: the positioning strip (1) top is provided with the material path (28) for accommodating scolding tin smelting tool, and material path (28) is along positioning strip (1) length direction, material path (28) both ends It is connected respectively with the first locating slot (26) and the second locating slot (27).