CN113478215B - Stable assembly calibration seat of stainless steel material processing equipment - Google Patents

Abstract

The invention relates to the technical field of stainless steel processing equipment accessories and discloses a stable assembly calibration base for stainless steel processing equipment, which comprises a welding wire cutting machine body, wherein the bottom ends of the left and right sides of the welding wire cutting machine body are fixedly connected with two adjusting mounting plates, a fixed slide rail is arranged below the welding wire cutting machine body and comprises a first fixed plate and a second fixed plate, the bottom surfaces of the first fixed plate and the second fixed plate are fixedly connected with a supporting rail plate, a calibration connecting device is arranged inside the fixed slide rail and comprises a calibration base, the left and right sides of the calibration base are respectively provided with two vertically-penetrating T-shaped slide grooves, the left and right sides of the calibration base are symmetrically provided with first calibration mechanisms, each first calibration mechanism comprises two calibration ejector rods, and a second calibration mechanism is arranged below the calibration connecting device, so that the stability and the precision of the stainless steel processing equipment are effectively improved, and the calibration of the welding wire cutting machine body is improved And (5) accurate assembly efficiency.

Description

Stable assembly calibration seat of stainless steel material processing equipment

Technical Field

The invention relates to the technical field of stainless steel processing equipment accessories, in particular to a stable assembly calibration seat of stainless steel material processing equipment.

Background

Stainless steel processing equipment can produce stainless steel products with different specifications according to the requirements of production and processing when in use, the stability of the stainless steel processing equipment determines the production quality and the production efficiency of the stainless steel processing equipment, aiming at the production and the processing of the welding stainless steel wire, the finished product of the welding stainless steel wire has the winding and looping property, and the finished product of the welding stainless steel wire does not need to be wound and keep the straight shape until being used, the welding stainless steel wire which does not need to be wound needs to be assembled with a welding wire cutting machine at the discharge end of the processing equipment for cutting the welding wire with fixed length, the assembly of the welding wire cutting machine in the prior art adopts a mode of directly installing through a fixed hole, and a calibration device is not used for calibration and installation, so that the assembly of the welding wire cutting machine is not standard and uniform, the stability of the welding stainless steel wire processing equipment is poor, the precision is low, and finally the appearance quality and the size of the welding stainless steel wire after cutting are difficult to reach the production requirement standard, therefore, a need exists for a stable assembly calibration seat for stainless steel material processing equipment to solve the above problems.

Disclosure of Invention

Technical problem to be solved

In order to overcome the defects in the prior art, the invention provides a stable assembly calibration seat of stainless steel material processing equipment to solve the problems.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a stable assembly calibration base of stainless steel material processing equipment comprises a welding wire cutting machine body, wherein two adjusting mounting plates are fixedly connected to the bottom ends of the left side and the right side of the welding wire cutting machine body, holes are formed in the top surfaces of the four adjusting mounting plates, a fixed slide rail is arranged below the welding wire cutting machine body and comprises a first fixed plate and a second fixed plate, the first fixed plate and the second fixed plate are of rectangular structures, the top surfaces of the first fixed plate and the second fixed plate are respectively attached to the bottom surfaces of the two adjusting mounting plates at the rear end and the bottom surfaces of the two adjusting mounting plates at the front end, supporting rail plates are respectively fixedly connected to the bottom surfaces of the first fixed plate and the second fixed plate, a calibration connection device is arranged inside the fixed slide rail and comprises a calibration base, the calibration base is of a T-shaped column structure, the top surfaces of the front end and the rear end of the calibration base are respectively attached to the bottom surfaces of the first fixed plate and the second fixed plate, the front and back both ends of calibration base are the sliding connection relation with two support rail boards respectively, the T type spout that runs through from top to bottom is all seted up on the two sides about the calibration base, the left and right sides symmetry of calibration base is provided with first calibration mechanism, first calibration mechanism is including two calibration ejector pins, the calibration ejector pin is the cuboid structure, four calibration ejector pins are all seted up slottedly on the front and back two sides, four calibration ejector pins are the sliding connection relation through groove and four T type spouts respectively, calibration connecting device's below is provided with second calibration mechanism, second calibration mechanism is including turning over the board, the top surface center that turns over the board is provided with the gim peg, the front center that turns over the board is provided with the locater.

Preferably, the support rail plate is L type structure, and two support rail plates are symmetry setting around being under same level, and the fixed slot that runs through about the front of second fixed plate is seted up, and the fixed slot is T style of calligraphy structure, and two screw holes have all been seted up to the bottom surface of first fixed plate and second fixed plate, and four screw holes are located the below in the hole on four regulation mounting panels respectively.

Preferably, the rotating shafts are movably sleeved on the left side and the right side of the bottom end of the calibration base and are located between the two T-shaped sliding grooves in the front end and the two T-shaped sliding grooves in the rear end.

Preferably, the gear has all been fixed to embolia to both ends outer wall about the pivot, and two gears are located the left and right sides of calibration base respectively, and the lantern ring has all been fixed to embolia to both ends outer wall about the pivot, and two lantern rings are located the one side that two gears kept away from each other respectively, the equal fixedly connected with connecting plate in bottom surface of two lantern rings, the equal fixedly connected with spliced pole in bottom surface of two connecting plates, and the spliced pole is L type cylinder structure.

Preferably, tooth grooves are formed in the back faces of the two front end calibrating ejector rods, and the two front end calibrating ejector rods are respectively in meshed connection with the two gears through the tooth grooves.

Preferably, the left end is two the top surface of calibration ejector pin and the equal fixedly connected with calibration baffle of the top surface of two calibration ejector pins of right-hand member, the lower extreme of calibration baffle are the cuboid structure, and the bottom surface of two calibration baffles is all laminated on the top surface at both ends about the calibration base, and two calibration baffles all are located between first fixed plate and the second fixed plate, and the upper end of calibration baffle is trapezoidal platform structure, and a lateral wall that the upper end of two calibration baffles is close to each other is the inclined plane.

Preferably, the rear end of the turning plate is of a rectangular structure, the front end of the turning plate is of a trapezoidal structure, the turning plate is arranged below the calibration base in parallel, the top surfaces of the left and right ends of the turning plate are fixedly connected with the bottom surfaces of the two connecting columns respectively, the top surface of the front end of the turning plate is fixedly connected with two supporting blocks, the upper ends of the supporting blocks are of a semi-cylindrical structure, the lower ends of the supporting blocks are of a rectangular structure, the two supporting blocks are located at the left and right ends of the turning plate respectively, a rotating rod is movably sleeved on one side wall of the top ends of the two supporting blocks close to each other, adjusting connecting seats are fixedly sleeved on the outer walls of the left and right ends of the rotating rod, the adjusting connecting seats are of a rectangular structure, the inside of the adjusting connecting seats is hollowed out, the two adjusting connecting seats are located at one side of the two supporting blocks away from each other, adjusting sliding rods are movably sleeved on the front and back surfaces of the two adjusting connecting seats, and the two adjusting sliding rods are arranged above the turning plate in parallel, adjust the slide bar and be the cuboid structure, two adjust the slide bar and be the activity with the bull stick about both ends outer wall and embolia the relation, two adjust the regulation spout that runs through about all having seted up of slide bar's the right side, two adjust the slide bar and be the sliding connection relation with the bull stick through two regulation spouts respectively, two equal fixedly connected with calibration roofs in front of adjusting the spout, the calibration roof is L type column structure, the bottom surface laminating of calibration roof is on the top surface of turning over the board front end.

Preferably, two the tooth's socket has all been seted up to the top surface of adjusting the spout, two are adjusted the spout and all are connected with the regulation bull stick through the tooth's socket meshing, adjust the bull stick and are located the top of two supporting shoes, adjust the bull stick about both ends outer wall respectively the activity embolia on the top of two regulation connecting seats, adjust the bull stick about both ends outer wall all be provided with the teeth of a cogwheel and the teeth of a cogwheel is located the inside of two regulation connecting seats respectively, turn over the top surface of board and set up two abdicating through-holes that run through from top to bottom, two abdicating through-holes respectively with two regulation slide bar parallel arrangement, two abdicating through-holes are located under two regulation slide bar's rear end respectively.

Preferably, the fixing bolt comprises a rotary rod, the rotary rod is movably sleeved with the upper surface and the lower surface of the turning plate, and a clamping block is fixedly sleeved on the outer wall of the top end of the rotary rod.

Preferably, the positioning instrument comprises a telescopic rod, the back surface of the telescopic rod is fixedly connected with the front surface of the turning plate, and the welding wire sleeve is fixedly sleeved on the upper side wall and the lower side wall of the front end of the telescopic rod.

(III) advantageous effects

Compared with the prior art, the invention provides a stable assembly calibration seat for stainless steel material processing equipment, which has the following beneficial effects:

1. the stainless steel material processing equipment stably assembles the calibration seat, and through the arrangement of the calibration connecting device, the first calibration mechanism and the second calibration mechanism, the first calibration mechanism and the second calibration mechanism are respectively driven to operate simultaneously by rotating the rotating shaft of the calibration connecting device, the two calibration baffles are driven to move left and right by sliding the calibration base of the calibration connecting device left and right, thereby driving the welding wire cutting machine body to move left and right, realizing the calibration in the left and right directions, adjusting the distance between the calibration top plate and the welding wire cutting machine body by rotating the adjusting rotating rod, realizing the calibration in the front and back directions, and finally, fitting and clamping the welding wire cutting machine body by the calibration top plate and the two calibration baffle plates, the welding wire cutting machine body is assembled and fixed on the fixed slide rail, and compared with the assembly mode in the prior art, the calibration assembly is effectively realized, so that the stability and the precision of the stainless steel material processing equipment are improved.

2. This stainless steel material processing equipment stable assembly calibration seat, through fixed slide rail and calibration connecting device's setting, span a plurality of stainless steel processing equipment discharge end with fixed slide rail and connect, when needs every stainless steel processing equipment assembly line discharge end assembly welding wire cutting machine body, slide in two support rail boards through calibration connecting device's calibration base, can realize the quick calibration assembly of a plurality of welding wire cutting machine bodies to calibration assembly efficiency has effectively been improved.

3. This stainless steel material processing equipment stable assembly calibration seat, through first fixed plate, the setting of second fixed plate and two support rail boards, assemble the welding wire cutting machine body on first fixed plate and second fixed plate, the equilibrium when having increased the welding wire cutting machine body assembly, prevent that the welding wire cutting machine body from taking place the risk that the slope falls when the assembly, first fixed plate and second fixed plate mutually support and have increased bearing capacity simultaneously, thereby can install more welding wire cutting machine bodies, the slide of being convenient for calibration base through two support rail board formations, thereby be convenient for to the assembly calibration of a plurality of welding wire cutting machine bodies, the stability of calibration base has also been increased simultaneously, thereby the accuracy nature of calibration has been improved.

4. This stainless steel material processing equipment stable assembly calibration seat, through the calibration base, the apparatus further comprises a rotating shaft, the setting of gear and the lantern ring, when the pivot rotates, can drive the rotation of gear and the lantern ring simultaneously, and the gear can drive the function of first calibration mechanism, the lantern ring can drive the function of second calibration mechanism, calibration linkage effect has been realized, thereby the practicality and the simplicity of stainless steel material processing equipment stable assembly calibration seat have been increased, make stainless steel material processing equipment stable assembly calibration seat easy operation, high durability and convenient use, the assembly calibration is efficient.

5. The stable assembly calibration seat of the stainless steel material processing equipment comprises a calibration base, a rotating shaft, two gears, two calibration baffles and four calibration ejector rods, wherein when the rotating shaft rotates clockwise, the rotating shaft drives the two gears to rotate clockwise, the two gears drive the two calibration ejector rods at the front end to move upwards in a chute of the calibration base through gear teeth, the two calibration ejector rods at the front end drive the two calibration baffles and the two calibration ejector rods at the rear end to move upwards, the four calibration ejector rods increase the stability of the upward movement process of the two calibration baffles, so that the stability of the left and right sides of a welding wire cutting machine body is increased, the two calibration baffles can effectively prevent the welding wire cutting machine body from inclining in the horizontal direction, and simultaneously when the rotating shaft rotates anticlockwise, the bottom surfaces of the two calibration baffles can abut against the top surface of the calibration base, so that the four calibration ejector rods are prevented from continuously moving downwards, therefore, the two calibration ejector rods at the front end can lock the gear through the tooth sockets to prevent the gear from continuously rotating, so that the anticlockwise rotation angle of the rotating shaft is limited, the calibration seat is stably assembled on the stainless steel material processing equipment to play a role in protection, and the service life is effectively prolonged.

6. This stainless steel material processing equipment stable assembly calibration seat, through the bull stick, calibration roof and regulation slide bar's setting, pivot clockwise rotation drives the in-process that turns over the clockwise upset of board, because the setting of calibration roof L type structure, the one end of calibration roof can receive the influence of dead weight, thereby in the in-process that turns over the clockwise upset of board falls to turning over the board rear, the calibration roof drives two regulation slide bars and overturns to the rear when overturning, two regulation slide bars drive two and adjust the connecting seat and pass through the bull stick and overturn to the rear, thereby realized the automatic function to the calibration roof in the second calibration mechanism, make the calibration roof overturn to with the top surface separation vertically position that turns over the board from the position with the parallel laminating of board top surface, thereby realize that the positive support of butt welding wire cutting machine body is powerful.

7. The stainless steel material processing equipment stably assembles the calibration seat, through the adjusting slide bars, the adjusting slide grooves, the adjusting rotating rods and the setting of the rotating rods, when the distance between the discharge port of the stainless steel wire production equipment for welding and the welding wire cutting machine body is far, the welding wire section between the discharge port and the welding wire cutting machine body can be caused to bend downwards, thereby influencing the accurate cutting of the welding stainless steel wire for welding by the welding wire cutting machine body, through rotating the adjusting rotating rods anticlockwise, the adjusting rotating rods drive the two adjusting slide bars to move forwards in the two adjusting connection seats respectively through the gear teeth at the left end and the right end, the two adjusting slide bars slide forwards on the outer walls at the left end and the right end of the rotating rods simultaneously through the two adjusting slide grooves, the two adjusting slide bars respectively move forwards from the two abdicating through holes through the adjusting rotating rods, the two adjusting slide bars drive the calibration top plate to move forwards, after the calibration top plate is separated from the welding wire cutting machine body, promote welding wire cutting machine body and move forward again and be the front of welding wire cutting machine body and laminate mutually with the calibration roof to the calibration of distance between stainless steel production facility discharge gate and the welding wire cutting machine body for the realization.

8. This stainless steel material processing equipment stable assembly calibration seat, through adjusting the connecting seat and the setting of the through-hole of stepping down, two back ends that adjust the slide bar and make two adjust the slide bar to the in-process of backward upset insert two respectively and step down in the through-hole, when the bottom surface of two adjust the connecting seat pushes up respectively when two preceding inner walls that step down the through-hole, the calibration roof drives two adjust the slide bar and overturns to the top surface separation vertically position with turning over the board from the position with the parallel laminating of panel top surface, two adjust the connecting seat and the setting of the through-hole of stepping down, effectively realized the spacing effect of upset to the calibration roof, the effect of support has been played to the calibration roof simultaneously.

9. This stainless steel material processing equipment stable assembly calibration seat, through first fixed plate, the setting of fixed slot and gim peg, after turning over board upset to vertical direction, the calibration roof makes the front of calibration roof self laminate mutually with the front of welding wire cutting machine body through the dead weight upset, fixture block this moment is in the fixed slot is injected through the upset of turning over the board equally, make the fixture block card in the fixed slot through rotatory stick soon, thereby realized the fixed to turning over the board, the stability of stainless steel material processing equipment stable assembly calibration seat has effectively been increased.

10. The stable assembly calibration seat of the stainless steel material processing equipment concentrates all structures of a second calibration mechanism on a turning plate through the arrangement of the turning plate, the positioning instrument and a first adjusting mechanism, and simultaneously, the turning plate is also provided with a fixing bolt and the positioning instrument, so that the multifunctional performance and the practicability of the stable assembly calibration seat of the stainless steel material processing equipment are effectively improved through the turning plate, the height of a telescopic rod is adjusted through expansion, a welding stainless steel wire can smoothly and directly pass through a welding wire sleeve from a discharge port of the welding stainless steel wire production equipment, the calibration of the assembly position of a welding wire cutting machine body is finished, the welding stainless steel wire which can pass through the welding wire sleeve can also be directly inserted into a wire threading device on the welding wire cutting machine body, so that the welding wire can be finally and stably and accurately cut by the welding wire cutting machine body, the appearance quality and the size standard of a finished product are effectively ensured, and the calibration adjustment in the left and right directions of the welding wire cutting machine body is more visual, thereby effectively increased the stable assembly calibration seat of stainless steel material processing equipment and calibrated assembly efficiency.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a perspective view of the structure of the present invention;

FIG. 3 is a perspective view of a fixed slide rail according to the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 3 according to the present invention;

FIG. 5 is a perspective view of the alignment coupler of the present invention;

FIG. 6 is a perspective view of the alignment coupler of the present invention;

FIG. 7 is a perspective view of the alignment pin of the present invention;

FIG. 8 is a perspective view of a calibration baffle of the present invention;

FIG. 9 is a perspective view of a second alignment mechanism of the present invention;

fig. 10 is an enlarged view of the invention at B in fig. 9.

In the figure: 1. a welding wire cutting machine body; 2. adjusting the mounting plate; 3. fixing the slide rail; 31. a first fixing plate; 32. a second fixing plate; 33. supporting the rail plate; 34. fixing grooves; 4. calibrating the connection device; 41. calibrating the base; 42. a T-shaped chute; 43. a rotating shaft; 44. a gear; 45. a collar; 46. a connecting plate; 47. connecting columns; 5. a first calibration mechanism; 51. calibrating the ejector rod; 52. calibrating the baffle; 6. a second alignment mechanism; 61. turning over a plate; 62. a support block; 63. a rotating rod; 64. adjusting the connecting seat; 65. adjusting the sliding rod; 66. adjusting the sliding chute; 67. calibrating the top plate; 68. adjusting the rotating rod; 69. a yielding through hole; 7. a fixing bolt; 71. rotating the rod; 72. a clamping block; 8. a positioning instrument; 81. a telescopic rod; 82. a welding wire sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, a stable assembly calibration base for stainless steel material processing equipment comprises a welding wire cutting machine body 1, two adjusting mounting plates 2 are fixedly connected to the bottom ends of the left and right sides of the welding wire cutting machine body 1, holes are formed in the top surfaces of the four adjusting mounting plates 2, a fixed slide rail 3 is arranged below the welding wire cutting machine body 1, the fixed slide rail 3 comprises a first fixing plate 31 and a second fixing plate 32, the first fixing plate 31 and the second fixing plate 32 are rectangular, the top surfaces of the first fixing plate 31 and the second fixing plate 32 are respectively attached to the bottom surfaces of the two adjusting mounting plates 2 at the rear end and the two adjusting mounting plates 2 at the front end, supporting rail plates 33 are fixedly connected to the bottom surfaces of the first fixing plate 31 and the second fixing plate 32, the supporting rail plates 33 are L-shaped, the two supporting rail plates 33 are symmetrically arranged in the front and back direction at the same level, the front surface of the second fixing plate 32 is provided with a fixing groove 34 which penetrates through the left and right, the fixing groove 34 is in a T-shaped structure, the bottom surfaces of the first fixing plate 31 and the second fixing plate 32 are respectively provided with two threaded holes, the four threaded holes are respectively positioned below the holes on the four adjusting and mounting plates 2, the inside of the fixing slide rail 3 is provided with a calibration connecting device 4, the calibration connecting device 4 comprises a calibration base 41, the calibration base 41 is in a T-shaped column structure, the top surfaces of the front end and the rear end of the calibration base 41 are respectively attached to the bottom surfaces of the first fixing plate 31 and the second fixing plate 32, the front end and the rear end of the calibration base 41 are respectively in sliding connection with the two supporting rail plates 33, the left surface and the right surface of the calibration base 41 are respectively provided with two T-shaped chutes 42 which penetrate through up and down, the left surface and the right surface of the bottom end of the calibration base 41 are movably sleeved with a rotating shaft 43, the rotating shaft 43 is positioned between the two T-shaped chutes 42 at the front end and the two T-shaped chutes 42 at the rear end, the outer walls of the left end and the right end of the rotating shaft 43 are respectively fixedly sleeved with a gear 44, the two gears 44 are respectively positioned on the left side and the right side of the calibrating base 41, the outer walls of the left end and the right end of the rotating shaft 43 are respectively fixedly sleeved with a sleeve ring 45, the two sleeve rings 45 are respectively positioned on the sides, far away from the two gears 44, of the two sleeve rings 45, the bottom surfaces of the two sleeve rings 45 are respectively fixedly connected with a connecting plate 46, the bottom surfaces of the two connecting plates 46 are respectively fixedly connected with a connecting post 47, the connecting post 47 is in an L-shaped cylindrical structure, the left side and the right side of the calibrating base 41 are symmetrically provided with first calibrating mechanisms 5, each first calibrating mechanism 5 comprises two calibrating ejector rods 51, the calibrating ejector rods 51 are in a rectangular body structure, the front surface and the rear surface of each calibrating ejector rod 51 are respectively provided with a groove, the four calibrating ejector rods 51 are respectively in sliding connection with the four T-shaped sliding chutes 42 through grooves, the back surfaces of the two calibrating ejector rods 51 at the front end are respectively provided with tooth grooves, the two calibrating ejector rods 51 at the front end are respectively in meshed connection with the two gears 44, the top surfaces of the two left calibration mandrils 51 and the top surfaces of the two right calibration mandrils 51 are fixedly connected with calibration baffles 52, the lower ends of the calibration baffles 52 are in a rectangular structure, the bottom surfaces of the two calibration baffles 52 are attached to the top surfaces of the left and right ends of the calibration base 41, the two calibration baffles 52 are positioned between the first fixing plate 31 and the second fixing plate 32, the upper ends of the calibration baffles 52 are in a trapezoidal platform structure, one side wall of the upper ends of the two calibration baffles 52 close to each other is an inclined plane, the second calibration mechanism 6 is arranged below the calibration connecting device 4, the second calibration mechanism 6 comprises a turning plate 61, the rear end of the turning plate 61 is in a rectangular structure, the front end of the turning plate 61 is in a trapezoidal platform structure, the turning plate 61 is arranged below the calibration base 41 in parallel, the top surfaces of the left and right ends of the turning plate 61 are respectively fixedly connected with the bottom surfaces of the two connecting columns 47, and the top surface of the front end of the turning plate 61 is fixedly connected with two supporting blocks 62, the upper end of the supporting block 62 is a semi-cylinder structure and the lower end of the supporting block 62 is a rectangular structure, the two supporting blocks 62 are respectively positioned at the left and right ends of the turning plate 61, a turning rod 63 is movably sleeved on one side wall of the top ends of the two supporting blocks 62 close to each other, adjusting connecting seats 64 are fixedly sleeved on the outer walls of the left and right ends of the turning rod 63, the adjusting connecting seats 64 are rectangular structures and the inner parts of the adjusting connecting seats 64 are hollowed out, the two adjusting connecting seats 64 are respectively positioned at one side of the two supporting blocks 62 away from each other, adjusting slide bars 65 are movably sleeved on the front and back sides of the two adjusting connecting seats 64, the two adjusting slide bars 65 are arranged above the turning plate 61 in parallel, the adjusting slide bars 65 are rectangular structures, the two adjusting slide bars 65 are respectively in movable sleeved relation with the outer walls at the left and right ends of the turning rod 63, adjusting slide grooves 66 penetrating through the left and right sides of the two adjusting slide bars 65 are respectively in sliding connection with the turning rod 63 through the two adjusting slide grooves 66, the front surfaces of the two adjusting chutes 66 are fixedly connected with a calibrating top plate 67, the calibrating top plate 67 is of an L-shaped column structure, the bottom surfaces of the calibrating top plate 67 are attached to the top surface of the front end of the turning plate 61, the top surfaces of the two adjusting chutes 66 are both provided with tooth grooves, the two adjusting chutes 66 are both connected with adjusting rotating rods 68 through the tooth grooves in a meshing manner, the adjusting rotating rods 68 are positioned above the two supporting blocks 62, the outer walls of the left and right ends of the adjusting rotating rods 68 are respectively movably sleeved at the top ends of the two adjusting connecting seats 64, the outer walls of the left and right ends of the adjusting rotating rods 68 are respectively provided with gear teeth which are respectively positioned inside the two adjusting connecting seats 64, the top surface of the turning plate 61 is provided with two abdicating through holes 69 which vertically penetrate, the two abdicating through holes 69 are respectively arranged in parallel with the two adjusting slide rods 65, the two abdicating through holes 69 are respectively positioned under the rear ends of the two adjusting slide rods 65, and the center of the top surface of the turning plate 61 is provided with a fixing bolt 7, the fixing bolt 7 comprises a rotary rod 71, the rotary rod 71 and the upper surface and the lower surface of the turning plate 61 are movably sleeved, a clamping block 72 is fixedly sleeved on the outer wall of the top end of the rotary rod 71, the front center of the turning plate 61 is provided with a positioning instrument 8, the positioning instrument 8 comprises a telescopic rod 81, the back surface of the telescopic rod 81 is fixedly connected with the front surface of the turning plate 61, and a welding wire sleeve 82 is fixedly sleeved on the upper side wall and the lower side wall of the front end of the telescopic rod 81.

When the welding wire cutting machine is used, the left end and the right end of the first fixing plate 31 and the second fixing plate 32 are both fixedly installed on the bracket, so that the calibration base 41 slides to the left in the two supporting rail plates 33, the calibration base 41 slides to the left and the right sides of the welding wire cutting machine body 1, the calibration baffle plates 52 stop sliding when being respectively located on the left side and the right side, the rotating shaft 43 is rotated clockwise, the rotating shaft 43 drives the two gears 44 to rotate clockwise, the two gears 44 drive the two calibration mandrils 51 at the front end to move upwards through the gear teeth, the two calibration mandrils 51 at the front end drive the two calibration baffle plates 52 and the two calibration mandrils 51 at the rear end to move upwards stably, after the two calibration baffle plates 52 move upwards, the two calibration baffle plates 52 are finally attached to the left side and the right side of the welding wire cutting machine body 1 respectively, the welding wire cutting machine body 1 is prevented from tilting in the horizontal direction, and the rotating shaft 43 can drive the two lantern rings 45 to rotate clockwise, the two lantern rings 45 drive the two connecting plates 46 to turn clockwise, the two connecting plates 46 drive the two connecting posts 47 to turn clockwise, the two connecting posts 47 drive the turning plate 61 to turn clockwise, the turning plate 61 finally turns from the horizontal direction to the vertical direction, the turning plate 61 finally turns from the lower part of the fixed slide rail 3 to the front part of the fixed slide rail 3, in the process of turning clockwise the turning plate 61, because the calibrating top plate 67 is influenced by dead weight, the calibrating top plate 67 falls down to the rear part of the turning plate 61 in the process of turning clockwise the turning plate 61, the calibrating top plate 67 drives the two adjusting slide rods 65 to turn backwards when turning backwards, the two adjusting slide rods 65 drive the two adjusting connecting seats 64 to turn backwards through the rotating rods 63, the two adjusting connecting seats 64 simultaneously drive the adjusting rotating rods 68 to turn backwards, and in the process of turning backwards the two adjusting slide rods 65, the rear ends of the two adjusting slide rods 65 are respectively inserted into the two abdicating through holes 69, when the bottom surfaces of the two adjusting connecting seats 64 are respectively abutted against the front inner walls of the two abdicating through holes 69, the calibrating top plate 67 drives the two adjusting slide rods 65 to overturn from a position which is in parallel fit with the top surface of the turning plate 61 to a position which is perpendicular to the top surface of the turning plate 61 in a separated manner, the two adjusting connecting seats 64 and the abdicating through holes 69 are arranged, the overturning limiting effect of the calibrating top plate 67 is effectively realized, meanwhile, the calibrating top plate 67 is supported, after the turning plate 61 is overturned to the vertical direction, the front surface of the calibrating top plate 67 is made to be in fit with the front surface of the welding wire cutting machine body 1 through self-weight overturning, the fixture block 72 at the same time is inserted into the fixing groove 34 through overturning of the turning plate 61, the fixture block 72 is clamped in the fixing groove 34 through rotating the rotary rod 71, so that the fixing of the turning plate 61 is realized, the height of the telescopic rod 81 is adjusted through expansion, so that the welding stainless steel wire can smoothly pass through the welding wire sleeve 82 from the discharge hole of the welding stainless steel wire production equipment, thereby completing the calibration of the assembly position of the welding wire cutting machine body 1, at this time, the welding stainless steel wire passing through the welding wire sleeve 82 can be straightly inserted into the wire feeder on the welding wire cutting machine body 1 and is finally stably and accurately cut by the welding wire cutting machine body 1, if the welding wire sleeve 82 cannot be straightly inserted, the calibration base 41 needs to be slid leftwards and rightwards to drive the welding wire cutting machine body 1 to adjust and calibrate leftwards and rightwards, if the distance between the discharge port of the welding stainless steel wire production equipment and the welding wire cutting machine body 1 is relatively long, the welding wire section between the discharge port and the welding wire cutting machine body 1 is bent downwards, thereby affecting the accurate cutting of the welding stainless steel wire by the welding wire cutting machine body 1, by rotating the adjusting rotating rod 68 anticlockwise, the adjusting rotating rod 68 drives the two adjusting slide rods 65 to move forwards in the two adjusting connection seats 64 respectively through the gear teeth at the left and right ends, the two adjusting slide rods 65 simultaneously slide forwards on the outer walls at the left and right ends of the rotating rod 63 through the two adjusting slide grooves 66, the two adjusting slide bars 65 move forwards from the two abdicating through holes 69 through the adjusting rotating bars 68 respectively, the two adjusting slide bars 65 drive the calibrating top plate 67 to move forwards, after the calibrating top plate 67 is separated from the welding wire cutting machine body 1, the welding wire cutting machine body 1 is pushed to move forwards, the front surface of the welding wire cutting machine body 1 is attached to the calibrating top plate 67 again, and therefore the distance between the discharge port of the welding stainless steel wire production equipment and the welding wire cutting machine body 1 is calibrated, after the left-right direction and the front-back direction calibration is completed through the first calibrating mechanism 5 and the second calibrating mechanism 6, the four adjusting mounting plates 2 are fixed in the four screw holes on the first fixing plate 31 and the second fixing plate 32 respectively through bolts, so that the assembly after the calibration of the welding wire cutting machine body 1 is finally completed, otherwise, the rotating shaft 43 is rotated anticlockwise, so that the two calibrating baffle plates 52, Turning over board 61 and calibration roof 67 and reseing, the bottom surface top through two calibration baffles 52 simultaneously is on the top surface of calibration base 41, realizes spacing to the anticlockwise rotation angle of countershaft 43, when needs are in a plurality of welding wire cutting machine bodies 1 of a plurality of assembly line assembly, can effectively improve welding wire cutting machine body 1's calibration assembly efficiency, has effectively improved stainless steel material processing equipment's stability and precision simultaneously.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a stainless steel material processing equipment stable assembly calibration seat, includes welding wire cutting machine body (1), its characterized in that: the bottom of the left side and the right side of the welding wire cutting machine body (1) is fixedly connected with two adjusting mounting plates (2), the top surfaces of the four adjusting mounting plates (2) are provided with holes, a fixed slide rail (3) is arranged below the welding wire cutting machine body (1), the fixed slide rail (3) comprises a first fixed plate (31) and a second fixed plate (32), the first fixed plate (31) and the second fixed plate (32) are both in a rectangular structure, the top surfaces of the first fixed plate (31) and the second fixed plate (32) are respectively attached to the bottom surfaces of the two adjusting mounting plates (2) at the rear end and the bottom surfaces of the two adjusting mounting plates (2) at the front end, the bottom surfaces of the first fixed plate (31) and the second fixed plate (32) are both fixedly connected with a supporting rail plate (33), a calibration connecting device (4) is arranged inside the fixed slide rail (3), the calibration connecting device (4) comprises a calibration base (41), the calibration base (41) is of a T-shaped column structure, the top surfaces of the front end and the rear end of the calibration base (41) are respectively attached to the bottom surfaces of the first fixing plate (31) and the second fixing plate (32), the front end and the rear end of the calibration base (41) are respectively in sliding connection with the two supporting rail plates (33), the left surface and the right surface of the calibration base (41) are respectively provided with two T-shaped sliding grooves (42) which penetrate through up and down, the left side and the right side of the calibration base (41) are symmetrically provided with first calibration mechanisms (5), each first calibration mechanism (5) comprises two calibration ejector rods (51), each calibration ejector rod (51) is of a rectangular body structure, the front surface and the rear surface of each four calibration ejector rods (51) are respectively provided with a groove and are in sliding connection with the four T-shaped sliding grooves (42), and a second calibration mechanism (6) is arranged below the calibration connection device (4), the second calibration mechanism (6) comprises a turning plate (61), a fixed bolt (7) is arranged at the center of the top surface of the turning plate (61), and a positioning instrument (8) is arranged at the center of the front surface of the turning plate (61).

2. The stable assembly calibration seat for the stainless steel material processing equipment according to claim 1, characterized in that: support rail board (33) are L type structure, and two support rail boards (33) are symmetry setting around being under same level, and fixed slot (34) that run through about seted up in the front of second fixed plate (32), and fixed slot (34) are T style of calligraphy structure, and two screw holes have all been seted up to the bottom surface of first fixed plate (31) and second fixed plate (32), and four screw holes are located the below in the hole on four regulation mounting panels (2) respectively.

3. The stable assembly calibration seat for the stainless steel material processing equipment according to claim 1, characterized in that: the utility model discloses a calibration base, including calibration base (41), pivot (43) have all been emboliaed in the equal activity in both sides about calibration base (41) bottom, pivot (43) are located between two T type spout (42) in front end and two T type spout (42) in rear end, both ends outer wall all is fixed embolias gear (44) about pivot (43), two gears (44) are located the left and right sides of calibration base (41) respectively, both ends outer wall all is fixed embolias lantern ring (45) about pivot (43), two lantern ring (45) are located the one side of keeping away from each other of two gears (44) respectively, the equal fixedly connected with connecting plate (46) in bottom surface of two lantern ring (45), the equal fixedly connected with spliced pole (47) in bottom surface of two connecting plate (46), spliced pole (47) are L type cylinder structure.

4. The stable assembly calibration seat of stainless steel material processing equipment according to claim 3, characterized in that: the tooth's socket has all been seted up at the back of calibration ejector pin (51), two calibration ejector pins (51) of front end are connected through tooth's socket and two gear (44) meshing respectively, the equal fixedly connected with calibration baffle (52) of top surface of the top surface of two calibration ejector pins (51) of left end and two calibration ejector pins of right-hand member (51), the lower extreme of calibration baffle (52) is the cuboid structure, the bottom surface of two calibration baffle (52) all laminates on the top surface at both ends about calibration base (41), two calibration baffle (52) all are located between first fixed plate (31) and second fixed plate (32), the upper end of calibration baffle (52) is trapezoidal platform structure, a lateral wall that the upper end of two calibration baffle (52) is close to each other is the inclined plane.

5. The stable assembly calibration seat for the stainless steel material processing equipment according to claim 4, wherein the stable assembly calibration seat comprises: the rear end of the turning plate (61) is of a rectangular structure, the front end of the turning plate (61) is of a trapezoidal table structure, the turning plate (61) is arranged below the calibration base (41) in parallel, the top surfaces of the left end and the right end of the turning plate (61) are fixedly connected with the bottom surfaces of the two connecting columns (47) respectively, the top surface of the front end of the turning plate (61) is fixedly connected with two supporting blocks (62), the upper ends of the supporting blocks (62) are of a semi-cylindrical structure, the lower ends of the supporting blocks (62) are of a rectangular structure, the two supporting blocks (62) are located at the left end and the right end of the turning plate (61) respectively, a rotating rod (63) is movably sleeved on one side wall of the top ends of the two supporting blocks (62) close to each other, adjusting connecting seats (64) are fixedly sleeved on the outer walls of the left end and the right end of the rotating rod (63), the adjusting connecting seats (64) are of a rectangular structure and are hollowed inside of the adjusting connecting seats (64), the two adjusting connecting seats (64) are located at one side of the two supporting blocks (62) far away from each other respectively, two front and back two sides equal activity of adjusting connecting seat (64) are emboliaed and are adjusted slide bar (65), two adjust slide bar (65) parallel arrangement in the top of turning over board (61), adjust slide bar (65) and be the cuboid structure, two adjust slide bar (65) are the activity with the left and right sides both ends outer wall of bull stick (63) respectively and embolia the relation, two adjust the regulation spout (66) that run through about all having seted up of the right side of slide bar (65), two adjust slide bar (65) and be the sliding connection relation through two regulation spout (66) and bull stick (63) respectively, two equal fixedly connected with calibration roof (67) in front of adjusting spout (66), calibration roof (67) are L type column structure, the bottom surface laminating of calibration roof (67) is on the top surface of turning over board (61) front end.

6. The stable assembly calibration seat for the stainless steel material processing equipment according to claim 5, wherein the stable assembly calibration seat comprises: two the tooth's socket has all been seted up to the top surface of adjusting spout (66), two adjust spout (66) and all be connected with through the tooth's socket meshing and adjust bull stick (68), adjust bull stick (68) and be located the top of two supporting shoes (62), adjust both ends outer wall respectively the activity embolia the top of adjusting connecting seat (64) about bull stick (68), adjust both ends outer wall all be provided with the teeth of a cogwheel and the teeth of a cogwheel is located the inside of two adjusting connecting seats (64) respectively about bull stick (68), turn over the top surface of board (61) and set up two and let a position through-hole (69) that run through from top to bottom, two let a position through-hole (69) respectively with two adjusting slide bar (65) parallel arrangement, two let a position through-hole (69) be located two adjusting slide bar (65) rear end under respectively.

7. The stable assembly calibration seat of stainless steel material processing equipment according to claim 6, characterized in that: the fixing bolt (7) comprises a rotary rod (71), the rotary rod (71) is movably sleeved with the upper surface and the lower surface of the turning plate (61), and a clamping block (72) is fixedly sleeved on the outer wall of the top end of the rotary rod (71).

8. The stable assembly calibration seat for the stainless steel material processing equipment according to claim 1, characterized in that: the locator (8) comprises a telescopic rod (81), the back of the telescopic rod (81) is fixedly connected with the front of the turning plate (61), and the upper side wall and the lower side wall of the front end of the telescopic rod (81) are fixedly sleeved with a welding wire sleeve (82).

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