CN112658419A - Weld and take section transport mechanism and diamond saw blade welding machine - Google Patents

Abstract

The invention provides a welding strip section conveying mechanism and a diamond saw blade welding machine, and belongs to the technical field of machinery. It is complicated that it has solved current solder strip section and has transported the structure, can not accurately transport the problem of super small-size solder strip section. The synchronous pneumatic clamping jaw comprises a synchronous pneumatic clamping jaw for clamping the inner side edge and the outer side edge of a welding strip section, wherein the synchronous pneumatic clamping jaw is provided with a cylinder body and two sliding heads, and each sliding head is fixedly connected with a clamping jaw; the cylinder body is fixedly connected with the movable end of a lifting driving mechanism; the welding device is also provided with a transverse driving mechanism which can enable the clamped welding belt section to be transferred to the position right above the saw teeth to be welded of the saw blade matrix, and the transverse driving mechanism is fixed on the rack. The conveying mechanism can clamp and convey various welding strip sections with ultra-narrow sizes, is convenient to adjust and high in universality, can effectively avoid the problem that the surfaces of the welding saw teeth to be welded on the saw blade base body are easy to drop, and obviously improves the welding quality of a welding machine.

Description

Weld and take section transport mechanism and diamond saw blade welding machine

Technical Field

The invention relates to the technical field of diamond saw blade processing, in particular to a welding strip section conveying mechanism.

The invention relates to the technical field of diamond saw blade processing, in particular to a diamond saw blade welding machine.

Background

The diamond saw blade is characterized in that a diamond tool bit and a saw blade matrix are fixedly connected through brazing by a brazing machine, and a welding strip section is placed between the diamond tool bit and the saw blade matrix. When the welding strip is pulled out from the welding strip winding disc, a certain tensile stress is borne, so that the welding strip section has a certain radian when being sheared from the welding strip winding disc. The radian is usually different from the radian of the top arc of the saw blade base body, so that the welding strip section is easily dropped to influence the welding quality when being placed on the top arc of the saw blade base body. The above problems are more prominent in the case of saw blades having a diameter of 200cm or less. Because the smaller the diameter of the saw blade is, the thinner the corresponding saw blade thickness is, and the welding strip section is placed on the saw blade with the diameter of less than 200cm, the saw blade is very easy to fall off, so that the welding strip section is generally placed manually and welded manually in order to ensure the welding quality in the conventional small-size saw blade processing, and the processing efficiency is low. It is therefore becoming more urgent to develop a transport mechanism that accurately and efficiently delivers the solder ribbon sections.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a welding strip segment conveying mechanism which has high delivery accuracy, is compatible with saw blade matrixes with various width sizes and can avoid welding strip segments from falling off on the saw blade matrixes.

The purpose of the invention can be realized by the following technical scheme: a welding strip section conveying mechanism is used for conveying a welding strip section to sawteeth to be welded on a saw blade matrix and comprises a synchronous pneumatic clamping jaw for clamping the inner side edge and the outer side edge of the welding strip section, wherein the synchronous pneumatic clamping jaw is provided with a cylinder body and two sliding heads, and each sliding head is fixedly connected with a clamping jaw; the cylinder body is fixedly connected with the movable end of a lifting driving mechanism; the welding device is also provided with a transverse driving mechanism which can enable the clamped welding belt section to be transferred to the position right above the saw teeth to be welded of the saw blade matrix, and the transverse driving mechanism is fixed on the rack.

In the welding strip section conveying mechanism, a longitudinal driving mechanism capable of enabling the synchronous pneumatic clamping jaw to move towards the direction perpendicular to the guide direction of the transverse driving mechanism is further arranged between the lifting driving mechanism and the transverse driving mechanism, a shell of the lifting driving mechanism is fixedly connected to the movable end of the longitudinal driving mechanism, and a shell of the longitudinal driving mechanism is fixedly connected to the movable end of the transverse driving mechanism.

In the welding strip section conveying mechanism, the transverse driving mechanism comprises a linear slide rail, a base, a slide block sliding on the linear slide rail and a driving mechanism III for pushing the slide block to reciprocate; and the linear slide rail and the shell of the driving mechanism III are fixed on the base.

In the welding strip section conveying mechanism, the driving mechanism III is a cylinder III, and the extending end of a piston rod of the cylinder III is fixedly connected with the sliding block through a connecting seat.

In foretell a weld tape section and transport mechanism, horizontal actuating mechanism be two piston rod slip table cylinders, the cylinder body of two piston rod slip table cylinders passes through the connecting seat to be fixed in the frame, its slider is used for the load to connect lift actuating mechanism's cylinder body.

In the welding strip section conveying mechanism, the lifting driving mechanism is a double-piston-rod sliding table cylinder, a cylinder body of the double-piston-rod sliding table cylinder is fixedly connected to the movable end of the transverse driving mechanism, and a sliding body of the double-piston-rod sliding table cylinder is fixedly connected with a cylinder body of the synchronous pneumatic clamping jaw.

In the welding strip section conveying mechanism, the clamping part of the clamping jaw is provided with a raised platform, and the raised platform is provided with a tooth-shaped groove for clamping the welding strip section.

In foretell a weld tape section and transport mechanism, longitudinal drive mechanism be two piston rod slip table cylinders, the cylinder body of two piston rod slip table cylinders passes through the connecting seat to be fixed on the slider, its slider is used for the load to connect lift drive mechanism's cylinder body.

The invention also provides a diamond saw blade welding machine which comprises a welding strip section movement mechanism, wherein a saw blade matrix positioning mechanism is arranged below the rack; a tool bit clamping and positioning mechanism is arranged right above the saw blade matrix positioning mechanism; a welding strip section supply mechanism is arranged on the right side of the rack; the welding strip section feeding mechanism comprises a welding strip and a fixing support for fixing the welding strip; a welding strip pushing mechanism which pulls out the free end part of the welding strip from the fixed bracket and straightens the free end part of the welding strip; the guide seat is used for carrying out flux applying operation on the free end part of the welding strip pulled out from the strip pushing and welding mechanism and horizontally outputting the welding strip in a directional manner towards the direction of the saw blade matrix; a mechanical clamp for clamping the free end of the welding strip; the guiding control piece is arranged between the guiding seat and the mechanical clamp and used for orienting the free end of the welding strip; cutting the free end of the welding strip into a cutting piece of the welding strip section; a second driving mechanism for pushing the shearing part to horizontally move towards the vertical direction of the welding strip; the fixed support, the push welding strip mechanism, the mechanical clamp, the guide control piece, the shearing piece and the driving mechanism II are fixed on the rack, and the guide seat is fixed on the push welding strip mechanism.

Compared with the prior art, the welding strip section conveying mechanism provided by the invention has the advantages that on one hand, the mechanism is simple in structure, flexible to operate and lower in cost; meanwhile, the clamping component of the mechanism can clamp and convey various welding strip sections with ultra-narrow sizes, and the mechanism is stable in work and high in efficiency. The mechanism can effectively avoid the problems of insufficient soldering and the like caused by displacement or dislocation of the welding strip section between the saw blade base body and the cutter head, and can obviously improve the working efficiency of the whole welding machine and improve the welding quality of the welding machine.

Drawings

The welding device comprises a synchronous pneumatic clamping jaw 100, a raised platform 1001, a cylinder body 101, a welding strip section 102, a welding strip 109, a saw blade base body 103, a mechanical clamp 104, a shearing part 105, a cylinder II 1051, a push welding strip mechanism 106, a guide seat 107, a guide part 1071, a welding flux box 1072, a guide control part 1073, a fixed support 108, a lifting driving mechanism 200, a double-piston-rod sliding table cylinder 201, a transverse driving mechanism 300, a longitudinal driving mechanism 500, a connecting plate 501, a linear sliding rail 301, a sliding block 302, a connecting seat 3021, a connecting plate 3022, a driving mechanism III 303, an extending end 304 of a piston rod, a limiter 305, a rack 400, a base 401, a saw blade base body positioning mechanism 700, a press welding strip cylinder 1074, a welding strip feeding cylinder 1075, an avoiding cylinder 1076 and a straightening guide wheel set.

FIG. 1 is a schematic structural view of a weld zone segment conveying mechanism of the present invention;

FIG. 2 is a partial structural view of a diamond saw blade welder according to the present invention.

FIG. 3 is a schematic view of a portion of the diamond saw blade welder in various orientations in accordance with the present invention.

FIG. 4 is a schematic view of the mounting position of the guide control member of the diamond saw blade welding machine of the present invention.

Detailed Description

The invention is further illustrated below with reference to specific embodiments and the accompanying drawings.

Referring to fig. 1 to 4, a solder strip segment feeding mechanism is provided for feeding a solder strip segment to a saw tooth to be soldered of a saw blade body. The design scheme is not only suitable for the diamond saw blade with larger diameter, but also has more outstanding advantages on the diamond saw blade with ultra-small diameter.

Example 1

A solder strip section transfer mechanism includes a pair of synchronized pneumatic jaws 100 for gripping the inside and outside edges of a solder strip section 102. The inner side and the outer side refer to the two sides of the welding belt section 102 parallel to the plane of the saw blade base body 103. The synchronous pneumatic clamping jaw 100 is provided with a cylinder body 101 and two sliding heads, and each sliding head is fixedly connected with one clamping jaw 100; the cylinder 101 is fixedly connected to a movable end of a lifting driving mechanism 200. The mechanism is also provided with a transverse driving mechanism 300 which can lead the clamped welding belt segment 102 to be transferred to the position right above the teeth to be welded of the saw blade 103 matrix, and the transverse driving mechanism 300 is fixed on the frame 400. Taking the saw blade 103 as an example, the saw teeth to be welded of the saw blade 103 are the top area of the periphery of the circular saw blade matrix. Similarly, the welding strip section conveying mechanism is suitable for the thin-wall drill cylinder body only by slightly adjusting the type of the clamping jaw.

The transverse driving mechanism 300 is used for conveying the welding strip section 102 clamped in the synchronous pneumatic clamping jaw 100 to be right above the saw teeth to be welded on the base body of the saw blade 103. The transverse driving mechanism 300 comprises a linear slide rail 301, a base 401, a slide block 302 sliding on the linear slide rail 301 and a driving mechanism III 303 pushing the slide block 302 to reciprocate, and the housings of the linear slide rail 301 and the driving mechanism III 303 are fixed on the base 401. The linear slide rail 301 and the slider 302 move in a linear manner, and the linear slide rail 301 has high load carrying capacity, is not easy to deform and has high accuracy. The use of the linear slide rail 301 in this embodiment is sufficient to ensure the accuracy required for the transverse horizontal transport of the solder strip sections 102 to the position of the saw blade base body 103.

The driving mechanism III 303 is a cylinder III, and the cylinder body of the cylinder III is fixed on the base 401; the extension end 304 of the piston rod of the cylinder III is fixedly connected with the sliding block 302 through a connecting seat 3021. The front end of the base 401 is provided with a stopper 305. The purpose of the stop 305 is to adjust the position of the lateral drive mechanism 300 for lateral transport of the synchronized pneumatic clamp jaws 100 to accommodate different blade sizes and to simplify the operation.

The transverse driving mechanism 300 can also be set in a double piston rod sliding cylinder mode, in which the cylinder body of the double piston rod sliding cylinder is fixed on the frame 400 and the sliding body thereof is used for load connection with the housing of the lifting driving mechanism 200. The sliding body moves forward to horizontally drive the synchronous pneumatic clamping jaw 100 to transfer the clamped welding strip section 102 to the area of the saw blade matrix 103; the sliding body retreats, and the synchronous pneumatic clamping jaw 100 is horizontally driven to reset to the area of the welding strip section 102 to be clamped.

The lifting driving mechanism 200 is a double-piston rod sliding table cylinder, the cylinder body of the double-piston rod sliding table cylinder is fixedly connected to the movable end of the transverse driving mechanism 300, and the sliding body of the double-piston rod sliding table cylinder, i.e. the movable end, is fixedly connected to the cylinder body 101 of the synchronous pneumatic clamping jaw 100. The lift drive mechanism is provided for linearly lifting the synchronized pneumatic jaws 100 to pick up, clamp, and place the solder ribbon length 102.

Be equipped with bellied platform 1001 on the clamping face of the clamping part of clamping jaw, evenly arranged on bellied platform 1001 and weld the flute profile groove parallel with solder strip section side for when centre gripping solder strip section prevent that solder strip section from removing the dislocation at the clamping part. The arrangement of the tooth-shaped groove can obviously improve the clamping effect of the clamping jaw and further provide the conveying efficiency of the synchronous pneumatic clamping jaw.

Example 2

The present embodiment is substantially the same in structure and principle as embodiment 1, and the same points will not be described in detail, but only the difference is that the solder strip section conveying mechanism is further provided with a longitudinal driving mechanism 500 between the lifting driving mechanism 200 and the transverse driving mechanism 300, which enables the synchronous pneumatic clamping jaws 100 to move in a direction perpendicular to the guiding direction of the transverse driving mechanism 300. The longitudinal driving mechanism 500 is a double-piston rod sliding cylinder, the cylinder body of which is fixedly connected to the movable end of the transverse driving mechanism 300 through a connecting seat 3021, and the sliding body of which is fixed to the housing of the elevation driving mechanism 200 through a connecting plate 501. The longitudinal driving mechanism 500 is provided to enlarge and adjust the conveying area of the transverse driving mechanism 300, and to improve the application range of the solder strip section conveying mechanism.

Example 3

The diamond saw blade welding machine manufactured according to the technical scheme of the embodiment 1 comprises a welding strip section conveying mechanism, a saw blade base body positioning mechanism 700 is arranged below a machine frame 400, a tool bit clamping and positioning mechanism is arranged right above the saw blade base body positioning mechanism 700, and a welding strip section supply mechanism is arranged on the right side of the machine frame 400.

The welding strip section feeding mechanism comprises a welding strip 109, a fixed support 108 for fixing the welding strip, a welding strip pushing mechanism 106 for pulling the free end part of the welding strip 109 out of the fixed support 108 and straightening the free end part, and a welding strip pushing mechanism 106 for pulling the free end part of the welding strip 109 out of the fixed support 108 and straightening the free end part; a guide seat 107 for horizontally guiding and outputting the welding strip 109 to the saw blade matrix direction; a guide 1071 is arranged at the front end of the output of the guide seat 107; a flux box 1072 is attached to the guide 1071, and flux application is performed to the free end of the solder ribbon pulled out from the ribbon pushing mechanism 106; a mechanical clamp 104 for holding the free end of the solder ribbon; a guide control member 1073 for orienting the free end of the solder ribbon 109, provided between the guide member 1071 at the front end of the guide seat 107 and the mechanical clamp 104; cutting the free end of the solder strip 109 into a cut-off 105 of solder strip sections; a second driving mechanism for pushing the shearing part 105 to move horizontally in the vertical direction of the welding strip 109; the fixed bracket 108, the push welding belt mechanism 106, the mechanical clamp 104, the guide control member 1072, the shearing member 105 and the driving mechanism II are all fixed on the frame, and the guide seat 107 is fixed on the push welding belt mechanism 106.

The solder ribbon 109 is generally wound in a coil shape for storage convenience. The solder ribbon 109 can be freely pulled out of the disk-shaped solder ribbon by simply placing the disk center of the disk-shaped solder ribbon on the fixing bracket 108 and pulling the free end of the solder ribbon 109.

The push welding belt mechanism 106 comprises a pressure welding belt cylinder 1074 which is overlapped and fixed on the guide seat 107, and an avoiding hole for a piston rod of the pressure welding belt cylinder 1074 to penetrate is reserved on the guide seat 107. The side of guide holder 107 is provided with send and welds area cylinder 1075, and send the expansion end that welds area cylinder 1075 through a connecting piece fixed connection guide holder 107, and the cylinder body that sends and welds area cylinder 1075 stacks through a connecting block and fixes at the expansion end of dodging cylinder 1076, and the cylinder body that dodges cylinder 1076 stacks and fixes in frame 400. The side of connecting block is provided with the alignment guide pulley group 1077 that upper compression roller and lower compression roller are constituteed, and alignment guide pulley group 1077's direction of direction coincidence is in the direction of guide holder.

Guide holder 107, be equipped with guide 1071 at the output front end of guide holder 107, guide 1071 includes the direction bottom plate and cup joints the welding agent box 1072 on the direction bottom plate, welding agent box 1072 is equipped with a welding flux hole, be equipped with the guide way of vertically lining up on the upper surface of direction bottom plate, welding strip 109 is drawing the back naturally from push away welding strip mechanism 106, get into the guide way of guide 1071 that the guide holder 107 passed the front end, the welding flux gets into and soaks in the surface all around of welding strip from the welding flux hole of welding agent box 1072, accomplish the welding strip surface and glue and scribble the welding flux. The guide seat can be seen in a welding strip guide seat (patent publication No. CN 206689576U).

A guide control 1073, arranged between the guide 1071 and the mechanical clamp, for the auxiliary orientation of the free end of the solder ribbon. When the solder ribbon is pushed out from the guide 1071, the solder ribbon free end portion is liable to sink, especially a large-sized solder ribbon. To ameliorate this problem, a guide control 1073 is provided. The guide control 1073 includes a bracket fixedly attached to the frame and a support member disposed at an end of the bracket, which may be formed as a support ring, a support plate or other member against which the free end of the weld ribbon may abut.

The mechanical clamp 104 is a parallel pneumatic finger with a cylinder directly attached to the free end of the first drive mechanism. The first driving mechanism can be selected from a cylinder assembly, a screw rod and nut assembly or a linear slide rail and other assemblies capable of realizing intermittent reciprocating motion. The jaws of the parallel pneumatic fingers are vertically opposite, i.e. orthogonal to the guiding direction of the guide block 107. After the free end of the solder strip 109 is guided in the guide seat 107, the free end of the solder strip 109 is pushed by the solder strip pushing mechanism 106 to advance for a set distance and then reaches the clamping opening of the parallel pneumatic fingers, and the free end of the solder strip 109 is clamped by the parallel pneumatic fingers. When the first driving mechanism drives the parallel pneumatic fingers to advance, the clamping openings of the parallel pneumatic fingers are vertically opposite to each other, namely are orthogonal to the guiding direction of the guide 1071; when the driving mechanism drives the parallel pneumatic fingers to retreat, the clamping openings of the parallel pneumatic fingers are far away from the guiding direction of the guide 1071, so that the parallel pneumatic fingers are prevented from interfering with the conveying of the solder ribbon section 102 in the horizontal straight direction.

The shearing member 105 can shear the free end of the solder ribbon 109 into the solder ribbon section 102. The cutting member 105 is fixedly coupled to the frame 400 by a cylinder 1051 which is capable of intermittently horizontally reciprocating toward a direction perpendicular to the guide direction of the guide holder 107. The shears 105 are pneumatic shears or pneumatic die cutters. After the cutting member 105 cuts the welding strip 109, the cutting member 105 is driven by the second air cylinder 1051 to immediately leave the end of the welding strip 109, so that the cutting member 105 is prevented from interfering with the normal conveying of the welding strip 109.

The process flow of the diamond saw welder to deliver the solder strip segment is such that the solder strip 109 is first pulled through the straightening guide wheel set 1077, then into the guide shoe 107 and through the guide channel on the guide 1071. The pressure-welding-tape cylinder 1074 presses and fixes the welding tape 109 in the guide holder 107. The solder ribbon feed cylinder 1075 advances the guide shoe 107 by a set stroke, which is the length of one solder ribbon segment 102, while the free end of the solder ribbon 109 passes through the guide control 1073 into the mouth of the mechanical clamp 104. The mechanical clamp 104 clamps the free end of the welding strip 109, the shearing member 105 resets immediately after shearing the welding strip 109, and the welding strip cylinder 1074 releases the welding strip 109. In order to prevent the guide member 1071 and the welding strip 109 therein from interfering with the synchronous pneumatic clamping jaw 100 to move the welding strip section 102, the avoiding cylinder 1076 drives the welding strip feeding cylinder 1075 and the guide seat 107 to retreat together, and the welding strip feeding cylinder 1075 retreats for a set stroke which is the same as the forward set stroke. The synchronized pneumatic gripper 100 opens and lowers the grip ribbon section 102 and the mechanical gripper 104 releases the ribbon section 102 and retracts back out of the synchronized pneumatic gripper 100. The weld band segment 102 is transported by linear movement of the transverse drive mechanism 300 to closely overlie the teeth of the saw blade body to be welded. The bit clamp positioning mechanism transports the bit down to press the weld band segment 102 tightly between the bit and the saw blade body to be welded teeth, and then the synchronized pneumatic clamp jaws 100 open. The horizontal driving mechanism 300 drives the synchronous pneumatic clamping jaw 100 to retreat to the next clamping station, and meanwhile, the lifting driving mechanism 200 lifts and resets the position of the synchronous pneumatic clamping jaw 100.

Example 4

The structure and principle of this embodiment are substantially the same as those of embodiment 3, and the same points are not described in detail, but only the difference points are described, the difference points are that the mechanical clamp 104 of the diamond saw blade welding machine is a swing pneumatic finger, the cylinder body of the swing pneumatic finger is fixed on the frame 400, the maximum clamping angle of the pneumatic finger is not less than 60 degrees, the clamping opening is orthogonally aligned with the guiding direction of the guide seat 107, and the guiding direction of the guide seat 107 is coincided with the tangent plane of the top arc of the saw blade base body 103.

Example 5

The diamond saw blade welding machine manufactured according to the technical scheme of the embodiment 2 has the same structure and principle as those of the embodiment 3, the same parts are not described in detail, and only the difference point is described, wherein the mechanical clamp 104 is a parallel pneumatic finger, the cylinder body is fixed on the machine frame 400, and the clamping opening of the parallel pneumatic finger is orthogonally aligned with the guide direction of the guide seat 107.

The above is only a preferred embodiment of the present invention, and not to limit the scope of the claims, and it will be apparent to those skilled in the art that other various changes and modifications can be made based on the above-described technical solutions and concepts, and all such changes and modifications shall fall within the protection scope of the present invention.

Claims (9)

1. A welding strip section conveying mechanism is used for conveying a welding strip section to sawteeth to be welded on a saw blade matrix and comprises a rack and is characterized by comprising a synchronous pneumatic clamping jaw for clamping the inner side edge and the outer side edge of the welding strip section, wherein the synchronous pneumatic clamping jaw is provided with a cylinder body and two sliding heads, and each sliding head is fixedly connected with a clamping jaw; the cylinder body is fixedly connected with the movable end of a lifting driving mechanism; the welding device is also provided with a transverse driving mechanism which can enable the clamped welding belt section to be transferred to the position right above the saw teeth to be welded of the saw blade matrix, and the transverse driving mechanism is fixed on the rack.

2. A solder strip section conveying mechanism as claimed in claim 1 wherein a longitudinal drive mechanism is provided between the elevation drive mechanism and the lateral drive mechanism for moving the synchronized pneumatic clamping jaws in a direction perpendicular to the direction of guidance of the lateral drive mechanism, the housing of the elevation drive mechanism being fixedly attached to the free end of the longitudinal drive mechanism and the housing of the longitudinal drive mechanism being fixedly attached to the free end of the lateral drive mechanism.

3. The solder strip section conveying mechanism according to claim 1, wherein the transverse driving mechanism comprises a linear slide rail, a base and a slide block sliding on the linear slide rail, and a driving mechanism III for pushing the slide block to reciprocate; and the linear slide rail and the shell of the driving mechanism III are fixed on the base.

4. The conveying mechanism for the welding strip section as claimed in claim 3, wherein the third driving mechanism is a third air cylinder, and the extending end of the piston rod of the third air cylinder is fixedly connected with the sliding block through a connecting seat.

5. The conveying mechanism for the welding strip section according to claim 1, wherein the transverse driving mechanism is a double-piston rod sliding table cylinder, a cylinder body of the double-piston rod sliding table cylinder is fixed on the frame through a connecting seat, and a sliding body of the double-piston rod sliding table cylinder is used for loading and connecting the cylinder body of the lifting driving mechanism.

6. The solder strip section conveying mechanism according to claim 1, wherein the lifting drive mechanism is a double-piston rod sliding table cylinder, a cylinder body of the double-piston rod sliding table cylinder is fixedly connected to the movable end of the transverse drive mechanism, and a sliding body of the double-piston rod sliding table cylinder is fixedly connected with a cylinder body of the synchronous pneumatic clamping jaw.

7. A solder strip section transfer mechanism as claimed in claim 1 wherein the clamping portion of the clamping jaw is provided with a raised platform having a toothed slot for clamping the solder strip section.

8. The conveyor for solder strip sections according to claim 2, wherein said longitudinal driving mechanism is a dual piston rod sliding cylinder, the cylinder body of the dual piston rod sliding cylinder is fixed on the sliding block through a connecting seat, and the sliding body of the dual piston rod sliding cylinder is used for load connection with the cylinder body of the lifting driving mechanism.

9. A diamond saw blade welding machine, comprising a welding strip section conveying mechanism as claimed in any one of claims 1 to 7, characterized in that a saw blade base body positioning mechanism is arranged below a machine frame; a tool bit clamping and positioning mechanism is arranged right above the saw blade matrix positioning mechanism; a welding strip section supply mechanism is arranged on the right side of the rack; the welding strip section feeding mechanism comprises a welding strip and a fixing support for fixing the welding strip; a welding strip pushing mechanism which pulls out the free end part of the welding strip from the fixed bracket and straightens the free end part of the welding strip; the guide seat is used for carrying out flux applying operation on the free end part of the welding strip pulled out from the strip pushing and welding mechanism and horizontally outputting the welding strip in a directional manner towards the direction of the saw blade matrix; a mechanical clamp for clamping the free end of the welding strip; the guiding control piece is arranged between the guiding seat and the mechanical clamp and used for orienting the free end of the welding strip; cutting the free end of the welding strip into a cutting piece of the welding strip section; a second driving mechanism for pushing the shearing part to horizontally move towards the vertical direction of the welding strip; the fixed support, the push welding strip mechanism, the mechanical clamp, the guide control piece, the shearing piece and the driving mechanism II are fixed on the rack, and the guide seat is fixed on the push welding strip mechanism.

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