CN210937762U

CN210937762U - Clamping tool for welding bimetal saw blade

Info

Publication number: CN210937762U
Application number: CN201921286061.3U
Authority: CN
Inventors: 王伟毅
Original assignee: Zhejiang Juxing Tools Co ltd
Current assignee: Zhejiang Juxing Tools Co ltd
Priority date: 2019-08-09
Filing date: 2019-08-09
Publication date: 2020-07-07
Anticipated expiration: 2029-08-09

Abstract

The utility model provides a bimetal saw blade welding is with pressing from both sides tight frock belongs to machining technical field. It includes the base, is equipped with the synchronous feed mechanism who is used for carrying saw blade and sawtooth on the base, and synchronous feed mechanism is including setting up the saw blade feed chute on the base, and saw blade feed chute bottom evenly is equipped with a plurality of sawtooth feed chutes that match with the sawtooth and suits, the base on still be equipped with and match suitable synchronous feeding subassembly with saw blade feed chute, sawtooth feed chute keep away from synchronous feeding subassembly one side and be equipped with the sawtooth groove, sawtooth groove bottom swing joint has the sawtooth kicking block. Synchronous feed mechanism can carry out the synchronous feeding of saw blade, sawtooth automatically, can effectively improve material loading efficiency to improve welding efficiency, synchronous feeding subassembly can push away saw blade, sawtooth to the splice, and can compress tightly fixedly to the saw blade, and the sawtooth kicking block can push up the sawtooth to flushing and can cooperate the sawtooth briquetting to press from both sides tightly the sawtooth with the saw blade.

Description

Clamping tool for welding bimetal saw blade

Technical Field

The utility model belongs to the technical field of machining, a bimetal saw blade welding is with pressing from both sides tight frock is related to.

Background

The bimetal band saw blade mainly refers to a metal cutting band saw blade with a tooth tip made of high-speed steel or other high-performance steel, and a back material made of alloy spring steel, and is manufactured by welding the high-speed steel and the alloy spring steel through vacuum electron beams and then performing a series of cold and hot processing procedures, and the bimetal band saw blade has wide application, can be matched with any type of band sawing machine for use, and is suitable for continuous sawing of almost all types of metals, such as: structural steel, resistant steel, alloy steel, bearing steel, stainless steel, heat-resisting steel, aluminum alloy, mould steel etc, compare with traditional circular saw and bow-shaped saw, bimetal band saw blade has pliability good, fatigue resistance is strong, can bear huge tension, a great deal of mechanical properties advantage such as tooth hardness height, it is efficient to have a cutting, machining precision is high and energy-concerving and environment-protective characteristics, however when bimetal saw blade sawtooth and saw blade weld, a saw blade often need cooperate a lot of sawtooth, thereby lead to the tight fixed and location of clamp of sawtooth and saw blade comparatively complicated, waste time and energy.

In order to overcome the defects of the prior art, various solutions are proposed through continuous exploration, for example, chinese patent discloses a laser welding device for a bimetallic band saw blade [ application number: 201611212166.5], comprising a supporting rod, one side of bracing piece is provided with first guide rail, one side of first guide rail is provided with the second guide rail, the bracing piece is connected with the support frame through first guide rail, the outside of support frame is provided with the slide bar, the middle part of slide bar is provided with first laser spray gun, the bottom of bracing piece one side is connected with second laser spray gun through the second guide rail, the bottom of bracing piece is provided with the base that falls to the ground, one side of base that falls to the ground is provided with the rectangle recess, the inside of rectangle recess is provided with the balancing weight, the opposite side of base that falls to the ground is provided with. This scheme has the multi-angle of being convenient for weld bimetal band saw blade, is convenient for improve the stability of bimetal band saw blade when the welding simultaneously to and be convenient for know the concrete temperature of anchor clamps when welding, have certain warning effect, prevent the fatigue damage's of anchor clamps advantage, but also have the shortcoming that the clamp of sawtooth and saw blade is fixed comparatively complicacy and wastes time and energy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, a bimetal saw blade welding is with pressing from both sides tight frock is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a bimetal saw blade welding is with pressing from both sides tight frock, includes the base, is equipped with the synchronous feed mechanism who is used for carrying saw blade and sawtooth on the base, and synchronous feed mechanism is including setting up the saw blade feed chute on the base, and saw blade feed chute bottom evenly is equipped with a plurality of sawtooth feed chutes that match with the sawtooth and suits, the base on still be equipped with and match the synchronous feeding subassembly that suits with saw blade feed chute, sawtooth feed chute synchronous feeding subassembly one side be equipped with the sawtooth groove, sawtooth groove bottom swing joint has the sawtooth kicking block, sawtooth groove top swing joint has the sawtooth briquetting.

In foretell bimetal saw blade welding is with pressing from both sides tight frock, synchronous feeding subassembly is including setting up the pushing away the flitch groove of keeping away from sawtooth groove one side at the sawtooth feed chute, pushes away the flitch groove and keeps away from sawtooth feed chute one side and run through the base along the horizontal direction, pushes away flitch inslot swing joint have can insert to the saw blade feed chute in and can follow the flitch of horizontal direction reciprocating motion, the flitch bottom is equipped with the sawtooth flitch that pushes away of a plurality of and sawtooth feed chute one-to-one.

In the clamping tool for welding the bimetal saw blade, the bottom of the base is further provided with a feeding driver, the feeding driver is provided with an output shaft capable of reciprocating along a straight line, and a connecting rod component is further arranged between the output shaft of the feeding driver and the material pushing plate.

In the clamping tool for welding the bimetal saw blade, the middle position of the bottom of the saw blade feeding groove is provided with a limiting sliding groove which penetrates through the base, is distributed with the saw tooth feeding groove in a staggered manner and is matched with the connecting rod component.

In foretell bimetal saw blade welding is with pressing from both sides tight frock, the connecting rod part includes the connecting rod that links to each other with the output shaft tip of feeding driver, and the output shaft one end that feeding driver was kept away from to a connecting rod even has No. two connecting rods, and No. two connecting rods keep away from a connecting rod one end even has the right angle connecting rod, and the right angle connecting rod matches with spacing spout and suits, and No. one connecting rod is kept away from to the right angle connecting rod and serves to link to have and insert to spacing spout and hug closely No. three connecting rods of complex with spacing spout, and No. three.

In foretell bimetal saw blade welding is with pressing from both sides tight frock, sawtooth groove bottom be equipped with the liftout groove that runs through the base, sawtooth kicking block and liftout groove swing joint, base bottom and the corresponding position of spacing spout are equipped with the liftout driver, the liftout driver has the output shaft that can follow straight reciprocating motion, the output shaft tip of liftout driver inserts to the liftout inslot and links to each other with the sawtooth kicking block.

In foretell bimetal saw blade welding is with pressing from both sides tight frock, sawtooth kicking block top flush with sawtooth feed chute bottom, the sawtooth chute top still is equipped with the blown down tank, the sawtooth briquetting insert in the blown down tank and with the cooperation of hugging closely of blown down tank bottom.

In foretell bimetal saw blade welding is with pressing from both sides tight frock, the base top still be equipped with the clamp plate driver, the clamp plate driver has the output shaft that can follow straight reciprocating motion, the output shaft tip of clamp plate driver even has the right angle connecting rod, the output shaft one end that the clamp plate driver was kept away from to the right angle connecting rod links to each other with sawtooth briquetting top.

In foretell bimetal saw blade welding is with pressing from both sides tight frock, saw blade feed chute both sides still be equipped with the spacing groove, two spacing grooves set up along the central line symmetry of saw blade feed chute, and two spacing grooves hug closely the cooperation with the saw blade both ends.

In the clamping tool for welding the bimetal saw blade, the width of the discharge chute is matched with the width of the saw blade and the sum of the saw teeth, and the height of the sawtooth chute is matched with the height of the saw teeth.

Compared with the prior art, the utility model has the advantages of: synchronous feed mechanism can carry out the synchronous feeding of saw blade, sawtooth automatically, can effectively improve material loading efficiency to improve welding efficiency, synchronous feeding subassembly can push away saw blade, sawtooth to the splice, and can compress tightly fixedly to the saw blade, and the sawtooth kicking block can push up the sawtooth to flushing and can cooperate the sawtooth briquetting to press from both sides tightly the sawtooth with the saw blade.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a top view provided by the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic cross-sectional view taken at B-B of FIG. 1;

FIG. 4 is a schematic cross-sectional view taken at C-C of FIG. 1;

fig. 5 is a schematic cross-sectional view taken at D-D in fig. 1.

In the figure, a base 1, a synchronous feeding mechanism 2, a saw blade feeding groove 3, a sawtooth feeding groove 4, a synchronous feeding component 5, a sawtooth ejecting block 6, a sawtooth pressing block 7, a sawtooth groove 8, a pushing plate groove 9, a pushing plate 10, a sawtooth pushing plate 11, a feeding driver 12, a connecting rod part 13, a limiting sliding groove 14, a first connecting rod 15a, a second connecting rod 15b, a right-angle connecting rod 15c, a third connecting rod 15d, a pushing groove 16, an ejecting driver 17, a discharging groove 18, a pressing plate driver 19, a right-angle connecting rod 20 and a limiting groove 21.

Detailed Description

As shown in figure 1 and figure 2, a bimetal saw blade welding is with pressing from both sides tight frock, including base 1, be equipped with the synchronous feed mechanism 2 that is used for carrying saw blade and sawtooth on the base 1, synchronous feed mechanism 2 is including setting up saw blade feed chute 3 on

base

1, 3 bottoms of saw blade feed chute evenly are equipped with a plurality of sawtooth feed chutes 4 that match with the sawtooth and suit, base 1 on still be equipped with and match suitable synchronous feeding subassembly 5 with saw blade feed chute 3,

sawtooth feed chute

4, 4 synchronous feeding subassembly 5 one side of sawtooth feed chute be equipped with

sawtooth groove

8, 8 bottom swing joint of sawtooth groove have

sawtooth kicking block

6, 8 top swing joint of sawtooth groove have sawtooth briquetting 7.

In this affair example, synchronous feed mechanism 2 can carry out the synchronous feeding of saw blade, sawtooth automatically, can effectively improve material loading efficiency to improve welding efficiency, synchronous feeding subassembly 5 can push away saw blade, sawtooth to the splice, and can compress tightly fixedly to the saw blade, sawtooth kicking block 6 can push up the sawtooth to flushing and can cooperate sawtooth briquetting 7 to press from both sides tightly the sawtooth with the saw blade.

Synchronous feeding subassembly 5 is including setting up the material pushing plate groove 9 that keeps away from sawtooth feed chute 8 one side at sawtooth feed chute 4, and material pushing plate groove 9 keeps away from sawtooth feed chute 4 one side and runs through base 1 along the horizontal direction, and swing joint has the scraping wings 10 that can insert to in saw blade feed chute 3 and can follow horizontal direction reciprocating motion in the material pushing plate groove 9, and scraping wings 10 bottom is equipped with the sawtooth scraping wings 11 of a plurality of and sawtooth feed chute 4 one-to-one.

In this case, as shown in fig. 1 and 3, the saw blade feeding groove 3 and the saw tooth feeding groove 4 can place a plurality of saw blades and saw teeth at a time, the saw blades and the saw teeth can be pushed to the welding position by the horizontal movement of the material pushing plate 10 and the saw tooth material pushing plate 11, and the material pushing plate 10 can compress and fix the saw blades.

The bottom of the base 1 is also provided with a feeding driver 12, the feeding driver 12 is provided with an output shaft which can reciprocate linearly, a connecting rod part 13 is also arranged between the output shaft of the feeding driver 12 and the material pushing plate 10, and a limit sliding chute 14 which runs through the base 1, is distributed with the sawtooth feeding groove 4 in a staggered way and is matched with the connecting rod part 13 is arranged in the middle position of the bottom of the saw blade feeding groove 3.

In this case, referring to fig. 3, the feeding driver 12 can drive the material pushing plate 10 to feed through the link member 13, so as to increase the feeding rate, and the limiting chute 14 can limit the link member 13, thereby preventing the link member 13 from shifting during the movement.

It will be appreciated by those skilled in the art that the feed actuator 12 may be a pneumatic cylinder or a hydraulic cylinder, with a cylinder being preferred in this example.

The connecting rod part 13 comprises a first connecting rod 15a connected with the end part of an output shaft of the feeding driver 12, one end, far away from the output shaft of the feeding driver 12, of the first connecting rod 15a is connected with a second connecting rod 15b, one end, far away from the first connecting rod 15a, of the second connecting rod 15b is connected with a right-angle connecting rod 15c, the right-angle connecting rod 15c is matched with the limiting sliding groove 14, one end, far away from the first connecting rod 15a, of the right-angle connecting rod 15c is connected with a third connecting rod 15d inserted into the limiting sliding groove 14 and tightly matched with the limiting sliding groove 14, and the top of the third connecting rod 15.

In this example, as shown in fig. 3 and 4, the output shaft of the feeding driver 12 can drive the first connecting rod 15a to move, the first connecting rod 15a can drive the second connecting rod 15b to move, the second connecting rod 15b can drive the right-angle connecting rod 15c to move, the right-angle connecting rod 15c can drive the third connecting rod 15d to move, the third connecting rod 15d can drive the material pushing plate 10 to load materials, and the limiting chute 14 can limit the third connecting rod 15d to prevent the connecting rod part 13 from shifting during movement.

The material ejecting groove 16 penetrating through the base 1 is formed in the bottom of the sawtooth groove 8, the sawtooth ejecting block 6 is movably connected with the material ejecting groove 16, an ejecting driver 17 is arranged at the position, corresponding to the limiting sliding groove 14, of the bottom of the base 1, the ejecting driver 17 is provided with an output shaft capable of moving linearly and repeatedly, and the end portion of the output shaft of the ejecting driver 17 is inserted into the material ejecting groove 16 and connected with the sawtooth ejecting block 6.

In this case, as shown in fig. 3, the ejector driver 17 can drive the sawtooth ejecting block 6 to move so as to make the sawtooth top flush with the saw blade, and the side wall of the sawtooth ejecting block 6 is tightly fitted with the inner wall of the limit sliding groove 14, so that the sawtooth ejecting block 6 can be prevented from loosening.

The top of the sawtooth ejector block 6 is flush with the bottom of the sawtooth feeding groove 4, the top of the sawtooth groove 8 is also provided with a discharge groove 18, and the sawtooth ejector block 7 is inserted into the discharge groove 18 and is tightly attached to and matched with the bottom of the discharge groove 18.

In this case, as shown in fig. 3, when the saw-tooth pressing block 7 is inserted into the discharging chute 18, the saw-tooth pressing block 7 can be matched with the saw-tooth top block 6 to clamp the saw teeth, and after the saw-tooth pressing block 7 is moved out of the discharging chute 18, the welded product can be taken out from the top of the discharging chute 18.

The top of the base 1 is also provided with a pressure plate driver 19, the pressure plate driver 19 is provided with an output shaft capable of reciprocating along a straight line, the end part of the output shaft of the pressure plate driver 19 is connected with a right-angle connecting rod 20, and one end, far away from the pressure plate driver 19, of the right-angle connecting rod 20 is connected with the top of the sawtooth pressing block 7.

In this case, as shown in fig. 3 and 5 in combination, the platen driver 19 can drive the saw-toothed press block 7 to reciprocate in the vertical direction through the right-angle connecting rod 20. It will be appreciated by those skilled in the art that platen actuator 19 may be a pneumatic or hydraulic cylinder, preferably, in this case, a pneumatic cylinder.

The two sides of the saw blade feeding groove 3 are also provided with limiting grooves 21, the two limiting grooves 21 are symmetrically arranged along the central line of the saw blade feeding groove 3, and the two limiting grooves 21 are closely matched with the two ends of the saw blade.

In this case, as shown in fig. 4 and 5, the limiting groove 21 can limit the saw blade, so as to prevent the saw blade from deviating when the pusher plate 10 clamps the saw blade.

The width of the discharge chute 18 is adapted to the combined width of the saw blade and the teeth, and the height of the serrated trough 8 is adapted to the height of the teeth.

In this case, as shown in fig. 4 and 5, the width of the discharging chute 18 is equal to the sum of the width of the saw blade and the width of the saw teeth, so that the saw blade and the saw teeth can be conveniently clamped, and the height of the sawtooth chute 8 is equal to the height of the saw teeth, so that the saw teeth can be conveniently clamped.

The working principle of the utility model is that, the feed driver 12 is started, the feed driver 12 drives the first connecting rod 15a to move, the first connecting rod 15a can drive the second connecting rod 15b to move, the second connecting rod 15b can drive the right-angle connecting rod 15c to move, the right-angle connecting rod 15c can drive the third connecting rod 15d to move, the third connecting rod 15d can drive the pushing plate 10 to move out of the pushing plate groove 9, the saw blade and the saw teeth are added into the saw blade feeding groove 3 and the saw tooth feeding groove 4, then the feed driver 12 is started, the feed driver 12 drives the pushing plate 10 and the saw tooth pushing plate 11 to move, the pushing plate 10 and the saw tooth pushing plate 11 can drive the saw blade and the saw teeth into the discharge groove 18 by the motion, the ejecting driver 17 is started, the ejecting driver 17 drives the ejecting block 6 to move and flush the saw tooth top with the saw blade, and the saw tooth ejecting block 6 can clamp the saw teeth by the saw tooth pressing block 7 inserted into the discharge groove 18 in, accessible external welding tool welds afterwards, start clamp plate driver 19 after the welding is accomplished, thereby clamp plate driver 19 drives 7 upward movements of sawtooth briquetting and takes out the product that has welded to the blown down tank 18 outside, synchronous feed mechanism 2 can carry out the saw blade automatically, the synchronous feeding of sawtooth, can effectively improve material loading efficiency, thereby improve welding efficiency, synchronous feeding subassembly 5 can be with the saw blade, the sawtooth pushes away to the splice, and can compress tightly fixedly to the saw blade, sawtooth kicking block 6 can with the sawtooth top to flush and can cooperate sawtooth briquetting 7 to press from both sides tightly the sawtooth with the saw blade.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms base 1, synchronous feed mechanism 2, saw blade feed chute 3, saw tooth feed chute 4, synchronous feed assembly 5, saw tooth top block 6, saw tooth press block 7, saw tooth chute 8, pusher plate chute 9, pusher plate 10, saw tooth pusher plate 11, feed driver 12, link member 13, limit chute 14, link rod one 15a, link rod two 15b, right-angle link rod 15c, link rod three 15d, ejector chute 16, ejector driver 17, discharge chute 18, press plate driver 19, right-angle link rod 20, limit chute 21, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims

1. The utility model provides a bimetal saw blade welding is with pressing from both sides tight frock, includes base (1), is equipped with synchronous feed mechanism (2) that are used for carrying saw blade and sawtooth on base (1), its characterized in that, synchronous feed mechanism (2) are including setting up saw blade feed chute (3) on base (1), saw blade feed chute (3) bottom evenly is equipped with a plurality of sawtooth feed chutes (4) that match with the sawtooth, base (1) on still be equipped with saw blade feed chute (3), sawtooth feed chute (4) match suitable synchronous feed subassembly (5), sawtooth feed chute (4) keep away from synchronous feed subassembly (5) one side and be equipped with sawtooth groove (8), sawtooth groove (8) bottom swing joint has sawtooth kicking block (6), sawtooth groove (8) top swing joint has sawtooth briquetting (7).

2. The clamping tool for welding the bimetal saw blade according to claim 1, wherein the synchronous feeding assembly (5) comprises a pushing plate groove (9) which is arranged on one side, far away from the sawtooth groove (8), of the sawtooth feeding groove (4), one side, far away from the sawtooth feeding groove (4), of the pushing plate groove (9) penetrates through the base (1) along the horizontal direction, a pushing plate (10) which can be inserted into the saw blade feeding groove (3) and can reciprocate along the horizontal direction is movably connected into the pushing plate groove (9), and a plurality of sawtooth pushing plates (11) which correspond to the sawtooth feeding grooves (4) one to one are arranged at the bottom of the pushing plate (10).

3. The clamping tool for welding the bimetal saw blade as claimed in claim 2, wherein a feeding driver (12) is further arranged at the bottom of the base (1), the feeding driver (12) is provided with an output shaft capable of reciprocating along a straight line, and a connecting rod component (13) is further arranged between the output shaft of the feeding driver (12) and the material pushing plate (10).

4. The clamping tool for welding the bimetal saw blade according to claim 3, wherein a limiting sliding groove (14) which penetrates through the base (1), is distributed in a staggered manner with the saw tooth feeding groove (4) and is matched with the connecting rod component (13) is arranged in the middle of the bottom of the saw blade feeding groove (3).

5. The clamping tool for welding the bimetal saw blade according to claim 4, wherein the connecting rod part (13) comprises a first connecting rod (15a) connected with the end part of the output shaft of the feeding driver (12), one end, away from the feeding driver (12), of the first connecting rod (15a) is connected with a second connecting rod (15b), one end, away from the first connecting rod (15a), of the second connecting rod (15b) is connected with a right-angle connecting rod (15c), the right-angle connecting rod (15c) is matched with the limiting sliding groove (14), one end, away from the first connecting rod (15a), of the right-angle connecting rod (15c) is connected with a third connecting rod (15d) inserted into the limiting sliding groove (14) and in close fit with the limiting sliding groove (14), and the top of the third connecting rod (15d) is connected with the material pushing plate (10).

6. The clamping tool for the welding of the bimetal saw blade according to claim 1, wherein a material ejecting groove (16) penetrating through a base (1) is formed in the bottom of the sawtooth groove (8), the sawtooth ejecting block (6) is movably connected with the material ejecting groove (16), an ejecting driver (17) is arranged at the position, corresponding to the limiting sliding groove (14), of the bottom of the base (1), the ejecting driver (17) is provided with an output shaft capable of reciprocating along a straight line, and the end portion of the output shaft of the ejecting driver (17) is inserted into the material ejecting groove (16) and connected with the sawtooth ejecting block (6).

7. The clamping tool for welding the bimetal saw blade according to claim 6, wherein the top of the sawtooth top block (6) is flush with the bottom of the sawtooth feeding groove (4), the top of the sawtooth groove (8) is further provided with a discharging groove (18), and the sawtooth pressing block (7) is inserted into the discharging groove (18) and is tightly attached and matched with the bottom of the discharging groove (18).

8. The clamping tool for welding the bimetal saw blade according to claim 1, wherein a pressing plate driver (19) is further arranged at the top of the base (1), the pressing plate driver (19) is provided with an output shaft capable of reciprocating along a straight line, a right-angle connecting rod (20) is connected to the end portion of the output shaft of the pressing plate driver (19), and one end, far away from the output shaft of the pressing plate driver (19), of the right-angle connecting rod (20) is connected with the top of the sawtooth pressing block (7).

9. The clamping tool for welding the bimetal saw blade according to claim 1, wherein limiting grooves (21) are further formed in two sides of the saw blade feeding groove (3), the two limiting grooves (21) are symmetrically arranged along the central line of the saw blade feeding groove (3), and the two limiting grooves (21) are tightly attached to and matched with two ends of the saw blade.

10. The clamping tool for welding the bimetal saw blade as claimed in claim 7, wherein the width of the discharging groove (18) is matched with the width of the saw blade and the sum of the saw teeth, and the height of the saw tooth groove (8) is matched with the height of the saw teeth.