CN211660978U - Automatic cutting device for steel strand - Google Patents
Automatic cutting device for steel strand Download PDFInfo
- Publication number
- CN211660978U CN211660978U CN202020230679.4U CN202020230679U CN211660978U CN 211660978 U CN211660978 U CN 211660978U CN 202020230679 U CN202020230679 U CN 202020230679U CN 211660978 U CN211660978 U CN 211660978U
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- cutting
- clamp
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- steel strand
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Abstract
The utility model provides an automatic cutting device of steel strand wires, includes feeding mechanism, frame and shutdown mechanism, feeding mechanism include motor and supply two upper and lower guide rolls that the steel strand wires pull, two guide rolls in set up a guide slot that supplies the steel strand wires to pass through at least, a plurality of guide slots between two upper and lower guide rolls form a plurality of walking passageways unanimous with the steel strand wires shape, shutdown mechanism's cutting off bench on install and supply the towed deflector of steel strand wires, the cutting off bench on still install binding clasp and disjunctor, the binding clasp include clamp and die clamping cylinder, the clamp starts through die clamping cylinder to can press from both sides the steel strand wires on the tight cutting off bench, the disjunctor include cutting nipper, cut off the cylinder, cutting nipper on install the blade, the drive cuts off the cylinder, thereby cutting nipper can cut off the steel strand wires. The utility model discloses, can once only many simultaneously cut off steel strand wires fast, improve the efficiency of cutting off of steel strand wires.
Description
Technical Field
The utility model relates to a cutting device especially relates to an automatic cutting device of steel strand wires.
Background
At present, in the process of using a steel strand purchased in the market, the length of the steel strand is measured according to the required length and then the steel strand is cut into the required length, in the prior art, the steel strand is cut by scissors type equipment or special scissors manually, although the use is convenient, the steel strand can only be cut by the special scissors each time, and the steel strand needs to be cut by using the special scissors due to certain hardness, so the efficiency of cutting the steel strand is low.
Disclosure of Invention
An object of the utility model is to provide an automatic cutting device of steel strand wires can carry out high efficiency automatically to the steel strand wires and cut off, solves the problem that prior art steel strand wires cut off inefficiency.
In order to achieve the above object, the present invention is realized as follows: an automatic cutting device of steel strands comprises a feeding mechanism, a rack and a cutting mechanism connected between the feeding mechanism and the rack, wherein the feeding mechanism comprises a motor and an upper guide roller and a lower guide roller for drawing the steel strands, at least one guide groove for the steel strands to pass through is arranged in the two guide rollers, a plurality of walking channels with the same shape as the steel strands are formed by the guide grooves between the upper guide roller and the lower guide roller, the upper guide roller and the lower guide roller are respectively connected with gears which are meshed with each other, the gears connected on the lower guide roller are meshed with the gears connected on an output shaft of the motor, the cutting mechanism comprises a cutting table, a guide plate for drawing the steel strands is arranged on the cutting table, a guide sleeve is arranged in the guide plate, a clamping device and a cutting device are also arranged on the cutting table, the clamping device comprises a clamp and a clamping cylinder, the cutting device comprises a cutting pliers and a cutting cylinder, wherein the cutting pliers are provided with blades and connected with the cutting cylinder to drive the cutting cylinder, so that the cutting pliers can cut off the steel strand. The steel strand wires that come from feeding mechanism transport, the walking passageway that the guide slot formed between upper and lower guide roll, the steel strand wires in the guide slot in the guide roll realize the removal and the transport to the steel strand wires under the rotation and the extrusion of two guide rolls, and the steel strand wires are further through the uide bushing guide effect in the deflector, and the steel strand wires are pressing from both sides tightly and are cut off through the shutdown mechanism in-process.
Furthermore, the frame, its both sides are provided with the slide rail, are provided with mobilizable locator on the slide rail. The positioner can sense the steel strand wires that are sent from feeding mechanism to conveniently control the automatic cutout of steel strand wires.
Furthermore, the locator, install the inductor on it, the inductor is installed in one side of locator, has set up a plurality of constant head tanks in the locator, the constant head tank corresponds with the uide bushing on the deflector that the position set up, thereby the inductor is through leading to the response hole in the constant head tank induction in the constant head tank steel strand wires.
Furthermore, the positioner is also provided with a sliding groove, the sliding groove corresponds to the sliding rail on the rack, and the sliding groove can be fixed on the specific position of the sliding rail on the rack through a fixing screw. The positioner can be very convenient location steel strand wires cut off the length to through the inductor response, realize the automatic cutout of steel strand wires.
Furthermore, the upper part of the cutting-off table of the cutting-off mechanism is provided with a clamping support for mounting a clamping device, two transverse plates are arranged in the clamping support, each transverse plate is provided with an open slot with an inner opening, the lower part of each transverse plate is a clamping slot, the clamping slots correspond to the guide sleeves in position, and the lower part of the cutting-off table of the cutting-off mechanism is provided with a cutting-off support for mounting the cutting-off device.
Furthermore, the clamping device comprises a driving part and a clamping part, the driving part comprises a cylinder frame and a clamping cylinder arranged on the cylinder frame, a push rod part of the clamping cylinder is provided with a push block, the push block is movably connected on a clamp movable rod of the cylinder frame, the clamping part comprises a clamp, a clamp linkage plate, a connecting rod and a movable rod, the clamp is in a scissor structure, the clamp is connected on a transverse plate of a clamping support through a clamp movable shaft, a clamp jaw of the clamp corresponds to a clamping groove at the lower part of the transverse plate, the upper part of the clamp is connected with the two movable rods through shafts, the other ends of the two movable rods are also connected together through shafts, the clamp and the two movable rods form a linkage structure, the lower part of the linkage structure can be opened and clamped, the linkage structure is connected into two clamping groups capable of simultaneously clamping the steel strand front and back through the connecting rod, the clamping part is connected with a plurality of clamping groups together through the, clamping part forms one and can opens simultaneously and press from both sides tightly under the effect of clamp linkage board to realize that clamping part presss from both sides tightly around going on many steel strands, makes things convenient for the purpose that the steel strand wires cut off, the ejector pad, connect on clamping part's connecting rod, drive die clamping cylinder, die clamping cylinder promotes the ejector pad, acts on clamping part's connecting rod by the ejector pad, through the connecting rod, drives clamp linkage board, thereby realizes that clamp linkage board opens simultaneously and presss from both sides tightly to the centre gripping group effect, in order to reach a plurality of clamps.
Furthermore, the cutter comprises a driving part and a cutting part, wherein the driving part comprises a pushing cylinder, a cutting cylinder and a movable frame, the pushing cylinder is arranged in a cutting support, a push rod of the pushing cylinder is connected with the lower part of the movable frame, the movable frame is provided with a pulley on the four corner frame part, the movable frame is movably connected in the cutting support through the pulley, the cutting cylinder is arranged in the movable frame, the push rod of the cutting cylinder is connected with the cutting part, the cutting part comprises a cutting nipper, a cutting nipper linkage plate and a cutting nipper movable rod, the cutting nipper is of a scissors structure, the cutting nipper is connected to the upper part of the movable frame through a cutting nipper movable shaft, the upper part of the cutting nipper extends out of the upper part of the movable frame, the lower part of the cutting nipper is connected with the two cutting nipper movable rods, the other ends of the two cutting nipper movable rods are also connected together through a shaft, and the cutting nipper movable rods form a linkage structure with, the cutting component is formed into a plurality of linkage structures which are connected together by the cutting clamp linkage plates, and the cutting component can be opened, clamped and cut simultaneously under the action of the cutting clamp linkage plates so as to realize that the cutting component cuts a plurality of steel strands.
Furthermore, the blade is arranged in a cutting jaw of the cutting pliers and is fixed through a blade fixing screw, and the blade part of the blade is a tungsten steel blade. Because the blade is easy to wear in the process of cutting off the steel strand, the blade can be conveniently replaced through the arrangement of the detachable blade.
The utility model discloses a realize like this: the motor drives the two guide rollers to rotate in opposite directions through gear engagement, the steel strand in the guide groove in the guide roller is moved and conveyed under the rotation and extrusion effects of the two guide rollers, the steel strand is further guided and conveyed to the lower part of the cutting mechanism in the guide sleeve of the guide plate, the steel strand passes through the circular clamping jaw of the clamping part and reaches the rack, when the steel strand reaches the position set by the positioner, the sensor on the positioner senses the steel strand, the motor stops running and simultaneously drives the clamping cylinder of the clamping device on the cutting mechanism, the clamp on the clamping device clamps the steel strand from the front side and the rear side, the pushing cylinder of the cutting device is driven to push the movable frame, so that the cutting jaw arranged in the movable frame is positioned at the height of the steel strand, and the steel strand is cut off from the middle of the two clamps through the blade under the action of the cutting cylinder, the purpose of the two clamps to clamp the steel strand back and forth is to prevent the steel strand from moving during the severing process.
The utility model discloses, the steel strand wires after cutting off because the action of gravity, drops automatically and installs in the material frame of frame below, and the material frame sets up for the slope, and the steel strand wires that fall down pass through the material frame of slope, and the bottom of material frame is gone into in the automatic slip.
The utility model discloses, the length that can very convenient control steel strand wires cut off at every turn has solved the inconsistent problem of steel strand wires cut off length in the setting of locator.
The utility model discloses, can once only many simultaneously cut off steel strand wires fast, improve the efficiency of cutting off of steel strand wires.
Drawings
Fig. 1 is a perspective view of the present invention.
Fig. 2 is a perspective view of the front view of the present invention.
FIG. 3 is a perspective view of the cutting mechanism in a front view.
Fig. 4 is a perspective view of the cutting mechanism in a rear view direction.
Fig. 5 is a perspective view of the gripper.
Fig. 6 is a perspective view of the cutter.
Fig. 7 is a perspective view of the cutting nippers.
Fig. 8 is a partially enlarged view of a in fig. 1.
Fig. 9 is a perspective view of the positioner.
Wherein: 1-feeding mechanism, 11-feeding table, 12-motor, 13-guide roller, 14-gear, 15-guide groove, 16-roller, 17-support plate, 2-cutting mechanism, 21-cutting table, 22-clamping bracket, 22 a-transverse plate, 22 b-open slot, 22 c-clamping slot, 23-cutting bracket, 24-guide plate, 24 a-guide sleeve, 25-clamper, 25 a-cylinder frame, 25 b-clamping cylinder, 25 c-push block, 25 d-clamp linkage plate, 25 e-connecting rod, 25 f-movable rod, 25 g-clamp, 25 h-clamp movable shaft, 25 i-clamp jaw, 25 j-clamp movable rod, 26-cutter, 26 a-movable frame, 26 b-pushing cylinder, 26 c-cutting cylinder, 26 d-pulley, 26 e-cutting nipper, 26 f-cutting nipper jaw, 26 g-blade, 26 h-blade fixing screw, 26 i-cutting nipper movable shaft, 26 j-cutting nipper movable rod, 26 k-cutting nipper linkage plate, 3-frame, 31-slide rail, 4-locator, 41-inductor, 42-fixing screw, 43-locating slot, 44-induction hole, 45-sliding slot, 5-material frame, 6-steel strand.
Detailed Description
The following provides a brief description of embodiments of the present invention with reference to the accompanying drawings.
The utility model discloses, as shown in figure 1 and figure 2, an automatic cutting device of steel strand wires, which comprises a feeding mechanism (1), a cutting mechanism (2), a frame (3), a positioner (4) and a material frame (5), wherein the cutting mechanism (2) is arranged between the frame (3) and the feeding mechanism (1), the frame (3) is provided with the movable positioner (4), the positioner (4) is connected through a slide rail (31) on the frame (3), the lower part of the frame (3) is also provided with the inclined material frame (5), the feeding mechanism (1) comprises a motor (12) and an upper guide roller (13) and a lower guide roller (13) which are used for the traction of the steel strand wires (6), at least one guide groove (15) which is used for the passage of the steel strand wires (6) is arranged in the two guide rollers (13), a plurality of guide grooves (15) between the upper guide roller and the lower guide roller (13) form a plurality of walking channels which are consistent with the shape of the steel strand wires (, the upper guide roller and the lower guide roller (13) are connected with a gear (14) on a motor (12) in a meshed manner through a gear (14) which is meshed with each other, the motor (12) drives the two guide rollers (13) to rotate in opposite directions through the gear (14) in a meshed manner, a steel strand (6) in a guide groove (15) in each guide roller (13) moves and conveys the steel strand (6) under the rotating and extruding effects of the two guide rollers (13), referring to fig. 8 and 9, an inductor (41) of a positioner (4) is installed on one side of the positioner (4), a plurality of positioning grooves (43) are arranged in the positioner (4), the positioning grooves (43) correspond to guide sleeves (24 a) on guide plates (24) in position, the inductor (41) induces the steel strand (6) in the positioning grooves (43) through induction holes (44) which are directly communicated with the positioning grooves (43), a sliding groove (45) which is arranged on the positioner (4) is matched with a sliding rail (31) on a rack (3), the positioner (4) is fixed at a specific position of the slide rail (31) through a fixing screw (42), and the specific position is used for positioning the length of the steel strand (6) to be cut. When the steel strand (6) reaches the position where the positioner (4) is arranged, the sensor (41) on the positioner (4) senses the steel strand (6), the motor (12) stops running, simultaneously drives a clamping cylinder (25 b) of a clamping device (25) on the cutting mechanism (2), clamps (25 g) on the clamping device (25) clamp the steel strand (6) from the front side and the rear side, drives a pushing cylinder (26 b) of the cutting device (26), the pushing cylinder (26 b) pushes a movable frame (26 a), so that the cutting jaw (26 f) arranged in the movable frame (26 a) is positioned at the height of the steel strand (6), and the cutting pliers (26 e) are driven by the cutting cylinder (26 c), the steel strand (6) is cut off from the middle of the two clamps (25 g) through the blades (26 g), and the cut steel strand (6) automatically falls down into the material frame (5) below the rack (3) under the action of gravity.
The utility model relates to a cutting mechanism (2), refer to fig. 3 and fig. 4, which comprises a cutting platform (21), a guide plate (24) is arranged on the cutting platform (21), a guide sleeve (24 a) is arranged in the guide plate (24), the guide sleeve (24 a) can be disassembled and replaced, a clamp (25) and a cutter (26) are also arranged on the cutting platform (21), the clamp (25) is arranged in a clamping bracket (22) at the upper part of the cutting platform (21), two transverse plates (22 a) are arranged in the clamping bracket (22), the transverse plates (22 a) are provided with an open slot (22 b) with an internal opening, a clamp (25 g) of the clamp (25) is arranged in the open slot (22 b), the lower part of the transverse plate (22 a) is a clamping slot (22 c), the positions of the clamping slot (22 c) are corresponding to the position of the guide sleeve (24 a), a cutting bracket (23) is arranged at the lower part of the, a cutter (26) which can move up and down is installed in the cutting support (23), when the steel strand is cut, the cutter (26) is lifted to the position of the steel strand (6) through a pushing cylinder (26 b), and a cutting clamp (26 e) is driven by a cutting cylinder (26 c) to cut the steel strand (6).
Clamper (25), in fig. 5, including driver part and clamping unit, driver part includes cylinder frame (25 a) and installs die clamping cylinder (25 b) on cylinder frame (25 a), and ejector pad (25 c) are installed to the push rod part of die clamping cylinder (25 b), ejector pad (25 c) mobilizable connection is on the clamp movable rod (25 j) of cylinder frame (25 a). The clamping part comprises a clamp (25 g), a clamp linkage plate (25 d), a connecting rod (25 e) and a movable rod (25 f), the clamp (25 g) is of a scissors structure, the clamp (25 g) is connected to a transverse plate (22 a) of the clamping support (22) through a clamp movable shaft (25 h), a clamping jaw (25 i) of the clamp (25 g) corresponds to a clamping groove (22 c) at the lower part of the transverse plate (22 a), the upper part of the clamp (25 g) is connected with the two movable rods (25 f) through shafts, the other ends of the two movable rods (25 f) are also connected together through shafts, the clamp (25 g) and the two movable rods (25 f) form a linkage structure, the lower part of the linkage structure can be opened and clamped, the linkage structure is connected through the connecting rod (25 e) into two clamping groups which can simultaneously clamp the steel strand (6) front and back, the clamping part is connected by the clamp linkage plate (25 d) into a plurality of clamping groups, the clamping part forms one and can open simultaneously and press from both sides tightly under the effect of clamp interlock board (25 d), in order to realize that clamping part presss from both sides tightly around going on many steel strands (6), make things convenient for the purpose that steel strand (6) cut off, drive part and clamping part's connection links together through ejector pad (25 c) and connecting rod (25 e), drive die clamping cylinder (25 b), die clamping cylinder (25 b) promote ejector pad (25 c), act on clamping part's connecting rod (25 e) by ejector pad (25 c), through connecting rod (25 e), drive clamp interlock board (25 d), thereby realize clamp interlock board (25 d) to the clamping group effect, open simultaneously and press from both sides tightly in order to reach a plurality of clamps (25 g).
The utility model discloses a disconnector (26), refer to in FIG. 6, including driver part and cutting part, driver part includes push cylinder (26 b), cuts off cylinder (26 c) and movable frame (26 a), push cylinder (26 b) is installed in cutting off support (23), and push cylinder (26 b)'s push rod and movable frame (26 a) sub-unit connection, pulley (26 d) are installed to its four corners frame portion of movable frame (26 a), movable frame (26 a) movably connects in cutting off support (23) through pulley (26 d), the internally mounted of movable frame (26 a) has cutting off cylinder (26 c), the push rod and the cutting part that cut off cylinder (26 c) are connected, cutting part include cutting nipper (26 e) and cutting nipper interlock board (26 k), cutting nipper movable rod (26 j), cutting nipper (26 e) are the scissors structure, cutting nipper (26 e) connects on the upper portion of movable frame (26 a) through cutting nipper movable shaft (26 i), the upper portion of the cutting nipper (26 e) stretches out of the upper portion of the movable frame (26 a), the lower portion of the cutting nipper (26 e) is connected with the two cutting nipper movable rods (26 j) in a shaft mode, the other ends of the two cutting nipper movable rods (26 j) are also connected together in a shaft mode, the cutting nipper (26 e) and the two cutting nipper movable rods (26 j) form a linkage structure, the upper portion of the linkage structure can be opened and clamped, the cutting part is connected through the cutting nipper linkage plates (26 k) to form a plurality of linkage structures, the linkage structures can be opened, clamped and cut off simultaneously, and the cutting part can cut off the steel strands (6) under the effect of the cutting nipper linkage plates (26 k). Referring to fig. 7, the cutting nipper (26 e) of the present invention has a cutting blade (26 g) mounted inside the cutting nipper opening (26 f), the cutting blade (26 g) is fixed by a blade fixing screw (26 h), the cutting edge of the cutting blade (26 g) is made of tungsten steel, and the cutting blade (26 g) can be replaced conveniently.
The utility model discloses, the process of cutting off can many steel strand wires (6) cut off simultaneously, can cut off steel strand wires (6) fast, has improved the efficiency of cutting off of steel strand wires (6), moreover, has locator (4) location, cuts off at every turn, and length is unanimous, and the control of cutting off is easy, great reduction the intensity of labour that cuts off of steel strand wires (6).
The above embodiments only express the embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.
Claims (9)
1. The utility model provides an automatic cutting device of steel strand wires, includes feeding mechanism, frame, and connects feeding mechanism with shutdown mechanism between the frame, its characterized in that: the feeding mechanism comprises a motor and an upper guide roller and a lower guide roller for drawing the steel strand, at least one guide groove for the steel strand to pass through is arranged in each guide roller, a plurality of guide grooves between the upper guide roller and the lower guide roller form a plurality of walking channels with the same shapes as the steel strand, the upper guide roller and the lower guide roller are respectively connected with gears, the gears are meshed with each other, the gears connected to the lower guide roller are meshed with the gears connected to the output shaft of the motor, the cutting mechanism comprises a cutting table, a guide plate for drawing the steel strand is arranged on the cutting table, a guide sleeve is arranged in the guide plate, a clamp and a cutter are further arranged on the cutting table, the clamp comprises a clamp and a clamping cylinder, the clamp is started through the clamping cylinder, and can clamp the steel strand on the cutting table, and the cutter comprises a cutting clamp, And the cutting pliers are provided with blades and connected with the cutting cylinder to drive the cutting cylinder, so that the cutting pliers can cut off the steel strand.
2. The automatic cutting device for steel strands according to claim 1, characterized in that: the machine frame is provided with slide rails on two sides, and a movable positioner is arranged on the slide rails.
3. The automatic cutting device for the steel strand according to claim 2, wherein: the locator, install the inductor on it, the inductor is installed in one side of locator, has set up a plurality of constant head tanks in the locator, the constant head tank corresponds with the uide bushing on the deflector of position and setting.
4. The automatic cutting device for the steel strand according to claim 2, wherein: the positioner is also provided with a sliding groove, the sliding groove corresponds to the sliding rail on the rack, and the sliding groove can be fixed on the specific position of the sliding rail on the rack through a fixing screw.
5. The automatic cutting device for steel strands according to claim 1, characterized in that: the cutting-off mechanism is characterized in that a clamping support for mounting a clamp is arranged on the upper portion of a cutting-off table of the cutting-off mechanism, two transverse plates are arranged inside the clamping support, each transverse plate is provided with an open slot with an inner opening, the lower portion of each transverse plate is a clamping slot, the positions of the clamping slots correspond to those of the guide sleeves, and the cutting-off support for mounting the cutter is arranged on the lower portion of the cutting-off table of the cutting-off mechanism.
6. The automatic cutting device for steel strands according to claim 1, characterized in that: the cutting-off mechanism is characterized in that a clamping support for mounting a clamp is arranged on the upper portion of a cutting-off table of the cutting-off mechanism, two transverse plates are arranged inside the clamping support, each transverse plate is provided with an open slot with an inner opening, the lower portion of each transverse plate is a clamping slot, the positions of the clamping slots correspond to those of the guide sleeves, and the cutting-off support for mounting the cutter is arranged on the lower portion of the cutting-off table of the cutting-off mechanism.
7. The automatic cutting device for steel strands according to claim 1, characterized in that: the clamp comprises a driving part and a clamping part, wherein the driving part comprises a cylinder frame and a clamping cylinder arranged on the cylinder frame, a push rod part of the clamping cylinder is provided with a push block, the push block is movably connected on a clamp movable rod of the cylinder frame, the clamping part comprises a clamp, a clamp linkage plate, a connecting rod and a movable rod, the clamp is of a scissors structure, the clamp is connected on a transverse plate of a clamping support through a clamp movable shaft, a clamp jaw of the clamp corresponds to a clamping groove at the lower part of the transverse plate, the upper part of the clamp is connected with the two movable rods through shafts, the other ends of the two movable rods are also connected together through the shafts, the clamp and the two movable rods form a linkage structure with the lower part capable of being opened and clamped, the linkage structure is connected into two clamping groups capable of simultaneously clamping the front and the back of a steel strand through the connecting rods, and the clamping, clamping part forms one and can opens simultaneously and press from both sides tightly under the effect of clamp linkage board to realize that clamping part presss from both sides tightly around going on many steel strands, makes things convenient for the purpose that the steel strand wires cut off, the ejector pad, connect on clamping part's connecting rod, drive die clamping cylinder, die clamping cylinder promotes the ejector pad, acts on clamping part's connecting rod by the ejector pad, through the connecting rod, drives clamp linkage board, thereby realizes that clamp linkage board opens simultaneously and presss from both sides tightly to the centre gripping group effect, in order to reach a plurality of clamps.
8. The automatic cutting device for steel strands according to claim 1, characterized in that: the cutter comprises a driving part and a cutting part, wherein the driving part comprises a pushing cylinder, a cutting cylinder and a movable frame, the pushing cylinder is arranged in a cutting support, a push rod of the pushing cylinder is connected with the lower part of the movable frame, the movable frame is provided with a pulley on the four-corner frame part, the movable frame is movably connected in the cutting support through the pulley, the cutting cylinder is arranged in the movable frame, the push rod of the cutting cylinder is connected with the cutting part, the cutting part comprises a cutting nipper, a cutting nipper linkage plate and a cutting nipper movable rod, the cutting nipper is of a scissors structure, the cutting nipper is connected to the upper part of the movable frame through a cutting nipper movable shaft, the upper part of the cutting nipper extends out of the upper part of the movable frame, the lower part of the cutting nipper is connected with the two cutting nipper movable rods, the other ends of the two cutting nipper movable rods are also connected together through a shaft, and the cutting nipper movable rods, the cutting part is formed into a plurality of linkage structures which are connected together by the cutting clamp linkage plates, and the cutting part can be opened, clamped and cut off simultaneously under the action of the cutting clamp linkage plates.
9. The automatic cutting device for steel strands according to claim 1, characterized in that: the blade is arranged in a cutting jaw of the cutting pliers and is fixed through a blade fixing screw, and the blade part of the blade is a tungsten steel blade.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020230679.4U CN211660978U (en) | 2020-03-01 | 2020-03-01 | Automatic cutting device for steel strand |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020230679.4U CN211660978U (en) | 2020-03-01 | 2020-03-01 | Automatic cutting device for steel strand |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN211660978U true CN211660978U (en) | 2020-10-13 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202020230679.4U Expired - Fee Related CN211660978U (en) | 2020-03-01 | 2020-03-01 | Automatic cutting device for steel strand |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN211660978U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112398055A (en) * | 2020-11-20 | 2021-02-23 | 刘尧艳 | Rapid surrounding cutting wire insulation layer equipment |
-
2020
- 2020-03-01 CN CN202020230679.4U patent/CN211660978U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112398055A (en) * | 2020-11-20 | 2021-02-23 | 刘尧艳 | Rapid surrounding cutting wire insulation layer equipment |
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| GR01 | Patent grant | ||
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| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20201013 Termination date: 20210301 |
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| CF01 | Termination of patent right due to non-payment of annual fee |