JP3214768U - Screw rod cutting machine - Google Patents

Abstract

An object of the present invention is to suppress the occurrence of burr on the edge of the cut surface of a cut screw rod, thereby eliminating the need for deburring the screw rod after cutting, thereby reducing the burden on the operator. Provide a threaded rod cutting machine. A threaded rod cutting machine is provided with a fixed blade 20 provided with a first thread groove 22 with which a threaded rod can be engaged and a movable with a second thread groove 32 with which a threaded rod can be engaged. The blade 30 is provided. A second side edge 36 of the movable blade 30 facing the fixed blade 20 is a vertical portion 37 extending along a direction substantially perpendicular to the longitudinal direction of the screw rod engaged with the second screw groove 32 of the movable blade 30. And an inclined portion 36a that is provided at both ends of the vertical portion 37 and extends along the first side edge 22 of the fixed blade 20, and is provided at at least one end of the vertical portion 37, and the vertical portion 37 and the inclined portion 36a. And step portions 38 and 39 for connecting the two. [Selection] Figure 2

Description

  The present invention relates to a screw rod cutting machine for cutting screw rods such as all screw bolts.

  After attaching the screw rods such as all screw bolts to the ceiling of the building, when attaching the lighting fixtures or air conditioning equipment to the screw rods, the screw rod before the lighting fixtures or air conditioning equipment etc. are attached is determined by the screw rod cutting machine By cutting to a length of 1, it is possible to adjust the mounting height of lighting equipment, air conditioning equipment, and the like. As such a screw rod cutting machine, for example, one disclosed in Patent Document 1 is conventionally known.

  In a conventional threaded rod cutting machine as disclosed in Patent Document 1 and the like, a threaded rod is sheared by a pair of cutting blades composed of a fixed blade and a movable blade. More specifically, the fixed blade is attached to the main body portion of the threaded rod cutting machine, and the position of the fixed blade is fixed. In addition, the fixed blade is provided with a thread groove (female thread) with which a threaded rod can be engaged. On the other hand, the movable blade is movable between the standby position and the forward movement position, and when the movable blade moves from the standby position to the forward movement position, the movable blade passes the fixed blade. The movable blade is also provided with a thread groove (female thread) with which the threaded rod can be engaged. Here, when the movable blade is located at the standby position, the screw groove of the fixed blade and the screw groove of the movable blade face each other. When the movable blade is moved from the standby position to the forward position with the screw rod engaged with the screw groove of the fixed blade, the screw rod is sheared when the movable blade passes the fixed blade. It has become.

JP-A-8-174331

  In a conventional threaded rod cutting machine as disclosed in Patent Literature 1 or the like, a threaded rod to be cut at each of a side edge of the fixed blade facing the movable blade and a side edge of the movable blade facing the fixed blade. The side edges are positioned in the thread grooves of the threaded rod to be cut. In other words, in the conventional threaded rod cutting machine, the fixed blade and the movable blade are engaged with the fixed blade so that the side edges of the fixed blade and the movable blade substantially coincide with the crests of the thread grooves provided in the fixed blade and the movable blade. It is inclined with respect to the direction perpendicular to the longitudinal direction of the screw rods to be joined.

  However, the screw rod to be cut by the screw rod cutting machine has a thread groove formed in a spiral line with respect to the longitudinal direction of the screw rod, so when the movable blade passes by the fixed blade, one of the cutting blades When the thread groove of the threaded rod comes into contact with the side edge of the thread, the thread of the threaded rod comes into contact with the side edge of the other cutting blade. For this reason, the screw rod can be cut along the thread groove by the side edge of one cutting blade, but the side edge of the other cutting blade is adjacent to the thread groove of the screw rod. The screw rod comes to be cut between. Thus, when the threaded rod is cut across the thread by the side edge of the other cutting blade, a burr is generated at the threaded portion on the threaded surface of the threaded rod. When such a burr is generated, there is a possibility that when the nut is fitted on the threaded rod after cutting, the burr is hindered so that the nut cannot be properly fitted on the screw rod. Further, such burr may damage the operator's hand or fingertip trying to fit the nut into the threaded rod after cutting. For this reason, the conventional threaded rod cutting machine has a problem that after the threaded rod is cut, a deburring operation must be performed to remove the burr.

  The present invention has been made in consideration of the above points, and can suppress the occurrence of burr at the edge of the cut surface of the cut screw rod. An object of the present invention is to provide a threaded rod cutting machine that can reduce the burden on the operator because the deburring operation is unnecessary.

  The threaded rod cutting machine of the present invention is movable between a fixed blade provided with a first thread groove with which the threaded rod can be engaged, and a standby position and an advanced position. A movable blade provided with a possible second thread groove, and a slider for moving the movable blade between the standby position and the advance position, and the first thread groove of the fixed blade When the movable blade is moved from the standby position to the advanced position by the slider while the screw rod is engaged, the screw rod is cut by the movable blade and the fixed blade. And the first side edge of the fixed blade facing the movable blade extends along the crest of the first screw groove so that the length of the screw rod engaged with the first screw groove of the fixed blade is long. An angle with respect to a direction orthogonal to the direction, and the fixed blade in the movable blade The second side edge facing is provided at a vertical portion extending along a direction substantially perpendicular to the longitudinal direction of the screw rod engaged with the second screw groove of the movable blade, and at both ends of the vertical portion, An inclined portion extending along the first side edge of the fixed blade, and a step portion provided at at least one end of the vertical portion and connecting the vertical portion and the inclined portion. It is characterized by that.

  According to such a threaded rod cutting machine, compared with a conventional threaded rod cutting machine in which the side edge of the fixed blade and the side edge of the movable blade extend in parallel, the cutting surface of the cut threaded rod is reduced. It is possible to suppress the occurrence of burr on the edge, and therefore, it is not necessary to deburr the threaded rod after cutting, so that the burden on the operator can be reduced. In manufacturing the movable blade, the side edge extending parallel to the side edge of the fixed blade is cut to form a vertical portion extending in a direction substantially perpendicular to the longitudinal direction of the screw rod engaged with the screw groove. This simplifies the processing of the movable blade.

  In the threaded rod cutting machine according to the present invention, the step portions may be provided at both ends of the vertical portion.

  In the threaded rod cutting machine of the present invention, the stepped portion extends in a direction inclined with respect to the longitudinal direction of the threaded rod engaged with the second thread groove of the movable blade and the extending direction of the vertical portion. It may be.

  In the threaded rod cutting machine of the present invention, the vertical portion may be formed between a trough portion and a crest portion in the second thread groove of the movable blade.

  According to the threaded rod cutting machine of the present invention, it is possible to suppress the occurrence of burr on the edge of the cut surface of the threaded rod that has been cut, thus eliminating the need for deburring the threaded rod after cutting. Therefore, the load on the operator can be reduced.

It is a perspective view which shows the external appearance of the threaded rod cutting machine by embodiment of this invention. It is a block diagram which shows a structure when the fixed blade and movable blade in the screw rod cutting machine shown in FIG. 1 are seen from the direction in which the thread groove of the movable blade can be seen. It is a block diagram which shows a structure when the fixed blade and movable blade in the screw rod cutting machine shown in FIG. 1 are seen from the direction in which the thread groove of the fixed blade can be seen. It is an expanded block diagram which expands and shows the fixed blade shown in FIG. 2 and FIG. It is an expanded block diagram which expands and shows the movable blade shown in FIG. 2 and FIG. It is a perspective view which shows the operation | movement which moves a movable blade from a standby position to an advance position after fixing a screw rod to the fixed blade in the screw rod cutting machine shown in FIG. It is a front view which shows the state just before a screw rod is cut | disconnected by a fixed blade and a movable blade in the screw rod cutting machine shown in FIG. FIG. 8 is a left side view illustrating a configuration when the screw rod, the fixed blade, and the movable blade illustrated in FIG. 7 are viewed from the left side. It is a right view which shows a structure when the screw rod shown in FIG. 7, a fixed blade, and a movable blade are seen from the right side. It is a block diagram which shows a structure when the fixed blade and movable blade in the other screw rod cutting machine by embodiment of this invention are seen from the direction which the thread groove of a movable blade can be seen. It is a block diagram which shows a structure when the fixed blade and movable blade in the screw rod cutting machine shown in FIG. 10 are seen from the direction in which the thread groove of the fixed blade can be seen. It is a block diagram which shows a structure when the fixed blade and movable blade in the conventional screw rod cutting machine are seen from the direction in which the thread groove of the movable blade can be seen. It is a block diagram which shows a structure when the fixed blade and movable blade in the conventional screw rod cutting machine are seen from the direction in which the thread groove of the fixed blade can be seen. It is a front view which shows the state just before a screw rod is cut | disconnected by a fixed blade and a movable blade in the conventional screw rod cutting machine shown in FIG. 12 and FIG. It is a left view which shows a structure when the screw rod shown in FIG. 14, a fixed blade, and a movable blade are seen from the left side. It is a right view which shows a structure when the screw rod shown in FIG. 14, a fixed blade, and a movable blade are seen from the right side.

Embodiments of the present invention will be described below with reference to the drawings. The threaded rod cutting machine according to the present embodiment cuts threaded rods such as all threaded bolts. 1 to 9 are views showing a threaded rod cutting machine according to the present embodiment. 1 is a perspective view showing the external appearance of the threaded rod cutting machine according to the present embodiment. FIGS. 2 and 3 show the fixed blade and the movable blade in the threaded rod cutting machine shown in FIG. It is a block diagram which shows a structure when it sees from the direction which can see the screw groove of this, and the direction which can see the screw groove of a fixed blade. 4 and 5 are enlarged configuration diagrams showing the fixed blade and the movable blade shown in FIGS. 2 and 3 in an enlarged manner, respectively. FIG. 6 is a perspective view showing an operation of moving the movable blade from the standby position to the forward position after fixing the screw rod to the fixed blade in the screw rod cutting machine shown in FIG. 1 and the like. It is a front view which shows the state just before a screw rod is cut | disconnected by a fixed blade and a movable blade in the screw rod cutting machine shown to 1 grade | etc.,. 8 and 9 are a left side view and a right side view, respectively, showing the configuration when the screw rod, fixed blade, and movable blade shown in FIG. 7 are viewed from the left side and the right side. In FIGS. 1 to 3 and FIGS. 6 to 9, screw rods such as all screw bolts to be cut by the screw rod cutting machine according to the present embodiment are indicated by the reference symbol W. At this time, along with showing the threads of the threaded rod by the reference numeral W _1, it shows a thread groove by reference numeral W _2. A center line extending in the longitudinal direction of the screw rod (in other words, the axis of the screw rod) is indicated by a reference symbol C.

  A schematic configuration of a threaded rod cutting machine 10 according to the present embodiment will be described with reference to FIG. The threaded rod cutting machine 10 according to the present embodiment includes a main body portion 12, a handle 14 that is gripped by an operator's hand, and a pump portion 16 in which a hydraulic pump is incorporated. In addition, a fixed blade 20 and a movable blade 30 are provided at the tip of the main body 12. Here, the fixed blade 20 is adapted to be attached to the main body 12 with its position fixed. On the other hand, the movable blade 30 is movable with respect to the fixed blade 20. More specifically, the slider 18 is attached to the movable blade 30, and a piston mechanism (not shown) that reciprocates the slider 18 is provided inside the main body 12. When the hydraulic oil generated by the hydraulic pump of the pump unit 16 is sent to the piston mechanism, the slider 18 moves from the standby position as shown in FIG. 1 to the advanced position by the piston mechanism. Accordingly, the movable blade 30 attached to the slider 18 also moves from the standby position as shown in FIG. 1 to the advanced position. Here, while the movable blade 30 moves from the standby position to the advanced position, the movable blade 30 passes the fixed blade 20 with a slight gap.

  As shown in FIGS. 1 to 3, the fixed blade 20 is provided with a screw groove 22 (first screw groove) made of a female screw with which a screw rod to be cut can be engaged. The movable blade 30 is also provided with a thread groove 32 (second thread groove) made of a female thread that can engage with a threaded rod to be cut. Here, when the movable blade 30 is located at the standby position as shown in FIG. 1, the screw groove 22 of the fixed blade 20 and the screw groove 32 of the movable blade 30 face each other. When the movable blade 30 is moved from the standby position as shown in FIG. 1 to the forward movement position by the slider 18 in a state where the screw rod is engaged with the screw groove 22 of the fixed blade 20, the movable blade When 30 passes the fixed blade 20, the screw rod is cut. Details of the configuration of the fixed blade 20 and the movable blade 30 will be described with reference to FIGS. 2 to 5.

FIG. 4 is an enlarged configuration diagram illustrating the configuration of the fixed blade 20 in an enlarged manner when the fixed blade 20 is viewed from the direction in which the thread groove 22 of the fixed blade 20 is visible. In producing the fixed blade 20 according to the present embodiment, first, a screw groove 22 made of a female screw is formed in a base portion having a substantially rectangular parallelepiped shape. Here, the screw groove 22 has a shape such that a screw rod to be cut engages, and in the screw groove 22, trough portions 22 a and crest portions 22 b are alternately provided. When the threaded rod is engaged with the thread groove 22 of the fixed blade 20, the threads of the threaded rod (indicated by reference numeral W ₁ in FIG. 7) along with fits to the valley portion 22a, a thread groove of the threaded rod (indicated by reference numeral W ₂ in FIG. 7) comes to substantially coincide with the peak portions 22b. Next, when the movable blade 30 passes by the fixed blade 20, the side edge 24 (indicated by a two-dot chain line in FIG. 4) facing the movable blade 30 is cut, so that the peak portion 22 b of the screw groove 22 is formed. A side edge 26 (shown by a solid line in FIG. 4) is formed. Here, the side edge 24 before cutting extends in a direction orthogonal to the longitudinal direction of the screw rod engaged with the screw groove 22 (that is, the direction in which the axis indicated by the reference symbol C in FIG. 4 extends). On the other hand, the side edge 26 after being cut is inclined with respect to a direction orthogonal to the longitudinal direction of the screw rod engaged with the screw groove 22. Thus, when the screw rod is engaged with the screw groove 22 of the fixed blade 20, the screw groove of the screw rod substantially coincides with the side edge 26 of the fixed blade 20 (FIGS. 7 and 7). 8).

  FIG. 5 is an enlarged configuration diagram illustrating an enlarged configuration of the movable blade 30 when viewed from a direction in which the thread groove 32 of the movable blade 30 can be seen. As shown in FIG. 5, the side edge 36 of the movable blade 30 has a longitudinal direction of the screw rod engaged with the screw groove 32 of the movable blade 30 (that is, the direction in which the axis indicated by the reference symbol C in FIG. 5 extends). ) On the opposite ends of the vertical portion 37, the inclined portions 36 a extending along the side edge 26 of the fixed blade 20, and the end portions on both sides of the vertical portion 37. The step portions 38 and 39 are provided and connect the vertical portion 37 and the inclined portions 36a.

In producing such a movable blade 30, first, from a female screw to a base portion provided with a side edge 34 (indicated by a two-dot chain line in FIG. 5) extending substantially parallel to the side edge 26 of the fixed blade 20. A screw groove 32 is formed. Here, the screw groove 32 is shaped so that the screw rod to be cut engages, and in the screw groove 32, the trough portions 32a and the crest portions 32b are alternately provided. When the threaded rod is in contact with the thread groove 32 of the movable blade 30, along with fits valleys 32a (indicated by reference numeral W ₁ in FIG. 7) the threads of the threaded rod, screw groove (figure threaded rod denoted by reference numeral W ₂₎ comes to substantially coincide with the peak portions 32b at 7. Next, by cutting the side edge 34 facing the fixed blade 20 when passing the fixed blade 20 in the movable blade 30, the longitudinal direction of the screw rod engaged with the screw groove 32 of the movable blade 30 (that is, 5, a vertical portion 37 is formed extending along a direction substantially orthogonal to the direction in which the axis indicated by reference symbol C in FIG. 5 extends. Specifically, as shown in FIG. 5, the vertical portion 37 is formed at a central portion closer to the axis of the screw rod at the side edge 34 before cutting.

  In addition, stepped portions 38 and 39 are formed between each inclined portion 36 a and the vertical portion 37 in the side edge 36 after cutting. More specifically, the step portions 38 and 39 are provided at the end portions on both sides of the vertical portion 37, respectively. Further, the step portions 38 and 39 are formed in the longitudinal direction of the screw rod engaged with the screw groove 32 of the movable blade 30 (that is, the direction in which the axis indicated by the reference symbol C in FIG. Each extending in the direction of inclination. Specifically, the step portions 38 and 39 extend so as to form an angle of approximately 45 ° with respect to the longitudinal direction of the screw rod engaged with the screw groove 32 of the movable blade 30. As shown in FIGS. 2 and 5, the vertical portion 37 is formed between the valley portion 32 a and the mountain portion 32 b in the screw groove 32. In the present embodiment, the side edge 34 is cut in the movable blade 30 to form a vertical portion 37 extending in a direction substantially perpendicular to the longitudinal direction of the screw rod engaged with the thread groove 32, thereby moving the movable blade 30. Is easy to process.

  If a concave portion having a reverse inclined surface along the lead angle of the thread groove of the movable blade is provided at the side edge of the movable blade, the reverse inclined surface of the concave portion is provided as a movable blade. It is necessary to form it so as to extend along the crest portion of the thread groove. However, it is difficult to form the reverse inclined surface of the recessed portion so as to extend along the crest portion of the thread groove, and there is a problem that it takes time and cost to manufacture the movable blade. On the other hand, in the present embodiment, the vertical portion 37 extending in the direction substantially orthogonal to the longitudinal direction of the screw rod engaged with the screw groove 32 is formed, so that it is recessed so as to extend along the crest portion of the screw groove. Compared with the case where the reverse inclined surface of the part is formed, the machining of the movable blade 30 is simplified.

  When such a movable blade 30 passes the fixed blade 20, as shown in FIGS. 2 and 3, between the side edge 26 of the fixed blade 20 and the inclined portion 36 a at the side edge 36 of the movable blade 30. The size of the smallest portion of the gaps formed in (2) (indicated by reference symbol a in FIG. 2) is about 0.1 mm, but the vertical portion 37 of the movable blade 30 is engaged with the screw groove 32 of the movable blade 30. The side edge 26 of the fixed blade 20 and the vertical portion 37 of the movable blade 30 are arranged so as to form an angle with each other. The distance between the side edge 26 of the fixed blade 20 and the vertical portion 37 of the movable blade 30 gradually increases in the direction. For this reason, it cut | disconnects so that a screw rod may be torn at the location where the distance in the clearance gap between the side edge 26 of the fixed blade 20 and the vertical part 37 of the movable blade 30 became large.

  Next, an operation when the threaded rod is cut by the threaded rod cutting machine 10 provided with the fixed blade 20 and the movable blade 30 will be described with reference to FIGS.

  In cutting the threaded rod by the threaded rod cutting machine 10, first, as shown in FIG. 6, the threaded rod is engaged with the thread groove 22 of the stationary blade 20 to fix the threaded rod to the stationary blade 20. Thereafter, when the operator presses a switch (not shown) and the pressure oil generated by the hydraulic pump of the pump unit 16 is sent to the piston mechanism, the slider 18 is moved to a standby position as shown in FIG. Accordingly, the movable blade 30 also moves from the standby position as shown in FIG. 1 to the advanced position. When the movable blade 30 moves from the standby position to the advanced position, the movable blade 30 passes the fixed blade 20 with a small gap, and the movable blade 30 passes the fixed blade 20. Then, the threaded rod engaged with the thread groove 22 of the fixed blade 20 is cut. 7 to 9 are a front view, a left side view, and a right side view showing a state immediately before the threaded rod is cut by the movable blade 30 and the fixed blade 20 when the movable blade 30 passes the fixed blade 20, respectively. FIG.

  In the threaded rod cutting machine 10 of the present embodiment, when the movable blade 30 passes the fixed blade 20, the vertical portion 37 and each stepped portion 38, 39 of the movable blade 30 and the side edge 36 of the fixed blade 20. The threaded rod is cut at an intermediate position (that is, where a gap larger than the gap formed between the side edge 26 of the fixed blade 20 and the inclined portion 36a of the side edge 36 of the movable blade 30 is generated). Become so. More specifically, when the movable blade 30 passes the fixed blade 20, the side edge 26 of the fixed blade 20 is screwed into the screw rod engaged with the thread groove 22 of the fixed blade 20, as shown in FIG. Since it substantially coincides with the groove, the portion of the threaded rod that contacts the fixed blade 20 is cut along the threaded groove of the threaded rod by this side edge 26. On the other hand, when the movable blade 30 passes the fixed blade 20, as shown in FIG. 9, the vertical portion 37 of the movable blade 30 is between the screw thread of the screw rod contacting the screw groove 32 of the movable blade 30 and the screw groove. Therefore, the portion of the screw rod to be cut that comes into contact with the movable blade 30 is torn off by the vertical portion 37 at a location between the screw groove and the screw thread of the screw rod. Here, when the threaded rod is torn off, if the threaded rod is cut between two adjacent thread grooves so as to straddle the threaded thread, the burr on the cut surface of the threaded rod will cause a burr. This occurs, and when the nut is fitted to the threaded rod after cutting, the burr may hinder the proper fitting of the nut to the threaded rod. On the other hand, in the present embodiment, when the movable blade 30 passes the fixed blade 20, the screw rod is torn off at a location between the screw groove and the thread, so that burr is not generated on the cut surface of the screw rod. It becomes possible to suppress the occurrence. In this manner, the threaded rod can be appropriately cut by the fixed blade 20 and the movable blade 30 according to the present embodiment. In the present embodiment, the step portions 38 and 39 provided between the vertical portion 37 and the inclined portion 36 a are provided in the longitudinal direction of the screw rod engaged with the screw groove 32 of the movable blade 30 and the vertical portion 37. Since it extends in a direction inclined with respect to the extending direction, it is possible to prevent the thread on the cut surface of the screw rod after cutting from becoming thin and weak.

As a comparison object, the configuration of a conventional threaded rod cutting machine is shown in FIGS. FIG. 12 is a configuration diagram showing a configuration when the fixed blade 60 and the movable blade 70 in the conventional threaded rod cutting machine are viewed from the direction in which the thread groove 72 of the movable blade 70 can be seen, and FIG. It is a block diagram which shows a structure when the fixed blade 60 and the movable blade 70 in a rod cutting machine are seen from the direction where the thread groove 62 of the fixed blade 60 can be seen. 14 to 16 are a front view and a left side view showing a state immediately before the threaded rod is cut by the fixed blade 60 and the movable blade 70 in the conventional threaded rod cutting machine shown in FIGS. 12 and 13, respectively. It is a right side view. In FIG. 12 to FIG. 16, screw rods such as all screw bolts to be cut by a conventional screw rod cutting machine are indicated by a reference symbol W. At this time, along with showing the threads of the threaded rod by the reference numeral W _1, it shows a thread groove by reference numeral W _2. A center line extending in the longitudinal direction of the screw rod (in other words, the axis of the screw rod) is indicated by a reference symbol C.

  A fixed blade 60 of a conventional threaded rod cutting machine has substantially the same configuration as the stationary blade 20 of the threaded rod cutting machine 10 of the present embodiment. That is, as shown in FIG. 13, the fixed blade 60 of the conventional threaded rod cutting machine is provided with a threaded groove 62 with which the threaded rod can be engaged. Further, in the fixed blade 60, when the movable blade 70 passes each other, the side edge 66 facing the movable blade 70 extends along the length of the screw rod 62 engaged with the screw groove 62 so as to follow the mountain portion 62 a of the screw groove 62. It inclines with respect to the direction orthogonal to a direction. Thus, when the threaded rod is engaged with the thread groove 62 of the fixed blade 60, the thread groove of the threaded rod substantially coincides with the side edge 66 of the stationary blade 60 (FIGS. 14 and FIG. 14). 15).

  On the other hand, the movable blade 70 of the conventional threaded rod cutting machine has a different configuration from the movable blade 30 of the threaded rod cutting machine 10 of the present embodiment. Specifically, as shown in FIG. 12, the movable blade 70 of the conventional threaded rod cutting machine is provided with a threaded groove 72 in which the threaded rod can be engaged. Further, the side edge 76 facing the fixed blade 60 when passing the fixed blade 60 in the movable blade 70 extends substantially parallel to the side edge 66 of the fixed blade 60. Here, when such a movable blade 70 passes the fixed blade 60, it is formed between the side edge 66 of the fixed blade 60 and the side edge 76 of the movable blade 70 as shown in FIGS. 12 and 13. The size of the gap (indicated by reference symbol b in FIG. 12) is constant (specifically, for example, about 0.1 mm). Further, as shown in FIG. 12, the side edge 76 of the movable blade 70 passes between the two peak portions 72 a in the screw groove 72, and the side edge 76 passes through the valley portion 72 b in the screw groove 72. I will straddle.

  Next, an operation when cutting a screw rod by a conventional screw rod cutting machine provided with such a fixed blade 60 and a movable blade 70 will be described with reference to FIGS.

  Even in a conventional threaded rod cutting machine, the movable blade 70 passes the fixed blade 60 with a slight gap between the movable blade 70 and the advanced position while moving from the standby position to the advanced position. When passing the fixed blade 60, the screw rod engaged with the thread groove 62 of the fixed blade 60 is cut by the side edge 66 of the fixed blade 60 and the side edge 76 of the movable blade 70. 14 to 16 are a front view, a left side view, and a right side view showing a state immediately before the threaded rod is cut by the movable blade 70 and the fixed blade 60 when the movable blade 70 passes the fixed blade 60, respectively. FIG.

In the conventional threaded rod cutting machine, when the movable blade 70 passes the stationary blade 60, the threaded rod is cut by the side edge 66 of the stationary blade 60 and the side edge 76 of the movable blade 70. More specifically, when the movable blade 70 passes the fixed blade 60, the side edge 66 of the fixed blade 60 is screwed into the screw rod engaged with the screw groove 62 of the fixed blade 60 as shown in FIG. since substantially coincides with the groove (indicated by reference numeral W ₂ in FIG. 15), the portion in contact with the fixed blade 60 in the threaded rod to be cut is cut along this side edge 66 to the thread groove of the threaded rod Will come to be. On the other hand, when the movable blade 70 passes the fixed blade 60, as shown in FIG. 16, the side edge 76 of the movable blade 70 is threaded on the screw rod that contacts the screw groove 72 of the movable blade 70 (see FIG. 16). since brought to a position between the two screw grooves so across the display) designated by symbol W _1, threaded rod cut by side edge 76 of the movable blade 70 between the two screw grooves adjacent to across threads Will come to be. However, in this case, a burr is generated at the threaded portion on the cut surface of the threaded rod, and when the nut is fitted into the threaded rod after cutting, the burr is obstructed, so that the nut is removed from the threaded rod. There is a risk that it will not be possible to fit properly. Thus, in the conventional threaded rod cutting machine as shown in FIGS. 12 to 16, burr is generated at the threaded portion on the threaded surface of the threaded rod. There was a problem that deburring work had to be done to remove the deburring. In contrast, in the threaded rod cutting machine 10 of the present embodiment, it is possible to suppress the occurrence of such a problem as described above.

  As described above, according to the screw rod cutting machine 10 of the present embodiment, the side edge 36 (second side edge) of the movable blade 30 facing the fixed blade 20 is the screw groove 32 of the movable blade 30. A vertical portion 37 extending along a direction substantially perpendicular to the longitudinal direction of the screw rod engaged with the (second screw groove) (that is, the direction in which the axis indicated by reference symbol C in FIG. 5 extends), and An inclined portion 36a provided at both ends and extending along the side edge 26 (first side edge) of the fixed blade 20, and provided at at least one end of the vertical portion 37. The vertical portion 37 and the inclined portion 36a And step portions 38 and 39 for connecting the two. In this case, compared with a conventional threaded rod cutting machine in which the side edge of the fixed blade and the side edge of the movable blade extend in parallel, the burr has a burr on the edge of the cut surface of the cut threaded rod. Generation | occurrence | production can be suppressed, Therefore Since the deburring operation | work of the screw rod after a cutting | disconnection becomes unnecessary, a worker's load can be reduced. In manufacturing the movable blade 30, the side edge 34 shown by a two-dot chain line in FIG. 5 is cut, and a vertical portion 37 extending in a direction substantially orthogonal to the longitudinal direction of the screw rod engaged with the screw groove 32 is formed. By forming, the process of the movable blade 30 becomes easy.

  In addition, the screw rod cutting machine by this Embodiment is not limited to the above aspects, A various change can be added.

  For example, in the above description, the aspect in which the slider 18 is operated by the pressure oil generated by the hydraulic pump has been described, but the present embodiment is not limited to such an aspect. Instead of using a hydraulic pump in the threaded rod cutting machine according to the modification, the slider 18 may be operated by electric drive, for example.

  In the above description, the aspect in which the step portions 38 and 39 are provided on both sides of the vertical portion 37 at the side edge 36 of the movable blade 30 facing the fixed blade 20 has been described. The threaded rod cutter according to the present invention is not limited to such a mode. Another aspect of the movable blade in the threaded rod cutting machine according to the present embodiment will be described with reference to FIGS. 10 and 11. Here, FIG. 10 is a configuration diagram showing a configuration when the fixed blade and the movable blade in another screw rod cutting machine according to the embodiment of the present invention are viewed from the direction in which the thread groove of the movable blade can be seen. 11 is a configuration diagram illustrating a configuration when the fixed blade and the movable blade in the threaded rod cutting machine illustrated in FIG. 10 are viewed from the direction in which the thread groove of the fixed blade can be seen. In the screw rod cutting machine having a movable blade as shown in FIGS. 10 and 11, a fixed blade having the same configuration as the fixed blade 20 of the screw rod cutter shown in FIGS. 1 to 9 is used. For this reason, in describing the threaded rod cutting machine shown in FIGS. 10 and 11, the fixed blade is given the reference numeral 20 and the description thereof is omitted.

  As shown in FIGS. 10 and 11, the movable blade 40 is provided with a screw groove 42 (second screw groove) made of a female screw with which a screw rod to be cut can be engaged. Here, when the movable blade 40 is moved from the standby position to the advanced position while the screw rod is engaged with the screw groove 22 of the fixed blade 20, the screw is moved when the movable blade 40 passes the fixed blade 20. The stick is to be cut. Further, the side edge 46 of the movable blade 40 extends in the longitudinal direction of the screw rod engaged with the thread groove 42 of the movable blade 40 (that is, the direction in which the axis indicated by the reference symbol C in FIGS. 10 and 11 extends). A vertical portion 47 extending along a substantially orthogonal direction, provided at both ends of the vertical portion 47, an inclined portion 46 a extending along the side edge 26 of the fixed blade 20, and provided at one end of the vertical portion 47. The step portion 48 connects the vertical portion 47 and the inclined portion 46a. Further, the stepped portion 48 has a longitudinal direction of the screw rod engaged with the screw groove 42 of the movable blade 40 (that is, a direction in which the axis indicated by the reference symbol C in FIGS. 10 and 11 extends) and a direction in which the vertical portion 47 extends. Each extending in the direction of inclination. Specifically, the stepped portion 48 extends at an angle of approximately 45 ° with respect to the longitudinal direction of the screw rod engaged with the screw groove 42 of the movable blade 40. Further, as shown in FIG. 10, the vertical portion 47 is formed between the valley portion and the mountain portion in the screw groove 42.

  Here, according to the threaded rod cutting machine shown in FIGS. 10 and 11, the movable blade 40 cuts the side edge extending substantially parallel to the side edge 26 of the fixed blade 20 and is engaged with the screw groove 42. By forming the vertical portion 47 extending in a direction substantially perpendicular to the longitudinal direction of the screw rod, the machining of the movable blade 40 is simplified. More specifically, since the movable blade 40 shown in FIGS. 10 and 11 is provided with the stepped portion 48 only on one side of the vertical portion 47, the movable blade is provided with stepped portions 38 and 39 on both sides of the vertical portion 37, respectively. Compared to 30, the processing of the movable blade 40 is further simplified. Further, the stepped portion 48 provided between the vertical portion 47 and the inclined portion 46 a is inclined with respect to the longitudinal direction of the screw rod engaged with the screw groove 42 of the movable blade 40 and the extending direction of the vertical portion 47. Since it extends in the direction, it can be suppressed that the thread on the cut surface of the screw rod after cutting becomes thin and weak.

DESCRIPTION OF SYMBOLS 10 Screw rod cutting machine 12 Main part 14 Handle 16 Pump part 18 Slider 20 Fixed blade 22 Screw groove 22a Valley part 22b Mountain part 24 Side edge 26 before cutting 26 Side edge 30 after cutting Movable blade 32 Screw groove 32a Valley portion 32b Mountain portion 34 Side edge 36 before cutting Side edge 36a after cutting Inclined portion 37 Vertical portions 38, 39 Stepped portion 40 Movable blade 42 Screw groove 46 Side edge 46a Inclined portion 47 Vertical portion 48 Stepped portion 60 Fixed blade 62 Thread groove 62a Mountain portion 66 Side edge 70 Movable blade 72 Thread groove 72a Mountain portion 72b Valley portion 76 Side edge

Claims (4)

A fixed blade provided with a first thread groove engageable with a screw rod;
A movable blade that is movable between a standby position and an advanced position, and is provided with a second thread groove with which a screw rod can be engaged;
A slider that moves the movable blade between the standby position and the forward position;
With
The movable blade and the fixed blade when the movable blade is moved from the standby position to the forward position by the slider in a state where a screw rod is engaged with the first screw groove of the fixed blade. The screw rod is cut by
A first side edge of the fixed blade facing the movable blade is orthogonal to the longitudinal direction of the screw rod engaged with the first screw groove of the fixed blade so as to follow the mountain portion of the first screw groove. Is at an angle to the direction
The second side edge of the movable blade facing the fixed blade has a vertical portion extending along a direction substantially perpendicular to the longitudinal direction of the screw rod engaged with the second screw groove of the movable blade, An inclined portion provided at both ends of the vertical portion and extending along the first side edge of the fixed blade, and provided at at least one end of the vertical portion, and connects the vertical portion and the inclined portion. A screw rod cutting machine composed of a stepped portion.   The threaded rod cutting machine according to claim 1, wherein the step portions are provided at both ends of the vertical portion.   The said level | step-difference part is extended in the direction which each inclines with respect to the longitudinal direction of the screw rod engaged with the said 2nd thread groove of the said movable blade, and the extending direction of the said perpendicular | vertical part, respectively. Screw rod cutting machine.   The threaded rod cutting machine according to any one of claims 1 to 3, wherein the vertical portion is formed between a trough portion and a crest portion in the second thread groove of the movable blade.

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