JP2018194010A - Width adjustment mechanism, width adjustment power transmission mechanism, winding device having width adjustment power transmission mechanism, and feed mechanism having width adjustment power transmission mechanism - Google Patents

Abstract

To provide a width adjustment mechanism, a width adjustment power transmission mechanism, a winding mechanism having the width adjustment power transmission mechanism, and a feed mechanism having the width adjustment power transmission mechanism by simple constitutions.SOLUTION: A width adjustment mechanism of a rotating shaft comprises: a trapezoidal screw shaft 1 for converting a rotational motion and a linear motion; a gear 2 screwed at an inside diameter; a gear 3 not screwed at the inside diameter; and a cylindrically-screwed pivot 4. The gear 3 not screwed at the inside diameter comprises a connecting part 5 which separates from and joins to the pivot 4, is constituted so that the connecting part 5 separates from and joins to the pivot 4, and in order to change a width position of the trapezoidal screw shaft 1 which is regulated by a position of the gear 2, the pivot 4 can change a positional relationship between the gear 2 and itself by rotating the gear 3. Also, the pivot 4 can adjust the width position of the trapezoidal screw shaft 1 which is regulated by the position of the gear 2 by rotating the gear 2 in a state that the pivot 4 separates from the gear 3 and the gear 2, and can rotate the trapezoidal screw shaft 1 without changing the width position by rotating the gear 3 in a state that the pivot 4 tightly adheres to the gear 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lateral width adjusting mechanism, a lateral width adjusting power transmission mechanism, and a winding mechanism or a feeding mechanism including such a mechanism.

  In an agricultural greenhouse, it is necessary to adjust the temperature in the house by winding or unwinding the vinyl sheet at any time according to the weather or the like. In addition, it was necessary to wind up to replace the vinyl in response to the deterioration or breakage of the vinyl. However, since the power transmission mechanism for winding / unwinding or winding does not have a lateral width adjusting mechanism, it cannot cope with the size of the flexible greenhouse, which is a burden.

  Further, the lateral width adjusting power transmission mechanism has been demanded not only for vinyl in a greenhouse, but also for winding / unwinding or winding materials such as cold water bottles.

JP 2002-284453 A Japanese Patent Laid-Open No. 11-255489

  Conventionally, there has been no power transmission mechanism for winding / unwinding or winding up vinyl in an agricultural greenhouse that has a width adjusting mechanism. Although patent document 1 is disclosing the vinyl exchange machine for greenhouses, the width is constant and it cannot respond to the size of a flexible greenhouse.

  Patent Document 2 discloses a screw type lifting mechanism in which a trapezoidal screw shaft and a nut are combined, but does not include a lateral width adjusting mechanism.

  The present invention is intended to solve these problems and provide a lateral width adjusting mechanism that can be applied to an agricultural greenhouse or the like with a simple configuration. The present invention functions not only as an agricultural greenhouse but also as a lateral width adjusting mechanism for various winding or feeding mechanisms.

  The present invention is a lateral width adjusting mechanism of a rotary shaft, which is a trapezoidal screw shaft 1 for converting rotational motion and linear motion, a gear 2 threaded to an inner diameter, and a gear 3 not threaded to an inner diameter. The gear 3 that is cylindrical and threaded and is not threaded to the inner diameter is provided with a connecting part 5 that is separated from the key 4, and the connecting part is configured to be separated from the key 4. In order to change the lateral width position of the trapezoidal screw shaft 1 defined by the position of the key 2, the positional relationship between the key 4 and the gear 2 can be changed by rotating the gear 3. The lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state of being separated from each other, and the gear 3 can be rotated in a state where the key 4 is in close contact with the gear 2. The width position by Characterized in that the can be a trapezoidal screw shaft 1 is rotated without further a lateral width adjusting mechanism of the rotary shaft.

  The present invention also relates to a lateral width adjusting mechanism for a rotary shaft, which is a trapezoidal screw shaft 1 for converting rotational motion and linear motion, a gear 2 threaded to the inner diameter, and a gear 3 not threaded to the inner diameter. A gear 3 that is cylindrical and threaded, and that is not threaded to an inner diameter, a gear 5 that is separated from the key 4, and that the coupling is separated from the key 4. In order to change the lateral width position of the trapezoidal screw shaft 1 defined by the position 2, the positional relationship between the key 4 and the gear 2 can be changed by rotating the gear 3. The lateral width position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state separated from the gear 2, and the gear 3 is rotated in a state where the key 4 is in close contact with the gear 2. Width The horizontal width adjusting mechanism of the rotating shaft that rotates the trapezoidal screw shaft 1 without changing the position is fitted to one trapezoidal screw shaft 1 so that the positional relationship is reversed and the gear 2 is located inside. The horizontal axis adjusting mechanism of the rotating shaft is characterized by comprising two mechanisms.

  Further, the present invention is characterized in that the trapezoidal screw shaft 1 is any one of a triangular screw, a square screw, a trapezoidal screw, and a ball screw. Further, the present invention is characterized in that the trapezoidal screw shaft 1 is made of metal or plastic. Furthermore, the present invention is characterized in that the trapezoidal screw shaft 1 is made of steel, stainless steel or brass.

  Further, the present invention is characterized in that the gear 2 and / or the gear 3 are either a spur gear, a helical gear, or a helical gear. Moreover, the present invention is characterized in that the gear 2 and / or the gear 3 are made of metal or plastic. Further, according to the present invention, the gear 2 and / or the gear 3 are made of carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, non-ferrous metal, MC nylon, polyacetal or ABS. It is characterized by comprising any of resins.

  Further, the present invention is characterized in that the inner diameter of the gear 2 and / or the gear 3 is fitted to the trapezoidal screw shaft 1.

  Further, the present invention is characterized in that the power transmission mechanism to the gear 2 and / or the gear 3 is any one of a gear, a belt pulley, and a chain sprocket. Further, the present invention is characterized in that the power transmission mechanism to the gear 2 and / or the gear 3 is a belt pulley, and the belt used for the belt pulley is any one of a timing belt, a round belt, and a V belt. .

  Further, the present invention is characterized in that the connecting portion provided in the gear 3 is columnar, and further, the connecting portion provided in the gear 3 is a cylinder, a triangular column, a quadrangular column, or a hexagonal column. Further, the present invention is characterized in that a plurality of connecting portions provided in the gear 3 are provided.

  Further, the present invention is characterized in that the key 4 is circular. Further, the present invention is characterized in that the key 4 is made of metal or plastic. Further, in the present invention, the key 4 is composed of carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, nonferrous metal, MC nylon, polyacetal or ABS resin. It is characterized by that.

  Further, the present invention is characterized in that the connecting portion provided in the gear 3 has a structure in which a part of the cylinder is provided with a protrusion, and the key 4 has a recess corresponding to the protrusion provided in the gear 3 on the outer peripheral portion.

  Further, the present invention is a lateral width adjusting power transmission mechanism, wherein the lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism, and transmits the power as a rotational motion by rotating the trapezoidal screw shaft 1. The width adjusting power transmission mechanism.

  Further, the present invention is a winding mechanism provided with a lateral width adjusting power transmission mechanism, and the lateral width adjusting power transmission mechanism is provided with the lateral width adjusting mechanism of the rotary shaft, and the power is rotated by rotating the trapezoidal screw shaft 1. A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting as

  Moreover, this invention is a winding mechanism provided with the width adjustment power transmission mechanism used for the greenhouse for agriculture, Comprising: A width adjustment power transmission mechanism is equipped with the width adjustment mechanism of the said rotating shaft, and rotates the trapezoidal screw shaft 1 A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism that transmits power as a rotational motion.

  Further, the present invention is a winding mechanism provided with a lateral width adjusting power transmission mechanism used in a movable mechanism for agricultural cold chill, wherein the lateral width adjusting power transmission mechanism includes a lateral width adjusting mechanism of the rotary shaft, and a trapezoidal screw shaft 1 A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting power as a rotational motion by rotating the.

  The present invention also provides a winding mechanism having a lateral width adjusting power transmission mechanism used in a papermaking process, a metal rolling process, a textile manufacturing process, or a plastic film manufacturing process, wherein the lateral width adjusting power transmission mechanism is a lateral width of the rotating shaft. A winding mechanism having a lateral width adjusting power transmission mechanism, comprising an adjusting mechanism, and having a lateral width adjusting power transmission mechanism that transmits power as a translational motion by rotating the trapezoidal screw shaft 1.

  The present invention is also a winding mechanism provided with a lateral width adjusting power transmission mechanism used for roll printing, wherein the lateral width adjusting power transmission mechanism is provided with the lateral width adjusting mechanism of the rotating shaft and rotates the trapezoidal screw shaft 1. A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting power as a rotational motion.

  The present invention is also a feed mechanism provided with a lateral width adjusting power transmission mechanism used in a printer. The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft, and the power is obtained by rotating the trapezoidal screw shaft 1. A feed mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting the motion as a translational motion.

  The present invention is also a feed mechanism having a lateral width adjusting power transmission mechanism used in a plate-like article handling process, wherein the lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotary shaft, and the trapezoidal screw shaft 1 is provided. A feed mechanism having a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism that transmits power as a translational motion by rotating. Furthermore, the present invention is characterized in that the plate-like article is any one of a plastic plate, a wood plate, a plywood plate, a metal plate, a glass plate, and a ceramic plate.

  The lateral width adjusting mechanism, the lateral width adjusting power transmission mechanism, the winding mechanism having the lateral width adjusting power transmission mechanism, and the feed mechanism having the lateral width adjusting power transmission mechanism according to the present invention can change the lateral width of the power transmission mechanism with a simple configuration. Thus, there is an advantage that it functions not only as an agricultural greenhouse but also as a width adjusting mechanism for various winding or feeding mechanisms.

FIG. 1 is a diagram for explaining a configuration of a lateral width adjusting mechanism according to the present invention. FIG. 2 is a diagram showing a configuration of the gear 2 threaded to the inner diameter. FIG. 3 is a diagram showing the configuration of the gear 3 that is not threaded to the inner diameter. FIG. 4 is a diagram showing a configuration of the slack 4 that is cylindrical and threaded. FIG. 5 is a diagram for explaining the operation of adjusting the lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 by rotating the gear 2 in a state where the key 4 and the gear 3 are separated from the gear 2. is there. FIG. 6 is a diagram for explaining an operation of adjusting the positional relationship between the gear 2 and the key 4 by rotating the gear 3 in a state where the gear 3 is separated from the gear 2 in order to move the key 4. FIG. 7 is a view for explaining an operation in which the trapezoidal screw shaft 1 can be rotated without changing the lateral width position by rotating the gear 3 in a state where the key 4 is in close contact with the gear 2. FIG. 8 is a diagram showing an example of a configuration for applying the lateral width adjusting power transmission mechanism according to the present invention as a vinyl winding mechanism of an agricultural greenhouse. FIG. 9 is a drawing-substituting photograph showing an example of the lateral width adjusting mechanism according to the present invention. FIG. 10 is a drawing-substituting photograph showing an example of the gear 2 threaded to the inner diameter. FIG. 11 is a drawing-substituting photograph showing an example of the gear 3 that is not threaded to the inner diameter. FIG. 12 is a drawing-substituting photograph showing an example of a cylindrical and threaded lick 4.

  Hereinafter, a lateral width adjusting mechanism, a lateral width adjusting power transmission mechanism, a winding mechanism having a lateral width adjusting power transmission mechanism, and a feeding mechanism having a lateral width adjusting power transmission mechanism according to the present invention will be described with reference to the drawings.

  The present invention is a lateral width adjusting mechanism of a rotary shaft, which is a trapezoidal screw shaft 1 for converting rotational motion and linear motion, a gear 2 threaded to an inner diameter, and a gear 3 not threaded to an inner diameter. A gear 3 that is cylindrical and threaded, and that is not threaded to an inner diameter, includes a coupling portion 5 that is separated from the coupling 4, and the coupling portion is configured to be separated from the coupling 4. In order to change the lateral width position of the trapezoidal screw shaft 1 defined by the position 2, the positional relationship between the key 4 and the gear 2 can be changed by rotating the gear 3. The lateral width position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state separated from the gear 2, and the gear 3 is rotated in a state where the key 4 is in close contact with the gear 2. Width position by Characterized in that it is possible to rotate the trapezoidal screw shaft 1 without changing a width adjusting mechanism of the rotary shaft.

  The present invention also relates to a lateral width adjusting mechanism for a rotary shaft, which is a trapezoidal screw shaft 1 for converting rotational motion and linear motion, a gear 2 threaded to the inner diameter, and a gear 3 not threaded to the inner diameter. A gear 3 that is cylindrical and threaded, and that is not threaded to the inner diameter, includes a connecting portion 5 that is separated from the flange 4, and the connecting portion 5 is configured to be separated from the flange 4. In order to change the lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2, the positional relationship between the key 4 and the gear 2 can be changed by rotating the gear 3. The lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state where the gear 3 is separated from the gear 2, and the gear 3 is moved in a state where the key 4 is in close contact with the gear 2. Horizontal by rotating The horizontal width adjusting mechanism of the rotary shaft that rotates the trapezoidal screw shaft 1 without changing the position is fitted to one trapezoidal screw shaft 1 so that the positional relationship is reversed and the gear 2 is placed inside. A horizontal axis adjusting mechanism for a rotating shaft, comprising two mechanisms.

  Further, the present invention is characterized in that the trapezoidal screw shaft 1 is any one of a triangular screw, a square screw, a trapezoidal screw, and a ball screw. Further, the present invention is characterized in that the trapezoidal screw shaft 1 is made of metal or plastic. Furthermore, the present invention is characterized in that the trapezoidal screw shaft 1 is made of steel, stainless steel or brass.

  Further, the present invention is characterized in that the gear 2 and / or the gear 3 are either a spur gear, a helical gear, or a helical gear. Moreover, the present invention is characterized in that the gear 2 and / or the gear 3 are made of metal or plastic. Further, according to the present invention, the gear 2 and / or the gear 3 are made of carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, non-ferrous metal, MC nylon, polyacetal or ABS. It is characterized by comprising any of resins.

  Further, the present invention is characterized in that the inner diameter of the gear 2 and / or the gear 3 is fitted to the trapezoidal screw shaft 1.

  Further, the present invention is characterized in that the power transmission mechanism to the gear 2 and / or the gear 3 is any one of a gear, a belt pulley, and a chain sprocket. Furthermore, the present invention is characterized in that the power transmission mechanism to the gear 2 and / or the gear 3 is a belt pulley, and the belt used for the belt pulley is any one of a timing belt, a round belt, and a V belt. To do.

  Further, the present invention is characterized in that the connecting portion provided in the gear 3 is columnar, and further, the connecting portion provided in the gear 3 is a cylinder, a triangular column, a quadrangular column, or a hexagonal column. Further, the present invention is characterized in that a plurality of connecting portions provided in the gear 3 are provided.

  Further, the present invention is characterized in that the key 4 is circular. Further, the present invention is characterized in that the key 4 is made of metal or plastic. Further, in the present invention, the key 4 is composed of carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, nonferrous metal, MC nylon, polyacetal or ABS resin. It is characterized by that.

  Further, the present invention is characterized in that the connecting portion provided in the gear 3 has a structure in which a part of the cylinder is provided with a protrusion, and the key 4 has a recess corresponding to the protrusion provided in the gear 3 on the outer peripheral portion.

  Further, the present invention is a lateral width adjusting power transmission mechanism, wherein the lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotary shaft, and transmits power as rotational motion by rotating the trapezoidal screw shaft 1. It is a width adjustment power transmission mechanism.

  Further, the present invention is a winding mechanism provided with a lateral width adjusting power transmission mechanism, and the lateral width adjusting power transmission mechanism is provided with the lateral width adjusting mechanism of the rotary shaft, and the power is rotated by rotating the trapezoidal screw shaft 1. A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting as

  Moreover, this invention is a winding mechanism provided with the width adjustment power transmission mechanism used for the greenhouse for agriculture, Comprising: A width adjustment power transmission mechanism is equipped with the width adjustment mechanism of the said rotating shaft, and rotates the trapezoidal screw shaft 1 A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism that transmits power as a rotational motion.

  Further, the present invention is a winding mechanism provided with a lateral width adjusting power transmission mechanism used in a movable mechanism for agricultural cold chill, wherein the lateral width adjusting power transmission mechanism includes a lateral width adjusting mechanism of the rotary shaft, and a trapezoidal screw shaft 1 A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting power as a rotational motion by rotating the.

  The present invention also provides a winding mechanism having a lateral width adjusting power transmission mechanism used in a papermaking process, a metal rolling process, a textile manufacturing process, or a plastic film manufacturing process, wherein the lateral width adjusting power transmission mechanism is a lateral width of the rotating shaft. A winding mechanism having a lateral width adjusting power transmission mechanism, comprising an adjusting mechanism, and having a lateral width adjusting power transmission mechanism that transmits power as a translational motion by rotating the trapezoidal screw shaft 1.

  The present invention is also a winding mechanism provided with a lateral width adjusting power transmission mechanism used for roll printing, wherein the lateral width adjusting power transmission mechanism is provided with the lateral width adjusting mechanism of the rotating shaft and rotates the trapezoidal screw shaft 1. A winding mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting power as a rotational motion.

  The present invention is also a feed mechanism provided with a lateral width adjusting power transmission mechanism used in a printer. The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft, and the power is obtained by rotating the trapezoidal screw shaft 1. A feed mechanism equipped with a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism for transmitting the motion as a translational motion.

  The present invention is also a feed mechanism having a lateral width adjusting power transmission mechanism used in a plate-like article handling process, wherein the lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotary shaft, and the trapezoidal screw shaft 1 is provided. A feed mechanism having a lateral width adjusting power transmission mechanism, comprising a lateral width adjusting power transmission mechanism that transmits power as a translational motion by rotating. Furthermore, the present invention is characterized in that the plate-shaped article is any one of a plastic plate, a wood plate, a plywood plate, a metal plate, a glass plate, and a ceramic plate.

  FIG. 1 is a diagram for explaining a configuration of a lateral width adjusting mechanism according to the present invention. FIG. 9 is a drawing-substituting photograph showing an example of the lateral width adjusting mechanism according to the present invention. The configuration of the present embodiment includes a trapezoidal screw shaft 1 for conversion between rotational motion and linear motion, a gear 2 threaded to the inner diameter, a gear 3 not threaded to the inner diameter, and a cylindrical thread. The gear 3, which is provided with the flutes 4 and is not threaded to the inner diameter, is provided with a connecting portion 5 that is separated from the flutes 4.

  The connecting portion is configured to be separated from the pinch 4, and the key 4 is rotated by rotating the gear 3 in order to change the lateral width position of the trapezoidal screw shaft 1 defined by the position of the gear 2. The lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state where the key 4 and the gear 3 are separated from the gear 2. The trapezoidal screw shaft 1 can be rotated without changing the lateral width position by rotating the gear 3 in a state where 4 is in close contact with the gear 2.

  In this embodiment, a steel screw shaft was used as the trapezoidal screw shaft 1. Here, as the trapezoidal screw shaft 1, a triangular screw, a square screw, a trapezoidal screw, or a ball screw is preferably used. Further, as the material, metal or plastic is preferably used, and those made of steel, stainless steel or brass are particularly preferable.

  FIG. 2 is a diagram showing a configuration of the gear 2 threaded to the inner diameter. FIG. 10 is a drawing-substituting photograph showing an example of the gear 2 threaded to the inner diameter. In this embodiment, a spur gear is used as the gear 2. The material used is ABS resin. Furthermore, FIG. 3 is a figure which shows the structure of the gearwheel 3 which is not threaded by the internal diameter. FIG. 11 is a drawing-substituting photograph showing an example of the gear 3 not threaded to the inner diameter. In this embodiment, a spur gear is used as the gear 3. The material used was structural carbon steel. Here, a spur gear, a helical gear, or a helical gear is preferably used for the gear 2 or the gear 3. In addition, metal or plastic is preferably used as the material, and in particular, carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, non-ferrous metal, MC nylon, polyacetal. Alternatively, it is preferable to use any one of ABS resins. The inner diameters of the gear 2 and the gear 3 are fitted to the trapezoidal screw shaft 1.

  In this embodiment, a gear is used as a power transmission mechanism to the gear 2 and the gear 3. Here, any of a gear, a belt / pulley, or a chain / sprocket is preferably used as the power transmission mechanism. When the power transmission mechanism is a belt / pulley, a belt used for the belt / pulley is preferably a timing belt, a round belt or a V-belt.

  In this embodiment, the connecting portion provided in the gear 3 is formed in a columnar shape. Here, the connecting portion provided in the gear 3 can be preferably used in a columnar shape, and the connecting portion provided in the gear 3 is preferably a cylinder, a triangular column, a quadrangular column, or a hexagonal column. Moreover, it is preferable that a plurality of connecting portions provided in the gear 3 are provided.

  FIG. 4 is a diagram showing a configuration of the slack 4 that is cylindrical and threaded. FIG. 12 is a drawing-substituting photograph showing an example of the embodiment of the cylindrical thread 4 that is threaded. In this embodiment, the one with the circular shape of the key 4 is used. The material used is ABS resin. Here, metal or plastic is preferably used as the material, particularly carbon steel for mechanical structure, alloy steel for mechanical structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, non-ferrous metal, MC nylon, Polyacetal or ABS resin is preferred.

  Here, the connecting portion provided in the gear 3 may have a structure in which the cylinder has a partial protrusion, and the key 4 may be provided with a recess corresponding to the protruding portion provided in the gear 3 on the outer peripheral portion.

  By adopting such a configuration, the connecting portion 5 is configured to be separated from the key 4, and in order to change the lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2, the key 4 changes the gear 3. The position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be changed by rotating the gear 2 in a state in which the pinion 4 and the gear 3 are separated from the gear 2. The lateral width position can be adjusted, and the trapezoidal screw shaft 1 can be rotated without changing the lateral width position by rotating the gear 3 in a state where the key 4 is in close contact with the gear 2.

  FIG. 5 is a diagram for explaining the operation of adjusting the lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 by rotating the gear 2 in a state where the key 4 and the gear 3 are separated from the gear 2. is there. In this case, when the gear 2 is rotated in the direction of the arrow 6 indicating the direction of rotation, the gear 3 rotates in the same direction as the gear 2 and the positional relationship of the key 4 remains unchanged. The trapezoidal screw shaft 1 can be moved by rotating the gear 2 in a state where the key 4 and the gear 3 are separated from the gear 2, and eventually the lateral width of the trapezoidal screw shaft 1 defined by the inner position of the gear 2 is changed. I can do it.

  FIG. 6 is a diagram for explaining an operation of adjusting the positional relationship between the gear 2 and the key 4 by rotating the gear 3 in a state where the gear 3 is separated from the gear 2 in order to move the key 4. By rotating the gear 3 in a state where the key 4 and the gear 3 are separated from the gear 2, the positional relationship between the key 4 and the gear 2 can be changed. In order to realize the next operation capable of rotating the trapezoidal screw shaft 1 without changing the lateral width position, it is only necessary to move the key 4 in the drawing until it closely contacts the gear 2.

  FIG. 7 is a view for explaining an operation in which the trapezoidal screw shaft 1 can be rotated without changing the lateral width position by rotating the gear 3 in a state where the key 4 is in close contact with the gear 2. When the gear 3 is rotated in the state where the key 4 is in close contact with the gear 2, the trapezoidal screw shaft 1 is rotated without changing the lateral width of the trapezoidal screw shaft 1 defined by the inner position of the gear 2, and the driving force is transmitted. I can do it.

  FIG. 8 is a diagram showing an example of a configuration for applying the lateral width adjusting power transmission mechanism according to the present invention as a vinyl winding mechanism of an agricultural greenhouse. In this way, a trapezoidal screw shaft 1 for conversion between rotational motion and linear motion, a gear 2 threaded to the inner diameter, a gear 3 not threaded to the inner diameter, and a cylindrical threaded slant 4 The gear 3 that is not threaded to the inner diameter is provided with a connecting portion 5 that is separated from the key 4, and the connecting portion 5 is configured to be separated from the key 4, and is a trapezoid defined by the position of the gear 2. In order to change the lateral width position of the screw shaft 1, the pinion 4 can change the positional relationship with the gear 2 by rotating the gear 3, and the gear 2 with the pinch 4 and the gear 3 being separated from the gear 2. The lateral width position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2, and the lateral width position can be changed by rotating the gear 3 with the key 4 in close contact with the gear 2. Without trapezoidal A mechanism for adjusting the lateral width of the rotating shaft for rotating the shaft 1 is fitted to one trapezoidal screw shaft 1 so as to have two mechanisms disposed so that the positional relationship is reversed and the gear 2 is located inside. Thus, it was possible to construct a device suitable for the lateral width adjusting power transmission mechanism as a vinyl winding mechanism of an agricultural greenhouse.

  Here, as a configuration for applying the width adjusting power transmission mechanism according to the present invention as a vinyl take-up mechanism of an agricultural greenhouse, one end on the trapezoidal screw shaft is fixed, and the width adjusting according to the present invention is applied only to one side. A mechanism may be provided.

  Here, the present invention can also be suitably applied as a winding mechanism provided with a lateral width adjusting power transmission mechanism used in a movable mechanism for agricultural cold watermelons. The present invention can also be suitably applied as a winding mechanism having a lateral width adjusting power transmission mechanism used in a papermaking process, a metal rolling process, a textile manufacturing process, or a plastic film manufacturing process. The present invention can also be suitably applied as a winding mechanism provided with a lateral width adjusting power transmission mechanism used for roll printing. The present invention can also be suitably applied as a feed mechanism including a lateral width adjusting power transmission mechanism used in a printer. The present invention can also be suitably applied as a feed mechanism having a lateral width adjusting power transmission mechanism used in a plate-like article handling process, and the plate-like article is a plastic plate, wood plate, plywood, metal plate, glass plate, or It can be suitably applied to any ceramic plate.

  The lateral width adjusting mechanism, the lateral width adjusting power transmission mechanism, the winding mechanism having the lateral width adjusting power transmission mechanism, and the feed mechanism having the lateral width adjusting power transmission mechanism according to the present invention can change the lateral width of the power transmission mechanism with a simple configuration. Thus, it functions as a horizontal width adjusting mechanism for various winding or feeding mechanisms including an agricultural greenhouse, and it can be said that the industrial applicability is great.

DESCRIPTION OF SYMBOLS 1 Trapezoidal screw shaft 2 Gear threaded to inner diameter 3 Gear not threaded to inner diameter 4 Kaname 5 Connection 6 Arrow indicating rotation direction

Claims (27)

A lateral width adjusting mechanism of the rotary shaft,
A trapezoidal screw shaft 1 for conversion between rotational motion and linear motion;
A gear 2 threaded to the inner diameter;
A gear 3 that is not threaded on its inner diameter;
Cylindrical and threaded flutes 4
The gear 3 that is not threaded to the inner diameter includes a connecting portion 5 that is separated from the key 4.
The connecting portion is configured to be separated from the key 4;
In order to change the lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2,
The key 4 can change the positional relationship with the gear 2 by rotating the gear 3.
The lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state where the key 4 and the gear 3 are separated from the gear 2.
The trapezoidal screw shaft 1 can be rotated without changing the lateral position by rotating the gear 3 in a state where the key 4 is in close contact with the gear 2.
Horizontal axis adjustment mechanism for rotating shaft. A lateral width adjusting mechanism of the rotary shaft,
A trapezoidal screw shaft 1 for conversion between rotational motion and linear motion;
A gear 2 threaded to the inner diameter;
A gear 3 that is not threaded on its inner diameter;
Cylindrical and threaded flutes 4
The gear 3 that is not threaded to the inner diameter includes a connecting portion 5 that is separated from the key 4.
The connecting portion is configured to be separated from the key 4;
In order to change the lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2,
The key 4 can change the positional relationship with the gear 2 by rotating the gear 3.
The lateral position of the trapezoidal screw shaft 1 defined by the position of the gear 2 can be adjusted by rotating the gear 2 in a state where the key 4 and the gear 3 are separated from the gear 2.
A lateral width adjusting mechanism of the rotary shaft that can rotate the trapezoidal screw shaft 1 without changing the lateral width position by rotating the gear 3 in a state where the key 4 is in close contact with the gear 2,
It is provided with two mechanisms that are fitted to one trapezoidal screw shaft 1 so that the positional relationship is reversed and the gear 2 is arranged inside.
Horizontal axis adjustment mechanism for rotating shaft. The trapezoidal screw shaft 1 is
It is a triangular screw, square screw, trapezoidal screw or ball screw,
The horizontal width adjusting mechanism of the rotating shaft according to claim 1 or 2. The trapezoidal screw shaft 1 is
It is made of metal or plastic,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 3. The trapezoidal screw shaft is
It is made of steel, stainless steel or brass,
The lateral width adjusting mechanism of the rotating shaft according to claim 4. The gear 2 and / or the gear 3 are
It is either a spur gear, a helical gear or a helical gear,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 5. The gear 2 and / or the gear 3 are
It is made of metal or plastic,
The lateral width adjusting mechanism of the rotating shaft according to claim 6. The gear 2 and / or the gear 3 are
Carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, non-ferrous metal, MC nylon, polyacetal or ABS resin, characterized in that,
The lateral width adjusting mechanism of the rotating shaft according to claim 7. The inner diameter of the gear 2 and / or the gear 3 is
The trapezoidal screw shaft 1 is fitted,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 6 to 8. The power transmission mechanism to the gear 2 and / or the gear 3 is:
It is one of a gear, belt / pulley or chain / sprocket,
The horizontal width adjusting mechanism of the rotating shaft according to any one of claims 1 to 9. The power transmission mechanism to the gear 2 and / or the gear 3 is:
A belt pulley,
The belt used for the belt / pulley is a timing belt, a round belt or a V-belt,
The lateral width adjusting mechanism of the rotating shaft according to claim 10. The connecting portion provided in the gear 3 is
It is columnar,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 11. The connecting portion provided in the gear 3 is
It is a cylinder, triangular prism, quadrangular prism or hexagonal prism,
The lateral width adjusting mechanism of the rotating shaft according to claim 12. The connecting portion provided in the gear 3 is
It is provided with a plurality,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 13. The key 4 is
It is characterized by being circular,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 14. The key 4 is
It is made of metal or plastic,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 15. The key 4 is
Carbon steel for machine structure, alloy steel for machine structure, rolled steel for general structure, gray cast iron, spheroidal graphite, stainless steel, non-ferrous metal, MC nylon, polyacetal or ABS resin, characterized in that,
The horizontal width adjusting mechanism of the rotating shaft according to claim 16. The connecting portion provided in the gear 3 is
It is a structure with a partial protrusion on the cylinder,
The caulking 4 is provided with a concave portion corresponding to a protruding portion provided in the gear 3 on the outer peripheral portion,
The lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 11. A lateral adjustment power transmission mechanism,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
The power is transmitted as a rotational motion by rotating the trapezoidal screw shaft 1,
Horizontal width adjustment power transmission mechanism. A winding mechanism having a lateral width adjusting power transmission mechanism,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral width adjusting power transmission mechanism for transmitting power as rotational motion by rotating the trapezoidal screw shaft 1 is provided.
A take-up mechanism with a width adjusting power transmission mechanism. A winding mechanism with a width adjusting power transmission mechanism used in an agricultural greenhouse,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral width adjusting power transmission mechanism for transmitting power as rotational motion by rotating the trapezoidal screw shaft 1 is provided.
A take-up mechanism with a width adjusting power transmission mechanism. A winding mechanism equipped with a width adjusting power transmission mechanism used for a movable mechanism of an agricultural cold chill,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral width adjusting power transmission mechanism for transmitting power as rotational motion by rotating the trapezoidal screw shaft 1 is provided.
A take-up mechanism with a width adjusting power transmission mechanism. A winding mechanism having a width adjusting power transmission mechanism used in a papermaking process, a metal rolling process, a textile manufacturing process or a plastic film manufacturing process,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral adjustment power transmission mechanism that transmits power as translational motion by rotating the trapezoidal screw shaft 1 is provided.
A take-up mechanism with a width adjusting power transmission mechanism. A winding mechanism having a lateral width adjusting power transmission mechanism used for roll printing,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral width adjusting power transmission mechanism for transmitting power as rotational motion by rotating the trapezoidal screw shaft 1 is provided.
A take-up mechanism with a width adjusting power transmission mechanism. A feed mechanism having a lateral width adjusting power transmission mechanism used in a printer,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral adjustment power transmission mechanism that transmits power as translational motion by rotating the trapezoidal screw shaft 1 is provided.
A feed mechanism with a width adjusting power transmission mechanism. A feed mechanism provided with a lateral width adjusting power transmission mechanism used in a plate-shaped article handling process,
The lateral width adjusting power transmission mechanism includes the lateral width adjusting mechanism of the rotating shaft according to any one of claims 1 to 18,
A lateral adjustment power transmission mechanism that transmits power as translational motion by rotating the trapezoidal screw shaft 1 is provided.
A feed mechanism with a width adjusting power transmission mechanism. The plate-like article is
It is a plastic plate, wood plate, plywood, metal plate, glass plate or ceramic plate,
A feed mechanism comprising the lateral width adjusting power transmission mechanism according to claim 26.

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