JP6620665B2 - Cloth support base - Google Patents

Description

  The present invention relates to a cloth support base installed in a heat press machine.

  Conventionally, an image forming method in which a liquid processing agent is applied to a cloth before image formation is known. For example, in the image forming method disclosed in Patent Document 1, a fabric coated with a treatment agent is subjected to heat treatment before image formation.

JP 2012-207338 A

  For example, the heat treatment is performed by a flat heating plate included in the heat press. In the heat treatment, for example, the cloth coated with the treatment agent is placed on a sponge provided on the base of a heat press machine, for example. The heating plate of the heat press presses against the cloth from the opposite side of the sponge. As a result, water vapor generated by heating the moisture contained in the treatment agent moves in the sponge.

  However, since the water vapor moving in the sponge cannot pass through the base, the water vapor generated by cooling the water vapor or the water vapor from the side of the sponge leaks out. Leaked water or water vapor can wet the fabric and heat press. When the cloth gets wet, unevenness in the concentration of the treatment agent applied to the cloth may occur, and color unevenness may occur during image formation.In addition, heat is not evenly transferred from the heating plate of the heat press to the cloth, resulting in uneven heat treatment. May occur. Moreover, the cleanliness of the heat press machine may be impaired due to wetting with water vapor.

  An object of the present invention is to provide a cloth support base that reduces the possibility of getting wet with the cloth and the heat press.

  A cloth support base according to the present invention is a cloth support base installed in a heat press machine, wherein the cloth support surface has a length in a first direction and a second direction orthogonal to the first direction, and the cloth support. A bottom wall located on the back side of the surface, and a side wall projecting from the bottom wall toward the cloth supporting surface side, wherein the bottom wall and the side wall are moisture contained in the cloth supported by the cloth supporting surface. Is a storage part that forms a storage space in which a storage object containing at least one of water vapor generated by heat treatment by the heat press or water generated by cooling the water vapor can be stored The side wall and the bottom wall guide the movement of the storage object stored in the storage space to the outside of the storage space along the first direction, and the storage stored in the storage space. In the second direction of the object And forming a groove for restricting movement of the power sale the storage space outside.

  According to the said structure, when a heat press machine heat-processes the cloth supported by the cloth support surface, water vapor | steam will generate | occur | produce. The generated water vapor and the water generated by cooling the water vapor are stored in the storage unit as storage objects. The groove guides the movement of the storage object outside the storage space along the first direction, and restricts the movement of the storage object outside the storage space along the second direction. Therefore, the possibility that the storage object leaks from the storage part in the second direction is reduced. Therefore, the storage object is unlikely to come into contact with the heat supported by the cloth supported by the cloth support surface and the cloth support base. Therefore, the cloth support base can reduce the possibility that the cloth and the heat press get wet.

1 is a perspective view of a heat treatment system 1. FIG. 3 is an exploded perspective view of the cloth support base 10. FIG. 3 is an enlarged plan view of a storage unit 50. FIG. It is typical sectional drawing of the connection groove | channel 80 in the AA arrow direction of FIG. It is typical sectional drawing of the connection groove | channel 80 in the BB arrow direction of FIG. FIG. 3 is a schematic cross-sectional view in which the collection member 99 collects the storage object 6 in the direction of arrows BB in FIG. 2. It is explanatory drawing which shows the flow which the auxiliary member 140 of the cloth support stand 11 covers the container 160. FIG.

  A heat treatment system 1 according to an embodiment of the present invention will be described. The heat treatment system 1 performs heat treatment on a cloth before printing by a printing apparatus (not shown). As an example, the cloth is a T-shirt 5. A liquid pretreatment agent is applied to the T-shirt 5 before the heat treatment. The pretreatment agent contains a metal salt having a function of aggregating ink ejected from the printing apparatus. An example of the pretreatment agent is an aqueous calcium chloride solution. When the heat treatment system 1 performs the heat treatment, the metal salt of the pretreatment agent is fixed to the T-shirt 5. The user installs the T-shirt 5 on which the metal salt is fixed in the printing apparatus. The printing apparatus is, for example, an inkjet printer disclosed in Japanese Patent Application Laid-Open No. 2012-207338. The printing apparatus ejects ink to a portion of the T-shirt 5 on which the metal salt is fixed. Since the metal salt is fixed on the T-shirt 5, the ink attached to the T-shirt 5 has effects such as being difficult to bleed, difficult to remove, or good in color development. Hereinafter, upper, lower, lower right, upper left, lower left, and upper right in FIG. 1 are defined as the upper, lower, right, left, front, and rear of the heat treatment system 1, respectively.

  With reference to FIGS. 1-5, the structure of the heat processing system 1 is demonstrated. As shown in FIG. 1, the heat treatment system 1 includes a heat press machine 20 and a cloth support base 10. The heat press machine 20 heat-treats the T-shirt 5. The cloth support base 10 supports the T-shirt 5 while being installed in the heat press machine 20. The cloth support base 10 is detachable from the heat press machine 20.

  The heat press machine 20 includes a base 22, a support portion 24, an arm 25, and a heating plate 26. The base 22 is a base on which the cloth support base 10 can be installed, and extends in the front-rear direction and the left-right direction. The support portion 24 has a box shape that supports the base 22. The support portion 24 is located below the base 22. The arm 25 extends upward from the support portion 24 and bends forward. The arm 25 is connected to the support portion 24 so as to be movable up and down. The heating plate 26 is connected to the lower surface of the front portion of the arm 25. As an example, the heating plate 26 extends in the front-rear direction and the left-right direction. In a state where the cloth support base 10 is taken out from the heat press machine 20, the heating plate 26 faces the base 22 from above. The heating plate 26 is provided with a heating element (not shown). The lower end surface of the heating plate 26 is a heating surface 27 formed in a flat shape.

  A driving unit (not shown) and a control unit (not shown) are provided inside the support unit 24. As an example, the drive unit is an air cylinder built in the support unit 24. The drive unit is connected to the arm 25. The control unit is electrically connected to the drive unit via a first conducting wire (not shown). The control unit moves the arm 25 and the heating plate 26 integrally up and down by driving the drive unit. The heating surface 27 is movable in a range between an upper end position shown in FIG. 5 and a lower end position shown in FIG.

  Further, the control unit is electrically connected to the heating element of the heating plate 26 via a second conductive wire (not shown) provided in the support unit 24 and the arm 25. The second conductor may be disposed outside the arm 25. The controller raises the temperature of the heating surface 27 to a predetermined temperature such as about 180 ° C. by causing the heating element to generate heat. Furthermore, the control unit is electrically connected to an operation unit (not shown) via a third conductor (not shown). The operation part is provided in the support part 24 as an example. The user can input various instructions to the control unit via the operation unit.

  With reference to FIGS. 2-5, the structure of the cloth support stand 10 is demonstrated on the basis of the state installed in the heat press machine 20 (refer FIG. 1). In the region surrounded by the two-dot chain line W2 in FIG. 2, a covering member 110 described later in the region surrounded by the two-dot chain line W1 is enlarged and illustrated by the two-dot chain line. In FIG. 5, hatching is omitted for the heating plate 26, the T-shirt 5, an auxiliary member 30 to be described later, and a porous member 60 to be described later (the same applies to FIG. 6).

  The cloth support base 10 shown in FIG. 2 is a base that can be installed on the base 22 of the heat press machine 20. The cloth support 10 includes a reservoir 50, a porous member 60, an auxiliary member 30, and a connecting groove 80. The storage unit 50 has a box shape that opens rearward. The reservoir 50 is formed of a resin such as a polycarbonate resin or an acrylic resin, for example. Inside the reservoir 50, water vapor 7 (see FIG. 6) generated by heat-treating the pretreatment agent contained in the T-shirt 5 and water 8 generated by cooling the water vapor 7 (see FIG. 6). ) Can enter. Note that at least a part of the water vapor 7 may be cooled to become the water 8 after entering the inside of the storage unit 50. Hereinafter, when the water vapor 7 or the water 8 that has entered the inside of the storage unit 50 is generically referred to as a “storage object 6” (see FIG. 6). The storage unit 50 can store the storage object 6. The storage unit 50 includes, for example, a first layer 51 and a second layer 52. The first layer 51 and the second layer 52 are provided side by side in order from above. The first layer 51 and the second layer 52 are integrally formed.

  As shown in FIG. 3, the first layer 51 has a plate shape extending in the front-rear direction and the left-right direction. The upper surface 51A of the first layer 51 is a plane that faces upward. The first layer 51 is provided with a hole row 51B including a plurality of holes 51C arranged at equal intervals along the front-rear direction. The plurality of hole rows 51B are provided at equal intervals along the left-right direction. Each hole 51C has a circular shape that penetrates the first layer 51 in the vertical direction.

  In two hole rows 51B adjacent to each other in the left-right direction, the holes 51C included in one hole row 51B and the holes 51C included in the other hole row 51B are arranged in a staggered manner. That is, the hole 51C included in one hole row 51B is provided at a position shifted in the front-rear direction by half of a predetermined pitch with respect to any of the plurality of holes 51C included in the other hole row 51B. The predetermined pitch is a distance between the centers of two holes 51C adjacent to each other in the front-rear direction in each hole row 51B. The predetermined pitch is shown as dimension H in FIG.

  The second layer 52 is located below the first layer 51. In other words, the second layer 52 is located on the back side (that is, the lower side) of the upper surface 51A. The second layer 52 includes a bottom wall 53, a side wall 54, and a front wall 59 (see FIG. 2). The bottom wall 53 has a plate shape extending in parallel with the first layer 51. The side wall 54 is a wall extending in the front-rear direction that protrudes upward from the bottom wall 53 and is connected to the first layer 51. A plurality of side walls 54 are provided at equal intervals along the left-right direction. The plurality of side walls 54 include a side wall 54M provided between two hole rows 51B adjacent to each other in the left-right direction. The plurality of side walls 54 include a side wall 54R provided on the right side of the plurality of hole rows 51B and a side wall 54L provided on the left side of the plurality of hole rows 51B. Of the plurality of side walls 54, two side walls 54 adjacent to each other in the left-right direction and the bottom wall 53 form a groove 55 extending in the front-rear direction. The groove 55 forms a storage space 55A in which the storage object 6 (see FIG. 6) can be stored inside.

  As shown in FIG. 2, the porous member 60 is placed on the upper surface 51 </ b> A of the first layer 51. That is, the porous member 60 is provided above the side wall 54 (see FIG. 3) and the bottom wall 53 (see FIG. 3) of the groove 55. Other members may be interposed between the upper surface 51A and the porous member 60. The upper surface 61 of the porous member 60 is in contact with the auxiliary member 30 described later. The porous member 60 has elasticity. As an example, the porous member 60 is a sponge. The porous member 60 has air permeability through which water vapor 7 and water 8 can pass. The porous member 60 has heat resistance that can withstand at least the above-described predetermined temperature of the heating surface 27. As an example, the porous member 60 desirably has heat resistance capable of withstanding 200 ° C.

  As an example, the auxiliary member 30 is a cloth formed of fibers such as polyester or nylon. The auxiliary member 30 has air permeability through which water vapor 7 and water 8 can pass. Further, the auxiliary member 30 has heat resistance that can withstand at least the above-described predetermined temperature of the heating surface 27. As an example, the auxiliary member 30 desirably has heat resistance capable of withstanding 200 ° C.

  The auxiliary member 30 includes a bag portion 31. The bag portion 31 has a bag shape that opens toward at least one of the front and rear. The bag part 31 covers the storage part 50 and the porous member 60. The bag part 31 should just be located above the storage part 50 and the porous member 60, and may or may not be located below. In consideration of the fact that the bag part 31 is disposed in the storage part 50 and the porous member 60 of various sizes, the bag part 31 is large enough to be located on the side of the storage part 50 and the porous member 60. It is desirable to have The upper portion of the bag portion 31 is located above the storage portion 50 and the porous member 60. Moreover, the right part of the bag part 31 is located on the right side with respect to each of the storage part 50 and the porous member 60, and the left part of the bag part 31 is relative to each of the storage part 50 and the porous member 60. Located on the left. In addition, the lower part of the bag part 31 is located below the storage part 50, and the rear part of the bag part 31 is located behind the rear end part of the porous member 60.

  The bag portion 31 includes a placement surface 32 and a first surface 33 (see FIG. 5). The placement surface 32 is a surface facing upward. The friction coefficient of the mounting surface 32 is smaller than the friction coefficient of the upper surface 61 of the porous member 60. In the cloth support base 10, the placement surface 32 functions as a cloth support surface. The cloth support surface is a surface on which the cloth contacts from above. Therefore, the T-shirt 5 (see FIG. 1) to which the pretreatment agent is applied is placed on the placement surface 32. The first surface 33 is a surface opposite to the placement surface 32. The first surface 33 (see FIG. 5) is in contact with the upper surface 61 of the porous member 60.

  The connection groove 80 is connected to the rear end portion of the storage unit 50. The connection groove 80 extends along the left-right direction and is connected to the rear end of each of the plurality of grooves 55. The right end portion of the connection groove 80 is located on the right side of the right end portion of the storage portion 50, and the left end portion of the connection groove 80 is located on the left side of the left end portion of the storage portion 50. As an example, the connecting groove 80 is formed of a metal material. Sealing members are provided at both ends of the connecting groove 80. The two sealing members close the inner space 81 that is the space inside the connecting groove 80 from the left-right direction.

  As shown in FIG. 4, the connecting groove 80 includes a wall 82, a pair of extending walls 84, and a pair of protruding walls 86. The wall 82 is provided behind the storage unit 50 and extends in the vertical direction. The wall 82 is provided with two connecting holes 82A. The two connecting holes 82 </ b> A are in positions that are symmetrical with respect to the center of the connecting groove 80 in the left-right direction. Further, the two connecting holes 82A are positioned at the end portions of the connecting grooves 80 in the left-right direction, respectively.

  One of the pair of extending walls 84 protrudes forward from the upper end portion of the wall 82, and the other of the pair of extending walls 84 protrudes forward from the lower end portion of the wall 82. The extending wall 84 on the upper side is on the upper side of the storage unit 50. The extending wall 84 located below is below the storage unit 50. That is, at least a part of the connecting groove 80 is provided at a position in the downward direction away from the plurality of grooves 55 with respect to the upper surface 51 </ b> A of the first layer 51.

  Two circular holes 84 </ b> A (see FIG. 5) are provided in the extending wall 84 below the pair of extending walls 84. The two circular holes 84 </ b> A are in positions that are symmetrical with respect to the center of the connecting groove 80 in the left-right direction. The two circular holes 84A are located between the two connecting holes 82A (see FIG. 4) of the wall 82. The two circular holes 84A are each provided with two cylinders 84B (see FIG. 5). The cylinder 84B extends downward from the circular hole 84A.

  One of the pair of protruding walls 86 protrudes downward from the front end portion of the extending wall 84 above, and the other of the pair of protruding walls 86 protrudes upward from the front end portion of the extending wall 84 below. The pair of protruding walls 86 sandwich the rear end portion of the storage portion 50 from the vertical direction.

  As shown in FIG. 4, the extending portion 70 is inserted into each of the two connecting holes 82 </ b> A of the wall 82. The extending portion 70 has a rod shape extending in the front-rear direction. The extending portion 70 enters between the first layer 51 and the second layer 52 of the storage portion 50 via the inner space 81 of the connecting groove 80. Further, the extending portion 70 located behind the connecting groove 80 is inserted through the cylindrical member 72. The cylindrical member 72 is in contact with the rear surface of the wall 82. A clamping member 73 is provided on the outer peripheral surface of the cylindrical member 72. The sandwiching member 73 sandwiches the extending portion 70 via the tubular member 72. A skirt of the T-shirt 5 (see FIG. 1) is placed on the extending portion 70 located behind the cylindrical member 72.

  As an example, the discharge pipe 95 shown in FIG. 5 is a tube extending in the vertical direction that can be elastically deformed. Two discharge pipes 95 are provided corresponding to each of the two cylinders 84B. The upper end portion of the inner peripheral surface of the discharge pipe 95 is in close contact with the outer peripheral surface of the cylinder 84B in a state where the discharge pipe 95 is expanded. In other words, the discharge pipe 95 is connected to a portion of the connecting groove 80 that is displaced from the central portion in the left-right direction via the cylinder 84B. Further, the discharge pipe 95 is connected to a portion between both end portions in the left-right direction of the connection groove 80 via the cylinder 84B. A recovery member 99 is provided below the discharge pipe 95. As an example, the recovery member 99 is a bottle that opens upward.

  The connecting groove 80 is covered with the covering member 110. It is desirable that the covering member 110 covers the surface of the connecting groove 80 more widely so that the exposed portions of the connecting groove 80 are reduced. The covering member 110 is formed in a C shape in the left side view and has a substantially cylindrical shape extending in the left-right direction. The covering member 110 is formed of a material whose thermal conductivity is lower than that of the metal material forming the connecting groove 80, such as silicon rubber. Therefore, the covering member 110 has a higher heat insulating property than the heat insulating property of the connecting groove 80 formed of the metal material. The covering member 110 may be in close contact with at least a part of each of the outer peripheral surfaces of the wall 82, the pair of extending walls 84, and the pair of protruding walls 86 in a state where the inner peripheral surface of the covering member 110 is expanded. desirable. An opening 117 extending in the left-right direction is formed at the front end of the covering member 110. The rear end portion of the storage portion 50 enters the inside of the opening 117.

  Four clamping members 89 (see FIG. 2) are provided on the outer peripheral surface of the covering member 110. The four clamping members 89 are arranged at intervals in the left-right direction. The clamping member 89 is an elastic member that urges the covering member 110 from above and below. The covering member 110 may be in close contact with the connecting groove 80 by being biased inward by the clamping member 89.

  The covering member 110 is provided with two first insertion holes 111 (see FIG. 4) and two second insertion holes 112. Two cylindrical members 72 are inserted through the two first insertion holes 111, respectively. The cylinders 84B are inserted through the two second insertion holes 112, respectively.

  With reference to FIG. 1, FIG. 5, and FIG. 6, a method in which the heat treatment system 1 performs heat treatment on the T-shirt 5 will be described. Before the heat treatment starts, the heating surface 27 of the heat press machine 20 is in the upper end position.

  As shown in FIG. 1, the user places the T-shirt 5 coated with the pretreatment agent on the placement surface 32 of the bag portion 31 of the auxiliary member 30. When printing is performed on the front body of the T-shirt 5 by the printing apparatus, the T-shirt 5 is placed so that the front body faces upward. Further, the hem of the T-shirt 5 is placed on the extending portion 70. The placed T-shirt 5 covers the cloth support base 10. For example, a part of the T-shirt 5 is located on the right side with respect to the cloth support base 10, and the other part of the T-shirt 5 is located on the left side with respect to the cloth support base 10. Thereafter, the user installs the cloth support base 10 on which the T-shirt 5 is placed on the base 22 of the heat press machine 20. Note that the user may place the T-shirt 5 on the cloth support 10 installed on the base 22. The cloth support 10 installed on the base 22 is located below the heating surface 27. Further, the center position of the cloth support base 10 in the left-right direction and the center position of the heating surface 27 in the left-right direction substantially coincide.

  The user may adjust the position of the T-shirt 5 after installing the cloth support base 10 on the base 22. Specifically, the user places the T-shirt so that the application portion 5A (see FIG. 5), which is the portion of the T-shirt 5 to which the pretreatment agent has been applied, is positioned below the heating surface 27 of the heating plate 26. 5 may be slid with respect to the mounting surface 32 of the auxiliary member 30. Since the friction coefficient of the mounting surface 32 of the auxiliary member 30 is smaller than the friction coefficient of the upper surface 61 of the porous member 60, the T-shirt 5 easily slides with respect to the auxiliary member 30. At this time, the auxiliary member 30 can easily maintain a stationary state while being in contact with the upper surface 61 of the porous member 60.

  Thereafter, the user inputs an instruction to cause the heat treatment system 1 (see FIG. 1) to start the heat treatment to the control unit (not shown) via the operation unit (not shown) of the heat press machine 20. A control unit (not shown) of the heat press machine 20 causes the heating element of the heating plate 26 to generate heat. The heating surface 27 of the heating plate 26 rises to a predetermined temperature.

  As shown in FIGS. 5 and 6, the control unit (not shown) of the heat press machine 20 (see FIG. 1) drives the drive unit (not shown), and the heating plate 26 and the arm 25 (see FIG. 1). Are moved downward (in the direction of arrow J in FIG. 5). The heating surface 27 urges the porous member 60 downward via the T-shirt 5 and the bag portion 31 of the auxiliary member 30. As a result, the porous member 60 is elastically deformed in the direction in which it is compressed in the vertical direction (the direction of arrow K in FIG. 6). After the heating surface 27 moves to the lower end position, the control unit stops driving the driving unit.

  As shown in FIG. 6, the heating surface 27 at the lower end position sandwiches the T-shirt 5, the auxiliary member 30, and the porous member 60 with the upper surface 51 </ b> A of the first layer 51. At this time, the elastically deformed porous member 60 uniformly urges the upper portion of the bag portion 31 and the T-shirt 5 toward the heating surface 27 in the left-right direction and the front-rear direction. Thereby, the heating surface 27 can contact the T-shirt 5 across the left-right direction and the front-back direction. Accordingly, since the heat of the heating surface 27 is evenly transmitted to the T-shirt 5 as a result, the possibility of unevenness of heat treatment on the T-shirt 5 is reduced. The pretreatment agent contained in the application part 5A is uniformly heat-treated over the front-rear direction and the left-right direction. Further, since the porous member 60 is between the heating surface 27 and the first layer 51, the heat of the heating surface 27 is not easily transmitted to the first layer 51. Therefore, the possibility that the storage unit 50 is deformed as the temperature of the storage unit 50 rises is reduced.

  By the heat treatment of the pretreatment agent, water vapor 7 is generated. Further, when the water vapor 7 is cooled, water 8 is generated. The water vapor 7 and the water 8 sequentially pass through the auxiliary member 30 and the porous member 60 and move to the upper surface 51 </ b> A of the first layer 51. In this case, since a plurality of holes are formed in the porous member 60, the water vapor 7 and the water 8 easily pass through the inside of the porous member 60. The water vapor 7 and the water 8 that have passed through the porous member 60 and have moved to the first layer 51 enter the storage space 55A via the plurality of holes 51C. The water vapor 7 and the water 8 are stored as the storage object 6 by the storage unit 50.

  The two side walls 54 that form the groove 55 restrict the movement of the storage object 6 stored in the storage space 55A to the outside of the storage space 55A along the left-right direction. Further, the front wall 59 regulates the forward discharge of the storage object 6 from the storage space 55A. Further, the first layer 51 regulates upward discharge of the storage object 6 from the storage space 55A. As a result, the storage object 6 gradually fills the storage space 55A. The bottom wall 53 and the two side walls 54 forming the groove 55 guide the movement of the storage object 6 filling the storage space 55A in the front-rear direction. The storage object 6 moves to the connecting groove 80 after the movement in the front-rear direction is guided by the groove 55. In addition, in the process in which at least a part of the water vapor 7 contained in the storage object 6 is guided by the groove 55, the water 8 may be cooled.

  The storage object 6 that has moved to the connecting groove 80 gradually fills the inner space 81. The water vapor 7 in the inner space 81 is cooled by coming into contact with the connecting groove 80 formed of a metal material. Thereby, at least a part of the water vapor 7 in the inner space 81 becomes water 8. The temperature of the connecting groove 80 in contact with the hot water vapor 7 or the water 8 in the inner space 81 rises. In particular, when the connecting groove 80 is formed of a metal material, the temperature of the connecting groove 80 increases remarkably. However, since the covering member 110 covers the connecting groove 80, the heat of the connecting groove 80 is difficult to transfer to the air outside the connecting groove 80.

  The storage object 6 filled in the inner space 81 is discharged from the connecting groove 80 through the two circular holes 84A. The storage object 6 discharged from the connection groove 80 sequentially passes through the cylinder 84B and the discharge pipe 95 corresponding to each circular hole 84A. The storage object 6 is discharged from the discharge pipe 95 toward the collection member 99. As a result, the storage object 6 is recovered by the two recovery members 99. In the process of moving from the connecting groove 80 to the recovery member 99, at least a part of the water vapor 7 of the storage target 6 may become water 8.

  The control unit of the heat press machine 20 (see FIG. 1) drives a drive unit (not shown) to move the heating surface 27 from the lower end position to the upper end position. The heating surface 27 is spaced upward from the T-shirt 5 (see FIG. 5). Thereafter, the user holds the T-shirt 5 and pulls it forward. In this case, since the skirt of the T-shirt 5 is disposed on the extending portion 70, the skirt of the T-shirt 5 does not sag. As a result, the hem of the T-shirt 5 hangs down and the possibility of being caught on the cloth support base 10 is reduced. Therefore, the user can pull out the T-shirt 5 smoothly.

  In the above description, the case where the front body and the back body of the T-shirt 5 are both mounted on the mounting surface 32 of the auxiliary member 30 from above is described. However, the T-shirt 5 is attached to the cloth support base 10. (Not shown). That is, either the front body or the back body of the T-shirt 5 on which the printing surface is disposed may be placed on the placement surface 32, and the other may be placed on the base 22 of the heat press machine 20. Even in this case, the T-shirt 5 covers the cloth support base 10.

  As described above, when the heat press machine 20 heat-treats the pretreatment agent, the water vapor 7 is generated. The generated water vapor 7 and the water 8 generated by cooling the water vapor 7 are stored in the storage space 55 </ b> A of the storage unit 50 as the storage object 6. The groove 55 guides the movement of the storage object 6 to the outside of the storage space 55A along the front-rear direction, and restricts the movement of the storage object 6 to the outside of the storage space 55A along the left-right direction. Therefore, the possibility that the storage object 6 leaks from the storage unit 50 in the left-right direction is reduced. Therefore, the storage object 6 is unlikely to contact the T-shirt 5 supported on the upper surface 51A of the first layer 51 and the heat press machine 20 on which the cloth support base 10 is installed. Therefore, the cloth support base 10 can reduce the possibility that the T-shirt 5 and the heat press machine 20 get wet.

  By reducing the possibility that the T-shirt 5 will get wet, the possibility that the heat of the heating surface 27 will not be evenly transmitted to the T-shirt 5 is reduced. Therefore, it is possible to reduce the possibility that unevenness in density occurs in the processing agent and unevenness in color occurs during image formation. Furthermore, since the possibility that the heat press machine 20 gets wet is reduced, the cloth support base 10 can reduce the possibility that the cleanliness of the heat press machine 20 is impaired.

  A plurality of grooves 55 are provided along the left-right direction. Compared with the case where one groove 55 is provided in the reservoir 50, the distance between the two side walls 54 forming the groove 55 in the left-right direction is shorter. Therefore, the storage object 6 is efficiently discharged backward from the storage unit 50.

  Each of the plurality of side walls 54 arranged in the left-right direction connects the bottom wall 53 of the second layer 52 and the first layer 51. Therefore, the storage part 50 can improve the intensity | strength in an up-down direction. Therefore, even when the heating surface 27 at the lower end position urges the first layer 51 downward via the T-shirt 5, the auxiliary member 30, and the porous member 60, the storage unit 50 is deformed. Hateful.

  The cloth support 10 includes a connection groove 80 that is connected to the rear end of the storage unit 50. The storage object 6 guided by the groove 55 is collected in the connecting groove 80. When the connecting groove 80 is not provided, the space in which the storage object 6 is discharged from the storage space 55A is widened. As a result, the possibility that the storage object 6 wets the T-shirt 5 and the heat press machine 20 becomes relatively high. However, the space in which the storage object 6 is discharged from the storage space 55 </ b> A is limited to the inner space 81 of the connection groove 80 by providing the connection groove 80. And since the storage object 6 is discharged | emitted from the connection groove | channel 80, possibility that the T-shirt 5 and the heat press machine 20 will get wet becomes relatively low. The connection groove 80 is connected to each of the end portions on the rear side of the plurality of grooves 55. Since each of the plurality of grooves 55 is not connected to both ends of the connecting groove 80 in the front-rear direction, the cloth support base 10 can be realized with a simpler configuration. By simplifying the configuration of the cloth support base 10, the fabric support base 10 can be easily manufactured.

  The extending wall 84 below the pair of extending walls 84 is provided at a position that is downward with respect to the upper surface 51 </ b> A of the first layer 51. That is, the groove 55 is located between the upper surface 51A and the extending wall 84 located below. As a result, the storage object 6 is easily moved to the extending wall 84 below after being guided out of the storage space 55A along the front-rear direction. The storage object 6 that has moved to the extending wall 84 on the lower side is unlikely to return to the groove 55 on the upper side. In particular, the water 8 of the storage target 6 that has moved to the extending wall 84 below is unlikely to return to the groove 55. Therefore, the storage object 6 is efficiently discharged from the connection groove 80.

  When the water vapor 7 contained in the storage object 6 contacts the connecting groove 80 with a metal material, at least a part of the water vapor 7 is condensed. Therefore, the possibility that the water vapor 7 having moved to the connecting groove 80 flows back into the groove 55 is reduced. Moreover, since the ratio of the water vapor 7 occupying the inner space 81 of the connection groove 80 is reduced, the water vapor 7 of the storage target 6 filled in the storage space 55 </ b> A is easily guided from the groove 55 to the connection groove 80. Further, the heat insulating property of the covering member 110 is higher than the heat insulating property of the connecting groove 80. Therefore, even if the temperature of the connecting groove 80 rises, the covering member 110 can hardly transmit the heat of the connecting groove 80 to the outside.

  A discharge pipe 95 is connected to the two circular holes 84A of the connection groove 80 via a cylinder 84B. The storage object 6 that has moved to the connecting groove 80 is discharged to the collection member 99 via the discharge pipe 95. Since the storage object 6 is collected by the collection member 99, the possibility that the storage object 6 wets the T-shirt 5 and the heat press machine 20 is further reduced.

  Two discharge pipes 95 are provided. The storage object 6 guided to the connection groove 80 is discharged via one of the two discharge pipes 95. Therefore, as compared with the case where one discharge pipe 95 is provided, the storage object 6 guided to the connection groove 80 is easily discharged from the connection groove 80.

  The discharge pipe 95 is connected to a portion of the connection groove 80 that is shifted from the center in the left-right direction. The heating plate 26 is easily disposed at a position on the upper side with respect to the central portion of the connecting groove 80 in the left-right direction. However, in the present embodiment, the left-right position where the discharge pipe 95 is connected to the connection groove 80 is displaced from the center in the left-right direction of the connection groove 80, so the discharge pipe 95 is the heating plate 26 of the heat press machine 20. It is hard to touch.

  The discharge pipe 95 is connected to a portion of the connection groove 80 that is between both ends in the left-right direction. When the discharge pipe 95 is connected to one end or the other end in the left-right direction of the connection groove 80, the T-shirt 5 can easily come into contact with the discharge pipe 95. In particular, when the T-shirt 5 is attached to the cloth support base 10, the discharge pipe 95 is likely to obstruct the attachment of the T-shirt 5. However, in this embodiment, since it connects with the connection groove | channel 80 between the right-and-left both ends of the connection groove | channel 80, the T-shirt 5 which covers the cloth support stand 10 becomes difficult to contact the discharge pipe 95. FIG. Therefore, the user can easily place the T-shirt 5 on the cloth support base 10.

  The reservoir 50 includes a first layer 51 located above the second layer 52. The first layer 51 regulates the upward movement of the storage object 6 that has entered the storage space 55A via the plurality of holes 51C. In particular, the water vapor 7 that has entered the storage space 55A via the hole 51C may move upward. However, the upward movement of the water vapor 7 that has entered the storage space 55 </ b> A is restricted by the first layer 51. Therefore, the possibility that the storage object 6 stored in the storage space 55 </ b> A leaks upward to the upper surface 51 </ b> A side of the first layer 51 is reduced.

  The reservoir 50 includes a plurality of holes 51C that penetrate the first layer 51 in the vertical direction. The water vapor 7 generated by the heat treatment of the pretreatment agent and the water 8 generated by cooling the water vapor 7 are likely to enter the inside of the storage unit 50 via the plurality of holes 51C. Therefore, the storage unit 50 easily stores the water vapor 7 and the water 8 that have entered the storage unit 50. In addition, the strength of the first layer 51 in the vertical direction is improved as compared with the case where one hole 51C corresponding to the plurality of holes 51C is provided. Further, in two hole rows 51B adjacent to each other in the left-right direction, the holes 51C included in one hole row 51B and the holes 51C included in the other hole row 51B are alternately arranged in a staggered manner in the front-rear direction. Thereby, in any direction of the front-back direction and the left-right direction, the position where the plurality of holes 51C are provided is less likely to be biased. Accordingly, the water vapor 7 and the water 8 that have moved to the first layer 51 easily enter the inside of the storage unit 50 via any of the plurality of holes 51C. Further, the possibility that the water vapor 7 and the water 8 that have moved to the first layer 51 are restricted from entering the inside of the storage unit 50 by the first layer 51 is reduced. Therefore, the possibility that water vapor 7 and water 8 leak from the porous member 60 to the side is reduced.

  On the upper surface 51A of the first layer 51, the porous member 60 is placed. The water vapor 7 generated by the heat treatment of the pretreatment agent easily moves inside the porous member 60. Further, the porous member 60 urged downward by the heating surface 27 is elastically deformed. Thereby, the heating surface 27 can be equally urged | biased with respect to the T-shirt 5 over the left-right direction and the front-back direction.

  The friction coefficient of the mounting surface 32 of the auxiliary member 30 is smaller than the friction coefficient of the upper surface 61 of the porous member 60. The T-shirt 5 placed on the placement surface 32 of the auxiliary member 30 is easy to slide with respect to the placement surface 32. Therefore, the user can easily adjust the position where the T-shirt 5 is placed on the cloth support base 10. When the T-shirt 5 is attached to the cloth support base 10, the user has the T-shirt 5 against the cloth support base 10 because the friction coefficient of the placement surface 32 is smaller than the friction coefficient of the upper surface 61. Easy to desorb.

  The skirt of the T-shirt 5 is placed on the extended portion 70. Thereby, the skirt of the T-shirt 5 does not hang down. Therefore, when the user takes out the T-shirt 5 after the heat treatment, the possibility that the hem of the T-shirt 5 is caught on the cloth support base 10 is reduced. Therefore, the user can take out the T-shirt 5 subjected to the heat treatment smoothly. Further, the extending portion 70 enters between the first layer 51 and the second layer 52. Therefore, the extending portion 70 can contact the lower surface of the first layer 51 even when it is bent by the weight of the skirt of the T-shirt 5. Accordingly, since the force acting on the extended portion 70 is dispersed, the strength of the extended portion 70 in the vertical direction is improved.

  The side wall 54 extends continuously in the front-rear direction over the vertical direction. Compared with the case where a through hole (not shown) is provided in the side wall 54, the groove 55 can easily restrict the movement of the storage object 6 to the outside of the storage space 55A along the left-right direction. Therefore, the possibility that the storage object 6 leaks from the storage unit 50 in the left-right direction is further reduced.

  In the above embodiment, the placement surface 32 is an example of the “cloth support surface” of the present invention. The upper surface 61 is an example of the “contact surface” in the present invention. The T-shirt 5 is an example of the “cloth” of the present invention. The front-rear direction is an example of the “first direction” in the present invention. The left-right direction is an example of the “second direction” in the present invention. The upward direction is an example of the “third direction” in the present invention.

  The present invention can be applied to various embodiments instead of the above-described embodiments. The heat treatment system 1 may perform heat fixing, which is an example of heat treatment, on the T-shirt 5 on which the application of the pretreatment agent by the user and the printing by the printing apparatus are sequentially performed. Instead of being movable in the vertical direction, the arm 25 may be rotatable around an axial center extending in the horizontal direction, for example. Even in this case, the heating surface 27 can move between the upper end position and the lower end position. Instead of the T-shirt 5, clothing such as a swimsuit, a trainer, or socks may be placed on the cloth support base 10, or a cloth product such as a bag, shoes, or a flag may be placed thereon. The fabric placed on the fabric support 10 may be a woven fabric or a knitted fabric, or may be a nonwoven fabric.

  The storage unit 50 may open toward the front instead of opening toward the rear, or may open toward at least one of the left side and the right side. In this case, the direction in which the side wall 54 extends may be parallel to the direction in which the reservoir 50 opens. Further, the bag portion 31 of the auxiliary member 30 may be opened toward at least one of the left side and the right side instead of opening toward at least one of the front side and the rear side.

  The extending portion 70 may be, for example, a cylinder instead of the rod shape. Further, the extending portion 70 may not be provided. The friction coefficient of the mounting surface 32 of the auxiliary member 30 may be equal to the friction coefficient of the upper surface 61 of the porous member 60 or may be larger than the friction coefficient of the upper surface 61.

  The bag portion 31 of the auxiliary member 30 may cover the porous member 60 among the porous member 60 and the storage portion 50. In this case, the lower portion of the bag portion 31 may be provided between the porous member 60 and the first layer 51. The auxiliary member 30 may include a base portion (not shown) formed in a sheet shape instead of the bag portion 31. In this case, the sheet-like base is placed on the upper surface 61 of the porous member 60. The length in the left-right direction of the sheet-like base may be longer than the length in the left-right direction of the porous member 60. In this case, the sheet-like base may cover the porous member 60. Further, the auxiliary member 30 may be formed of a metal material. For example, the auxiliary member 30 may be a punching metal. Even in this case, the auxiliary member 30 has the above-described air permeability and heat resistance.

  The cloth support 10 may not include at least one of the auxiliary member 30, the porous member 60, and the first layer 51. For example, when the cloth support base 10 does not include the first layer 51 among the auxiliary member 30, the porous member 60, and the first layer 51, the porous member 60 is the upper surface of the side wall 54 of the second layer 52. Placed on. In this case, similarly to the above-described embodiment, the placement surface 32 functions as a cloth support surface, and the upper surface 61 of the porous member 60 functions as a contact surface that contacts the first surface 33 of the auxiliary member 30.

  In addition, when the cloth support base 10 does not include the porous member 60 among the auxiliary member 30, the porous member 60, and the first layer 51, the first surface 33 of the auxiliary member 30 is the first layer 51. Contact the upper surface 51A. Therefore, the upper surface 51 </ b> A functions as a contact surface that contacts the first surface 33 of the auxiliary member 30 instead of the upper surface 61 of the porous member 60.

  When the cloth support 10 does not include the porous member 60 and the first layer 51 among the auxiliary member 30, the porous member 60, and the first layer 51, the first surface 33 of the auxiliary member 30 is The upper surface of the side wall 54 of the second layer 52. Therefore, the upper surface of the side wall 54 functions as a contact surface that contacts the first surface 33 of the auxiliary member 30.

  Further, when the cloth support base 10 does not include the auxiliary member 30 among the auxiliary member 30, the porous member 60, and the first layer 51, the T-shirt 5 replaces the placement surface 32 of the auxiliary member 30. And placed on the upper surface 61 of the porous member 60. Therefore, in this case, the upper surface 61 functions as a cloth support surface.

  When the cloth support base 10 does not include the auxiliary member 30 and the porous member 60 among the auxiliary member 30, the porous member 60, and the first layer 51, the upper surface 51A of the first layer 51 supports the cloth. Functions as a surface. When the cloth support base 10 does not include any of the auxiliary member 30, the porous member 60, and the first layer 51, the upper surface of the side wall 54 of the second layer 52 functions as a cloth support surface.

  Furthermore, when the cloth support base 10 does not include the auxiliary member 30 and the first layer 51 among the auxiliary member 30, the porous member 60, and the first layer 51, the T-shirt 5 has the porous member 60. Placed on the upper surface 61. In this case, the upper surface 61 of the porous member 60 functions as a cloth support surface.

  The porous member 60 may not have elasticity. Specifically, the porous member 60 may be a porous metal formed of a metal material instead of the sponge. Even in this case, the porous member 60 has the above-described air permeability and heat resistance.

  A plurality of holes 51 </ b> C may not be provided in the first layer 51 of the storage unit 50. In this case, the first layer 51 may include a plurality of plate-like members extending in the left-right direction. For example, the plurality of plate-like members may be provided at intervals in the front-rear direction. The water vapor 7 generated by heat treating the pretreatment agent and the water 8 generated by cooling the water vapor 7 pass between the plurality of plate-like members, respectively, and enter the storage space 55A. Further, the first layer 51 and the second layer 52 may be formed separately instead of being formed integrally. In this case, at least one of the first layer 51 and the second layer 52 may be formed of a resin material different from the polycarbonate resin and the acrylic resin, or formed of a metal material, a glass material, wood, or the like. Also good. Further, the holes 51C of the first layer 51 are not limited to being circular. For example, the hole 51C may have an elliptical shape or a polygonal shape. Therefore, the first layer 51 of the reservoir 50 may have a honeycomb structure.

  The pair of sealing members (not shown) may not be provided. In this case, the discharge pipe 95 may be connected to the right end or the other end of the connecting groove 80. The inner peripheral surface of one end of the discharge pipe 95 may be in close contact with the outer surface of the right end of the connecting groove 80, for example. Further, the circular hole 84 </ b> A may be provided in the extending wall 84 on the upper side instead of the extending wall 84 on the lower side. In this case, the cylinder 84B extends upward from the circular hole 84A, and the discharge pipe 95 is connected to the upper part of the cylinder 84B.

  Three discharge pipes 95 may be provided instead of two. When three discharge pipes 95 are provided, the discharge pipe 95 at the center may be coupled to the central portion in the left-right direction of the coupling groove 80, for example. In this case, a circular hole 84 </ b> A is provided in the central portion in the left-right direction of the extending wall 84 below the connecting groove 80. Further, one discharge pipe 95 may be provided instead of two. Further, the discharge pipe 95 may be a pipe formed of a metal material or a glass material instead of being a tube. The discharge pipe 95 may not be provided on the cloth support base 10.

  The covering member 110 may be formed of, for example, a metal material or a glass material. When the covering member 110 is, for example, steel wool or glass wool, the covering member 110 includes air inside, and thus the covering member 110 has higher heat insulation than the connection groove 80. The covering member 110 only needs to cover at least a part of the connecting groove 80. Further, the covering member 110 may not be provided in the connecting groove 80.

  Instead of being formed of a metal material, the connection groove 80 may be formed of, for example, a resin material, a glass material, or wood. The connecting groove 80 may be disposed below the storage unit 50 or may be disposed above the storage unit 50. In this case, for example, a tubular member that connects the plurality of storage spaces 55 </ b> A of the storage unit 50 and the inner space 81 of the connection groove 80 may be provided. The storage object 6 stored in the plurality of storage spaces 55 </ b> A moves to the inner space 81 of the connection groove 80 via a tubular member.

  The connecting groove 80 may be connected to the front end portion instead of being connected to the rear end portion of the storage portion 50, or may be formed in the central portion in the front-rear direction of the storage portion 50. In the connecting groove 80 formed in the center part in the front-rear direction of the storage part 50, each of the plurality of grooves 55 is connected to both end parts in the front-rear direction of the connecting groove 80. Furthermore, instead of extending in the left-right direction, the connecting groove 80 may extend in a direction toward the front or rear as it goes to the right, for example. Even in this case, the connecting groove 80 extends along the left-right direction. Further, in this case, the rear end portion of the storage portion 50 may extend in parallel with the extending direction of the connecting groove 80. Further, the connecting groove 80 may extend in the vertical direction instead of extending in the left-right direction. For example, the connecting groove 80 extending in the up-down direction may be connected to the center in the left-right direction at the rear end of the storage unit 50. The connection groove 80 may not be provided in the cloth support base 10.

The side wall 54 may be provided with a through hole (not shown) instead of continuously extending in the front-rear direction across the vertical direction. The through hole penetrates the side wall 54 in the left-right direction. The second layer 52 may be provided with one side wall 54M instead of the plurality of side walls 54M. In this case, the bottom wall 53 and the side wall 54 form two grooves 55. Further, the side wall 54M may not be provided. In this case, the bottom wall 53 and the side walls 54L and 54R form one groove 55.

  With reference to FIG. 7, the cloth support base 11 which is a modification of the cloth support base 10 is demonstrated. FIG. 7 illustrates a schematic front view of the cloth support base 11. In addition, about the same component as the cloth support stand 10, the same code | symbol is provided and shown in FIG. 7, and description is simplified. The cloth support 11 includes an auxiliary member 140 instead of the auxiliary member 30.

  The auxiliary member 140 includes a bag part 145, two insertion parts (not shown), a first part 141, a second part 142, and a connecting part 143. The bag portion 145 has a bag shape that opens forwardly between the front and the rear. The lateral length of the bag portion 145 is longer than the lateral length of the bag portion 31 of the auxiliary member 30. The bag part 145 covers the porous member 60 and the storage part 50. Hereinafter, when the porous member 60 and the storage part 50 are named generically, they are referred to as “container 160”.

  The two insertion portions have a cylindrical shape extending in the front-rear direction. One of the two insertion portions is provided at the left end portion of the bag portion 145, and the other of the two insertion portions is provided at the right end portion of the bag portion 145. In this modification, as an example, the insertion portion is formed integrally with the bag portion 145. The first part 141 and the second part 142 are both aluminum pipes extending in the front-rear direction. The first part 141 is inserted into one of the two insertion parts, and the second part 142 is inserted into the other of the two insertion parts.

  The connecting portion 143 includes a first connecting member 151, a frame-like member 155, a clamping member 156, and a second connecting member 152. The 1st connection member 151 is formed in strip | belt shape. The first connecting member 151 includes one end portion 151A and the other end portion 151B. One end 151A is fixed to the first portion 141. The first connecting member 151 is inserted inside the frame-shaped member 155. More specifically, the first connecting member 151 is wound around a part of the frame-like member 155 and is bent toward the first portion 141.

  The sandwiching member 156 is provided between the frame-like member 155 and the other end portion 151 </ b> B of the first connecting member 151 in the extending direction of the first connecting member 151. The sandwiching member 156 sandwiches the folded portion of the first connecting member 151. The 2nd connection member 152 is formed in strip | belt shape. One end of the second connecting member 152 is fixed to the frame-like member 155. A hook 152 </ b> A that can engage with the second portion 142 is provided at the other end of the second connecting member 152.

  With reference to FIG. 7, a method in which the user installs the cloth support base 11 on the base 22 of the heat press machine 20 will be described. The user enters the container 160 from the front inside the bag portion 145 of the auxiliary member 140. At this time, the 1st site | part 141 and the 2nd site | part 142 are located in a line with the container 160 in the left-right direction. As an example, wrinkles or deflection is generated in the upper portion of the bag portion 145.

  As shown in FIG. 7B, the user moves the first part 141 and the second part 142 to positions below the container 160, respectively. Thereby, the bag part 145 of the auxiliary member 140 is wound around the both ends of the container 160 in the left-right direction. Thereafter, the user engages the hook 152A with the second portion 142. The 1st connection member 151 connects the 1st site | part 141 and the 2nd site | part 142 with the attitude | position extended along the left-right direction. The user pulls the other end 151B of the first connecting member 151 toward the left (arrow W direction). The other end 151B moves to the left, and the first portion 141 moves to the right. Therefore, the length in the left-right direction of the connecting portion 143 that connects the first portion 141 and the second portion 142 is shortened. The length in the left-right direction of the connecting portion 143 that connects the first portion 141 and the second portion 142 is shown as a dimension L in FIG.

  As the dimension L becomes shorter, tension is applied to the bag portion 145. As a result, the wrinkles or deflections that existed at the top of the bag portion 145 disappear, and the upper portion of the bag portion 145 stretches in the left-right direction. The upper portion of the bag portion 145 contacts and contacts the upper surface of the container 160. Thereafter, the user installs the cloth support base 11 on the base 22 of the heat press machine 20 (see FIG. 1). When the heating surface 27 moves to the lower end position, the upper portion of the bag portion 145 is in contact with the upper surface of the container 160, so that the application portion 5A (see FIG. 5) of the T-shirt 5 is the bag portion. It is easy to maintain a flat state between the upper part of 145 and the heating surface 27. Therefore, the heat of the heating surface 27 is easily transmitted evenly in the left-right direction and the front-rear direction to the application part 5A, and wrinkles are less likely to occur in the heated application part 5A.

  The bag portion 145 of the auxiliary member 140 can cover a container having a size different from that of the container 160 (hereinafter referred to as a first container) (not shown). Hereinafter, when the container 160 and the first container are collectively referred to as “specific container”. Even in the case where the bag portion 145 covers the first container, the user determines the length of the connecting portion 143 that connects the first portion 141 and the second portion 142 in the left-right direction to the size of the first container. It can be adjusted accordingly. Therefore, the upper part of the bag part 145 can be opposed to the upper surface of the first container.

  As described above, the user adjusts the length in the left-right direction of the connecting portion 143 that connects the first portion 141 and the second portion 142 according to the size of the specific container. Thereby, the upper part of the bag part 145 can contact and oppose the upper surface of a specific container.

  Note that the bag portion 145 may be opened upward instead of opening forward. In this case, the opening part of the bag part 145 may be provided with a fastener extending along the front-rear direction. Instead of including the first connecting member 151, the frame-like member 155, the clamping member 156, and the second connecting member 152, the connecting portion 143 may be, for example, a rubber cord. The rubber string is connected to the first portion 141, for example, and includes a hook 152A. In this case, the tension is applied to the bag portion 145 by the user engaging the hook 152A with the second portion 142 in a state where the rubber string is extended.

  The connecting portion 143 may include a hook portion (not shown) that can be engaged with the first portion 141. In this case, the connecting part 143 can be attached to and detached from the first part 141 and the second part 142. Moreover, the 1st site | part 141 and the 2nd site | part 142 may be the cyclic | annular member formed instead of the aluminum pipe extended in the front-back direction, for example with the resin material. If the first portion 141 and the second portion 142 are fixed to the bag portion 145, the bag portion 145 does not need to include two insertion portions (not shown).

5 T-shirt 6 Storage object 7 Water vapor 8 Water 10, 11 Cloth support base 20 Heat press machine 30, 140 Auxiliary member 32 Placement surface 33 First surface 50 Storage part 51 First layer 51C Hole 52 Second layer 53 Bottom wall 54 Side wall 55 Groove 55A Storage space 60 Porous member 61 Upper surface 70 Extension portion 80 Connection groove 95 Discharge pipe 110 Cover member 141 First portion 142 Second portion 143 Connection portion 145 Bag portion

Claims (18)

A cloth support stand installed in a heat press machine,
A cloth support surface having a length in a first direction and a second direction orthogonal to the first direction;
A bottom wall located on the back side of the cloth support surface; and a side wall projecting from the bottom wall in a third direction from the bottom wall toward the cloth support surface, the bottom wall and the side wall comprising the cloth support Storage capable of storing a storage object including at least one of water vapor generated by heat treatment of the water supported by the surface by the heat press machine or water generated by cooling the water vapor. And a storage part that forms a space,
The side wall and the bottom wall guide the movement of the storage object stored in the storage space to the outside of the storage space along the first direction, and the storage object stored in the storage space A cloth support base, wherein a groove for restricting movement outside the storage space along the second direction is formed.   The cloth support base according to claim 1, wherein a plurality of the grooves are provided side by side in the second direction.   The cloth support base according to claim 2, further comprising a connection groove connected to each of the plurality of grooves and extending along the second direction.   The cloth support base according to claim 3, wherein the connection groove is connected to each end portion of the plurality of grooves on one side in the first direction.   The cloth support base according to claim 3 or 4, wherein at least a part of the connection groove is provided in a direction away from the groove with respect to the cloth support surface.   The cloth support base according to any one of claims 3 to 5, wherein the connection groove is formed of a metal material.   The cloth support base according to any one of claims 3 to 6, further comprising a covering member that has a heat insulating property higher than that of the connecting groove and covers at least a part of the connecting groove.   The cloth support base according to any one of claims 3 to 7, further comprising a discharge pipe connected to the connection groove.   The cloth support base according to claim 8, wherein a plurality of the discharge pipes are provided.   The cloth support base according to claim 8 or 9, wherein the discharge pipe is connected to a portion of the connection groove that is shifted from a central portion in the second direction.   The cloth support base according to any one of claims 8 to 10, wherein the discharge pipe is connected to a portion of the connection groove between both end portions in the second direction. The reservoir is
A first layer formed of a metal material or a resin material;
It is formed with the said metal material or the said resin material, It provided in the opposite side to the said cloth support surface with respect to the said 1st layer, The 2nd layer provided with the said groove | channel was provided. Item 12. The cloth support base according to any one of Items 1 to 11.   The cloth support table according to claim 12, wherein the storage section includes a hole penetrating the first layer in a direction parallel to a direction from the first layer toward the second layer.   The cloth support table according to any one of claims 1 to 13, further comprising an elastic porous member provided on the side in the third direction with respect to the side wall and the bottom wall.   The cloth support surface includes a first surface which is a surface opposite to the cloth support surface, and the friction coefficient of the cloth support surface is smaller than the friction coefficient of the contact surface with which the first surface contacts. The cloth support base according to any one of claims 1 to 14, further comprising a member. The auxiliary member is
A bag covering the reservoir and the contact surface;
A first portion provided in the bag portion;
A second portion provided in the bag portion and arranged along the first portion and the second direction;
The cloth support base according to claim 15, further comprising: a connecting portion that connects the first part and the second part and is adjustable in length in the second direction.   The cloth support base according to any one of claims 1 to 16, further comprising an extending portion provided on one side of the first direction with respect to the cloth support surface and extending in the first direction. The cloth support base according to any one of claims 1 to 17, wherein the side wall extends continuously in the first direction over a direction parallel to a direction protruding from the bottom wall.

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