Heat treatment vessel coupler, heat treatment vessel coupling method, and heat treatment method

The invention claimed is: 1. A heat treatment vessel coupler for coupling together heat treatment vessels adjacent in a horizontal direction, of a plurality of rectangular box-shaped heat treatment vessels each loaded with a material to be treated, conveyed in a conveying direction on a plurality of rotationally driven conveyor rollers arranged in parallel inside a heat treatment furnace, the coupler comprising: a plate body smaller than each of the heat treatment vessels; at least a pair of engagement protrusions each projecting from the plate body and engaging with a corresponding one of side walls of the heat treatment vessels; and a spacer protrusion projecting from the plate body between the at least a pair of engagement protrusions so as to be sandwiched between the heat treatment vessels with which the at least a pair of engagement protrusions engage respectively. 2. The heat treatment vessel coupler of claim 1 , wherein the coupler couples mutually the heat treatment vessels adjacent in the conveying direction, of the plurality of rectangular box-shaped heat treatment vessels or couples mutually the heat treatment vessels adjacent in the conveying direction and mutually the heat treatment vessels adjacent in a direction orthogonal to the conveying direction, wherein at least a pair of engagement protrusions each engage with a corresponding one of corners defined between side walls of the heat treatment vessels, and wherein the spacer protrusion projects from the plate body between the at least a pair of engagement protrusions so as to be sandwiched between the corners defined between side walls of the heat treatment vessels with which the at least a pair of engagement protrusions engage respectively. 3. The heat treatment vessel coupler of claim 2 , wherein the at least a pair of engagement protrusions include a total of four engagement protrusions, i.e., a pair of engagement protrusions each engaging with a corresponding one of corners defined between side walls of a pair of heat treatment vessels adjacent in the conveying direction and a pair of engagement protrusions each engaging with a corresponding one of corners defined between side walls of a pair of heat treatment vessels adjacent in a direction orthogonal to the conveying direction, and wherein the spacer protrusion projects from the plate body between the four engagement protrusions so as to be sandwiched between the pair of heat treatment vessels adjacent in the conveying direction and between the pair of heat treatment vessels adjacent in the direction orthogonal to the conveying direction. 4. The heat treatment vessel coupler of claim 3 , wherein the spacer protrusion comprises: a conveying-direction gap forming portion intervening between heat treatment vessels adjacent in the conveying direction to form a gap therebetween; and an orthogonal-direction gap forming portion intervening between heat treatment vessels adjacent in a direction orthogonal to the conveying direction to form a gap therebetween. 5. The heat treatment vessel coupler of claim 4 , wherein the conveying-direction gap forming portion is elongated in a direction orthogonal to the conveying direction, wherein the orthogonal-direction gap forming portion is elongated in the conveying direction, and wherein the spacer protrusion is a protrusion including the conveying-direction gap forming portion and the orthogonal-direction gap forming portion that intersect each other at right angles. 6. The heat treatment vessel coupler of claim 3 , comprising: a misalignment prevention protrusion projecting on the plate body from a side edge not having the pair of engagement protrusions, of both side edges of the plate body, to a direction identical to a direction of projection of the pair of engagement protrusions, the misalignment prevention protrusion being positioned, with intervals greater than a thickness of the side walls of the heat treatment vessel, between the pair of engagement protrusions. 7. The heat treatment vessel coupler of claim 2 , wherein the at least a pair of engagement protrusions include two engagement protrusions each engaging with a corresponding one of corners defined between side walls of a pair of heat treatment vessels adjacent in the conveying direction, wherein the spacer protrusion projects from the plate body between the two engagement protrusions so as to be sandwiched between the pair of heat treatment vessels adjacent in the conveying direction. 8. The heat treatment vessel coupler of claim 1 , wherein the coupler couples mutually heat treatment vessels adjacent in a direction orthogonal to the conveying direction, of the rectangular box-shaped heat treatment vessels, wherein the pair of engagement protrusions project integrally from the plate body and engage respectively with one side wall, lying toward a heat treatment vessel on the other hand, of side walls of a heat treatment vessel on one hand, of the heat treatment vessels adjacent in the orthogonal direction and with the other side wall, facing the one side wall, of side walls of a heat treatment vessel on the other hand, of the heat treatment vessels adjacent in the orthogonal direction, and wherein the spacer protrusion project from the plate body between the pair of engagement protrusions so as to be sandwiched between the one side wall and the other side wall. 9. The heat treatment vessel coupler of claim 8 , wherein the pair of engagement protrusions and the spacer protrusion are elongated in the conveying direction and are parallel to one another. 10. The heat treatment vessel coupler of claim 8 , wherein the pair of engagement protrusions engage with an end of the one side wall and an end of the other side wall, respectively. 11. The heat treatment vessel coupler of claim 8 , wherein in a state where the coupler couples adjacent vessels together, the plate body is an elongated plate extending along the one side wall and the other side wall, one of the pair of engagement protrusions being a longitudinal protrusion projecting from a side edge, lying toward the heat treatment vessel on one hand, of the elongated plate, so as to face the one side wall, the other of the pair of engagement protrusions being a longitudinal protrusion projecting from a side edge, lying toward the heat treatment vessel on the other hand, of the elongated plate, so as to face the other side wall. 12. A heat treatment vessel coupling method of coupling mutually, by use of a coupler, heat treatment vessels adjacent in a conveying direction or heat treatment vessels adjacent in an orthogonal direction orthogonal to the conveying direction, of rectangular box-shaped heat treatment vessels each loaded with a material to be treated, conveyed on a plurality of rotationally driven conveyor rollers arranged in parallel inside a heat treatment furnace, the coupler comprising: a plate body smaller than each of the heat treatment vessels; a pair of engagement protrusions projecting integrally from the plate body and engaging respectively with one side wall, lying toward a heat treatment vessel on the other hand, of side walls of a heat treatment vessel on one hand, of heat treatment vessels adjacent in the conveying direction or the orthogonal direction and with the other side wall, facing the one side wall, of side walls of the heat treatment vessel on the other hand, of the heat treatment vessels adjacent in the conveying direction or the orthogonal direction, and a spacer protrusion projecting from the plate body between the pair of engagement protrusions so as to be sandwiched between the one side wall and the other side wall. 13. A h