Sidewall bonder and method for bonding sidewalls to thermoplastic belts

What is claimed is: 1. A bonder for bonding a corrugated sidewall section to a thermoplastic belt, comprising: a base on which a length of a thermoplastic belt with a corrugated sidewall section separated from an outer surface of the thermoplastic belt rests; a first heater jaw assembly above the base and having a vertical corrugated face and a heating element having a bonding strip along the bottom of the vertical corrugated face; a second heater jaw assembly above the base and having a vertical corrugated face and a heating element having a bonding strip along the bottom of the vertical corrugated face; wherein the vertical corrugated faces of the first and second heater jaw assemblies are complementary and confronting each other across an intervening corrugated slot in which the corrugated sidewall section is received; wherein the first and second heater jaw assemblies are disposed on the outer surface of the thermoplastic belt on opposite sides of the corrugated sidewall section; wherein the heating elements of the first and second heater jaw assemblies transfer heat to the bonding strips to melt the bottom of the corrugated sidewall section on the opposite sides to bond the corrugated sidewall section to the outer surface of the thermoplastic belt. 2. A bonder as in claim 1 further comprising a pressure plate and a downward pressure-applying device applying pressure downward against the pressure plate in contact with the top edge of the corrugated sidewall section to push the corrugated sidewall in the corrugated slot against the outer surface of the thermoplastic belt. 3. A bonder as in claim 1 wherein the first and second heater jaw assemblies each include a low-friction insulating body forming the vertical corrugated face. 4. A bonder as in claim 1 wherein the first and second heater jaw assemblies each include a heat sink having a vertical corrugated face. 5. A bonder as in claim 1 wherein the first and second heater jaw assemblies each include cooling airflow channels along the heating element. 6. A bonder as in claim 1 further comprising a lateral pressure-applying device applying a lateral pressure against the second heater jaw assembly to push it toward the first heater jaw assembly and hold the corrugated sidewall section between the vertical corrugated faces. 7. A method for bonding a separated section of a corrugated sidewall to a thermoplastic belt, the method comprising: clamping a thermoplastic belt between a base and a first heater jaw assembly having a corrugated vertical face with a corrugated bonding strip at the bottom against an outer surface of the thermoplastic belt inward of a corrugated sidewall; pushing a corrugated sidewall section separated from the outer surface of the thermoplastic belt against the corrugated vertical face of the first heater jaw assembly; pushing a second heater jaw assembly having a corrugated vertical face confronting and complementary with the corrugated vertical face of the first heater jaw assembly and a corrugated bonding strip at the bottom to form a corrugated slot receiving the corrugated sidewall section; clamping the thermoplastic belt between the base and the second heater jaw assembly against an outer surface of the thermoplastic belt outward of the corrugated sidewall; applying downward pressure against the corrugated sidewall section in the corrugated slot; heating the corrugated bonding strips of the first and second heater jaw assemblies to melt the bottom of the corrugated sidewall section on both sides and bond it to the outer surface of the thermoplastic belt. 8. The method of claim 7 further comprising flowing air through the first and second heater jaw assemblies after heating.