Apparatuses for depositing an extrudable substance onto a surface

What is claimed is: 1. An apparatus for depositing an extrudable substance onto a surface, the apparatus comprising: a bracket, comprising an opening that has a central axis; a tubular sleeve, coupled to the bracket via the opening and rotatable relative to the bracket about the central axis; a valve assembly, comprising: a valve body, fixed to the tubular sleeve and rotatable relative to the bracket together with the tubular sleeve, the valve body comprising: a valve chamber; a valve inlet port, communicatively coupled with the valve chamber; a valve outlet port, coaxial with the valve chamber and communicatively coupled with the valve chamber; a valve seat, located between the valve chamber and the valve outlet port; and a valve passage, coaxial with the valve chamber and located opposite the valve outlet port; a linear actuator, comprising: a barrel, removably coupled with the valve body; a piston, movable along the central axis within the barrel between an extended position and a retracted position; an actuator rod, coupled to the piston and extending through the valve passage into the valve chamber; and a rod passage, extending at least partially through an interior of the actuator rod; a valve, internal to the valve body and coupled to the actuator rod such that the linear actuator is configured to position the valve relative to the valve body; a temperature sensor, extending through the rod passage into the valve chamber and configured to be in communication with the extrudable substance within the valve chamber of the valve body when the extrudable substance is introduced within the valve chamber; and a nozzle, fixed to the valve body and rotatable relative to the bracket together with the valve body, wherein: with the piston in the extended position, at least a portion of the valve extends beyond the valve outlet port, in a direction toward the nozzle, and does not sealingly engage the valve seat; and with the piston in the retracted position, the valve is located within the valve outlet port and sealingly engages the valve seat. 2. The apparatus according to claim 1 , wherein: the valve inlet port is configured to be communicatively coupled with a cartridge, configured to contain the extrudable substance; the valve outlet port is configured to be communicatively coupled to the nozzle; and the valve passage is communicatively coupled with the valve chamber. 3. The apparatus according to claim 1 , further comprising a pressure sensor, configured to be in communication with the extrudable substance within the valve chamber of the valve body when the extrudable substance is introduced within the valve chamber. 4. The apparatus according to claim 3 , further comprising a pressure-sensor housing configured to house the pressure sensor, and wherein the pressure-sensor housing is configured to be removably coupled to the valve body to communicatively couple the pressure sensor with the extrudable substance within the valve chamber of the valve body. 5. The apparatus according to claim 3 , further comprising a controller, operatively coupled with at least one of the temperature sensor or the pressure sensor to control, based on signals, obtained from at least the one of the temperature sensor or the pressure sensor, flow rate of the extrudable substance through the valve body. 6. The apparatus according to claim 5 , further comprising: a temperature-signal conditioner, electrically coupled to the temperature sensor; a pressure-signal conditioner, electrically coupled to the pressure sensor; and an input/output connector, communicatively coupling at least one of the temperature-signal conditioner or the pressure-signal conditioner with the controller. 7. The apparatus according to claim 5 , further comprising a pressure source, operatively coupled with the controller, and wherein the linear actuator further comprises: a first actuator pressure input, configured to communicate pneumatic pressure from the pressure source to the linear actuator to move the piston to the extended position; and a second actuator pressure input, configured to communicate pneumatic pressure from the pressure source to the linear actuator to move the piston to the retracted position, which is spaced away from the extended position of the piston. 8. The apparatus according to claim 5 , further comprising: a first position sensor, configured to detect when the piston is in the extended position; a second position sensor, configured to detect when the piston is in the retracted position; and a positioning element, coupled to the piston, and wherein the positioning element is configured to actuate the first position sensor when the piston is in the extended position and is configured to actuate the second position sensor when the piston is in the retracted position. 9. The apparatus according to claim 8 , wherein: the positioning element comprises a magnet; the first position sensor comprises a first magnetic sensor, proximate one end of the barrel; and the second position sensor comprises a second magnetic sensor, proximate the other end of the barrel. 10. The apparatus according to claim 9 , wherein: the piston comprises: a first annular piston portion, coupled to the actuator rod; and a second annular piston portion, coupled to the actuator rod and spaced away from the first annular piston portion; and the magnet is an annular magnet, coupled to the actuator rod between the first annular piston portion and the second annular piston portion. 11. The apparatus according to claim 1 , wherein the nozzle comprises: a nozzle inlet, communicatively coupled with the valve body; and a nozzle outlet, laterally offset from the nozzle inlet relative to the central axis. 12. The apparatus according to claim 1 , wherein the actuator rod comprises a plug, positioned within the valve passage. 13. The apparatus according to claim 1 , wherein: the valve assembly further comprises a coupling member, coupled to the tubular sleeve and rotatable relative to the bracket together with the tubular sleeve; the valve body is coupled to the coupling member; and the linear actuator is coupled to the coupling member opposite the valve body. 14. The apparatus according to claim 13 , wherein the coupling member comprises a coupling-member passage, coaxially aligned with valve passage. 15. The apparatus according to claim 13 , wherein the coupling member comprises: a first locking interface, configured to releasably lock the valve body to the coupling member; and a second locking interface, configured to releasably lock the barrel of the linear actuator to the coupling member. 16. The apparatus according to claim 1 , further comprising a first drive assembly, configured to selectively controllably rotate the tubular sleeve about the central axis relative to the bracket. 17. The apparatus according to claim 16 , wherein the first drive assembly comprises: a first motor; and a first power-transmitting component, operatively coupled with the first motor and with the tubular sleeve. 18. An apparatus for depositing an extrudable substance onto a surface, the apparatus comprising: a bracket, comprising an opening that has a central axis; a tubular sleeve, coupled to the bracket via the opening and rotatable relative to the bracket about the central axis; a valve assembly, comprising: a valve body, fixed to the tubular sleeve and rotatable relative to the bracket together with the tubular sleeve, the valve body comprising a valv