RU97108284A - INFUSION PUMP WITH NEEDLE PIPE LOCK - Google Patents

Claims (23)

1. An infusion pump for infusing a patient with an intravenous solution from a container through an intravenous tube, the container having an elastic side wall that at least partially encloses the internal cavity for containing the solution, the container additionally has a metering channel for detachable connection to the end of the tube, and a pump for infusion consists of a combination: a housing having a compartment for receiving and holding the container in the dosing position of the solution with the possibility of its extraction, a chamber having an elastic wall that moves aetsya stretching and contracting in response to the respective increase and decrease fluid pressure in the chamber; means for installing the camera in the housing in a position that allows the application of a pushing force to the side wall of the container to compress the container in response to the expansion of the chamber wall, whereby the solution is poured into the cavity of the container through the metering channel; injection means for injecting liquid into the chamber in order to increase said pressure in an amount sufficient to cause said compression of the container; pressure recording means for generating a signal associated with the liquid pressure corresponding to the specified tensile movement and reduction of the chamber wall for indirect registration of the specified liquid pressure in the chamber; and control means for switching the state of the injection means between the liquid injection modes and the off mode in accordance with the specified signal associated with the liquid pressure.  2. The infusion pump according to claim 1, wherein said pressure recording means includes a pressure pad that is in direct contact with a portion of the chamber wall and moves with it to generate said pressure related signal.  3. The infusion pump according to claim 2, in which these injection means include a liquid pump for supplying liquid under pressure to the chamber through the inlet path, and said control means include means in the form of a valve to shut off the liquid flow through the inlet path in response to finding said pressure related signal at a predetermined level.  4. The infusion pump according to claim 3, wherein said liquid pump includes an air pump, and said liquid is air.  5. The infusion pump according to claim 1, wherein said control means include a signal generating means for generating a “capacity installed” signal when the capacity is in the indicated position for dispensing the solution, said control means switching the injection means into the liquid injection mode only in response on the signal "capacity installed".  6. The infusion pump according to claim 5, in which the indicated means of creating a signal include a switch held by the housing and allowing, together with connecting means for detachable through the fluid connection of the specified end of the tube with the specified cavity of the tank, switching between on and off states, connecting means include a needle for connecting to the metering channel and a design operating in the switching mode, which is in position to bring the switch to the on -being in response to the container being in said solution-dispensing position when the needle is connected to the dispensing channel.  7. The infusion pump according to claim 6, in which said connecting means further includes a tubular body including a needle, and said switching structure includes an annular protrusion mounted around the tubular body.  8. The infusion pump according to claim 7, in which the annular protrusion has a diameter large enough to allow the user's hand to exert force along the longitudinal axis of the tubular body to insert the needle into and out of the dispensing channel.  9. The infusion pump according to claim 7, in which the housing includes gripping means for gripping with the possibility of disconnecting and holding the tubular body from moving relative to the body when the container is in the dispensing position of the liquid and the needle is inserted into the dispensing channel, whereby the needle is held back from unintentional extraction from the dosing channel.  10. The infusion pump according to claim 9, in which the gripping means includes a wall in the housing having a socket for holding the tubular body in a position where the annular protrusion is in direct contact with the wall portion from the inside of the housing, said wall holding the annular protrusion to prevent the tubular body from moving from the nest.  11. An infusion pump for infusing a patient with an intravenous solution from a container through an intravenous tube, the container having an elastic side wall that at least partially encloses the internal cavity for containing the solution, the container additionally has a metering channel for detachable connection to the end of the tube, and a pump for an infusion consists of a combination: a housing having a compartment for receiving and holding the container in the position of dispensing the solution with the possibility of its extraction; working means for applying force to the side wall of the container for compressing the wall and pouring the solution in the cavity through the metering channel; a dispensing needle adapted to be connected to said end of the tube, said dispensing needle having an annular groove and an outlet end for connecting to said dispensing channel of a container located at a distance from the groove; said body has a structure exactly matching with said annular groove when the outlet end of the needle is connected to the metering channel; and means for moving said structure for connecting and disconnecting with said annular groove with the possibility of fixation.  12. The infusion pump according to claim 11, wherein said means of moving the structure include a cover mounted on the housing with the ability to move between open and closed positions to enable respectively insertion of a container into said compartment and its removal, and means of engagement with a groove on the cover to grip the annular grooves and prevent the dispensing needle from moving relative to the container when the structure matches the needle exactly and the cap is in the closed position.  13. An infusion pump for infusing a patient with an intravenous solution from a container through an intravenous tube, the container having an elastic side wall that at least partially encloses the internal cavity for containing the solution, the container additionally has a metering channel for detachable connection to the end of the tube, and a pump for an infusion consists of a combination: a housing having a compartment for receiving and holding the container in the position of dispensing the solution with the possibility of its extraction; working means for applying force to the side wall of the container for compressing the wall and pouring the solution in the cavity through the metering channel; connecting means for detachable through the fluid connection of the specified end of the tube with the specified cavity of the container, and the specified metering needle is adapted to connect with the specified end of the tube, the specified metering needle when connected to the end of the tube is in a fixed position relative to the housing when the container is in the dispensing position of the solution ; and controls to enable said working tools to apply the indicated force while the metering needle is in a fixed position.  14. The infusion pump according to item 13, in which the dispensing needle has a tubular body, and the body includes a gripping means for gripping with the ability to disconnect and hold the tubular body from moving relative to the body when the container is in the position of dispensing fluid and the dispensing needle is inserted into dosing channel.  15. The infusion pump of claim 14, which includes an annular protrusion held by the tubular body, and gripping means include a wall in the housing having a socket for holding the tubular body in a position where the annular protrusion is in direct contact with the wall portion from the inside of the housing, said wall holds the annular protrusion in the slot to prevent the dispensing needle from moving from the dispensing channel.  16. The infusion pump according to item 13, in which the dispensing needle has a tubular body and an annular protrusion held by the tubular body, and the annular protrusion has a diameter large enough to allow the user's hand to exert force along the longitudinal axis of the tubular body to insert the needle into the dosing channel and extract from it.  17. The infusion pump according to item 13, in which these controls include a signal generating means for generating a signal "capacity is installed" when the container is in the indicated position for dispensing the solution, and these controls allow these working tools to apply the specified force only in response to the signal “capacity installed”.  18. The infusion pump according to claim 17, wherein said signal generating means includes a switch held by the housing and allowing switching between on and off states, and said dispensing needle further includes a design operating in a switching mode that is in the position for bringing the switch to the on state in response to the container being in the indicated position for dispensing the solution when the needle is connected to the dispensing channel.  19. An infusion pump for infusing a patient an intravenous solution from a container through an intravenous tube, the container having an elastic side wall that at least partially encloses the internal cavity for containing the solution, the container additionally has a metering channel, and the infusion pump consists of a combination: housing having a compartment for receiving and holding the container in the position of dispensing the solution with the possibility of its extraction, and the housing has an opening of a predetermined size; a chamber having an elastic wall that moves stretched and contracted in response to a corresponding increase and decrease in fluid pressure in the chamber, said chamber being mounted in the housing such that said stretching of the elastic wall exerts a pushing force on the side wall of the container to compress the container in response to tension the walls of the chamber, due to which the solution inside the container is poured through the metering channel; injection means for injecting liquid into the chamber in order to increase said pressure in an amount sufficient to cause such a compression of the container; needles with dimensions that allow landing in the specified hole in the body; an element held by the needle, said element having a part that is located inside the case when the needle is installed in the specified hole, and the specified part to prevent unintentional removal of the needle from the case has a size larger than the specified predetermined hole size.  20. The infusion pump according to claim 19, which includes a switch held by the housing and switched from off to on in response to finding the specified part in the indicated position inside the housing, and means for issuing the signal "capacity is installed" in response to the specified the on state of the switch.  21. The infusion pump according to claim 20, in which the specified needle includes means for connecting the specified tube with a metering channel to establish a connection with the specified cavity of the container through the liquid.  22. The infusion pump according to claim 21, wherein said means for connecting include a tubular body holding the needle, and said part includes an annular protrusion mounted around the tubular body.  23. The infusion pump according to claim 19, in which the specified hole consists of a socket in the housing with dimensions that ensure that the specified element of the needle is held in a position where the specified part is in direct contact with the section of the socket from the inside of the housing, said socket being a part to prevent said unintentional removal needles from the body.