Battery cell, electrolyte injection apparatus for battery cell, and electrolyte injection method using the same

What is claimed is: 1. A battery cell, formed as a pouch-type battery cell, comprising: a case including an accommodation space accommodating an electrode assembly therein and a sealing portion disposed along a periphery of the accommodation space where an upper case and a lower case are in contact with each other to seal the accommodation space; and a connection unit formed to have a tubular shape and having one end bonded to an external surface of the case, wherein the case includes a projection formed to protrude outwardly, wherein the projection is disposed in an internal surface of the connection unit, wherein an internal space of the projection is disposed outwardly from an internal space of the case, wherein the connection unit is spaced apart from the sealing portion, and a length of the connection unit in a first direction is less than the width of the sealing portion in the first direction, the first direction being a direction in which the sealing portion extends from the case, wherein the sealing portion extends from the external surface of the case farther than the connection unit, and wherein the connection unit is disposed side by side with the sealing portion in a position adjacent to the sealing portion. 2. The battery cell of claim 1 , wherein the connection unit comprises: a body portion; and a coupling portion disposed on an end portion of the body portion, bonded to the case, and accommodating the projection therein. 3. The battery cell of claim 2 , wherein the coupling portion is formed to have an external diameter greater than or equal to an external diameter of the body portion. 4. The battery cell of claim 3 , wherein the connection unit includes an insertion blocking portion formed on the body portion of the connection unit for limiting a depth to which an injection needle is inserted. 5. The battery cell of claim 4 , wherein the insertion blocking portion is formed to have a step or projection shape. 6. The battery cell of claim 1 , wherein the connection unit is disposed within a range of thickness of the case. 7. The battery cell of claim 1 , wherein the connection unit is bonded to the external surface of the case by thermal fusion, ultrasonic fusion, or bonding using an adhesive. 8. The battery cell of claim 1 , wherein the connection unit is formed of a thermoplastic resin. 9. The battery cell of claim 8 , wherein the connection unit contains inorganic particles. 10. The battery cell of claim 8 , wherein a gas barrier is disposed on a surface of the connection unit. 11. An electrolyte injection apparatus coupled to a connection unit, formed to have a tubular shape and having one end receiving a projection, formed to protrude from an external surface of a case of a pouch-type battery cell, and bonded to the case, to supply an electrolyte to an inside of the pouch-type battery cell, wherein an internal space of the projection is disposed outwardly from an internal space of the case, wherein the case includes an accommodation space accommodating an electrode assembly therein and a sealing portion disposed along a periphery of the accommodation space where an upper case and a lower case are in contact with each other to seal the accommodation space, wherein the connection unit is spaced apart from the sealing portion and is disposed side by side with the sealing portion in a position adjacent to the sealing portion, wherein a length of the connecting unit in a first direction is less than the width of the sealing portion in the first direction, the first direction being a direction in which the sealing portion extends from the case, and wherein the sealing portion extends from the external surface of the case farther than the connection unit, the electrolyte injection apparatus comprising: an electrolyte containing portion containing an electrolyte therein; an injection needle connected to the electrolyte containing portion; and a sealing cover formed to have a tubular shape and coupled to the electrolyte containing portion to be concentric with respect to the injection needle, wherein the connection unit is disposed to be inserted into the sealing cover when the electrolyte injection apparatus is coupled to the connection unit. 12. The electrolyte injection apparatus of claim 11 , wherein a sealing member is provided on an internal circumferential surface of the sealing cover to seal a gap between the sealing cover and the connection unit. 13. The electrolyte injection apparatus of claim 12 , wherein a locking groove, into which a portion of the sealing member is inserted, is formed in an external circumferential surface of the connection unit. 14. The electrolyte injection apparatus of claim 11 , wherein an end of the injection needle penetrates through the projection to be disposed in the internal space of the projection when the electrolyte injection apparatus and the connection unit are completely coupled to each other. 15. The electrolyte injection apparatus of claim 14 , wherein an insertion blocking portion is formed on an external circumferential surface of the connection unit to limit a depth to which the injection needle is inserted. 16. An electrolyte injection method using the electrolyte injection apparatus of claim 11 , the electrolyte injection method comprising: forming an opening in the connection unit; coupling the electrolyte injection apparatus to the connection unit to insert the injection needle into the internal space of the projection; injecting an electrolyte into the pouch-type battery cell; removing the electrolyte injection apparatus from the connection unit; and sealing the opening of the connection unit. 17. The electrolyte injection method of claim 16 , wherein the sealing of the opening comprises thermally compressing or ultrasonically fusing the opening of the connection unit to be sealed. 18. The electrolyte injection method of claim 16 , wherein the sealing of the opening comprises filling the opening of the connection unit with a sealing material to seal the opening. 19. A system for supplying an electrolyte to a battery cell, having an electrode assembly enclosed inside a case, the system comprising: a pouch-type battery cell having an electrode assembly enclosed inside a case, the case including an accommodation space accommodating an electrode assembly therein, a sealing portion disposed along a periphery of the accommodation space where an upper case and a lower case are in contact with each other to seal the accommodation space, and a convex projection protruding from a side surface of the case, an internal space of the convex projection disposed outwardly from an internal space of the case; a connection unit having a first end bonded to the side surface of the case around the convex projection extending inside a space of the connection unit; and an electrolyte injection apparatus comprising: an electrolyte containing portion containing an electrolyte therein; an injection needle fluidly connected to the electrolyte containing portion; and a sealing cover formed to have a tubular shape and coupled to the electrolyte containing portion to be concentric with respect to the injection needle, wherein the connection unit is spaced apart from the sealing portion and is disposed side by side with the sealing portion in a position adjacent to the sealing portion, wherein a length of the connecting unit in a first direction is less than the width of the sealing portion in the first direction, the first direction being a direction in which the