CN201695150U - Composite weft insertion mechanism for pipeline-fin type jet loom - Google Patents

Abstract

A composite weft guiding mechanism for a pipeline-fin jet loom comprises a main jet weft insertion device and an auxiliary jet weft insertion device which are driven by a central shaft of the jet loom, a main air pump supplies air for a main nozzle and auxiliary nozzles at the same time through air pipes, weft is under the combined effect of the main nozzle and the auxiliary nozzle and is fed to a weft insertion channel of a pipeline fin component; and then auxiliary weft insertion air supply units supply air for the auxiliary nozzles, as the auxiliary nozzles are distributed in the pipeline fin component with equal interval, and the air supply angles of auxiliary weft insertion air pumps are distributed according to different time of the weft insertion period, the auxiliary weft insertion air pumps can continuously supply compressed air for the auxiliary nozzles, so the weft is further blown forward, and the composite weft guiding mechanism is the core mechanism for the widened weft insertion of the pipeline-fin type jet loom.

Description

The compound weft-picking mechanism of pipeline fin-type jet loom

Technical field:

The utility model relates to a kind of pipeline fin-type jet loom, refers more particularly to the pneumatic picking mechanism of pipeline fin-type jet loom.

Background technology:

Air-jet loom can be divided into pipeline fin-type jet loom and profiled steel reed formula air-jet loom two big classes by the difference of its gas channel: at present, pipeline fin-type jet loom both domestic and external all adopts the filling insertion way of " main burner+conduit sheet type gas channel ", for example homemade simple type air-jet loom just belongs to this class, the reed of the jet-propelled loom of this class separates with gas channel, fabric variety is easily changed, and the complete machine cost is low.Loom is provided cylinder for oneself, and for the main burner pneumatic picking provides source of the gas, but this class type lacks relay wefting insertion function, can not satisfy fabric wide cut requirements of weaving process, and therefore, this class air-jet loom seldom uses, and progressively is eliminated.Profiled steel reed formula air-jet loom then adopts the filling insertion way of " main burner+pilot jet+profiled steel reed formula institute circulation road ", for example, the at present domestic air-jet loom homemade large-scale or the import type that generally uses all belongs to this class, and they all possess relay-type wefting insertion function.The weaving speed of the jet-propelled loom of this class, fabric width all improve a lot than homemade simple type air-jet loom.The reed of this class loom and gas channel are integral structures, its complex structure, and the cost height is difficult to satisfy the frequent requirement of changing kind.And gas channel is the semi-closed structure of U type, and flow leakage is serious, and air consumption is big, the energy consumption height.A this class air-jet loom not only cost of investment is big, and use cost is also very high, in actual production process, must be equipped with special air compression station and carry out central gas supply, the cost of investment of auxiliary facility is very big, as long as a loom job is arranged, all necessary start air feed of whole air compression station, energy consumption height, every square metre of fabric only electric cost reaches more than one yuan, and the specification requirement height of operation and maintenance, maintenance cost height, cost recovery week limit for length.

In order to overcome the deficiency that existing jet-propelled loom exists, the applicant has developed a kind of high-efficiency and energy-saving type pipeline fin-type jet loom of providing source of the gas for oneself, adopt the multistage continuous air feed filling insertion way of " main burner+secondary main jet+a plurality of pilot jets+confuser assembly ", main air pump and auxiliary air pump associating air feed by the loom autogamy, neither need to increase in addition motor, the high speed that also configuration air compression station not in addition, every loom can carry out broad fabrics is separately weaved.This high-efficiency and energy-saving type air-jet loom is the developing direction of the jet-propelled loom of conduit sheet type from now on, and pneumatic picking mechanism is a core technology wherein.

The utility model content:

The purpose of this utility model provides a kind of compound weft-picking mechanism of pipeline fin-type jet loom.

The compound weft-picking mechanism of described pipeline fin-type jet loom, it is by main jet weft inserting apparatus, auxiliary weft insertion device, confuser assembly, pilot jet and reed seat, confuser assembly and pilot jet are installed on the reed seat, and pilot jet is distributed among the confuser assembly equally spacedly; Described main jet weft inserting apparatus comprises main air pump, main burner, secondary main burner and appendix, main burner links to each other with main air pump by appendix with secondary main burner, described auxiliary weft insertion device comprises several auxiliary weft insertion air supply units, each auxiliary weft insertion air supply unit all comprises auxiliary air pump, main tracheae, distributor, bronchus, auxiliary air pump links to each other with distributor by main tracheae, distributor links to each other with pilot jet by bronchus, the air feed angle of each auxiliary weft insertion air supply unit all is positioned at the wefting insertion period of loom, and staggers mutually in the air feed angle of each auxiliary weft insertion air supply unit; Described pilot jet is by the gentle adfluxion bundle of admission line sheet confuser, air inlet pipe, Y type envelope gas sheet and vertical envelope gas sheet are formed, the admission line sheet takes off mouth by weft yarn, the air inlet mounting blocks, air inlet sheet body, the end face air flue, the air inlet pipe mounting groove, vertical air flue, passage, outgassing micropore and wefting insertion passage are formed, air inlet mounting blocks and air inlet sheet body are connected as a single entity, wefting insertion passage and weft yarn take off mouth and all are arranged on one's body the air inlet sheet, and weft yarn takes off the upper end that mouth is positioned at the wefting insertion passage, air inlet pipe mounting groove and vertical air flue all are arranged on the right side of air inlet mounting blocks, the air inlet pipe mounting groove is horizontally disposed with, vertically air flue vertically is provided with and interlinks with the air inlet pipe mounting groove, the end face air flue is arranged on the left side of air inlet sheet body, vertically air flue interlinks by the end face air flue on passage and opposite, evenly be provided with three and three above outgassing micropores on the same circumference in the end face air flue, Y type envelope gas sheet gland is on the end face air flue, vertically envelope gas sheet gland is on vertical air flue, on the left side of air inlet mounting blocks, be provided with four and connect convex body, be used for the connecting pipe chip module, on the right side of air inlet mounting blocks, be provided with two and connect pit, be used to connect air-flow boundling confuser, on the air inlet mounting blocks, also be provided with installing hole and location-plate, be convenient to the admission line sheet and be installed on the reed seat; Described air-flow boundling confuser takes off mouth by the mounting blocks of giving vent to anger, the sheet body of giving vent to anger, air guide cave, pressure pipe groove, weft yarn and the wefting insertion passage is formed, the air guide cave is arranged on one's body the sheet of giving vent to anger equably, the air guide cave is conical surface hole, angle between the axis in air guide cave and the wefting insertion passage horizontal center line is 10 °～25 °, the air guide cave that the position is set is corresponding with the outgassing micropore on the admission line sheet; Pressure pipe groove horizontal distribution is on the left side of mounting blocks of giving vent to anger, on the left side of mounting blocks of giving vent to anger, be provided with two and connect convex body, be used to connect the admission line sheet, on the right side of mounting blocks of giving vent to anger, be provided with four and connect pit, be used for the connecting pipe chip module, on the mounting blocks of giving vent to anger, also be provided with installing hole and location-plate, be convenient to air-flow boundling confuser and be installed on the reed seat; Two connection convex bodys on the air-flow boundling confuser left side are fitted in two connection pits of admission line sheet right side, air inlet pipe is arranged between the gentle adfluxion bundle of the admission line sheet confuser, and be installed in the air inlet pipe mounting groove on the admission line sheet, compress by the pressure pipe groove on the air-flow boundling confuser, the vertical air flue on the admission line sheet is aimed in gas outlet on the air inlet pipe, and the outgassing micropore on the admission line sheet is aimed at the air guide cave on the air-flow boundling confuser; Described auxiliary air pump is by pump seat, built-up crankshaft, connecting rod, the piston mandrel, piston, cylinder jacket, cylinder head, stigmal plate, air outlet adapter and silencer are formed, the main shaft two ends of built-up crankshaft are being installed on the pump seat by the rolling bearing level, the major part of connecting rod is installed on the eccentric shaft of built-up crankshaft by rolling bearing, the microcephaly of connecting rod is hinged by piston mandrel and piston, piston places in the cylinder jacket, cylinder jacket is installed on the pump seat, and the axis of cylinder jacket and the axis normal of built-up crankshaft, cylinder head is fixedly mounted on the top of cylinder jacket by stigmal plate, on cylinder head, be provided with air outlet adapter and silencer, the unit connects the minor axis section that gear is installed in built-up crankshaft, and the unit in each air supply unit connects gear and meshes successively.

Further, evenly be provided with three outgassing micropores on the same circumference in the end face air flue; Angle between the axis in air guide cave and the wefting insertion passage horizontal center line is 15 °.

Operation principle of the present utility model is as follows: main jet weft inserting apparatus and auxiliary weft insertion device drive by the central shaft of air-jet loom, simultaneously to main burner and secondary main burner air feed, parallel is admitted in the wefting insertion passage of confuser assembly after by main burner and secondary main burner synergy main air pump in the main jet weft inserting apparatus by appendix; And then by each auxiliary weft insertion air supply unit in the auxiliary weft insertion device to the pilot jet air feed, because pilot jet is distributed in the confuser assembly equally spacedly, each auxiliary weft insertion pump constantly provides pressed gas to pilot jet the different of wefting insertion period, push away thereby parallel further can be blown forward, so just can satisfy the wefting insertion air feed requirement of air-jet loom wide cutization.

Description of drawings:

Fig. 1 is a structural representation of the present utility model;

Fig. 2-1 is to Fig. 2-the 4th, the structural representation of pilot jet, wherein, Fig. 2-the 1st, stereogram; The front view of Fig. 2-2 Fig. 2-1; Fig. 2-the 3rd, A-A cutaway view among Fig. 2-2; Fig. 2-the 4th, B-B cutaway view among Fig. 2-2;

Fig. 3-1 is to Fig. 3-the 3rd, the structural representation of admission line sheet, and wherein Fig. 3-1 is the front view of admission line sheet; Fig. 3-2 is the rearview of admission line sheet; Fig. 3-the 3rd, A-A cutaway view among Fig. 3-2;

Fig. 4-1 is to Fig. 4-the 3rd, the structural representation of outlet pipe sheet, and wherein Fig. 4-1 is the front view of outlet pipe sheet; Fig. 4-2 is the rearview of outlet pipe sheet; Fig. 4-the 3rd, A-A cutaway view among Fig. 4-1;

Fig. 5 is the structural representation of auxiliary air pump;

Among the figure, 1-main jet weft inserting apparatus; 2-auxiliary weft insertion device; 3-confuser assembly; The 4-pilot jet; 5-reed seat; The 6-rolling bearing; The 7-unit connects gear; 11-master's air pump; The 12-main burner; The secondary main burner of 13-; The 14-appendix; The 21-auxiliary air pump; 22-master's tracheae; The 23-distributor; The 24-bronchus; The 210-pump seat; The 211-built-up crankshaft; The 212-connecting rod; 213-piston mandrel; The 214-piston; The 215-cylinder jacket; The 216-cylinder head; The 217-stigmal plate; The 218-air outlet adapter; The 219-silencer; 41-admission line sheet; 42-air-flow boundling confuser; The 43-air inlet pipe; 44-Y type envelope gas sheet; 45-vertically seals the gas sheet; 46-connects pit; 47-connects convex body; The 48-installing hole; The 49-location-plate; The 410-weft yarn takes off mouth; 411-air inlet mounting blocks; 412-air inlet sheet body; 413-end face air flue; 414-air inlet pipe mounting groove; The vertical air flue of 415-; The 416-passage; The 417-outgassing micropore; 418-wefting insertion passage; The 421-mounting blocks of giving vent to anger; The 422-sheet body of giving vent to anger; 423-air guide cave; 424-pressure pipe groove; The 431-gas outlet.

The specific embodiment:

Describe the specific embodiment of the present utility model in detail below in conjunction with Figure of description:

The compound weft-picking mechanism of described pipeline fin-type jet loom, as shown in Figure 1, it is by main jet weft inserting apparatus 1, auxiliary weft insertion device 2, confuser assembly 3, pilot jet 4 and reed seat 5, confuser assembly 3 and pilot jet 4 are installed on the reed seat 5, and pilot jet 4 is distributed among the confuser assembly 3 equally spacedly; Described main jet weft inserting apparatus 1 comprises main air pump 11, main burner 12, secondary main burner 13 and appendix 14, main burner 12 links to each other with main air pump 11 by appendix 14 with secondary main burner 13, described auxiliary weft insertion device 2 comprises several auxiliary weft insertion air supply units, each auxiliary weft insertion air supply unit all comprises auxiliary air pump 21, main tracheae 22, distributor 23, bronchus 24, auxiliary air pump 21 links to each other with distributor 23 by main tracheae 22, distributor 23 links to each other with pilot jet 4 by bronchus 24, the air feed angle of each auxiliary weft insertion air supply unit all is positioned at the wefting insertion period of loom, and staggers mutually in the air feed angle of each auxiliary weft insertion air supply unit; Described pilot jet 4 as Fig. 2-1 to shown in Fig. 2-4, described pilot jet 4 is by admission line sheet 41 gentle adfluxion bundle confusers 42, air inlet pipe 43, Y type envelope gas sheet 44 and vertical envelope gas sheet 45 are formed, admission line sheet 41 as Fig. 3-1 to shown in Fig. 3-3, it takes off mouth 410 by weft yarn, air inlet mounting blocks 411, air inlet sheet body 412, end face air flue 413, air inlet pipe mounting groove 414, vertical air flue 415, passage 416, outgassing micropore 417 and wefting insertion passage 418 are formed, air inlet mounting blocks 411 and air inlet sheet body 412 are connected as a single entity, wefting insertion passage 418 and weft yarn take off mouth 410 and all are arranged on the air inlet sheet body 412, and weft yarn takes off the upper end that mouth 410 is positioned at wefting insertion passage 418, air inlet pipe mounting groove 414 and vertical air flue 415 all are arranged on the right side of air inlet mounting blocks 411, air inlet pipe mounting groove 414 is horizontally disposed with, vertically air flue 415 vertically is provided with and interlinks with air inlet pipe mounting groove 414, end face air flue 413 is arranged on the left side of air inlet sheet body 412, vertically air flue 415 interlinks by the end face air flue 413 of passage 416 with the opposite, evenly be provided with three outgassing micropores 417 on the same circumference in end face air flue 413, Y type envelope gas sheet 44 glands are on end face air flue 413, vertically envelope gas sheet 45 glands are on vertical air flue 415, on the left side of air inlet mounting blocks 411, be provided with four and connect convex body 47, be used for connecting pipe chip module 3, on the right side of air inlet mounting blocks 411, be provided with two and connect pit 46, be used to connect air-flow boundling confuser 42, on air inlet mounting blocks 411, also be provided with installing hole 48 and location-plate 49, be convenient to admission line sheet 41 and be installed on the reed seat 5; Described air-flow boundling confuser 42 as Fig. 4-1 to shown in Fig. 4-3, it takes off mouth 410 by the mounting blocks 421 of giving vent to anger, the sheet body 422 of giving vent to anger, air guide cave 423, pressure pipe groove 424, weft yarn and wefting insertion passage 418 is formed, air guide cave 423 is arranged on the sheet body 422 of giving vent to anger equably, air guide cave 423 is conical surface hole, angle between the axis in air guide cave 423 and wefting insertion passage 418 horizontal center lines is 15 °, air guide cave 423 that the position is set is corresponding with the outgassing micropore 417 on the admission line sheet 41; Pressure pipe groove 424 horizontal distribution are on the left side of mounting blocks 421 of giving vent to anger, on the left side of mounting blocks 421 of giving vent to anger, be provided with two and connect convex body 47, be used to connect admission line sheet 41, on the right side of mounting blocks 421 of giving vent to anger, be provided with four and connect pit 46, be used for connecting pipe chip module 3, on the mounting blocks 421 of giving vent to anger, also be provided with installing hole 48 and location-plate 49, be convenient to air-flow boundling confuser 42 and be installed on the reed seat 5; Two connection convex bodys 47 on air-flow boundling confuser 42 left sides are fitted in two connection pits 46 of admission line sheet 41 right sides, air inlet pipe 43 is arranged between the admission line sheet 41 gentle adfluxion bundle confusers 42, and be installed in the air inlet pipe mounting groove 414 on the admission line sheet 41, compress by the pressure pipe groove 424 on the air-flow boundling confuser 42, the vertical air flue 415 that gas outlet 431 on the air inlet pipe 43 is aimed on the admission line sheet 41, the outgassing micropore 417 on the admission line sheet 41 is aimed at the air guide cave 423 on the air-flow boundling confuser 42; Described auxiliary air pump 21 as shown in Figure 5, it is by pump seat 210, built-up crankshaft 211, connecting rod 212, piston mandrel 213, piston 214, cylinder jacket 215, cylinder head 216, stigmal plate 217, air outlet adapter 218 and silencer 219 are formed, the main shaft two ends of built-up crankshaft 211 are being installed on the pump seat 210 by rolling bearing 6 levels, the major part of connecting rod 212 is installed on the eccentric shaft of built-up crankshaft 211 by rolling bearing 6, the microcephaly of connecting rod 212 is hinged by piston mandrel 213 and piston 214, piston 214 places in the cylinder jacket 215, cylinder jacket 215 is installed on the pump seat 210, and the axis normal of the axis of cylinder jacket 215 and built-up crankshaft 211, cylinder head 216 is fixedly mounted on the top of cylinder jacket 215 by stigmal plate 217, on cylinder head 216, be provided with air outlet adapter 218 and silencer 219, the unit connects the minor axis section that gear 7 is installed in built-up crankshaft 211, unit in each air supply unit connects gear 7 and meshes successively, and power input gear is installed on the major axis section of built-up crankshaft 211 of first air supply unit.

Claims (2)

1. the compound weft-picking mechanism of a pipeline fin-type jet loom, it is characterized in that: it is made up of main jet weft inserting apparatus (1), auxiliary weft insertion device (2), confuser assembly (3), pilot jet (4) and reed seat (5), confuser assembly (3) and pilot jet (4) are installed on the reed seat (5), and pilot jet (4) is distributed among the confuser assembly (3) equally spacedly; Described main jet weft inserting apparatus (1) comprises main air pump (11), main burner (12), secondary main burner (13) and appendix (14), main burner (12) links to each other with main air pump (11) by appendix (14) with secondary main burner (13), described auxiliary weft insertion device (2) comprises several auxiliary weft insertion air supply units, each auxiliary weft insertion air supply unit all comprises auxiliary air pump (21), main tracheae (22), distributor (23), bronchus (24), auxiliary air pump (21) links to each other with distributor (23) by main tracheae (22), distributor (23) links to each other with pilot jet (4) by bronchus (24), the air feed angle of each auxiliary weft insertion air supply unit all is positioned at the wefting insertion period of loom, and staggers mutually in the air feed angle of each auxiliary weft insertion air supply unit; Described pilot jet (4) is by admission line sheet (41) gentle adfluxion bundle confuser (42), air inlet pipe (43), Y type envelope gas sheet (44) and vertical envelope gas sheet (45) are formed, admission line sheet (41) takes off mouthful (410) by weft yarn, air inlet mounting blocks (411), air inlet sheet body (412), end face air flue (413), air inlet pipe mounting groove (414), vertical air flue (415), passage (416), outgassing micropore (417) and wefting insertion passage (418) are formed, air inlet mounting blocks (411) and air inlet sheet body (412) are connected as a single entity, wefting insertion passage (418) and weft yarn take off mouthful (410) and all are arranged on the air inlet sheet body (412), and weft yarn takes off the upper end that mouthful (410) are positioned at wefting insertion passage (418), air inlet pipe mounting groove (414) and vertical air flue (415) all are arranged on the right side of air inlet mounting blocks (411), air inlet pipe mounting groove (414) is horizontally disposed with, vertically air flue (415) vertically is provided with and interlinks with air inlet pipe mounting groove (414), end face air flue (413) is arranged on the left side of air inlet sheet body (412), vertically air flue (415) interlinks by the end face air flue (413) of passage (416) with the opposite, evenly be provided with three and three above outgassing micropores (417) on the same circumference in end face air flue (413), Y type envelope gas sheet (44) gland is on end face air flue (413), vertically envelope gas sheet (45) gland is on vertical air flue (415), on the left side of air inlet mounting blocks (411), be provided with four and connect convex body (47), be used for connecting pipe chip module (3), on the right side of air inlet mounting blocks (411), be provided with two and connect pit (46), be used to connect air-flow boundling confuser (42), on air inlet mounting blocks (411), also be provided with installing hole (48) and location-plate (49), be convenient to admission line sheet (41) and be installed on the reed seat (5); Described air-flow boundling confuser (42) takes off mouthful (410) by the mounting blocks of giving vent to anger (421), the sheet body (422) of giving vent to anger, air guide cave (423), pressure pipe groove (424), weft yarn and wefting insertion passage (418) is formed, air guide cave (423) is arranged on the sheet body (422) of giving vent to anger equably, air guide cave (423) is conical surface hole, angle between the axis in air guide cave (423) and wefting insertion passage (418) horizontal center line is 10 °～25 °, air guide cave (423) that the position is set is corresponding with the outgassing micropore (417) on the admission line sheet (41); Pressure pipe groove (424) horizontal distribution is on the left side of the mounting blocks of giving vent to anger (421), on the left side of the mounting blocks of giving vent to anger (421), be provided with two and connect convex body (47), be used to connect admission line sheet (41), on the right side of the mounting blocks of giving vent to anger (421), be provided with four and connect pit (46), be used for connecting pipe chip module (3), on the mounting blocks of giving vent to anger (421), also be provided with installing hole (48) and location-plate (49), be convenient to air-flow boundling confuser (42) and be installed on the reed seat (5); Two connection convex bodys (47) on air-flow boundling confuser (42) left side are fitted in two connection pits (46) of admission line sheet (41) right side, air inlet pipe (43) is arranged between admission line sheet (41) the gentle adfluxion bundle confuser (42), and be installed in the air inlet pipe mounting groove (414) on the admission line sheet (41), compress by the pressure pipe groove (424) on the air-flow boundling confuser (42), the vertical air flue (415) on the admission line sheet (41) is aimed in gas outlet (431) on the air inlet pipe (43), and the outgassing micropore (417) on the admission line sheet (41) is aimed at the air guide cave (423) on the air-flow boundling confuser (42); Described auxiliary air pump (21) is by pump seat (210), built-up crankshaft (211), connecting rod (212), piston mandrel (213), piston (214), cylinder jacket (215), cylinder head (216), stigmal plate (217), air outlet adapter (218) and silencer (219) are formed, the main shaft two ends of built-up crankshaft (211) are being installed on the pump seat (210) by rolling bearing (6) level, the major part of connecting rod (212) is installed on the eccentric shaft of built-up crankshaft (211) by rolling bearing (6), the microcephaly of connecting rod (212) is hinged by piston mandrel (213) and piston (214), piston (214) places in the cylinder jacket (215), cylinder jacket (215) is installed on the pump seat (210), and the axis normal of the axis of cylinder jacket (215) and built-up crankshaft (211), cylinder head (216) is fixedly mounted on the top of cylinder jacket (215) by stigmal plate (217), on cylinder head (216), be provided with air outlet adapter (218) and silencer (219), the unit connects the minor axis section that gear (7) is installed in built-up crankshaft (211), and the unit in each air supply unit connects gear (7) and meshes successively.

2. according to the compound weft-picking mechanism of the described pipeline fin-type jet loom of claim 1, it is characterized in that: evenly be provided with three outgassing micropores (417) on the same circumference in end face air flue (413); Angle between the axis in air guide cave (423) and wefting insertion passage (418) horizontal center line is 15 °.

Images