CN212025544U - Combined weaving system of fabric and sensor with lead - Google Patents

Abstract

The utility model provides a fabric and combination of taking wire sensor are weavingd system, includes last reed frame, reed frame and two vertical clamping rods down, going up being provided with many last reed strips in the reed frame, being provided with many lower reed strips in the reed frame down, going up the reed strip, one-to-one about the reed strip down, going up the reed strip, pressing from both sides into between the reed strip down and having chamber between the reed strip, it has two to indulge the clamping rod to wear to warp in the chamber between this reed strip, should indulge the head end of clamping rod and be connected with the tail end of clamping head, accompany the wire on the sensor in the head end of clamping head, and at last reed frame, respectively be provided with a corresponding weft guide shuttle down by the reed frame. The design not only can enable the fabric and the sensor to be combined finely, is beneficial to exerting the monitoring effect of the sensor, but also has stronger stability and higher working efficiency.

Description

Combined weaving system of fabric and sensor with lead

Technical Field

The utility model relates to a device is woven to longitude and latitude belongs to weaving equipment field, especially relates to a system is weavingd with combination of taking wire sensor to fabric.

Background

At present, wearable strain or temperature sensors have the characteristics of certain mechanical flexibility, fitting property, high sensitivity, quick response and the like, so that a proper carrier must be found for the wearable characteristic and wide application in the aspects of individual medical treatment, motion detection, man-machine interaction, virtual reality entertainment technology and the like, and the fabric can meet the requirements of the wearable strain or temperature sensors due to the characteristics of air permeability, flexibility, comfort and the like.

However, the fabric surface has large undulation, so that the fabric sensor is difficult to directly manufacture and process, and therefore, the fabric needs to be combined with a wearable strain or temperature sensor, and the prior art lacks special equipment for combining the fabric and the wearable strain or temperature sensor, so that the combination of the fabric and the wearable strain or temperature sensor is rough, and the use effect is influenced.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The utility model aims at overcoming fabric, the sensor combination that exists among the prior art and combining roughly, defect and the problem of harm sensor result of use provide one kind and enable fabric, sensor combination meticulous, do benefit to the fabric of performance sensor monitoring effect and take wire sensor's combination to weave the system.

In order to achieve the above purpose, the technical solution of the utility model is that: the utility model provides a fabric and combination of taking wire sensor are weavingd system, includes last reed frame, reed frame and two vertical clamping rods down, going up being provided with many last reed strips in the reed frame, being provided with many lower reed strips in the reed frame down, going up the reed strip, one-to-one about the reed strip down, going up the reed strip, pressing from both sides into between the reed strip down and having chamber between the reed strip, it has two to indulge the clamping rod to wear to warp in the chamber between this reed strip, should indulge the head end of clamping rod and be connected with the tail end of clamping head, accompany the wire on the sensor in the head end of clamping head, and at last reed frame, respectively be provided with a corresponding weft guide shuttle down by the reed frame.

The clamping head comprises an upper warping plate and a lower flat plate, the top surface and the bottom surface of the upper warping plate are cambered surfaces, the top surface of the lower flat plate is an inwards concave cambered surface, and the bottom surface of the lower flat plate is a plane.

The upper reed frame and the lower reed frame are vertically butted to form a reed frame, the reed frame comprises a top reed rod and a bottom reed rod which are parallel to each other, and a left reed rod and a right reed rod which are clamped between the top reed rod and the bottom reed rod, the bottom of the top reed rod is connected with the top of the bottom reed rod through a plurality of reed blades, every two reed blades are parallel to each other, each reed blade comprises an upper reed strip and a lower reed strip which are independent from each other, the top end of each upper reed strip is connected with the bottom of the top reed rod, the bottom end of each upper reed strip is contacted with the top end of each lower reed strip, and the bottom end of each lower reed strip is connected with the top of the bottom reed rod;

the structure of left side reed pole, right reed pole is unanimous, all includes mutually independent last sub-pole and lower sub-pole, the top of going up the sub-pole is connected with the tip of top reed pole, has seted up the inserted bar chamber in the bottom of going up the sub-pole, the bottom of sub-pole is connected with the tip of end reed pole down, and the top of sub-pole is connected with the bottom of interpolation pole down, and the top of interpolation pole upwards extends, and the cooperation is inserted with the inserted bar chamber that corresponds to interpolation pole, and interpolation pole, inserted bar chamber are close to the department of contact setting of last reed, lower reed strip.

The side wall of the upper sub rod is provided with a fastening hole communicated with the inserted link cavity, the part of the lower sub rod close to the top end of the lower sub rod is provided with a sub rod hole, the sub rod hole is opposite to the fastening hole, and the same fastening bolt is inserted into the sub rod hole and the fastening hole together.

An upper reed column cavity is formed in the bottom of the upper reed strip, the top of the lower reed strip is connected with the bottom of the lower reed inserting column, the top end of the lower reed inserting column extends upwards, and the lower reed inserting column is inserted into the upper reed column cavity corresponding to the lower reed inserting column.

The lower sub-rod comprises a next sub-rod and a next two sub-rods, the top end of the next sub-rod is connected with the bottom end of the inner inserting rod, the bottom end of the next sub-rod is hinged with the top ends of the next two sub-rods, the bottom ends of the next two sub-rods are connected with the end portion of the bottom reed rod, the joint of the next sub-rod and the next two sub-rods is close to the inner inserting rod, and the length of the next sub-rod is smaller than that of the next two sub-rods.

Indulge the middle part of supporting rod and carry out fore-and-aft sliding fit along the inner chamber of indulging a centre gripping section of thick bamboo, the outer end of indulging a centre gripping section of thick bamboo is connected with the inner of horizontal supporting rod, the middle part of horizontal supporting rod carries out horizontal sliding fit along the inner chamber of horizontal centre gripping section of thick bamboo, the trailing flank of horizontal centre gripping section of thick bamboo is connected with the leading flank of erecting a centre gripping section of thick bamboo, erect the inside of a centre gripping section of thick bamboo and seted up perpendicular centre gripping chamber, should erect the centre gripping chamber and carry out vertical sliding fit along inserting in its inside left montant or right montan.

The combined weaving system also comprises an upper weft insertion platform, a middle weft insertion device and a lower weft insertion platform which are sequentially arranged from top to bottom, and the upper weft insertion platform and the lower weft insertion platform are parallel to each other;

the upper weft guide platform and the lower weft guide platform are consistent in structure and respectively comprise a long sliding seat, a long sliding rail and a weft insertion shuttle, wherein a weft outlet is formed in the front side surface of the weft insertion shuttle, a shuttle sliding groove is formed in the rear side surface of the weft insertion shuttle, the shuttle sliding groove is in sliding fit with the front side part of the long sliding rail embedded in the weft insertion shuttle, and the rear side part of the long sliding rail is connected with the front side surface of the long sliding seat;

the middle guide device comprises a left middle guide unit and a right middle guide unit which are consistent in structure, the left middle guide unit and the right middle guide unit respectively comprise a longitudinal clamping rod and a clamping head, and the longitudinal clamping rods are perpendicular to the long sliding seat.

The two ends of the rear side surface of the long sliding seat are respectively connected with the front end of a weft insertion longitudinal rod, the middle part of the weft insertion longitudinal rod is in longitudinal sliding fit with the inner cavity of a longitudinal weft insertion barrel, the outer side part of the longitudinal weft insertion barrel is vertically connected with the side part of a vertical weft insertion barrel, and the inner cavity of the vertical weft insertion barrel is in vertical sliding fit with a left vertical rod or a right vertical rod inserted into the inner cavity of the vertical weft insertion barrel.

The rear side surface of the long sliding seat is provided with a longitudinal blind hole, and the longitudinal blind hole is connected with the front end of a weft-guiding longitudinal rod inserted into the longitudinal blind hole.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the combined weaving system of the fabric and the sensor with the conducting wire, the upper reed frame and the lower reed frame are respectively provided with a corresponding weft-inserting shuttle, a cavity between the upper reed strip and the lower reed strip which are arranged in the upper reed frame and the lower reed frame and correspond to each other up and down is clamped, two longitudinal clamping rods pass through the cavity between the reed strips, the head ends of the longitudinal clamping rods are connected with the tail ends of the clamping heads, the conducting wire on the sensor is clamped in the head ends of the clamping heads, when in use, the weft-inserting shuttle corresponding to the upper reed frame is responsible for introducing the upper weft wire into the upper warp wire for weaving, the weft-inserting shuttle corresponding to the lower reed frame is responsible for introducing the lower weft wire into the lower warp wire for weaving, thereby weaving a double-layer fabric containing a hollow structure, meanwhile, the longitudinal clamping rods are responsible for conveying the sensor to the front of the reed frame through the cavity between the reed strips and sending the sensor into the inside of the double-layer fabric, and simultaneously, the subsequent beating-up of the conducting wire by the reed frame, the wires of the sensor are woven together as the wefts, so that the fabric containing the sensor is obtained, the combination effect of the fabric and the sensor is improved, and the monitoring effect of the sensor on pressure or temperature is favorably exerted. Therefore, the utility model discloses can not only make fabric, sensor combine meticulously, do benefit to the monitoring effect of performance sensor moreover.

2. The utility model relates to a fabric and combination of taking wire sensor are weavingd in the system, and the holding head includes wane and lower flat board, and wherein, top surface, the bottom surface of going up the wane are the cambered surface, and lower dull and stereotyped top surface is the cambered surface of indent, and lower dull and stereotyped bottom surface is the plane, and this design not only does benefit to and carries out the centre gripping to the wire, still does benefit to and sends into the wire and return and contract after the shed to prevent that the operation that contracts of holding head causes the wire to pull, and the effect is implanted in the influence. Therefore, the implantation quality of the utility model is high.

3. The utility model relates to a fabric and take combination weaving system of wire sensor, be provided with many parallel reed pieces in the frame that top reed pole, end reed pole, left reed pole, right reed pole constitute, wherein, the structure of left reed pole, right reed pole is unanimous, all include mutually independent upper sub-pole and lower sub-pole, the reed piece includes mutually independent upper reed strip and lower reed strip, during the application, break away from each other through upper sub-pole, lower sub-pole, in order to realize the upper and lower separation of left reed pole, right reed pole, thereby break away from each other upper reed strip, lower reed strip, and then show a chamber between reed strip between upper reed strip, lower reed strip, this chamber between reed strip provides the space in order to send the sensor into the reed frame in front from the reed frame back, be convenient for follow-up send the sensor into inside the double-layer fabric, and carry out the operation of weaving to the wire on the sensor, thereby realize the good combination of sensor, fabric, is beneficial to the exertion of the functions of the sensor. Therefore, the utility model discloses enable the combination effect of fabric, sensor better, favourable sensor efficiency.

4. The utility model relates to a fabric and combination of taking wire sensor are weavingd in the system, set up on the lateral wall of son pole with the communicating fastening hole in inserted bar chamber, the son pole hole has been seted up on the position on nearly its top on the son pole down, same fastening bolt has been inserted jointly to the inside of son pole hole, fastening hole, this design not only can ensure the son pole, when son pole non-break away from down, the stability of whole reed frame, be convenient for break away from after the son pole in addition, the resetting of son pole down, the guide effect is stronger, do benefit to and shorten reset time, and the production efficiency is improved. Therefore, the utility model discloses not only stability is stronger, and work efficiency is higher moreover.

5. The utility model relates to a fabric and combination of taking wire sensor are weavingd in the system, and lower son pole includes next son pole and two son poles down, and the bottom of next son pole is articulated mutually with the top of two son poles down, and this design makes next son pole and two son poles down realize relative rotation to make two son poles down and last son pole realize relative rotation, and then make each beat-up region realize relative rotation, with the effect of beating-up that realizes the difference, satisfy more processing demands. Therefore, the utility model discloses a beat-up effect is better, and the variety is stronger.

6. The utility model relates to a fabric and combination of taking wire sensor weave the system in, indulge the supporting rod and cooperate with left montant or right montant after indulging a centre gripping section of thick bamboo, horizontal supporting rod, horizontal centre gripping section of thick bamboo, erecting a centre gripping section of thick bamboo in proper order, this design makes and indulges the supporting rod and possesses vertical reciprocating motion, horizontal reciprocating motion, vertical reciprocating motion's function simultaneously, and adjustable range is wider, more does benefit to in sending into suitable shed with the wire of sensor to improve the combination precision of sensor, fabric. Therefore, the utility model discloses a weave the precision higher.

7. The utility model relates to a fabric weaves system with combination of taking wire sensor, the trailing flank of long slide is connected with the front end of weft insertion vertical pole, the middle part of weft insertion vertical pole is in proper order through indulging the weft insertion section of thick bamboo, erect and carry out sliding fit with left montant or right montant behind the weft insertion section of thick bamboo, this design makes the weft insertion shuttle on long slide and on it possess vertical reciprocating motion, vertical reciprocating motion's function, adjustable range is wider, not only do benefit to last weft, down the weft send into the weaving of carrying out double-deck fabric in the mouth of weaving that corresponds, and do benefit to and cooperate with well guide device, be convenient for send into in suitable shuttle mouth with the wire of sensor, thereby improve the sensor, the combination precision of fabric. Therefore, the utility model discloses can improve the combination precision of sensor, fabric.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the upper and lower reed frames of fig. 1 in a disengaged state.

Fig. 3 is a schematic view of the combination of the upper and lower reed frames of fig. 1.

Fig. 4 is a schematic view showing the connection of the upper sub-rod and the lower sub-rod in fig. 2.

Fig. 5 is a schematic view showing the connection of the upper and lower reed wires in fig. 2.

Fig. 6 is a schematic view of the hinge connection of the lower sub-rod and the lower sub-rod in fig. 2.

FIG. 7 is a schematic view of the longitudinal clamping bar of FIG. 1 clamping a wire of a sensor.

Fig. 8 is a schematic diagram of the relative positions of the upper weft insertion platform, the longitudinal clamping rod and the lower weft insertion platform according to the present invention.

Fig. 9 is a top view of the upper weft insertion station of fig. 8.

FIG. 10 is a schematic view showing the connection of the longitudinal and vertical weft bobbins in FIG. 9.

FIG. 11 is a schematic view of the weft insertion shuttle and the long slide rail in FIG. 8.

Fig. 12 is a top view of the vertical clamping cylinder of fig. 8.

Fig. 13 is a schematic view of the inner structure of the fabric and the sensor combined together when viewed from the top.

Fig. 14 is a side view of fig. 13.

In the figure: an upper weft guide 1, a middle guide device 2, a left middle guide unit 21, a right middle guide unit 22, a lower weft guide 3, a long slide seat 31, a longitudinal blind hole 311, a long slide rail 32, a weft guide shuttle 33, a weft outlet 331, a shuttle chute 332, a longitudinal clamping rod 4, a longitudinal clamping barrel 41, a transverse clamping rod 42, a transverse clamping barrel 43, a vertical clamping barrel 44, a vertical clamping cavity 441, a clamping head 5, an upper rocker 51, a lower flat plate 52, a weft guide longitudinal rod 6, a longitudinal weft guide barrel 61, a vertical weft guide barrel 62, a left vertical rod 7, a right vertical rod 8, a reed frame 9, a reed blade 90, an upper reed strip 901, a lower reed strip 902, an upper reed column cavity 903, a lower reed insert column 904, an inter-reed rod cavity 905, a top reed rod 91, a bottom reed rod 92, a left reed rod 93, a right reed rod 94, an upper sub rod 95, an insert rod cavity 951, a fastening hole 952, an inner side wall 954, a lower sub rod 96, a fastening rod 961, a lower reed rod 963, a lower bolt hole 964, a lower bolt 964, a sub rod 964, a lower, Bolt cap 971, upper reed frame 98, lower reed frame 99, fabric M, intertexture chamber M1, sensor X, wire X1, upper weft Y, lower weft Z.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1-12, a combined weaving system of fabric and a sensor with a conducting wire comprises an upper reed frame 98, a lower reed frame 99 and two longitudinal clamping rods 4, wherein a plurality of upper reed strips 901 are arranged in the upper reed frame 98, a plurality of lower reed strips 902 are arranged in the lower reed frame 99, the upper reed strips 901 and the lower reed strips 902 are in up-down one-to-one correspondence, a reed strip chamber 905 is formed between the upper reed strips 901 and the lower reed strips 902, two longitudinal clamping rods 4 penetrate through the reed strip chamber 905, the head ends of the longitudinal clamping rods 4 are connected with the tail ends of clamping heads 5, the conducting wire X1 on a sensor X is clamped in the head ends of the clamping heads 5, and a corresponding weft insertion 33 is respectively arranged beside the upper reed frame 98 and the lower reed frame 99.

The clamping head 5 comprises an upper warped plate 51 and a lower flat plate 52, the top surface and the bottom surface of the upper warped plate 51 are both cambered surfaces, the top surface of the lower flat plate 52 is a concave cambered surface, and the bottom surface of the lower flat plate 52 is a plane.

The upper reed frame 98 and the lower reed frame 99 are vertically butted to form a reed frame 9, the reed frame 9 comprises a top reed rod 91 and a bottom reed rod 92 which are parallel to each other, and a left reed rod 93 and a right reed rod 94 which are clamped between the top reed rod 91 and the bottom reed rod 92, the bottom of the top reed rod 91 is connected with the top of the bottom reed rod 92 through a plurality of reed blades 90, every two reed blades 90 are parallel to each other, each reed blade 90 comprises an upper reed strip 901 and a lower reed strip 902 which are independent from each other, the top end of the upper reed strip 901 is connected with the bottom of the top reed rod 91, the bottom end of the upper reed strip 901 is contacted with the top end of the lower reed strip 902, and the bottom end of the lower reed strip 902 is connected with the top of the bottom;

the left reed wire 93 and the right reed wire 94 have the same structure and respectively comprise an upper sub-wire 95 and a lower sub-wire 96 which are independent from each other, the top of the upper sub-wire 95 is connected with the end of the top reed wire 91, an inserting wire cavity 951 is formed in the bottom of the upper sub-wire 95, the bottom of the lower sub-wire 96 is connected with the end of the bottom reed wire 92, the top of the lower sub-wire 96 is connected with the bottom end of the inner inserting wire 961, the top end of the inner inserting wire 961 extends upwards, the inner inserting wire 961 is in insertion fit with the corresponding inserting wire cavity 951, and the inner inserting wire 961 and the inserting wire cavity 951 are arranged close to the contact positions of the upper reed wire 901 and the lower reed wire 902.

The side wall of the upper sub-rod 95 is provided with a fastening hole 952 communicated with the rod inserting cavity 951, the part of the lower sub-rod 96 close to the top end thereof is provided with a sub-rod hole 962, the sub-rod hole 962 is opposite to the fastening hole 952, and the same fastening bolt 97 is inserted into the sub-rod hole 962 and the fastening hole 952.

An upper reed column cavity 903 is formed in the bottom of the upper reed strip 901, the top of the lower reed strip 902 is connected with the bottom end of a lower reed inserting column 904, the top end of the lower reed inserting column 904 extends upwards, and the lower reed inserting column 904 is matched with the corresponding upper reed column cavity 903 in an inserting mode.

The lower sub bar 96 includes a next sub bar 963 and a next sub bar 964, a top end of the next sub bar 963 is connected to a bottom end of the inner sub bar 961, a bottom end of the next sub bar 963 is hinged to a top end of the next sub bar 964, a bottom end of the next sub bar 964 is connected to an end of the bottom reed bar 92, a junction of the next sub bar 963 and the next sub bar 964 is disposed near the inner sub bar 961, and a length of the next sub bar 963 is smaller than a length of the next sub bar 964.

Indulge the middle part of supporting rod 4 and carry out fore-and-aft sliding fit along the inner chamber of indulging a centre gripping section of thick bamboo 41, the outer end of indulging a centre gripping section of thick bamboo 41 is connected with the inner of violently supporting rod 42, the middle part of violently supporting rod 42 carries out horizontal sliding fit along the inner chamber of violently centre gripping section of thick bamboo 43, the trailing flank of violently centre gripping section of thick bamboo 43 is connected with the leading flank of erecting a centre gripping section of thick bamboo 44, erect centre gripping chamber 441 has been seted up to the inside of erecting a centre gripping section of thick bamboo 44, this erect centre gripping chamber 441 and carry out vertical sliding fit along inserting in its inside left montant 7 or.

The combined weaving system also comprises an upper weft insertion platform 1, a middle weft insertion device 2 and a lower weft insertion platform 3 which are sequentially arranged from top to bottom, and the upper weft insertion platform 1 and the lower weft insertion platform 3 are parallel to each other;

the upper weft insertion platform 1 and the lower weft insertion platform 3 have the same structure and respectively comprise a long sliding seat 31, a long sliding rail 32 and a weft insertion shuttle 33, wherein the front side surface of the weft insertion shuttle 33 is provided with a weft outlet 331, the rear side surface of the weft insertion shuttle 33 is provided with a shuttle sliding chute 332, the shuttle sliding chute 332 is in sliding fit with the front side part of the long sliding rail 32 embedded in the weft insertion shuttle 33, and the rear side part of the long sliding rail 32 is connected with the front side surface of the long sliding seat 31;

the middle guide device 2 comprises a left middle guide unit 21 and a right middle guide unit 22 which are consistent in structure, the left middle guide unit 21 and the right middle guide unit 22 respectively comprise a longitudinal clamping rod 4 and a clamping head 5, and the longitudinal clamping rod 4 is perpendicular to the long slide carriage 31.

The two ends of the rear side surface of the long slide seat 31 are respectively connected with the front end of a weft insertion longitudinal rod 6, the middle part of the weft insertion longitudinal rod 6 is in longitudinal sliding fit along the inner cavity of a longitudinal weft guide cylinder 61, the outer side part of the longitudinal weft guide cylinder 61 is vertically connected with the side part of a vertical weft guide cylinder 62, and the inner cavity of the vertical weft guide cylinder 62 is in vertical sliding fit along a left vertical rod 7 or a right vertical rod 8 inserted in the inner cavity of the vertical weft guide cylinder 62.

The rear side surface of the long sliding seat 31 is provided with a longitudinal blind hole 311, and the longitudinal blind hole 311 is connected with the front end of the weft-insertion longitudinal rod 6 inserted into the longitudinal blind hole 311.

The principle of the utility model is explained as follows:

referring to fig. 1, 2 and 3, when a sensor X and a wire X1 connected to the sensor X are required to be fed, a space needs to be formed in a reed frame 9 so that the sensor X can be fed from the back side of the reed frame 9 to the front side, thereby facilitating the subsequent beating-up operation of the reed frame 9 on the wire X1, and therefore, the utility model discloses break away an upper sub-rod 95 and a lower sub-rod 96 from top to bottom, thereby making an upper reed strip 901 and a lower reed strip 902 break away from each other, further producing a cavity 905 between reed strips for feeding the sensor X, when the sensor X is fed to the front side of the reed frame 9, resetting the upper sub-rod 95 and the lower sub-rod 96 to reset the upper reed strip 901 and the lower reed strip 902, and then beating-up the wire X1 on the sensor X by the reed frame 9, so as to weave the wire X1 into a fabric M and feed the sensor X into a double-layer fabric, thereby achieving the perfect combination of the fabric and the sensor.

Referring to fig. 13 and 14, after the sensor X and the fabric M are combined with each other, the sensor X is implanted into the space M1 in the fabric M, and the wire X1 is used as a weft thread to be woven into the fabric M. The weaving chamber M1 comprises an upper layer weaving body and a lower layer weaving body, which are respectively a weaving body of an upper weft Y and an upper warp, and a weaving body of a lower weft Z and a lower warp. The utility model discloses a main effect is just sending into wire X1, upward weft Y, weft Z into corresponding in the fell of a loom with weaving with the warp that corresponds to realize fabric M, sensor X's meticulous combination.

Example 1:

referring to fig. 1-12, a combined weaving system of fabric and a sensor with a conducting wire comprises an upper reed frame 98, a lower reed frame 99 and two longitudinal clamping rods 4, wherein a plurality of upper reed strips 901 are arranged in the upper reed frame 98, a plurality of lower reed strips 902 are arranged in the lower reed frame 99, the upper reed strips 901 and the lower reed strips 902 are in up-down one-to-one correspondence, a reed strip chamber 905 is formed between the upper reed strips 901 and the lower reed strips 902, two longitudinal clamping rods 4 penetrate through the reed strip chamber 905, the head ends of the longitudinal clamping rods 4 are connected with the tail ends of clamping heads 5, the conducting wire X1 on a sensor X is clamped in the head ends of the clamping heads 5, and a corresponding weft insertion 33 is respectively arranged beside the upper reed frame 98 and the lower reed frame 99.

Example 2:

the basic contents are the same as example 1, except that:

the upper reed frame 98 and the lower reed frame 99 are vertically butted to form a reed frame 9, the reed frame 9 comprises a top reed rod 91 and a bottom reed rod 92 which are parallel to each other, and a left reed rod 93 and a right reed rod 94 which are clamped between the top reed rod 91 and the bottom reed rod 92, the bottom of the top reed rod 91 is connected with the top of the bottom reed rod 92 through a plurality of reed blades 90, every two reed blades 90 are parallel to each other, each reed blade 90 comprises an upper reed strip 901 and a lower reed strip 902 which are independent from each other, the top end of the upper reed strip 901 is connected with the bottom of the top reed rod 91, the bottom end of the upper reed strip 901 is contacted with the top end of the lower reed strip 902, and the bottom end of the lower reed strip 902 is connected with the top of the bottom; the left reed wire 93 and the right reed wire 94 have the same structure and respectively comprise an upper sub-wire 95 and a lower sub-wire 96 which are independent from each other, the top of the upper sub-wire 95 is connected with the end of the top reed wire 91, an inserting wire cavity 951 is formed in the bottom of the upper sub-wire 95, the bottom of the lower sub-wire 96 is connected with the end of the bottom reed wire 92, the top of the lower sub-wire 96 is connected with the bottom end of the inner inserting wire 961, the top end of the inner inserting wire 961 extends upwards, the inner inserting wire 961 is in insertion fit with the corresponding inserting wire cavity 951, and the inner inserting wire 961 and the inserting wire cavity 951 are arranged close to the contact positions of the upper reed wire 901 and the lower reed wire 902.

Example 3:

the basic content is the same as that of the embodiment 2, except that:

the lower sub bar 96 includes a next sub bar 963 and a next sub bar 964, a top end of the next sub bar 963 is connected to a bottom end of the inner sub bar 961, a bottom end of the next sub bar 963 is hinged to a top end of the next sub bar 964, a bottom end of the next sub bar 964 is connected to an end of the bottom reed bar 92, a junction of the next sub bar 963 and the next sub bar 964 is disposed near the inner sub bar 961, and a length of the next sub bar 963 is smaller than a length of the next sub bar 964.

Example 4:

the basic contents are the same as example 1, except that:

the combined weaving system also comprises an upper weft insertion platform 1, a middle weft insertion device 2 and a lower weft insertion platform 3 which are sequentially arranged from top to bottom, and the upper weft insertion platform 1 and the lower weft insertion platform 3 are parallel to each other; the upper weft insertion platform 1 and the lower weft insertion platform 3 have the same structure and respectively comprise a long sliding seat 31, a long sliding rail 32 and a weft insertion shuttle 33, wherein the front side surface of the weft insertion shuttle 33 is provided with a weft outlet 331, the rear side surface of the weft insertion shuttle 33 is provided with a shuttle sliding chute 332, the shuttle sliding chute 332 is in sliding fit with the front side part of the long sliding rail 32 embedded in the weft insertion shuttle 33, and the rear side part of the long sliding rail 32 is connected with the front side surface of the long sliding seat 31; the middle guide device 2 comprises a left middle guide unit 21 and a right middle guide unit 22 which are consistent in structure, the left middle guide unit 21 and the right middle guide unit 22 respectively comprise a longitudinal clamping rod 4 and a clamping head 5, and the longitudinal clamping rod 4 is perpendicular to the long slide carriage 31; the two ends of the rear side surface of the long sliding seat 31 are respectively connected with the front end of a weft insertion longitudinal rod 6, the middle part of the weft insertion longitudinal rod 6 is in longitudinal sliding fit along the inner cavity of a longitudinal weft insertion cylinder 61, the outer side part of the longitudinal weft insertion cylinder 61 is vertically connected with the side part of a vertical weft insertion cylinder 62, and the inner cavity of the vertical weft insertion cylinder 62 is in vertical sliding fit along a left vertical rod 7 or a right vertical rod 8 inserted in the vertical weft insertion cylinder; indulge the middle part of supporting rod 4 and carry out fore-and-aft sliding fit along the inner chamber of indulging a centre gripping section of thick bamboo 41, the outer end of indulging a centre gripping section of thick bamboo 41 is connected with the inner of violently supporting rod 42, the middle part of violently supporting rod 42 carries out horizontal sliding fit along the inner chamber of violently centre gripping section of thick bamboo 43, the trailing flank of violently centre gripping section of thick bamboo 43 is connected with the leading flank of erecting a centre gripping section of thick bamboo 44, erect centre gripping chamber 441 has been seted up to the inside of erecting a centre gripping section of thick bamboo 44, this erect centre gripping chamber 441 and carry out vertical sliding fit along inserting in its inside left montant 7 or.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiment, but all equivalent modifications or changes made by those skilled in the art according to the present invention should be included in the protection scope of the claims.

Claims (10)

1. A system for weaving a fabric in combination with a sensor having a wire, comprising: the combined weaving system comprises an upper reed frame (98), a lower reed frame (99) and two longitudinal clamping rods (4), wherein a plurality of upper reed strips (901) are arranged in the upper reed frame (98), a plurality of lower reed strips (902) are arranged in the lower reed frame (99), the upper reed strips (901) and the lower reed strips (902) are in one-to-one correspondence from top to bottom, a cavity (905) between the reed strips is formed between the upper reed strips (901) and the lower reed strips (902), two longitudinal clamping rods (4) penetrate through the cavity (905) between the reed strips and pass through the longitudinal clamping rods (4), the head ends of the longitudinal clamping rods (4) are connected with the tail ends of clamping heads (5), a lead (X1) on a sensor (X) is clamped in the head ends of the clamping heads (5), and a corresponding weft guide shuttle (33) is arranged beside the upper reed frame (98) and the lower reed frame (99).

2. A fabric to wire sensor bonded weaving system according to claim 1 characterized in that: the clamping head (5) comprises an upper warping plate (51) and a lower flat plate (52), the top surface and the bottom surface of the upper warping plate (51) are cambered surfaces, the top surface of the lower flat plate (52) is a concave cambered surface, and the bottom surface of the lower flat plate (52) is a plane.

3. A fabric and wire sensor bonded weaving system according to claim 1 or 2, characterized in that: the upper reed frame (98) and the lower reed frame (99) are vertically butted to form a reed frame (9), the reed frame (9) comprises a top reed rod (91) and a bottom reed rod (92) which are parallel to each other, and a left reed rod (93) and a right reed rod (94) which are clamped between the top reed rod and the bottom reed rod, the bottom of the top reed rod (91) is connected with the top of the bottom reed rod (92) through a plurality of reed blades (90), every two reed blades (90) are parallel to each other, the reed blades (90) comprise an upper reed strip (901) and a lower reed strip (902) which are independent from each other, the top end of the upper reed strip (901) is connected with the bottom of the top reed rod (91), the bottom end of the upper reed strip (901) is contacted with the top end of the lower reed strip (902), and the bottom end of the lower reed strip (902) is connected with the top of the bottom reed rod (;

the left reed rod (93) and the right reed rod (94) are consistent in structure and respectively comprise an upper sub rod (95) and a lower sub rod (96) which are independent of each other, the top of the upper sub rod (95) is connected with the end of a top reed rod (91), a rod inserting cavity (951) is formed in the bottom of the upper sub rod (95), the bottom of the lower sub rod (96) is connected with the end of a bottom reed rod (92), the top of the lower sub rod (96) is connected with the bottom end of an inner inserting rod (961), the top end of the inner inserting rod (961) extends upwards, the inner inserting rod (961) is in insertion fit with the corresponding rod inserting cavity (951), and the inner inserting rod (961) and the rod inserting cavity (951) are arranged close to the contact positions of the upper reed strip (901) and the lower reed strip (902).

4. A fabric to wire sensor bonded weaving system according to claim 3 characterized in that: the side wall of the upper sub rod (95) is provided with a fastening hole (952) communicated with the insert rod cavity (951), the part, close to the top end, of the lower sub rod (96) is provided with a sub rod hole (962), the sub rod hole (962) is opposite to the fastening hole (952), and the same fastening bolt (97) is inserted into the sub rod hole (962) and the fastening hole (952).

5. A fabric to wire sensor bonded weaving system according to claim 3 characterized in that: an upper reed column cavity (903) is formed in the bottom of the upper reed strip (901), the top of the lower reed strip (902) is connected with the bottom end of a lower reed inserting column (904), the top end of the lower reed inserting column (904) extends upwards, and the lower reed inserting column (904) is matched with the corresponding upper reed column cavity (903) in an inserting mode.

6. A fabric to wire sensor bonded weaving system according to claim 3 characterized in that: the lower sub-bar (96) comprises a next sub-bar (963) and a next sub-bar (964), the top end of the next sub-bar (963) is connected with the bottom end of the inner sub-bar (961), the bottom end of the next sub-bar (963) is hinged with the top end of the next sub-bar (964), the bottom end of the next sub-bar (964) is connected with the end of the bottom reed bar (92), the junction of the next sub-bar (963) and the next sub-bar (964) is arranged near the inner sub-bar (961), and the length of the next sub-bar (963) is smaller than that of the next sub-bar (964).

7. A fabric and wire sensor bonded weaving system according to claim 1 or 2, characterized in that: indulge the middle part of holding rod (4) and carry out fore-and-aft sliding fit along the inner chamber of indulging a centre gripping section of thick bamboo (41), the outer end of indulging a centre gripping section of thick bamboo (41) is connected with the inner of violently holding rod (42), the middle part of violently holding rod (42) carries out horizontal sliding fit along the inner chamber of violently centre gripping section of thick bamboo (43), the trailing flank of violently centre gripping section of thick bamboo (43) is connected with the leading flank of erecting a centre gripping section of thick bamboo (44), erect centre gripping chamber (441) have been seted up to the inside of erecting a centre gripping section of thick bamboo (44), this erect centre gripping chamber (441) along inserting in its inside left montant (7) or right montant (8) carry out vertical sliding fit, and left montan.

8. A fabric to wire sensor bonded weaving system according to claim 7 characterized in that: the combined weaving system also comprises an upper weft insertion platform (1), a middle weft insertion device (2) and a lower weft insertion platform (3) which are arranged from top to bottom in sequence, and the upper weft insertion platform (1) and the lower weft insertion platform (3) are parallel to each other;

the structure of the upper weft insertion platform (1) is consistent with that of the lower weft insertion platform (3), the upper weft insertion platform and the lower weft insertion platform both comprise long sliding seats (31), long sliding rails (32) and weft insertion shuttles (33), the front side surfaces of the weft insertion shuttles (33) are provided with weft outlets (331), the rear side surfaces of the weft insertion shuttles (33) are provided with shuttle sliding chutes (332), the shuttle sliding chutes (332) are in sliding fit with the front side parts of the long sliding rails (32) embedded in the shuttle sliding chutes, and the rear side parts of the long sliding rails (32) are connected with the front side surfaces of the long sliding seats (31);

the middle guide device (2) comprises a left middle guide unit (21) and a right middle guide unit (22) which are consistent in structure, the left middle guide unit (21) and the right middle guide unit (22) respectively comprise a longitudinal clamping rod (4) and a clamping head (5), and the longitudinal clamping rods (4) are perpendicular to the long sliding seat (31).

9. A fabric to wire sensor bonded weaving system according to claim 8 characterized in that: the two ends of the rear side surface of the long sliding seat (31) are respectively connected with the front end of a weft insertion longitudinal rod (6), the middle part of the weft insertion longitudinal rod (6) is in longitudinal sliding fit with the inner cavity of a longitudinal weft insertion cylinder (61), the outer side part of the longitudinal weft insertion cylinder (61) is vertically connected with the side part of a vertical weft insertion cylinder (62), and the inner cavity of the vertical weft insertion cylinder (62) is in vertical sliding fit with a left vertical rod (7) or a right vertical rod (8) inserted in the inner cavity of the vertical weft insertion cylinder.

10. A fabric to wire sensor bonded weaving system according to claim 9 characterized in that: the rear side surface of the long sliding seat (31) is provided with a longitudinal blind hole (311), and the longitudinal blind hole (311) is connected with the front end of a weft-guiding longitudinal rod (6) inserted into the longitudinal blind hole.

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