CN113026237A - Fabric support frame and needle thread access method - Google Patents

Abstract

The invention provides a fabric support frame and a needle thread storing and taking method, comprising a frame body and a needle taking device arranged on the frame body, wherein the frame body comprises a support rod, the needle taking device comprises a needle taking plate, a needle placing assembly and a thread releasing roller, the thread releasing roller is arranged on the needle taking plate, a plurality of unit grooves are arranged on the needle taking plate, the needle placing assembly is arranged in the unit grooves corresponding to the thread releasing roller, the needle placing assembly comprises a plurality of partition plates arranged on the needle taking plate, stroke blocks arranged in the unit grooves and control pieces arranged in the unit grooves, the partition plates and the unit grooves are arranged at intervals, the stroke blocks and the unit grooves are arranged correspondingly, limit blocks corresponding to the stroke blocks are fixedly arranged in the unit grooves, the limit blocks are in an inclined state, the stroke blocks can be ejected out of the unit grooves under the control of the control pieces, storage grooves are arranged on the stroke blocks and the limit blocks, an embroidery needle for disordered needle embroidery can be inserted into the storage grooves to be controlled by the, therefore, the marks of the needles and the threads in the storage groove can be rapidly stored and taken, and the disordered needlework process is simple and convenient to carry out.

Description

Fabric support frame and needle thread access method

Technical Field

The invention relates to the technical field of silk cloth support, in particular to a cloth support frame and a needle thread storing and taking method.

Background

The disordered needle embroidery is an embroidery method which is widely distributed in the Chinese needle embroidery technology, and particularly, when the disordered needle embroidery is carried out on cloth, various embroidery threads are often used and are thin and soft, the embroidery threads are often wound into a group in the process of carrying out the needle embroidery, and the threading is often unchanged during the threading process, so that the efficiency of the disordered needle embroidery is reduced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the embroidery thread is often twisted together during the disordered needle embroidery, which causes the embroidery thread to be always unchanged when the embroidery thread is threaded and taken out.

The technical scheme adopted by the invention for solving the technical problems is as follows: a fabric support frame comprises a frame body and a needle taking device arranged on the frame body, wherein the frame body comprises a support rod, the needle taking device comprises a needle taking plate arranged on the support rod, a needle placing assembly and a pay-off roller arranged on the needle taking plate, the pay-off roller is arranged on the needle taking plate, a plurality of unit grooves are formed in the needle taking plate, the needle placing assembly corresponds to the pay-off roller, the needle placing assembly comprises a plurality of partition plates arranged on the needle taking plate, travel blocks arranged in the unit grooves and control pieces arranged in the unit grooves, the partition plates and the unit grooves are arranged at intervals, the travel blocks and the unit grooves are correspondingly arranged, travel limit blocks corresponding to the travel blocks are fixedly arranged in the unit grooves, the travel limit blocks are in an inclined state, and the travel blocks are controlled by the control pieces to be ejected out of the unit grooves, storage grooves are formed in the stroke block and the stroke limiting block, and embroidery needles for disordered needle embroidery can be stored in the storage grooves in an inserting mode.

Furthermore, the stroke block is of an L-shaped structure, a pushing block is arranged on the side face, facing the unit grooves, of the stroke block, the control piece corresponds to the pushing block, and the control piece controls the stroke block to slide on the stroke limiting block through the pushing block.

Furthermore, the control piece includes the elastic sheet and a plurality of spring of installing in the unit groove, the elastic sheet with the ejector pad corresponds, spring fixed mounting in the ejector pad with on the cell wall of unit groove, and the spring runs through the elastic sheet setting, the elastic sheet is the electromagnetism piece, but the magnetism of elastic sheet is inhaled the ejector pad.

Further, install pressure sensor in the storage tank, be provided with control panel on getting the faller, pressure sensor and the equal electric connection of flexure strip is in on the control panel.

Further, a needle thread access method is based on the fabric support frame, and the needle thread access method comprises the following steps: step S1: after inserting embroidery threads, the embroidery needles are stored in a storage groove, and after pressure is sensed by a pressure sensor in the storage groove, the pressure is displayed on a control panel, and a user marks corresponding embroidery thread color numbers; step S2: after the user marks the embroidery thread color number on the control panel, the control panel starts the elastic sheet to promote the stroke block to carry the embroidery needle to be stored in the unit groove; step S3: after the user selects the color number of the embroidery thread through the control panel, the control panel controls the elastic pieces in the corresponding unit grooves to demagnetize, the stroke blocks are pushed out of the unit grooves by the pushing of the springs, and the embroidery needles in the unit grooves are pushed out with the embroidery thread.

Further, put the needle subassembly still including installing apron on the baffle, the apron lid is established sealedly between the baffle with the space that the unit cell corresponds, the stroke limit piece the stroke piece and the equal fixed mounting of control extremely in the space, the stroke limit piece fixed mounting be in on the apron.

Furthermore, a containing groove is formed in the needle taking plate, the unit grooves are formed in the containing groove, and the cover plate sealing covers are arranged on the notches of the containing groove.

Further, the paying-off roller is arranged on the wall of the accommodating groove, and an embroidery thread cylinder for disordered needle embroidery is sleeved on the paying-off roller.

Further, fixed mounting installation slide rail on the lateral wall of bracing piece, it has the mounting groove to open on the faller to get, it passes through to get the faller the mounting groove alternate install extremely on the installation slide rail.

The invention has the advantages that the embroidery needle and the embroidery thread required by the disordered needle embroidery are prepared in advance, after the embroidery thread and the embroidery needle are connected in series, the embroidery needle is placed in the storage groove, the embroidery needle enters the unit groove along with the stroke block, the stroke block can be pushed out of the unit groove through the driving control part, the embroidery needle can be pushed out of the unit groove, the embroidery needle and the embroidery thread are matched firstly before the disordered needle embroidery is carried out, meanwhile, the embroidery needle in the unit groove can be pushed out by the control part, the embroidery needle and the embroidery thread are convenient to store and take, the embroidery thread is prevented from being wound mutually, the needle and the embroidery thread are convenient to take in the disordered needle embroidering process, and the disordered needle embroidering process is convenient to carry out.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a fabric support frame according to the present invention;

FIG. 2 is a front view of the clamping device shown in FIG. 1;

FIG. 3 is a cross-sectional view taken along A-A in FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 5 is a front view of the needle extraction device of FIG. 1;

FIG. 6 is a cross-sectional view taken along C-C of FIG. 5;

FIG. 7 is a flow chart of a method of the needle extraction device of FIG. 5;

in the figure: a fabric support frame-100, a frame body-10, a clamping device-20, a needle taking device-30, a support rod-110, an inclined rod-120, a limit ring-130, a hinge groove-111, a hinge rod-112, a fixed rod-140, a chute-113, a clamping rod-210, a tensioning component-220, a control block-211, a pressing cover-212, a driving screw rod-213, a control nut-214, a clamping groove-215, a pressing groove-216, a base plate-217, an electromagnetic plate-218, a sliding rod-221, an edge clamping block-222, a movable block-223, a limit frame-224, a butterfly nut-225, an edge clamping groove-226, a movable screw rod-227, a movable nut-228, a needle taking plate-310, a needle releasing component-320, a paying-off roller-330, a paying off roller, The device comprises a containing groove-312, a unit groove-313, a clapboard-321, a cover plate-322, a stroke block-324, a control piece-325, a stroke limit block-323, a push block-328, an elastic sheet-326, a spring-327, a storage groove-329 and a control panel-314.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

As shown in fig. 1 to 7, the present invention provides a fabric support and a needle thread storing and taking method 100, including a frame body 10, a holding device 20 mounted on the frame body 10, and a needle taking device 30.

The frame body 10 includes a support rod 110, an inclined rod 120 hinged to the support rod 110, and a limit ring 130 sleeved on the support rod 110 and the inclined rod 120, wherein the support rod 110 is provided with a hinge groove 111, the hinge groove 111 is provided with a hinge rod 112, an end of the inclined rod 120 is inserted into the hinge groove 111, an end of the inclined rod 120 is hinged to the hinge rod 112, the limit ring 130 is sleeved on the inclined rod 120 and the support rod 110, the limit ring 130, the inclined rod 120 and the support rod 110 form a triangular structure, and by changing a binding perimeter of the limit ring 130, an included angle between the inclined rod 120 and the support rod 110 can be changed, thereby changing an inclination angle of the support rod 110.

Preferably, there are two support bars 110, two diagonal bars 120, and two restriction rings 130, and a fixing bar 140 is fixedly connected between the two support bars 110, and the interval between the two support bars 110 can be fixed by the fixing bar 140, thereby changing the interval between the two support bars 110 according to cloth.

The end of the support rod 110 far away from the fixing rod 140 is provided with a sliding groove 113, the groove opening of the sliding groove 113 is arranged oppositely, the sliding groove 113 is an I-shaped groove arranged along the axial direction of the support rod 110, the side wall of the support rod 110 is fixedly provided with an installation sliding rail, and the installation sliding rail is arranged on the side edge of one of the support rods 110 far away from the sliding groove 113.

As shown in fig. 2 to 4, the clamping device 20 includes two clamping rods 210 with two ends slidably clamped in the sliding slots 113 and a pulling assembly 220 disposed on the supporting rod 110.

The number of the clamping rods 210 is at least two, the end part of the clamping rod 210 is fixedly provided with a control block 211, the control block 211 can be inserted in the sliding groove 113 in a sliding way, wherein the control block 211 close to the fixing rod 140 is arranged on the groove wall of the sliding groove 113 in a magnetic fixed mode, and the other control block 211 is controllably movably clamped in the sliding groove 113. Preferably, the end portion of the support rod 110 is sleeved with a pressing cover 212, a driving screw 213 is movably inserted into the pressing cover 212, the driving screw 213 is rotatably inserted into the driving screw 213, a control nut 214 is fittingly sleeved on the driving screw 213, the control nut 214 is rotatably disposed in the limiting cover 214, the driving screw 214 penetrates through the pressing cover 212 and then is fixedly mounted on the control block 211, and specifically, the driving screw 214 is only fixedly connected to the control block 211 close to the pressing cover 212. When the control nut 214 rotates on the pressing cover 212, the driving screw 214 can be controlled to be screwed out in a direction away from the supporting rod 110, so as to drive the clamping rod 210 to move along the axis of the supporting rod 110 separately.

The holding bar 210 is provided with holding grooves 215, and the fabric is inserted into the holding grooves 214, and when the holding bar 210 is separated, the fabric is pulled in the direction of the support bar 110 while being held.

Preferably, the pressing grooves 216 are formed on the two side groove walls of the clamping groove 215, the corresponding base plate 217 and the corresponding electromagnetic plate 218 are respectively installed in the two pressing grooves 216, the base plate 217 is made of a metal material easy to magnetize, the electromagnetic plate 218 is slidably installed in the pressing grooves 216, the electric wire of the electromagnetic plate 218 penetrates through the clamping rod 210 and then is electrically connected to the controllable power supply, when the electromagnetic plate 218 is electrified, the electromagnetic plate 218 can be adsorbed on the base plate 217, and the fabric is clamped in the clamping groove 215 under the magnetic attraction effect between the base plate 217 and the electromagnetic plate 218.

The pulling assembly 220 includes a sliding bar 221 slidably inserted through the clamping groove 215, a crimping block 222 mounted on the sliding bar 221, and a movable block 223 disposed within the crimping block 222.

Two ends of the sliding rod 221 are slidably inserted into the clamping grooves 215, two ends of the sliding rod 221 are respectively provided with a limiting frame 224, the limiting frames 224 are slidably clamped on the clamping rods 210, one end of the sliding rod 221 is detachably installed on the limiting frame 224, the other end of the sliding rod 221 is movably inserted into the limiting frame 224, the end portion of the sliding rod 221 is further sleeved with a butterfly nut 225 in a matched mode, the butterfly nut 225 is arranged on the limiting frame 224, the limiting frame 224 is pressed onto the clamping rods 210 through the butterfly nut 225, when the limiting frame 224 is pressed onto the clamping rods 210 through the butterfly nut 225, the position of the limiting frame 224 on the clamping rods 210 is limited through the locking friction force, the position of the sliding rod 221 on the clamping rods 210 is limited, and the position of the edge clamping blocks 222 relative to the supporting rods 110 is limited.

The edge clamping block 222 is fixedly arranged on the sliding rod 221, an edge clamping groove 226 corresponding to the fabric is formed in the edge clamping block 222, the edge clamping block 222 is clamped on two side edges of the fabric through the edge clamping groove 226, the movable block 223 is arranged in the edge clamping groove 226, the movable block 223 is arranged between the edge clamping groove 226 and the fabric, a movable screw 227 is arranged on the movable block 223, the movable screw 227 penetrates through the groove wall of the edge clamping groove 226, a movable nut 228 is arranged on the movable screw 227, and when the movable nut 228 rotates on the edge clamping block 222, the movable block 223 can be lifted and pulled to be attached to the groove wall of the edge clamping groove 226, so that the fabric is tightly clamped in the edge clamping groove 226.

The two sides of the fabric are inserted into the clamping groove 215, the electromagnetic plate 218 in the clamping groove 215 generates magnetic force after being powered, the electromagnetic plate 218 moves towards the base plate 217 under the pulling of the magnetic force until the fabric is pressed on the base plate 217, meanwhile, the control block 211 on one clamping rod 210 is magnetically adsorbed onto the groove wall of the chute 113, the control nut 214 is rotated on the pressing cover 212, the drive screw rod 213 moves out of the chute 113 under the drive of the control nut 214, the clamping rod 210 slides along the chute 113 under the drive of the drive screw rod 213, the fabric is unidirectionally pulled under the pulling of the two clamping rods 210, then the fabric is clamped between the groove walls of the movable block 223 and the edge clamping groove 226 by adjusting the movable nut 228 in the pulling assembly 220, the distance between the two edge clamping blocks 222 can be adjusted by the sliding rod 221, the fabric is parallelly pulled, and then the limit frame 224 is pressed by the butterfly nut 225, the position of the limit frame 224 on the clamping rod 210 is locked, and the fabric is pulled tightly between the two edge clamping blocks 222, so that the fabric pulling and laying process is completed. In the process, the fabric can be clamped and pulled by the clamping rods 210 and the edge clamping blocks 222 respectively, so that the fabric can be quickly paved, the operation of stretching the fabric before the disordered needle embroidery process is carried out is saved, the fabric can be uniformly paved, and the completion efficiency of the embroidery needle process is ensured.

As shown in fig. 1, 5 and 6, the needle taking device 30 includes a needle taking plate 310 mounted on the mounting slide rail in a matching manner, a needle placing assembly 320 arranged on the needle taking plate 310, and a thread releasing roller 330.

The side wall of the needle taking plate 310 is provided with a mounting groove which is slidably sleeved on the mounting slide rail, the needle taking plate 310 is detachably mounted on the side edge of the support rod 110 through the mounting groove, the needle taking plate 310 is further provided with a containing groove 312, the containing groove 312 is parallelly arranged on the side surface of the needle taking plate 310, the wall of the containing groove 312 is further provided with a plurality of unit grooves 313, and the unit grooves 313 are parallelly laid on the wall of the containing groove 312 side by side.

The plurality of the thread releasing rollers 330 are arranged in parallel on the groove wall of the accommodating groove 312 in the direction perpendicular to the supporting rod 110, embroidery threads used in the disordered needle embroidery are sleeved on the thread releasing rollers 330, and the embroidery threads are drawn from the thread releasing rollers 330 and then extend into the unit grooves 212.

The needle placing assembly 320 includes a plurality of partitions 321 installed in the receiving groove 312, a cover plate 322 covering the receiving groove 312, a stroke block 324 disposed in the receiving groove 312, and a control member 325 disposed in the unit groove 313.

The partition boards 321 are arranged in the accommodating groove 312 and the unit grooves 212 at intervals, the cover board 322 is arranged on the side edge of the partition board 321 far away from the unit grooves 212 in a covering mode and can be connected, the cover board 322 seals gaps among the partition boards 321 to form a cuboid needle taking space communicated with the unit grooves 212, the cover board 322 is further fixedly provided with the stroke limiting block 323, the stroke limiting block 323 is arranged on the side face of the cover board 322 in an inclined mode, the stroke limiting block 323 is arranged in the needle taking space, the stroke block 324 is slidably lapped on the stroke limiting block 323, the stroke block 324 is approximately in an L-shaped bent strip-block structure, the part of the stroke block 324 is accommodated in the unit grooves 212, and the stroke block 324 is fixedly provided with the pushing block 328 corresponding to the control piece 325.

The control member 325 includes an elastic plate 326 and a plurality of springs 327 fixedly installed in the unit cell 212, the elastic plate 326 corresponds to the push block 328, the springs 327 are disposed through the elastic plate 326, and two ends of the springs 327 are respectively and fixedly installed on the push block 328 and the cell walls of the unit cell 212, the elastic plate 326 is fixed on the cell walls of the unit cell 212, the elastic plate 326 is also an electromagnetic plate, when the elastic plate 326 is magnetized, the push block 328 can be attracted, the push block 328 and the stroke block 324 overcome the elasticity of the springs 326, the stroke block 324 is retracted into the unit cell 212, and since the stroke block 324 slides along the shape of the stroke block 323, the stroke block 324 can move inward and downward, and thus, is completely accommodated in the unit cell 212. The stroke block 324 and the stroke limiting block 323 are further provided with a storage groove 329, the storage groove 329 corresponds to an embroidery needle used for disordered needle embroidery, and it can be understood that after the embroidery needle and an embroidery thread are connected in a penetrating manner, the embroidery needle can be stored in the storage groove 329, and the stroke block 324 is absorbed into the unit groove 212 through the elastic sheet 326 and the spring 327, so that the embroidery needle and the embroidery thread can be stored correspondingly.

Further, the needle fetching plate 310 is further provided with a control panel 314, the control panel 314 is a touch screen capable of interacting with a user, a pressure sensor is arranged in the storage groove 329, the pressure sensor preferably adopts a standard working condition pressure sensor with the model number PT124G-210, the pressure sensor and the elastic sheet 326 are both electrically connected to the control panel 314, and the control panel 314 can control the magnetizing and demagnetizing processes of the elastic sheet 326, so as to control the pop-up of the embroidery needle and fetch the embroidery thread with the corresponding color number, as shown in fig. 7, the specific control process is as follows:

step S1: the pressure sensor senses the embroidery needle, the embroidery needle is placed in the storage groove 329, the pressure sensor senses the pressure and transmits an electric signal to the control panel 314, the control panel 314 calls out a corresponding identifier of the pressure sensor, and a user edits a corresponding color number.

Step S2: the control panel 314 controls the magnetizing process of the elastic pieces 326, that is, the control panel 314 magnetizes the corresponding elastic pieces 326 according to the received electric signals, and the stroke block 324 for storing the embroidery needle is received in the unit groove 212 through the magnetic attraction effect of the elastic pieces 326, thereby realizing the identification storage of the embroidery thread.

Step S3: the needle is taken out through the control panel 314, the user controls the elastic sheet 326 to be demagnetized through the control panel 314, and the push block 328 and the stroke block 324 are pushed out from the unit groove 212 under the action of the spring 327, so that the automatic pop-up of the embroidery needle is realized.

Since there are a plurality of unit grooves 212 and the square needle assemblies 320, the embroidery thread required to be embroidered can be sequentially placed in the storage groove 329 before the disordered needlework process, and the control panel 314 is used for identifying and storing the embroidery thread, so that the access of the embroidery needle and the embroidery thread process in the disordered needlework process can be facilitated.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A fabric support frame characterized in that: including the support body and install get the needle device on the support body, the support body includes the bracing piece, get the needle device including install get the faller on the bracing piece, set up and be in get putting needle subassembly and unwrapping wire roller on the faller, the unwrapping wire roller is installed get on the faller, it has seted up a plurality of unit cell slots to get on the faller, it corresponds to put the needle subassembly the unwrapping wire roller sets up in the unit cell slot, it includes to install to put the needle subassembly get a plurality of baffles on the faller, install stroke piece in the unit cell slot and set up the control in the unit cell slot, the baffle with unit cell slot interval sets up, the stroke piece with unit cell slot corresponds the setting, unit slot internal fixation be provided with the stroke limit piece that the stroke piece corresponds, the stroke limit piece is the tilt state, the stroke piece receives the control of control can pop out unit cell slot, storage grooves are formed in the stroke block and the stroke limiting block, and embroidery needles for disordered needle embroidery can be stored in the storage grooves in an inserting mode.

2. The fabric support frame of claim 1, wherein: the stroke block is of an L-shaped structure, a pushing block is arranged on the side face, facing the unit grooves, of the stroke block, the control piece corresponds to the pushing block, and the control piece controls the stroke block to slide on the stroke limiting block through the pushing block.

3. The fabric support frame of claim 2, wherein: the control piece comprises an elastic sheet and a plurality of springs, the elastic sheet is installed in the unit grooves and corresponds to the push block, the springs are fixedly installed on the push block and the groove walls of the unit grooves, the springs penetrate through the elastic sheet, the elastic sheet is an electromagnetic sheet, and the push block can be magnetically attracted by the elastic sheet.

4. A fabric support frame according to claim 3, wherein: install pressure sensor in the storage tank, be provided with control panel on getting the faller, pressure sensor and the equal electric connection of flexure strip is in on the control panel.

5. A needle thread access method based on the fabric support frame of claim 4, characterized in that: the embroidery needle access method comprises the following steps:

step S1: after inserting embroidery threads, the embroidery needles are stored in a storage groove, and after pressure is sensed by a pressure sensor in the storage groove, the pressure is displayed on a control panel, and a user marks corresponding embroidery thread color numbers;

step S2: after the user marks the embroidery thread color number on the control panel, the control panel starts the elastic sheet to promote the stroke block to carry the embroidery needle to be stored in the unit groove;

step S3: after the user selects the color number of the embroidery thread through the control panel, the control panel controls the elastic pieces in the corresponding unit grooves to demagnetize, the stroke blocks are pushed out of the unit grooves by the pushing of the springs, and the embroidery needles in the unit grooves are pushed out with the embroidery thread.

6. The fabric support frame of claim 1, wherein: put the needle subassembly still including installing apron on the baffle, the apron lid is established sealedly between the baffle with the space that the unit cell corresponds, the stroke limit piece the stroke block and the equal fixed mounting of control extremely in the space, the stroke limit piece fixed mounting be in on the apron.

7. The fabric support frame of claim 6, wherein: the needle taking plate is provided with a containing groove, the unit grooves are formed in the containing groove, and the cover plate sealing covers are arranged on the notches of the containing groove.

8. The fabric support frame of claim 7, wherein: the paying-off roller is arranged on the groove wall of the accommodating groove, and an embroidery thread cylinder for disordered needle embroidery is sleeved on the paying-off roller.

9. The fabric support frame of claim 1, wherein: the utility model discloses a needle bar, including bracing piece, fixed mounting installation slide rail on the lateral wall of bracing piece, it has the mounting groove to get to open on the faller, it passes through to get the faller the mounting groove alternate install extremely on the installation slide rail.

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