CN113666192A

CN113666192A - Fine yarn auxiliary collection device of glass

Info

Publication number: CN113666192A
Application number: CN202110986388.7A
Authority: CN
Inventors: 季秀梅
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-26
Filing date: 2021-08-26
Publication date: 2021-11-19

Abstract

The invention relates to a collecting device, in particular to an auxiliary collecting device for glass fiber yarns. The invention provides an auxiliary glass fiber yarn collecting device capable of smoothing out glass fiber yarns. The utility model provides a fine yarn of glass assists collection device, rotates wheel, first dead lever, fixed establishment and hold-down mechanism including support frame, motor, link, first rotation wheel, first slide bar, first spring, second, support frame upper portion left side, installs the motor, is connected with the link on the output shaft of motor, and first rotation wheel is installed on the link right side, and support frame upper portion right side sliding connection has first slide bar. Can fix the fine yarn section of thick bamboo of glass through fixed establishment, avoid fine yarn section of thick bamboo of glass to shift at the rolling in-process, can compress tightly the fine yarn of glass through hold-down mechanism, smooth out the fine yarn of glass, can drive the coiling section of thick bamboo through the motor and carry out rolling work automatically, improve work efficiency.

Description

Fine yarn auxiliary collection device of glass

Technical Field

The invention relates to a collecting device, in particular to an auxiliary collecting device for glass fiber yarns.

Background

In the production process, in order to enhance the properties of the produced material, such as insulativity, heat resistance, corrosion resistance and the like, people often add glass fiber yarn into the material, wherein the glass fiber yarn is a material formed by melting and drawing glass at high temperature, and the glass fiber yarn is messy and needs to be finished and collected when the glass fiber yarn is just drawn and formed.

At present, people generally place a coiling barrel on a coiling machine, wind the one end of the glass fiber yarn on the coiling barrel, start the coiling machine, make the coiling barrel rotate and carry out the rolling to the glass fiber yarn, but ordinary coiling machine function singleness can not smooth out the flat to the glass fiber yarn well, makes the glass fiber yarn of collecting still level and smooth inadequately, is not convenient for follow-up use.

Therefore, it is necessary to design a glass fiber yarn auxiliary collecting device capable of smoothing out glass fiber yarns.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that a common winder has a single function and cannot smooth out glass fiber yarns well, so that the collected glass fiber yarns are still not smooth enough and inconvenient to use subsequently, and the technical problem to be solved by the invention is to provide the glass fiber yarn auxiliary collecting device capable of smoothing out the glass fiber yarns.

(2) Technical scheme

In order to solve the technical problem, the invention provides the glass fiber yarn auxiliary collecting device which comprises a supporting frame, a motor, a connecting frame, a first rotating wheel, a first sliding rod, a first spring, a second rotating wheel, a first fixing rod, a fixing mechanism and a pressing mechanism, wherein the motor is installed on the left side of the upper part of the supporting frame, the connecting frame is connected onto an output shaft of the motor, the first rotating wheel is installed on the right side of the connecting frame, the first sliding rod is connected onto the right side of the upper part of the supporting frame in a sliding manner, the first spring is connected between the first sliding rod and the supporting frame, the left end of the first spring is connected with the supporting frame, the right end of the first spring is connected with the first sliding rod, the second rotating wheel is rotatably connected onto the left side of the first sliding rod, the second rotating wheel and the first rotating wheel are bilaterally symmetrical and mutually matched, the first fixing rod is installed on the rear side of the upper part of the supporting frame, and the fixing mechanism is arranged in the first fixing rod, the support frame is provided with a pressing mechanism.

Preferably, the fixing mechanism comprises a second sliding rod, a second spring, first sliding blocks and a third spring, the second sliding rod is connected to the first fixing rod in an inner sliding mode, the second spring is connected between the second sliding rod and the rear side of the supporting frame, the left end of the second spring is connected with the supporting frame, the right end of the second spring is connected with the second sliding rod, four first sliding blocks are evenly arranged on the left side of the first fixing rod at intervals in a sliding mode and are connected with the first fixing rod, and the third spring is connected between the first sliding blocks and the first fixing rod.

Preferably, hold-down mechanism is including first fixed block, first guide block, the second dwang, the guide bar, second slider and fourth spring, first fixed block is installed on support frame upper portion right side, first fixed block is located the left rear side of first slide bar, first fixed block lower part rotary type is connected with the second dwang, second dwang left side rotary type is connected with first guide block, all install the guide bar on first fixed block and the first guide block, the gliding style is connected with the second slider on the guide bar, also the rotary type is connected with the second dwang between two second sliders, two second dwang longitudinal symmetry, the cover has the fourth spring on the guide bar, the top and the second slider bottom of fourth spring are connected, left fourth spring bottom is connected with first guide block, the fourth spring bottom on right side is connected with first fixed block.

Preferably, still including guiding mechanism, guiding mechanism is including first link block, the third dwang, the head rod, the leading truck, third slider and torsion spring, first link block is installed in the anterior left side of support frame, first link block is located the motor front side, the last rotation type of first link block is connected with the third dwang, install the leading truck on the third dwang, the head rod is installed on the anterior right side of support frame, the leading truck is connected with the head rod rotary type, leading truck middle part sliding connection has the third slider, open the third slider lower part has the aperture, be connected with torsion spring between head block and the leading truck left side, also be connected with torsion spring between head rod and the leading truck right side.

Preferably, the automatic feeding device further comprises a reset mechanism, the reset mechanism comprises a ratchet wheel, a second fixing block, a third sliding rod, a ratchet rack, a fifth spring and a pressing frame, the ratchet wheel is installed on the left side of the third rotating rod, the second fixing block is installed on the front side face of the first connecting block, the third sliding rod is connected in the second fixing block in a sliding mode, the fifth spring is connected between the third sliding rod and the second fixing block, the ratchet rack is installed at the top of the third sliding rod, the ratchet rack is matched with the ratchet wheel, and the pressing frame is installed at the bottom of the third sliding rod.

Preferably, still including chucking mechanism, chucking mechanism is including the third fixed block, the fourth slide bar, first wedge and sixth spring, the third fixed block is installed on support frame upper portion right side, the third fixed block is located first slide bar left side, the gliding style is connected with the fourth slide bar on the third fixed block, first wedge is installed to fourth slide bar front side, the draw-in groove has been seted up to first slide bar rear side, draw-in groove and the cooperation of first wedge, the anterior cover of fourth slide bar has sixth spring, the front end and the first wedge of sixth spring are connected, the rear end and the third fixed block of sixth spring are connected.

Preferably, the device also comprises an extrusion mechanism, the extrusion mechanism comprises a second guide block, a sliding frame, a second fixed rod, a first swing block, a second connecting rod, a second connecting block, a fourth fixed block, a fourth rotating rod, a second swing block, a shifting block, a third connecting rod, a second wedge block, a fourth sliding block, a seventh spring and an eighth spring, the middle part of the support frame is bilaterally symmetrically provided with the two second guide blocks, the sliding frame is connected between the two second guide blocks in a sliding manner, the eighth spring is connected between the second guide block and the sliding frame, the rear side of the middle part of the support frame is provided with the second fixed rod, the second fixed rod is rotatably connected with the first swing block, the second connecting block is connected between the first sliding rod and the second sliding rod, the left side of the bottom of the second connecting block is provided with the second connecting rod, the second connecting rod is slidably connected with the first swing block, the rear side of the middle part of the support frame is provided with the fourth fixed block, the fourth fixed block is located the left side of the second fixed rod, the fourth fixed block is connected with a fourth rotating rod in a rotating mode, a second swinging block is installed on the fourth rotating rod, a lower pressing frame is connected with the front portion of the second swinging block in a sliding mode, the sliding frame is matched with the first swinging block and the second swinging block, the sliding frame is connected with a third connecting rod in a sliding mode in front of the sliding frame, a shifting block is installed on the left side of the third connecting rod, a fourth sliding block is installed on the right side of the third connecting rod, a seventh spring is connected between the third connecting rod and the sliding frame, the left end of the seventh spring is connected with the third connecting rod, the right end of the seventh spring is connected with the sliding frame, a second wedge block is installed on the front side of the middle of the support frame, and the second wedge block is in sliding fit with the fourth sliding block.

Preferably, still including drive mechanism, drive mechanism is including the fifth fixed block, the fifth dwang, the belt pulley, the flat belt, lack gear and first rack, support frame mid-mounting has the fifth fixed block, the fifth fixed block is located the carriage left side, fifth fixed block upper portion rotary type is connected with the fifth dwang, the fifth dwang right side is installed and is lacked the gear, first rack is installed at the carriage top, first rack and lacked the gear engagement, the belt pulley is installed on fifth dwang left side, the cover has the flat belt between belt pulley and the first dwang.

(3) Advantageous effects

1. Can fix the fine yarn section of thick bamboo of glass through fixed establishment, avoid fine yarn section of thick bamboo of glass to shift at the rolling in-process, can compress tightly the fine yarn of glass through hold-down mechanism, smooth out the fine yarn of glass, can drive the coiling section of thick bamboo through the motor and carry out rolling work automatically, improve work efficiency.

2. Can make the fine yarn of glass evenly twine on the winding barrel through guiding mechanism, make the fine yarn of glass after the arrangement more neat, can fix the leading truck through canceling release mechanical system, avoid the leading truck to rotate by oneself and reset, convenience of customers carries out follow-up operation.

3. Can fix first slide bar through chucking mechanism, need not the manual work and press first slide bar always, save the manpower.

4. The extrusion mechanism can be driven to move automatically through the transmission mechanism, manual operation is not needed, and manpower is further saved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a partial perspective view of the fixing mechanism of the present invention.

Fig. 5 is a partial cross-sectional view of the securing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 7 is a partial cross-sectional view of the hold-down mechanism of the present invention.

Fig. 8 is a schematic perspective view of the guide mechanism of the present invention.

Fig. 9 is a schematic view of a first partial body structure of the reset mechanism of the present invention.

Fig. 10 is a schematic view of a second partial body structure of the reset mechanism of the present invention.

Fig. 11 is a schematic perspective view of a portion of the chucking mechanism of the present invention.

FIG. 12 is an enlarged view of the present invention at A.

FIG. 13 is a diagram showing the connection between the pressing mechanism and the transmission mechanism according to the present invention.

Fig. 14 is a schematic view of a first partial body structure of the extrusion mechanism of the present invention.

FIG. 15 is an enlarged view of the invention at B.

Fig. 16 is a schematic view of a second partial body structure of the extrusion mechanism of the present invention.

Fig. 17 is an enlarged view of the present invention at C.

The labels in the figures are: 1-a support frame, 2-a motor, 3-a connecting frame, 4-a first rotating wheel, 5-a first sliding rod, 6-a first spring, 7-a second rotating wheel, 71-a first fixed rod, 8-a fixed mechanism, 82-a second sliding rod, 83-a second spring, 84-a first sliding block, 85-a third spring, 9-a hold-down mechanism, 91-a first fixed block, 92-a first guide block, 93-a second rotating rod, 931-a guide rod, 94-a second sliding block, 95-a fourth spring, 10-a guide mechanism, 101-a first connecting block, 102-a third rotating rod, 103-a first connecting rod, 104-a guide frame, 105-a third sliding block, 106-a torsion spring, 11-a reset mechanism, 111-ratchet wheel, 112-second fixed block, 1121-third sliding rod, 113-ratchet bar, 114-fifth spring, 115-lower pressing frame, 12-clamping mechanism, 121-third fixed block, 122-clamping groove, 123-fourth sliding rod, 124-first wedge block, 125-sixth spring, 13-extruding mechanism, 131-second guide block, 132-sliding frame, 133-second fixed rod, 134-first swinging block, 135-second connecting rod, 136-second connecting block, 137-fourth fixed block, 138-fourth rotating rod, 139-second swinging block, 1310-shifting block, 13101-third connecting rod, 1311-second wedge block, 1312-fourth sliding block, 1313-seventh spring, 1314-eighth spring, 14-transmission mechanism, 141-fifth fixed block, 142-fifth rotating rod, 143-belt pulley, 144-flat belt, 145-gear-lacking and 146-first rack.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

An auxiliary collecting device for glass fiber yarns is shown in figures 1-7 and comprises a support frame 1, a motor 2, a connecting frame 3, a first rotating wheel 4, a first sliding rod 5, a first spring 6, a second rotating wheel 7, a first fixing rod 71, a fixing mechanism 8 and a pressing mechanism 9, wherein the motor 2 is installed on the left side of the upper portion of the support frame 1 and is used for providing driving force, the connecting frame 3 is connected onto an output shaft of the motor 2, the first rotating wheel 4 is installed on the right side of the connecting frame 3, the first sliding rod 5 is connected onto the right side of the upper portion of the support frame 1 in a sliding mode, the first spring 6 is connected between the first sliding rod 5 and the support frame 1, the left end of the first spring 6 is connected with the support frame 1, the right end of the first spring 6 is connected with the first sliding rod 5, the left side of the first sliding rod 5 is connected with the second rotating wheel 7, the second rotating wheel 7 and the first rotating wheel 4 are bilaterally symmetrical and matched with each other, the second rotating wheel 7 and the first rotating wheel 4 are used for fixing the winding barrel, a first fixing rod 71 is installed on the rear side of the upper portion of the support frame 1, a fixing mechanism 8 is arranged in the first fixing rod 71, the fixing mechanism 8 is used for fixing the glass fiber yarn barrel, a pressing mechanism 9 is arranged on the support frame 1, and the pressing mechanism 9 is used for flattening the glass fiber yarn.

As shown in fig. 1, 4 and 5, the fixing mechanism 8 includes a second sliding rod 82, a second spring 83, a first slider 84 and a third spring 85, the second sliding rod 82 is slidably connected to the first fixing rod 71, the second spring 83 is connected between the second sliding rod 82 and the rear side of the support frame 1, the left end of the second spring 83 is connected to the support frame 1, the right end of the second spring 83 is connected to the second sliding rod 82, four first sliders 84 are slidably connected to the left side of the first fixing rod 71 at regular intervals, and the third spring 85 is connected between the first sliders 84 and the first fixing rod 71.

As shown in fig. 1, 6 and 7, the pressing mechanism 9 includes a first fixed block 91, a first guide block 92, a second rotating rod 93, a guide rod 931, a second slider 94 and a fourth spring 95, the first fixed block 91 is installed on the right side of the upper portion of the supporting frame 1, the first fixed block 91 is located on the left rear side of the first sliding rod 5, the second rotating rod 93 is rotatably connected to the lower portion of the first fixed block 91, the first guide block 92 is rotatably connected to the left side of the second rotating rod 93, the guide rods 931 are installed on the first fixed block 91 and the first guide block 92, the second slider 94 is slidably connected to the guide rod 931, the second rotating rod 93 is also rotatably connected between the two second sliders 94, the two second rotating rods 93 are vertically symmetrical, the guide rod 931 is sleeved with the fourth spring 95, the top end of the fourth spring 95 is connected to the bottom of the second slider 94, the bottom end of the fourth spring 95 on the left side is connected to the first guide block 92, the bottom end of the fourth spring 95 on the right side is connected with the first fixing block 91.

When the glass fiber yarns need to be sorted and collected, a user can firstly sleeve messy glass fiber yarn barrels on the first fixing rod 71, insert the material coiling barrels into the first rotating wheel 4, press the first sliding rod 5 to move leftwards, then the second rotating wheel 7 moves leftwards along with the first sliding rod, the first spring 6 is compressed, the first rotating wheel 4 and the second rotating wheel 7 fix the material coiling barrels, then the user draws out the head end of the glass fiber yarns, then manually pulls the second rotating rod 93 on the upper portion to move upwards, the second sliding block 94 moves upwards along with the second rotating rod, the fourth spring 95 is stretched, the user penetrates the head end of the glass fiber yarns between the two second rotating rods 93, after the head end of the glass fiber yarns penetrates between the two second rotating rods 93, the second rotating rod 93 on the upper portion is released, and under the action of the fourth spring 95, the second sliding block 94 moves downwards to reset to drive the second rotating rod 93 on the upper portion to move downwards to reset, two second rotating rods 93 can compress the glass fiber yarns to smooth the glass fiber yarns, a user finally connects the head end of the glass fiber yarns to the material winding barrel, then the user manually presses the second sliding rod 82 to move leftwards, the second spring 83 compresses, the second sliding rod 82 moves leftwards to extrude the four first sliding blocks 84 to be away from each other, the third spring 85 stretches, the glass fiber yarn barrel can be limited under the cooperation of the four first sliding blocks 84, then the user starts the motor 2, the output shaft of the motor 2 rotates to drive the connecting frame 3 to rotate, the first rotating wheel 4 rotates along with the first sliding rod and drives the material winding barrel to rotate, the material winding barrel rotates to drive the glass fiber yarn barrel to rotate through the glass fiber yarns, the glass fiber yarn barrel rotates to discharge the glass fiber yarns, the material winding barrel rotates to wind the glass fiber yarns, after the winding work is finished, the motor 2 is turned off, the first sliding rod 5 is loosened, under the action of the first spring 6, the first sliding rod 5 is reset in the rightward movement mode, the fixing effect on the winding barrel is cancelled, the winding barrel with the glass fiber yarns wound is taken down by a user, meanwhile, the second sliding rod 82 is loosened by the user, under the action of the second spring 83, the second sliding rod 82 is reset in the rightward movement mode and does not extrude the first sliding block 84 any more, under the action of the third spring 85, the four first sliding blocks 84 are close to each other to reset, and at the moment, the user can take down the empty glass fiber yarn barrel. So, can fix the fine yarn section of thick bamboo of glass through fixed establishment 8, avoid fine yarn section of thick bamboo of glass to shift at the rolling in-process, can compress tightly the fine yarn of glass through hold-down mechanism 9, smooth out the fine yarn of glass, can drive the coiling section of thick bamboo through motor 2 and carry out rolling work automatically, improve work efficiency.

Example 2

On the basis of the embodiment 1, as shown in fig. 1 and 8, the device further comprises a guide mechanism 10, the guide mechanism 10 is used for uniformly winding the glass fiber yarn on the winding barrel, the guide mechanism 10 comprises a first connecting block 101, a third rotating rod 102 and a first connecting rod 103, guide frame 104, third slider 105 and torsion spring 106, first connecting block 101 is installed to 1 anterior left sides of support frame, first connecting block 101 is located the motor 2 front side, the last rotation type of first connecting block 101 is connected with third dwang 102, install guide frame 104 on the third dwang 102, head rod 103 is installed on 1 anterior right sides of support frame, guide frame 104 is connected with head rod 103 rotary type, guide frame 104 middle part sliding type is connected with third slider 105, third slider 105 lower part is opened there is the aperture, be connected with torsion spring 106 between head rod 101 right side and the guide frame 104 left side, also be connected with torsion spring 106 between head rod 103 left side and the guide frame 104 right side.

After the user placed the winding barrel between first runner 4 and second runner 7, user's manual rotation leading truck 104, torsion spring 106 deformation, leading truck 104 rotates and makes third slider 105 be located the winding barrel rear side, the user passes the aperture of third slider 105 lower part with the head end of glass fiber yarn, finally be connected to the winding barrel, when the winding barrel rotates and carries out rolling work to glass fiber yarn, user pulling third slider 105 left and right sides reciprocating motion, can make glass fiber yarn evenly twine on the winding barrel, after rolling work is accomplished, the user loosens leading truck 104, under torsion spring 106's effect, leading truck 104 counter-rotation resets. Therefore, the glass fiber yarns can be uniformly wound on the winding barrel through the guide mechanism 10, and the finished glass fiber yarns are more tidy.

As shown in fig. 1, 9 and 10, the device further includes a reset mechanism 11, the reset mechanism 11 is used for preventing the guide frame 104 from rotating and resetting by itself, the reset mechanism 11 includes a ratchet 111, a second fixed block 112, a third sliding rod 1121, a ratchet bar 113, a fifth spring 114 and a lower pressing frame 115, the ratchet 111 is installed on the left side of the third rotating rod 102, the second fixed block 112 is installed on the front side surface of the first connecting block 101, the third sliding rod 1121 is connected in the second fixed block 112 in a sliding manner, the fifth spring 114 is connected between the third sliding rod 1121 and the second fixed block 112, the ratchet bar 113 is installed on the top of the third sliding rod 1121, the ratchet bar 113 is matched with the ratchet 111, and the lower pressing frame 115 is installed on the bottom of the third sliding rod 1121.

The guide frame 104 rotates to drive the third rotating rod 102 to rotate, the ratchet 111 rotates along with the third rotating rod, a user treads the lower pressing frame 115 with feet to move downwards, the lower pressing frame 115 moves downwards to drive the third sliding rod 1121 to move downwards, the fifth spring 114 stretches, the third sliding rod 1121 moves downwards to drive the ratchet bar 113 to move downwards, the ratchet bar 113 moves downwards to clamp the ratchet 111, accordingly, the third rotating rod 102 is prevented from rotating, the guide frame 104 is prevented from rotating and resetting by itself, after the winding operation is completed, the user releases the lower pressing frame 115, under the action of the fifth spring 114, the third sliding rod 1121 moves upwards to reset, the lower pressing frame 115 and the ratchet bar 113 both move upwards to reset, the ratchet bar 113 moves upwards to reset and is separated from the ratchet 111, and finally, the guide frame 104 can rotate and reset by itself. Therefore, the guide frame 104 can be fixed through the reset mechanism 11, the guide frame 104 is prevented from rotating and resetting by itself, and the subsequent operation is convenient for a user.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 11 and 12, the locking device further includes a locking mechanism 12, the locking mechanism 12 is configured to fix the first sliding rod 5, the locking mechanism 12 includes a third fixing block 121, a fourth sliding rod 123, a first wedge block 124 and a sixth spring 125, the third fixing block 121 is installed on the right side of the upper portion of the support frame 1, the third fixing block 121 is located on the left side of the first sliding rod 5, the third fixing block 121 is slidably connected to the fourth sliding rod 123, the first wedge block 124 is installed on the front side of the fourth sliding rod 123, a locking groove 122 is formed on the rear side of the first sliding rod 5, the locking groove 122 is matched with the first wedge block 124, the sixth spring 125 is sleeved on the front portion of the fourth sliding rod 123, the front end of the sixth spring 125 is connected to the first wedge block 124, and the rear end of the sixth spring 125 is connected to the third fixing block 121.

The first sliding rod 5 moves leftwards to extrude the first wedge-shaped block 124 to move backwards, the sixth spring 125 is compressed, the first wedge-shaped block 124 moves backwards to drive the fourth sliding rod 123 to move backwards, when the first wedge-shaped block 124 is aligned with the clamping groove 122, the first sliding rod 5 does not extrude the first wedge-shaped block 124 any more, under the action of the sixth spring 125, the first wedge-shaped block 124 moves forwards to reset and is clamped into the clamping groove 122, the first sliding rod 5 is fixed, when the first sliding rod 5 does not need to be fixed, a user manually pulls the fourth sliding rod 123 to move backwards, and the fourth sliding rod 123 is separated from the clamping groove 122. Like this, can fix first slide bar 5 through chucking mechanism 12, need not the manual work and press first slide bar 5 all the time, saved the manpower.

As shown in fig. 1, 13, 14, 15, 16 and 17, the pressing mechanism 13 is further included, the pressing mechanism 13 is configured to press the first sliding rod 5 and the second sliding rod 82, the pressing mechanism 13 includes a second guide block 131, a sliding frame 132, a second fixing rod 133, a first swing block 134, a second connecting rod 135, a second connecting block 136, a fourth fixing block 137, a fourth rotating rod 138, a second swing block 139, a shifting block 1310, a third connecting rod 13101, a second wedge block 1311, a fourth slider 1312, a seventh spring 1313 and an eighth spring 1314, two second guide blocks 131 are installed in the middle of the supporting frame 1 in a left-right symmetrical manner, the sliding frame 132 is slidably connected between the two second guide blocks 131, the eighth spring 1314 is connected between the second guide block 131 and the sliding frame 132, the second fixing rod 133 is installed on the rear side of the middle of the supporting frame 1, the first swing block 134 is rotatably connected on the second fixing rod 133, a second connecting block 136 is connected between the first sliding rod 5 and the second sliding rod 82, a second connecting rod 135 is installed at the left side of the bottom of the second connecting block 136, the second connecting rod 135 is slidably connected with a first swinging block 134, a fourth fixing block 137 is installed at the rear side of the middle part of the support frame 1, the fourth fixing block 137 is positioned at the left side of a second fixing rod 133, a fourth rotating rod 138 is rotatably connected to the fourth fixing block 137, a second swinging block 139 is installed on the fourth rotating rod 138, the lower pressing frame 115 is slidably connected with the front part of the second swinging block 139, the sliding frame 132 is matched with the first swinging block 134 and the second swinging block 139, a third connecting rod 13101 is rotatably connected to the front side of the sliding frame 132, a shifting block 1310 is installed at the left side of the third connecting rod 13101, a fourth sliding block 1312 is installed at the right side of the third connecting rod 13101, a seventh spring 1313 is connected between the third connecting rod 13101 and the sliding frame 132, and the left end of the seventh spring 1313 is connected with the third connecting rod 13101, the right end of the seventh spring 1313 is connected to the sliding rack 132, a second wedge block 1311 is installed at the front side of the middle of the supporting rack 1, and the second wedge block 1311 is in sliding fit with the fourth sliding block 1312.

As shown in fig. 1 and 13, the extrusion device further comprises a transmission mechanism 14, the transmission mechanism 14 is used for driving the extrusion mechanism 13, the transmission mechanism 14 comprises a fifth fixed block 141, a fifth rotating rod 142, a belt pulley 143, a flat belt 144, a gear lacking 145 and a first rack 146, the fifth fixed block 141 is installed in the middle of the support frame 1, the fifth fixed block 141 is located on the left side of the sliding frame 132, the fifth rotating rod 142 is rotatably connected to the upper portion of the fifth fixed block 141, the gear lacking 145 is installed on the right side of the fifth rotating rod 142, the first rack 146 is installed on the top of the sliding frame 132, the first rack 146 is meshed with the gear lacking 145, the belt pulley 143 is installed on the left side of the fifth rotating rod 142, and the flat belt 144 is sleeved between the belt pulley 143 and the first rotating wheel 4.

The first rotating wheel 4 rotates to drive the fifth rotating rod 142 to rotate through the flat belt 144 and the belt pulley 143, the fifth rotating rod 142 rotates to drive the missing gear 145 to rotate, the missing gear 145 rotates to drive the first rack 146 to move backwards, the sliding frame 132 and the components thereon all move backwards along with the first rack, the eighth spring 1314 stretches, when the fourth slider 1312 moves backwards to contact with the second slider 1311, the second slider 1312 presses the fourth slider 1312 to move leftwards, the seventh spring 1313 stretches, when the fourth slider 1312 continues to move backwards to be separated from the second slider 1311, under the action of the seventh spring 1313, the fourth slider 1312 moves rightwards to reset, the second slider 1311 abuts against the fourth slider 1312 to avoid the self-forward movement and reset of the sliding frame 132, meanwhile, the backward movement of the sliding frame 132 pushes the first swinging block 134 to rotate, the first swinging block 134 rotates to drive the second connecting rod 135 to move leftwards, so that the second connecting block 136 moves leftwards, therefore, the first sliding rod 5 and the second sliding rod 82 are driven to move leftwards, the sliding frame 132 moves backwards to push the second swinging block 139 to rotate, so that the lower pressing frame 115 and components on the lower pressing frame are moved downwards, therefore, the reset mechanism 11, the first sliding rod 5 and the second sliding rod 82 are not required to be manually controlled, after the rolling operation is completed, a user pulls the shifting block 1310 to move leftwards, the third connecting rod 13101 and the fourth sliding block 1312 are moved leftwards along with the third connecting rod 13101 and the fourth sliding block 1312, the seventh spring 1313 is stretched, the fourth sliding block 1312 moves leftwards to be separated from the second wedge block 1311, under the action of the eighth spring 1314, the sliding frame 132 moves forwards to reset and does not push the first swinging block 134 and the second swinging block 139 any more, so that the first swinging block 134, the second swinging block 139 and the components on the first swinging block 139 can automatically reset, and finally, the shifting block 1310 is released. Therefore, the transmission mechanism 14 can drive the extrusion mechanism 13 to move automatically, manual operation is not needed, and manpower is further saved.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A glass fiber yarn auxiliary collecting device is characterized by comprising a support frame (1), a motor (2), a connecting frame (3), a first rotating wheel (4), a first sliding rod (5), a first spring (6), a second rotating wheel (7), a first fixing rod (71), a fixing mechanism (8) and a pressing mechanism (9), wherein the motor (2) is installed on the left side of the upper portion of the support frame (1), the connecting frame (3) is connected onto an output shaft of the motor (2), the first rotating wheel (4) is installed on the right side of the connecting frame (3), the first sliding rod (5) is connected onto the right side of the upper portion of the support frame (1) in a sliding mode, the first spring (6) is connected between the first sliding rod (5) and the support frame (1), the left end of the first spring (6) is connected with the support frame (1), and the right end of the first spring (6) is connected with the first sliding rod (5), first slide bar (5) left side rotary type is connected with second and rotates wheel (7), and second rotates wheel (7) and first rotation wheel (4) bilateral symmetry and mutually supports, and first dead lever (71) are installed to support frame (1) upper portion rear side, are equipped with fixed establishment (8) in first dead lever (71), are equipped with hold-down mechanism (9) on support frame (1).

2. The glass fiber yarn auxiliary collecting device as claimed in claim 1, wherein the fixing mechanism (8) comprises a second sliding rod (82), a second spring (83), a first sliding block (84) and a third spring (85), the second sliding rod (82) is connected with the first fixing rod (71) in an inner sliding manner, the second spring (83) is connected between the second sliding rod (82) and the rear side of the supporting frame (1), the left end of the second spring (83) is connected with the supporting frame (1), the right end of the second spring (83) is connected with the second sliding rod (82), the four first sliding blocks (84) are connected with the left side of the first fixing rod (71) in an evenly spaced and sliding manner, and the third spring (85) is connected between the first sliding blocks (84) and the first fixing rod (71).

3. The glass fiber yarn auxiliary collecting device according to claim 2, wherein the pressing mechanism (9) comprises a first fixing block (91), a first guide block (92), a second rotating rod (93), a guide rod (931), a second sliding block (94) and a fourth spring (95), the first fixing block (91) is installed on the right side of the upper portion of the support frame (1), the first fixing block (91) is located on the left rear side of the first sliding rod (5), the lower portion of the first fixing block (91) is rotatably connected with the second rotating rod (93), the first guide block (92) is rotatably connected to the left side of the second rotating rod (93), the guide rod (931) is installed on both the first fixing block (91) and the first guide block (92), the second sliding block (94) is slidably connected on the guide rod (931), and the second rotating rod (93) is rotatably connected between the two second sliding blocks (94), two second dwang (93) longitudinal symmetry, the cover has fourth spring (95) on guide bar (931), and the top and second slider (94) bottom of fourth spring (95) are connected, and left fourth spring (95) bottom is connected with first guide block (92), and fourth spring (95) bottom on right side is connected with first fixed block (91).

4. The glass fiber yarn auxiliary collecting device according to claim 3, further comprising a guiding mechanism (10), wherein the guiding mechanism (10) comprises a first connecting block (101), a third rotating rod (102), a first connecting rod (103), a guiding frame (104), a third sliding block (105) and a torsion spring (106), the first connecting block (101) is installed on the left side of the front portion of the supporting frame (1), the first connecting block (101) is located on the front side of the motor (2), the third rotating rod (102) is rotatably connected to the first connecting block (101), the guiding frame (104) is installed on the third rotating rod (102), the first connecting rod (103) is installed on the right side of the front portion of the supporting frame (1), the guiding frame (104) is rotatably connected with the first connecting rod (103), the third sliding block (105) is slidably connected to the middle portion of the guiding frame (104), and a small hole is formed in the lower portion of the third sliding block (105), a torsion spring (106) is connected between the first connecting block (101) and the left side of the guide frame (104), and a torsion spring (106) is also connected between the first connecting rod (103) and the right side of the guide frame (104).

5. The glass fiber yarn auxiliary collecting device according to claim 4, further comprising a reset mechanism (11), wherein the reset mechanism (11) comprises a ratchet wheel (111), a second fixing block (112), a third sliding rod (1121), a ratchet rack (113), a fifth spring (114) and a lower pressing frame (115), the ratchet wheel (111) is installed on the left side of the third rotating rod (102), the second fixing block (112) is installed on the front side surface of the first connecting block (101), the third sliding rod (1121) is connected in the second fixing block (112) in a sliding manner, the fifth spring (114) is connected between the third sliding rod (1121) and the second fixing block (112), the ratchet rack (113) is installed at the top of the third sliding rod (1121), the ratchet rack (113) is matched with the ratchet wheel (111), and the lower pressing frame (115) is installed at the bottom of the third sliding rod (1121).

6. The glass fiber yarn auxiliary collecting device according to claim 5, further comprising a clamping mechanism (12), wherein the clamping mechanism (12) comprises a third fixed block (121) and a fourth sliding rod (123), first wedge (124) and sixth spring (125), third fixed block (121) are installed on support frame (1) upper portion right side, third fixed block (121) are located first slide bar (5) left side, sliding connection has fourth slide bar (123) on third fixed block (121), first wedge (124) are installed to fourth slide bar (123) front side, draw-in groove (122) have been seted up to first slide bar (5) rear side, draw-in groove (122) and first wedge (124) cooperation, the preceding cover of fourth slide bar (123) has sixth spring (125), the front end and the first wedge (124) of sixth spring (125) are connected, the rear end and the third fixed block (121) of sixth spring (125) are connected.

7. The glass fiber yarn auxiliary collecting device of claim 6, further comprising a squeezing mechanism (13), wherein the squeezing mechanism (13) comprises a second guide block (131), a sliding frame (132), a second fixing rod (133), a first swing block (134), a second connecting rod (135), a second connecting block (136), a fourth fixing block (137), a fourth rotating rod (138), a second swing block (139), a shifting block (1310), a third connecting rod (13101), a second wedge-shaped block (1311), a fourth sliding block (1312), a seventh spring (1313) and an eighth spring (1314), two second guide blocks (131) are symmetrically installed in the middle of the supporting frame (1), the sliding frame (132) is slidably connected between the two second guide blocks (131), the eighth spring (1314) is connected between the second guide blocks (131) and the sliding frame (132), a second fixed rod (133) is installed on the rear side of the middle of the support frame (1), a first swinging block (134) is rotatably connected to the second fixed rod (133), a second connecting block (136) is connected between the first sliding rod (5) and the second sliding rod (82), a second connecting rod (135) is installed on the left side of the bottom of the second connecting block (136), the second connecting rod (135) is slidably connected with the first swinging block (134), a fourth fixed block (137) is installed on the rear side of the middle of the support frame (1), the fourth fixed block (137) is located on the left side of the second fixed rod (133), a fourth rotating rod (138) is rotatably connected to the fourth fixed block (137), a second swinging block (139) is installed on the fourth rotating rod (138), a lower pressing frame (115) is slidably connected with the front portion of the second swinging block (139), and the sliding frame (132) is matched with the first swinging block (134) and the second swinging block (139), sliding type is connected with third connecting rod (13101) before carriage (132), shifting block (1310) are installed to third connecting rod (13101) left side, fourth slider (1312) are installed on third connecting rod (13101) right side, be connected with seventh spring (1313) between third connecting rod (13101) and carriage (132), the left end and the third connecting rod (13101) of seventh spring (1313) are connected, the right-hand member and carriage (132) of seventh spring (1313) are connected, second wedge (1311) are installed to support frame (1) middle part front side, second wedge (1311) and fourth slider (1312) sliding fit.

8. The glass fiber yarn auxiliary collecting device according to claim 7, further comprising a transmission mechanism (14), wherein the transmission mechanism (14) comprises a fifth fixing block (141), a fifth rotating rod (142) and a belt pulley (143), flat belt (144), lack gear (145) and first rack (146), support frame (1) mid-mounting has fifth fixed block (141), fifth fixed block (141) are located carriage (132) left side, fifth fixed block (141) upper portion rotary type is connected with fifth dwang (142), lack gear (145) are installed on fifth dwang (142) right side, first rack (146) are installed at carriage (132) top, first rack (146) and lack gear (145) meshing, belt pulley (143) are installed in fifth dwang (142) left side, the cover has flat belt (144) between belt pulley (143) and first dwang (4).