CN108193353A - A kind of weaving loom convenient for heat dissipation - Google Patents

Abstract

The invention discloses a kind of weaving looms convenient for heat dissipation, pedestal including rack, in rack, the damping device on pedestal, the draft gear in rack, with the matched conveying device of draft gear, for detecting the detection device of broken yarn, needle selection device and radiator, the radiator includes shell, center radiating subassembly, exhausting component and heat extraction component.It is radiated by the center radiating subassembly of setting to weaving loom, so as to be extracted in cold air to shell to outside by exhausting component, the hot gas of enclosure is discharged by heat extraction component again, it radiates with the principle of airflow circulating to weaving loom, it is effective to improve heat dissipation effect and radiating efficiency, high degree of automation, and it is simple in structure with higher practicability.

Description

A kind of weaving loom convenient for heat dissipation

Technical field

The invention belongs to textile technology field, more particularly, to a kind of weaving loom convenient for heat dissipation.

Background technology

Weaving loom, is called frame, loom, cotton spinning machine etc., and the weaving loom in ancient times is the loom driven by manpower.Weaving Machine is exactly the raw material such as line, silk, fiber crops to be processed into the tool full name that cloth is made into after silk thread.As spinning pendant, spinning wheel, spindle, pedal Loom, also modern mechanical loom, modern numerical control automatic loom etc..

With the development of textile technology, weaving loom is grown rapidly, and weaving loom can generate largely during running Heat, can then influence weaving environment, the prior art weaving box body heat dissipation performance it is poor, after prolonged use Easily heated, so as to the stability for influencing the service life of weaving loom parts and using, applicability and practicability are poor, existing Also there are many weaving looms in technology to be equipped with radiator, but the effect to radiate and bad, the easy cause thermal damage excessively of weaving loom.

Invention content

The present invention in order to overcome the deficiencies of the prior art and provide a kind of good heat dissipation effect convenient for heat dissipation weaving loom.

To achieve these goals, the present invention uses following technical scheme：To achieve these goals, the present invention use with Lower technical solution：A kind of weaving loom convenient for heat dissipation, the pedestal including rack, in rack, the dress of the damping on pedestal Put, the draft gear in rack, with the matched conveying device of draft gear, for detect the detection device of broken yarn, choosing Needle device and radiator, the radiator include shell, center radiating subassembly, exhausting component and heat extraction component.By setting The center radiating subassembly put radiates to weaving loom, so as to be extracted in cold air to shell to outside by exhausting component, then lead to It crosses heat extraction component to discharge the hot gas of enclosure, radiate with the principle of airflow circulating to weaving loom, it is effective to improve Heat dissipation effect and radiating efficiency avoid equipment from cause thermal damage occurred, high degree of automation, and simple in structure have higher practicality Property.

Further, the center radiating subassembly include actuator, be connected with actuator rotating bar, set on rotating bar On flabellum, the heat absorbing member set on cover top portion and the radiating piece set on heat absorbing member lower end；It is absorbed and spun by the heat absorbing member of setting The heat of loom, then by radiating piece by heat be distributed come, and rotating bar is driven to be rotated by the actuator of setting, So as to which flabellum be driven to be rotated, the heat dissipation of weaving loom is realized, and realize that double-radiation function has by radiating piece and flabellum rotation Better heat dissipation effect.

Further, the exhausting component includes cold air port, the solenoid valve on cold air port and leads to set on cold air Extraction fan on mouth；Cold air is pumped into shell from cold air port by extraction fan, so as to fulfill the cooling of enclosure.

Further, the heat extraction component includes heat extraction port, the temperature sensor on heat extraction port and set on row Exhaust fan on hot port；The heat of enclosure is drawn to by outside from heat extraction port by exhaust fan, so as to fulfill outer Heat extraction inside shell.

Further, the two panels flabellum, setting in this way can shunt gas, and can control gas Flow, then effectively improve heat dissipation effect, meet radiating requirements.

Further, the damping device include housing, the compression component that can be moved up and down, for driving compression group Part rebound rebound component and with the matched dampening assembly of compression component.By the compression component of setting, when compression component by When shaking the pressure generated to weaving loom, by pressure transmission to dampening assembly, realize that reducing weaving loom exists by dampening assembly The vibrations generated in operation, and can be sprung back shaking assembly when weaving loom stops operating by the rebound component of setting It resets；It can be floated up and down by the damping device compression component of setting and be produced so as to fulfill reduction weaving loom in running Raw vibrations reduce weaving loom and influence of the vibrations to precision of weaving are generated in running, so as to improve the quality of textile, reduce The economic loss of user and the practicability for improving weaving loom have preferable damping effect.

Further, the compression component include the support element being set in housing, the fixing piece being connected with support element and with The top plate that fixing piece is connected；By the top plate of setting, when top plate is given a shock the pressure of generation, pressure can pass to fixing piece So as to form the power being pressed down against on to support element, by the pressure transmission being subject to shaking assembly, then pass through shaking assembly Realize the vibrations for reducing and being generated in weaving loom operation, wherein fixing piece has certain length, so as to make the stroke of floating It is longer, there is preferable damping effect.

Further, the dampening assembly includes central suspension component and two side damping parts, described two sides Damping part is located at the left and right sides of central suspension component, and the central suspension is the damper set on inner walls center；It is logical The central suspension component of setting and the side damping part at left and right sides of central suspension component are crossed to realize the more of weaving loom Damping again when compression component transmits pressure and larger vibrations to shaking assembly, passes through first layer damping, that is, central suspension first Component is to shaking into row buffering, so as to again disperse other extra pressure to side damping part, reaches one more preferably Damping effect.

In conclusion the present invention can float up and down to subtract by the compression component in the damping device of setting The vibrations that small weaving loom is generated in running reduce weaving loom and influence of the vibrations to precision of weaving are generated in running, so as to carry The quality of high textile reduces the economic loss of user and improves the practicability of weaving loom, has preferable damping effect.

Description of the drawings

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

Fig. 2 is the structure diagram of damping device in the present invention.

Fig. 3 is the enlarged drawing at A in Fig. 2

Fig. 4 is the sectional view of the second link block in the present invention.

Fig. 5 is the side view of the present invention.

Specific embodiment

In order to which those skilled in the art is made to be better understood from the present invention program, below in conjunction in the embodiment of the present invention Attached drawing carries out the technical solution in the embodiment of the present invention clear, complete description.

As shown in Figs. 1-5, it is a kind of convenient for heat dissipation weaving loom, including rack 1, pedestal 2, damping device 3, draft gear 4, Conveying device 5, detection device 12, needle selection device 6 and radiator 13, the pedestal 2 are set in rack 1, the damping device 3 On pedestal 2, wherein detection device 12 is described to dissipate for detecting whether weaving loom broken yarn phenomenon 12 occurs during the work time Thermal 13 includes shell 131, center radiating subassembly 132, exhausting component 133 and heat extraction component 134, is dissipated by the center of setting Hot component 132 radiates to weaving loom, so as to be extracted in cold air to shell 131 to outside by exhausting component 133, then pass through Heat extraction component 134 discharges the hot gas inside shell 131, radiates with the principle of airflow circulating to weaving loom, effectively Improve heat dissipation effect and radiating efficiency, high degree of automation, and it is simple in structure and with higher practicability.

The center radiating subassembly 132 includes actuator 1321, rotating bar 1322, flabellum 1323, heat absorbing member 1324 and dissipates Warmware 1325, the actuator 1321 are vertical machine；The rotating bar 1322 is fixedly connected with actuator 1321, wherein rotating Bar 1321 is metallic rod；Two flabellums 1323 then effectively improve heat dissipation effect, meet heat dissipation need in distribution up and down It asks；The heat absorbing member 1324 is heat absorbing sheet, which is set on 131 top of shell；The radiating piece 1325 is cooling fin, The radiating piece 1325 is set on the lower end of heat absorbing member 1324；The heat of weaving loom is absorbed, then pass through heat dissipation by the heat absorbing member of setting Heat is distributed by part, and rotating bar is driven to be rotated by the actuator of setting, so as to which flabellum be driven to be rotated, It realizes the heat dissipation of weaving loom, and realizes that double-radiation function has better heat dissipation effect by radiating piece and flabellum rotation.

The exhausting component 133 includes cold air port 1331, solenoid valve 1332 and extraction fan 1333, the solenoid valve 1332 In cold air port 1331, the heat inside shell 131 is drawn to outer by the exhaust fan 1343 from heat extraction port 1341 Face, so as to fulfill the heat extraction inside shell 131；The heat extraction component 134 include heat extraction port 1341, temperature sensor 1342 and Exhaust fan 1343；The temperature sensor 1342 and exhaust fan 1343 are set in heat extraction port 1341, and exhaust fan 1343 is from heat extraction The heat inside shell 131 is drawn to outside in port 1341, so as to fulfill the heat extraction inside shell 131；The temperature passes Sensor 1342 is connected with solenoid valve 1332, and the temperature of heat extraction port 1341 is detected by temperature sensor 1342, thus can will examine Measurement information is sent to solenoid valve 1332, and solenoid valve 1332 carries out keying operation after receiving signal, and concrete principle is the prior art, no It repeats again；So as to the air-flow of adjust automatically cold air port 1331, easy to adjust and practicability is high；The solenoid valve 1332, temperature Sensor 1342 can be directly commercially available by the market, and structure repeats no more.

As shown in Fig. 2, the damping device 3 includes housing 301, compression component 30, rebound component 309 and dampening assembly 307；The compression component 30 can be moved up and down, when compression component 30 is under pressure, then by pressure transmission to damping group Part 307, wherein shaking assembly 307 can by compression component 30 floating up and down so as to reduce weaving loom generate vibrations, and Reduce weaving loom and influence of the vibrations to precision of weaving is generated in running, improve the quality of textile, reduce the economy of user The practicability of weaving loom is lost and improved, there is preferable damping effect；The rebound component 309 is used to drive compression component 30 rebounds；When weaving loom, which operates, generates vibrations, can will be shaken when weaving loom stops operating by the rebound component 309 of setting The dynamic rebound of component 307 resets.

As shown in Fig. 2, the compression component 30 includes support element 302, fixing piece 303 and top plate 304；The support element 302 are connected in 303 top of fixing piece, and the support element 302 is support plate；The top plate 304 is connected in 303 lower part of fixing piece, When top plate is given a shock the pressure of generation, pressure can be passed to and is pressed down against on fixing piece to support element so as to form one Power, by the pressure transmission being subject to shaking assembly, then the shake by being generated in shaking assembly realization reduction weaving loom operation It is dynamic；Wherein fixing piece 303 is fixed column, and support element 302 and fixing piece 303 are made of chromium in the present invention, and chromium has strong corrosion resistant The corrosion and hardness of chromium is very high, it is not easy to break；Wherein fixing piece has certain length, so as to make the stroke of floating longer, tool There is preferable damping effect.

Further, the dampening assembly 307 includes central suspension component 3071 and two side damping parts 3072, institute It is the damper 30711 set on 301 inner wall center of housing to state central suspension component 3071, and the damper 30711 is existing skill Art is not done and is excessively repeated；Described two side damping parts 3072 are located at the left and right sides of central suspension component 3071, by setting The central suspension component 3071 and side damping part 3072 put realize the multiple damping of weaving loom, and the side for passing through setting The power of vertical direction can be carried out lateral decomposition by damping part 3072, and good damping effect, elastic component stress degree is smaller, is not easy Damage, service life are long；The side damping part 3072 includes the first link block 30721, head rod 30722, second Connecting rod 30723, the second link block 30724, first baffle 30725, the first elastic component 30726, second baffle 30727 and second Elastic component 30728；First link block 30721 is set on the bottom of support element 302, the head rod 30722 and first Link block 30721 is hinged, and one end of the second connecting rod 30722 and head rod 30722 are hinged, the second connecting rod 30722 The other end is fixedly connected with first baffle 30725, and first elastic component 30726 is fixedly arranged on first baffle 30725, and described Two elastic components 30728 are set between 30727 and second link block 30724 of second baffle, and the elastic component is spring；Pass through setting The first elastic component 30726 and second elastic component 30728 realize the dual shock absorption inside side damping part 3072 so that Damping has better effect；When compression component 30 transmits pressure and larger vibrations to shaking assembly 307, pass through first first Layer damping, that is, central suspension component 3071 is to shaking into row buffering, so as to again by other extra pressure to side damping part 3072 are disperseed, and reach a better damping effect.

As shown in figure 3, the rebound component 309 includes extension 3096, protective shell 3091, third connecting rod 3092, the One connecting plate 3093, the second connecting plate 3094, third elastic component 3095, sliding rail 310, supporting rod 311 and pulley 312；Described Three connecting rods 3092 and the first link block 305 are connected, and third connecting rod 3092 is set on the bottom of the first connecting plate 3093, described Second connecting plate 3094 is set on the bottom of protective shell 3091；The third elastic component 3095 is fixedly arranged on the first connecting plate 3093 and Between two connecting plates 3094, when weaving loom stops operating, first is connected by the elastic force of itself of third elastic component 3095 Fishplate bar 3093 jacks up can automatic rebounding reset so as to fulfill damping device 3；The sliding rail 310 is set on the bottom of housing 301, described Pulley 312 is set on the bottom of supporting rod 311；The supporting rod 311 can be slided by pulley 312 on sliding rail 310, and logical The sliding rail 310 and pulley 312 for crossing setting can reduce 311 and second link block of supporting rod when the second connecting rod 3094 inwardly pushes Frictional force between 30724 extends the service life of supporting rod 311；Wherein extension 3096 prolongs for the second connecting rod 30723 The part stretched supports extension 3096 by the supporting rod 311 of setting, avoid extension 3096 be in vacant state and The fracture of extension 3096 extends the service life of extension 3096.

302 both ends of support element are equipped with the first sliding part 3075, and the both ends of the housing 301 are equipped with and the first sliding part 3075 the first sliding grooves 3076 being slidably matched, 30725 top of first baffle and bottom are equipped with the second sliding part 3077, described The top and bottom of second link block 30724 are equipped with the second sliding slot 3078 being slidably matched with the second sliding part 3077, the cunning Moving part is sliding shoe, and first sliding part 3075 can slide in the first sliding groove 3076, and the second sliding part 3077 can be second It is slided on sliding slot 3078；The bottom of the housing 301 is equipped with Non-slip material 308, and the surface of the Non-slip material 308 is equipped with anti-skid chequer, The Non-slip material 308 is rubber pad；Pass through being slidably matched for 3076 and first sliding part 3077 of the first sliding groove of setting so that branch The slip of support member 302 is more smoothly, and reduces the friction between support element 302 and housing 301, after preventing usage time long The phenomenon that support element 302 is worn, and the first sliding part set has guiding role, prevents support element from being slided in sliding slot During there is stuck phenomenon, extend the service life of support element 302；Pass through the second sliding part 3077 and second of setting Sliding slot 3076 is slidably matched so that the slip of baffle 3072 is more smoothly, and reduces between baffle 3072 and housing 301 Friction, and the second sliding part set has guiding role, prevents first baffle 30725 from occurring during being slided in sliding slot Stuck phenomenon extends the service life of baffle 3072, reduces the economic loss of user；Pass through the Non-slip material 308 of setting The phenomenon that anti-skidding effect is played to housing 301, avoids weaving loom that the position of weaving loom is made to generate offset slide in vibrations, increases The stability of weaving loom is added, and rubbing for Non-slip material 308 and ground can be increased by the anti-skid chequer that 308 surface of Non-slip material is set It wipes so that the antiskid effect of Non-slip material 308 is more preferable, and weaving loom is avoided to occur mobile phenomenon in operation, so as to improve The machining accuracy of weaving loom.

The rack 1 includes pedestal 7, link 8, outlet roller 9, wind-up roll 10, more guide rollers 11 and actuator；It is described Outlet roller 9 and wind-up roll 10 are set on pedestal 7, and yarn is placed, and pass through guide roller by the outlet roller 9 and wind-up roll 10 of setting 11 can be oriented to yarn and the fine tuning in direction；The actuator is for driving wind-up roll 10 to be rotated, the actuator For motor, and the motor is the prior art, does not do and excessively repeats.

It is the prior art with lower traction equipment 4, conveying device 5, Yarn break checkout gear 12 and needle selection device, in China Disclosed in patent CN201710905694, repeat no more.

In conclusion the present invention can float up and down to subtract by the compression component in the damping device of setting The vibrations that small weaving loom is generated in running reduce weaving loom and influence of the vibrations to precision of weaving are generated in running, so as to carry The quality of high textile reduces the economic loss of user and improves the practicability of weaving loom, has preferable damping effect.

Obviously, described embodiment is only the part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment should all belong to the scope of protection of the invention.

Claims (7)

1. a kind of weaving loom convenient for heat dissipation, pedestal (2) including rack (1), in rack (1), on pedestal (2) Damping device (3), the draft gear (4) in rack (1), with draft gear (4) matched conveying device (5), be used for Detect detection device (12), needle selection device (6) and the radiator (13) of broken yarn；It is characterized in that：The radiator (13) Including shell (131), center radiating subassembly (132), exhausting component (133) and heat extraction component (134).

2. the weaving loom according to claim 1 convenient for heat dissipation, it is characterised in that：Center radiating subassembly (132) packet Include actuator (1321), the rotating bar (1322) being connected with actuator (1321), the flabellum in rotating bar (1322) (1323), the heat absorbing member (1324) at the top of shell (131) and the radiating piece (1325) set on heat absorbing member (1324) lower end.

3. the weaving loom according to claim 1 convenient for heat dissipation, it is characterised in that：The exhausting component (133) is including cold Gas port (1331), the solenoid valve (1332) on cold air port (1331) and the extraction fan on cold air port (1331) (1333)。

4. the weaving loom according to claim 1 convenient for heat dissipation, it is characterised in that：The heat extraction component (134) includes row Hot port (1341), the temperature sensor (1342) on heat extraction port (1341) and the row on heat extraction port (1341) Fan (1343).

5. the weaving loom according to claim 2 convenient for heat dissipation, it is characterised in that：The two panels flabellum (1323) is in upper and lower Distribution.

6. the weaving loom according to claim 1 convenient for heat dissipation, it is characterised in that：The damping device (3) is including housing (301), the compression component (30) that can be moved up and down, for drive rebound component (309) that compression component (30) springs back and With compression component (30) matched dampening assembly (307).

7. the weaving loom according to claim 6 convenient for heat dissipation, it is characterised in that：During the dampening assembly (307) includes Heart damping part (3071) and two side damping parts (3072), described two side damping parts (3072) subtract positioned at center The left and right sides of component (3071) is shaken, the central suspension component (3071) is the damper set on housing (301) inner wall center (30711)。