CN208533159U - A kind of boiling hot contracting processing equipment of knitting fabric sample - Google Patents

Abstract

Scald contracting processing equipment the utility model discloses a kind of knitting fabric sample, including rack, station, high-temperature-resistant transmission mesh belt, transporting reticulation belt driving mechanism, seal closure, to wet tank and pressing component；High-temperature-resistant transmission mesh belt is divided into epipelagic zone body and underlying band body by the live-roller of transporting reticulation belt driving mechanism；Operation through-hole is provided on station, epipelagic zone body is correspondingly arranged at the lower section of operation through-hole；The side of station is arranged in rack；Seal closure is arranged on the rack to wet tank and pressing component；Seal closure and set up separately above and below epipelagic zone body to wet tank, connect to wet tank with vapour source, the top surface of wet tank is provided with steam hole, seal closure passes through first and goes up and down actuator to be connect with rack；Pressing component connect with rack and is disposed adjacent the exit side in seal closure.The boiling hot contracting processing equipment of the knitting fabric sample is structurally reasonable, and successively the dewing to fabric sample and pressing processing, reduce the processing error of identical fabric.

Description

A kind of boiling hot contracting processing equipment of knitting fabric sample

Technical field

The utility model relates to fabric preshrunk apparatus fields, and in particular to a kind of boiling hot contracting processing equipment of knitting fabric sample.

Background technique

The purpose of preshrunk processing is to improve the boiling hot shrinkage of fabric, promotes feel and reduce filoplume.Knitting fabric is being cut out It needs to carry out preshrunk processing, especially Weft knitted fabric before cutting.Preshrunk in the prior art mainly realizes on preshrinking machine, Process are as follows: the fabric after dewing enters in the grip zone of bearing roller and rubber blanket composition, and contained humidity is by high-temperature bearing in fabric Roller heats rapidly vaporization, and enters fibrous inside, forces the expansion of fabric fibre chamber, is rounded；After the diameter of weft yarn becomes larger, is thicker, The warp yarn curvature for being wrapped in weft yarn outer surface is promoted to increase, fabric is being had contraction demand upwards, is attached on rubber blanket Fabric with rubber blanket high bounce bounce back, complete preshrunk.

In order to guarantee the accuracy cut, it usually needs one piece of cutting uses fabric as sample before produce sample, Test the boiling hot shrinkage of the sample.A kind of test method for being knitted fabric hot shrinkage rate is disclosed in CN103668932A, it is main It is manually completed using vapour iron.Technological deficiency is: when fabric type on probation is more, the artificial work recorded in above-mentioned file Industry low efficiency；Since pressing time, fabric are to the difference of moisture etc., the boiling hot shrinkage measured value of identical fabric differs greatly, i.e. hand Dynamic error is larger.In addition, for different fibers composition fabric, should according to actual production process choice it is different to moisture, pressure Time-temperature pressure and other parameters are scalded, and it is poor that control precision is manually operated.

Utility model content

The purpose of the utility model is to overcome defects existing in the prior art, provide a kind of boiling hot contracting of knitting fabric sample The fabric of the fixed size cut is placed on high-temperature-resistant transmission mesh belt by processing equipment, successively carries out dewing, pressing to fabric Operation reduces sample turnover, improves the testing efficiency that sample scalds shrinkage.

Realize above-mentioned technical effect, the technical solution of the utility model are as follows: a kind of boiling hot contracting processing equipment of knitting fabric sample, It is characterised in that it includes rack, station, high-temperature-resistant transmission mesh belt, transporting reticulation belt driving mechanism, seal closure, give wet tank and pressure Scald component；

High-temperature-resistant transmission mesh belt is divided into epipelagic zone body and underlying band body by the live-roller of transporting reticulation belt driving mechanism；Operation Operation through-hole is provided on platform, epipelagic zone body is correspondingly arranged at the lower section of operation through-hole；The side of station is arranged in rack；It is close Sealing cover is arranged on the rack to wet tank and pressing component；

Seal closure and set up separately above and below epipelagic zone body to wet tank, is connect to wet tank with vapour source, to wet tank Top surface is provided with steam hole, and seal closure is connect by the first lifting actuator with rack；

Pressing component connect with rack and is disposed adjacent the exit side in seal closure.

The effect of operation through-hole is, can be up and down to wet tank convenient for set up seal closure above epipelagic zone body and lower section separately The dewing of fabric is completed in cooperation.Jet chimney is commonly configured in the pressing workshop of fabric, above-mentioned gives wet tank directly and steam Pipeline connection；There is the passable through-hole of steam, common, dewing vapor (steam) temperature is up to 220 DEG C of left sides on high-temperature-resistant transmission mesh belt It is right, it is therefore desirable to select suitable high-temperature-resistant transmission mesh belt material, such as silica gel or aramid fiber material.The effect of rack is to locate The mechanism and component such as seal closure of reason fabric give wet tank and pressing component, therefore above-mentioned station side specifically refers to resistance to height The side of warm transporting reticulation belt extending direction.

Preferred technical solution is that several closed first sealing rings are provided on high-temperature-resistant transmission mesh belt, and first is close Seal ring is successively spaced setting along high-temperature-resistant transmission mesh belt extending direction, and high-temperature-resistant transmission web area is for supporting in the first sealing ring Fabric block is tested, wet tank top surface is provided with the second sealing ring or sealing bed course, the bottom surface of seal closure, the first sealing ring and second Sealing ring or sealing bed course present lower corresponding shape.Block-like sample fabric is clamped in seal closure and between wet tank, dewing mistake Seal closure encloses pressurization dewing chamber with to wet tank in journey, and sealing ring helps to reduce the escaped quantity of steam.Exist to wet tank setting Avoidable steam is condensed into water droplet and is dropped on fabric below fabric, influences the dewing uniformity of cloth cover.

Preferred technical solution is that pressing platform is correspondingly arranged below pressing component, pressing platform and the fixed company of rack It connects, the lower section of epipelagic zone body is arranged in pressing platform.

Preferred technical solution is that pressing component includes pressing plate and the second lifting actuator, and pressing plate passes through second liter Drop actuator is connect with rack, and the first heating element is provided in pressing plate.First lifting actuator and the second lifting actuator The including but not limited to elevating mechanism of cylinder, oil cylinder and motor driven and screw nut driving mechanism composition.In order to simplify equipment Structure and realization clean manufacturing, and the existing configuration in workshop is made full use of, compressed gas pipeline is configured in usual workshop, it is above-mentioned First lifting actuator and the second lifting actuator are cylinder.

The measurement that size is expected in contracting processing below is scalded for convenience, and preferred technical solution is that scale is provided on station Scale.

For knitting fabric, through to inconsistent with the boiling hot shrinkage of broadwise, in order to further facilitate fabric two-dimensional The acquisition of data, preferred technical solution be, graduated scale includes perpendicular the first scale and the second scale, the first scale and The zero point of second scale coincides.

Preferred technical solution is that transporting reticulation belt driving mechanism includes two live-rollers, and a live-roller is connect with driving motor, The driving motor is stepper motor or servo motor.

In order to optimize during dewing seal closure and to the air-tightness combined between wet tank, preferred technical solution is, resistance to High temperature transporting reticulation belt, the first sealing ring, the second sealing ring are silica gel material.Sealing ring is by silica gel localised application and is filled in resistance to It is formed in high temperature transporting reticulation belt mesh.

In order to adjust dewing vapor (steam) temperature, condensation of the steam on dewing tank wall is reduced, preferred technical solution is dewing The second heating element is provided in case.

Preferred technical solution is that the exit side of pressing platform and/or pressing component has been disposed adjacent cloth wind part, cloth wind part With inner cavity, the air port towards high-temperature-resistant transmission mesh belt is provided on cloth wind part, cloth wind part is connect with air blast part or gas source.Into One step, cloth wind part can be provided separately within the top of high-temperature-resistant transmission mesh belt, or in the top of high-temperature-resistant transmission mesh belt under Side is oppositely arranged.Cloth wind part, which is provided separately within below high-temperature-resistant transmission mesh belt, is easy to cause fabric to blow off transporting reticulation belt.

Advantages and beneficial effects of the utility model lie in that

The boiling hot contracting processing equipment of the knitting fabric sample is structurally reasonable, passes through high-temperature-resistant transmission mesh belt and transmits boiling hot contracting test face Material, the feedstock direction along boiling hot contracting test fabric set gradually dewing, pressing component, can be sequentially completed the dewing and pressure of fabric sample Processing is scalded, compared with manual working in the prior art, knitting fabric sample, which scalds contracting processing equipment, can be continuously introduced into fabric, and right The technological parameter of identical fabric reaches unanimity, and reduces manual operation error, and convenient for forming fiber, grammes per square metre not according to fabric With adjustment technological parameter.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that the utility model knitting fabric sample scalds contracting processing equipment embodiment 1；

Fig. 2 is seal closure in embodiment 1, epipelagic zone body and the structural schematic diagram to wet tank；

Fig. 3 is the structural schematic diagram that the utility model knitting fabric sample scalds contracting processing equipment embodiment 2；

Fig. 4 is seal closure in embodiment 2, epipelagic zone body and the structural schematic diagram to wet tank；

Fig. 5 is the structural schematic diagram with body and the first sealing ring at the middle and upper levels of embodiment 2；

Fig. 6 is the structural schematic diagram of station and graduated scale in embodiment 2.

In figure: 1, rack；2, station；3, high-temperature-resistant transmission mesh belt；3a, epipelagic zone body；3b, underlying band body；4, it transmits Mesh belt driving mechanism；41, live-roller；42, driving motor；5, seal closure；6, wet tank is given；7, pressing component；71, pressing plate；72, Second lifting actuator；8, vapour source；9, the first lifting actuator；10, the first heating element；11, the first sealing ring；12, close Packing layer；13, pressing platform；14, the first scale；15, the second scale；16, the second heating element；17, cloth wind part；18, steam Hole.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is further described.Implement below Example is only used for clearly illustrating the technical solution of the utility model, and cannot be used as a limitation the protection model of limitation the utility model It encloses.

Embodiment 1

As shown in Figs. 1-2, the knitting fabric sample of embodiment 1 scalds contracting processing equipment, including rack 1, station 2, resistance to height Warm transporting reticulation belt 3, seal closure 5, gives wet tank 6 and pressing component 7 at transporting reticulation belt driving mechanism 4；Transporting reticulation belt driving mechanism 4 High-temperature-resistant transmission mesh belt 3 is divided into epipelagic zone body 3a and underlying band body 3b by live-roller；Operation through-hole is provided on station 2 21, epipelagic zone body 3a are correspondingly arranged at the lower section of operation through-hole 21；The side of station 2 is arranged in rack 1；Seal closure 5, dewing Case 6 and pressing component 7 are arranged in rack 1；Seal closure 5 and set up separately above and below epipelagic zone body 3a to wet tank 6, dewing Case 6 is connect with vapour source 8, the top surface of wet tank 6 is provided with steam hole 18, seal closure 5 passes through the first lifting actuator 9 and rack 1 connection；

Pressing component 7 connect with rack 1 and is disposed adjacent the exit side in seal closure 5.

The pressing component 7 of embodiment 1 includes pressing plate 71 and the second lifting actuator 72, and pressing plate 71 passes through the second lifting Actuator 72 is connect with rack 1, and jaggies in first heating element 10(Fig. 1 is provided in pressing plate 71).Pressing plate 71 is direct It is pressed on the fabric sample on high-temperature-resistant transmission mesh belt 3.

Transporting reticulation belt driving mechanism 4 be structure commonly used in the prior art, including two live-roller 41(, mono- drive roll and one from Dynamic roller), wherein drive roll is connect with driving motor 42, and driving motor 42 is stepper motor or servo motor.

When embodiment 1 works, fabric sample is placed on the top surface epipelagic zone body 3a first, driving motor 42 drives transmission Roller 41 rotates, and the high-temperature-resistant transmission mesh belt 3 being around in outside two live-rollers 41 is transmitted along feed direction, and fabric sample is located at seal closure 5 When lower section, driving motor 42 shuts down, and high-temperature-resistant transmission mesh belt 3 stops transmission, and the first lifting actuator 9 drives seal closure 5 Downlink clamps epipelagic zone body 3a up to seal closure 5 and to wet tank 6, and vapour source 8 feeds steam to wet tank 6, and steam is filled with close In sealing cover 5 and fabric is bedewed, the first lifting actuator 9 drives 5 uplink of seal closure, and driving motor 42 drives high-temperature-resistant transmission mesh belt 3 transmit along feed direction, and when fabric sample is located at pressing 71 lower section of plate, the second lifting actuator 72 drives 71 downlink of pressing plate, Until pressing plate 71 presses against on fabric sample, after the pressing predetermined time, the second lifting actuator 72 drives 71 uplink of pressing plate, Driving motor 42 drives high-temperature-resistant transmission mesh belt 3 to transmit along feed direction again；Operator manually passes fabric from high temperature resistant Defeated 3 top surface of mesh belt is taken out, the fabric specimen size after drying after measurement processing.

Top surface in Fig. 1 to wet tank is preferably dictyosome, and the mesh that appearance steam passes through is smaller but mesh density is larger.

Embodiment 2

As seen in figures 3-6, embodiment 2 the difference from embodiment 1 is that: be provided with several on high-temperature-resistant transmission mesh belt 3 Closed first sealing ring 11, the first sealing ring 11 are successively spaced setting, the first sealing along 3 extending direction of high-temperature-resistant transmission mesh belt High-temperature-resistant transmission web area is provided with sealing bed course 12 to 6 top surface of wet tank, seals bed course for supporting test fabric block in ring 11 Through-hole is provided on 12, through-hole and steam hole 18 correspond；The bottom surface of seal closure 5, the first sealing ring 11 and sealing bed course 12 In upper and lower corresponding shape.

Pressing platform 13 is correspondingly arranged below pressing component 7, pressing platform 13 is fixedly connected with rack 1, pressing platform 13 are arranged in the lower section of epipelagic zone body 3a.

Graduated scale is provided on station 2.

Graduated scale includes perpendicular the first scale 14 and the second scale 15, and the zero of the first scale 14 and the second scale 15 Point coincides.

High-temperature-resistant transmission mesh belt 3, the first sealing ring 11, the second sealing ring are silica gel material.

To being provided with the second heating element 16 in wet tank 6.

The exit side of pressing platform 13 has been disposed adjacent cloth wind part 17, and cloth wind part 17 has inner cavity, is arranged on cloth wind part 17 There is the air port towards high-temperature-resistant transmission mesh belt 3, cloth wind part 17 is connect with air blast part or gas source, and gas distribution part is arranged in epipelagic zone body Above and below.

Embodiment 2 and the use process difference of embodiment 1 are:

1, the first sealing ring 11 and sealing bed course 12 are folded in seal closure 5 and between wet tanks 6, steam in use process Spill-out is small；

2, when fabric sample is located at pressing 71 lower section of plate, the second lifting actuator 72 drives 71 downlink of pressing plate, until will Fabric sample is clamped between pressing plate 71 and pressing platform 13；

3, it to the second heating element is provided in wet tank 6, helps to ensure that the temperature of steam, reduces condensation；

4, pressing treated fabric via high-temperature-resistant transmission mesh belt 3 drive operation to above and below cloth wind part to it is corresponding when gas Source gas supply, the air port blow gas of cloth wind part accelerate drying for fabric；

5, after operator takes out fabric from high-temperature-resistant transmission mesh belt 3, one end angle of fabric sample is placed in first At the coincidence zero point of scale 14 and the second scale 15, fabric dimension data is immediately arrived at.

Specifically, being separated with 3 mesh of high-temperature-resistant transmission mesh belt, mesh between the first sealing ring 11 and the outer rim of fabric sample Effect be to form steam circulation, help speed up dewing rate.

Common, fabric sample is rectangle, and longitude and latitude length is inconsistent, convenient for distinguishing through scalding contracting to boiling hot shrinkage and broadwise Rate.

When steam is filled with to wet tank, there are air-flows to wash from upper layer zone face for fabric sample or lead to the position of fabric sample It moves, further, the bottom end of seal closure is provided with the fin for pushing fabric.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, these change It also should be regarded as the protection scope of the utility model into retouching.

Claims (10)

1. a kind of knitting fabric sample scalds contracting processing equipment, which is characterized in that including rack, station, high-temperature-resistant transmission mesh belt, Transporting reticulation belt driving mechanism, gives wet tank and pressing component at seal closure；

High-temperature-resistant transmission mesh belt is divided into epipelagic zone body and underlying band body by the live-roller of transporting reticulation belt driving mechanism；On station It is provided with operation through-hole, epipelagic zone body is correspondingly arranged at the lower section of operation through-hole；The side of station is arranged in rack；Sealing Cover is arranged on the rack to wet tank and pressing component；

Seal closure and set up separately above and below epipelagic zone body to wet tank, is connect to wet tank with vapour source, to the top surface of wet tank It is provided with steam hole, seal closure is connect by the first lifting actuator with rack；

Pressing component connect with rack and is disposed adjacent the exit side in seal closure.

2. knitting fabric sample according to claim 1 scalds contracting processing equipment, which is characterized in that on high-temperature-resistant transmission mesh belt Several closed first sealing rings are provided with, the first sealing ring is successively spaced setting along high-temperature-resistant transmission mesh belt extending direction, High-temperature-resistant transmission web area is provided with the second sealing ring or close to wet tank top surface for supporting test fabric block in first sealing ring Packing layer, the bottom surface of seal closure, the first sealing ring present lower corresponding shape with the second sealing ring or sealing bed course.

3. knitting fabric sample according to claim 1 scalds contracting processing equipment, which is characterized in that corresponding below pressing component It is provided with pressing platform, pressing platform is fixedly connected with rack, and the lower section of epipelagic zone body is arranged in pressing platform.

4. knitting fabric sample according to claim 3 scalds contracting processing equipment, which is characterized in that pressing component includes pressing Plate and the second lifting actuator, pressing plate are connect by the second lifting actuator with rack, and the first heating is provided in pressing plate Element.

5. knitting fabric sample according to claim 1 scalds contracting processing equipment, which is characterized in that be provided with quarter on station Anale settting scale.

6. knitting fabric sample according to claim 5 scalds contracting processing equipment, which is characterized in that graduated scale includes mutually hanging down The zero point of straight the first scale and the second scale, the first scale and the second scale coincides.

7. knitting fabric sample according to claim 1 scalds contracting processing equipment, which is characterized in that transporting reticulation belt driving mechanism Including two live-rollers, a live-roller is connect with driving motor, and the driving motor is stepper motor or servo motor.

8. knitting fabric sample according to claim 1 scalds contracting processing equipment, which is characterized in that high-temperature-resistant transmission mesh belt, First sealing ring, the second sealing ring are silica gel material.

9. knitting fabric sample according to claim 1 scalds contracting processing equipment, which is characterized in that being provided in wet tank Two heating elements.

10. knitting fabric sample according to claim 3 scalds contracting processing equipment, which is characterized in that pressing platform and/or pressure The exit side for scalding component has been disposed adjacent cloth wind part, and cloth wind part has inner cavity, is provided on cloth wind part towards high-temperature-resistant transmission net The air port of band, cloth wind part are connect with air blast part or gas source.