CN209573423U - Footwear drying device and footwear continuous-flow type production line - Google Patents

Abstract

The utility model relates to technical field of shoe making, provide a kind of footwear drying device, including transport mechanism, for transmitting footwear and successively by preliminary station, Drying station and discharging station；Drying box, including case ontology, feeding gate and discharge door, case ontology offers drying chamber and is used to for drying chamber to be connected to external feed inlet, discharge port, Drying station is located in drying chamber, preliminary station and discharging station are respectively positioned on outside drying chamber, feed inlet is used to that footwear to be moved to Drying station from preliminary station for transport mechanism, discharge port is used to that footwear to be moved to discharging station from Drying station for transport mechanism, feeding gate is for opening or closing feed inlet, and discharge door is for opening or closing discharge port；Dry temperature control component, for controlling the temperature of drying chamber；Negative pressure generator, for reducing drying chamber air pressure or make drying chamber evacuation.The footwear drying device can be applied in assembly line, reduce the dry waiting time, improve drying efficiency, be conducive to batch production.

Description

Footwear drying device and footwear continuous-flow type production line

Technical field

The utility model relates to technical field of shoe making more particularly to a kind of footwear drying device and the application footwear are dry Device footwear is dried the footwear continuous-flow type production line of operation.

Background technique

With the raising of environmental protection standard, used adhesive glue needs are met environmental requirements in the shoe making process, wherein by In water-base cement have the characteristics that nonhazardous, it is pollution-free, do not burn, using safe, therefore, in the shoe making process used by bonding Glue is changed to water-base cement more.Again since water-base cement has the characteristics that slow drying speed, to improve shoemaking efficiency, increase in the shoe making process Drying operation is added.And be to improve drying efficiency, water-base cement is mainly heated in technical principle at present, to improve water-base cement Rate of drying to limit the heating temperature to water-base cement, therefore, also limit water but since the heat resistance of footwear is not high The rate of drying of property glue.

In addition, mostly using constant temperature drying box on the specific structure for realizing footwear drying operation, wherein since constant temperature dries Dry case only has a chamber door for footwear disengaging, in this way, in the drying process, needing to dry footwear from constant temperature to operator After being taken out in dry case, still undried footwear could be put into constant temperature drying box, increase footwear and enter constant temperature drying The waiting time of case causes drying efficiency lower, is unfavorable for producing operation in batches.

Utility model content

The purpose of this utility model is to provide a kind of footwear drying devices, it is intended to it is dry to solve existing footwear drying device Efficiency is lower, is unfavorable for the problem of producing operation in batches.

In order to solve the above technical problems, the technical solution of the utility model is: a kind of footwear drying device comprising:

Transport mechanism is pipeline organization, and is used to transmit footwear and successively passes through preliminary station, Drying station and go out Expect station；

Drying box, including case ontology, feeding gate and discharge door, the case ontology offer drying chamber and are used to The drying chamber is connected to external feed inlet, discharge port, the Drying station is located in the drying chamber, the prepared work Position and the discharging station are respectively positioned on outside the drying chamber, and the feed inlet is for the confession transport mechanism by footwear from described pre- Standby station is moved to the Drying station, and the discharge port is used for for the transport mechanism that footwear is mobile from the Drying station To the discharging station, the feeding gate is for opening or closing the feed inlet, and the discharge door is for opening or closing institute State discharge port；

Dry temperature control component, for controlling the temperature of the drying chamber；

Negative pressure generator, for reducing the drying chamber air pressure or make the drying chamber evacuation.

Further, the drying box further includes the charging for storing the feeding gate when opening the feed inlet Door collecting part, the feeding gate collecting part are set to the top of the feeding gate and are fixedly connected with the case ontology, the charging Door collecting part bottom offers the feeding gate for passing in and out the feeding gate collecting part for the feeding gate and stores mouth；The drying Cabinet further includes the discharge door collecting part for storing the discharge door when opening the discharge port, the discharge door collecting part Set on the discharge door top and be fixedly connected with the case ontology, discharge door collecting part bottom is offered for for institute State the discharge door storage mouth that discharge door passes in and out the discharge door collecting part.

Further, the drying box further includes the feeding gate slide rail group for carrying out slide-and-guide to the feeding gate Part, the feeding gate slide track component are set to the two sides of glide direction of the feeding gate collecting part relative to the feeding gate and prolong The feed inlet bottom is extended to, the feeding gate slide track component is fixedly connected with the feeding gate collecting part and the case ontology, The feeding gate slides in the feeding gate slide track component and along the feeding gate slide track component；The drying box also wraps The discharge door slide track component for carrying out slide-and-guide to the discharge door is included, the discharge door slide track component is set to the discharging Door collecting part relative to the glide direction of the discharge door two sides and extend to the discharge port bottom, the discharge door sliding rail Component is fixedly connected with the discharge door collecting part and the case ontology, and the discharge door is in the discharge door slide track component And it is slided along the discharge door slide track component.

Further, the footwear drying device further includes connecting and controlling the charging that the feeding gate opens or closes to drive Dynamic device, and connect and control the discharging driver that the discharge door opens or closes.

Further, the footwear drying device further includes the sense for whether having entered the Drying station for incuding footwear Inductive sensing device, the inductive pick-up are set in the drying chamber, and the inductive pick-up is also connect with the charging driver.

Further, the dry temperature control component includes heating member, the temperature for detecting the temperature in the drying chamber Sensor and heating temperature for controlling the heating member maintain the heating controller in preset temperature range, it is described plus Warmware and the temperature sensor are set in the drying chamber, and the heating member and the temperature sensor are controlled with the heating Device connection processed.

Further, the transport mechanism includes for playing carrying and transporting the conveyer belt of footwear, the conveyer belt Successively pass through the preliminary station, the Drying station and the discharging station.

Further, the drying box further includes the charging for making the feeding gate Yu the conveyer belt palette Gate seal, the charging gate seal are attached at the feeding gate bottom；The drying box further include for make it is described go out The discharging gate seal of bin gate and the conveyer belt palette, the discharging gate seal are attached at the discharge door bottom.

Further, the footwear drying device further includes driving for starting or braking the transmission of the transport mechanism Device, the transmission driver are connect with the transport mechanism.

The utility model additionally provides a kind of footwear continuous-flow type production line, and the footwear continuous-flow type production line application is above-mentioned Operation is dried to footwear in footwear drying device.

The utility model has the beneficial effects that

Footwear drying device provided by the utility model is by transport mechanism and can open or close feed inlet or discharge port Drying box realize footwear automation drying operation, can be applied to footwear drying device in pipelining, the footwear Drying device high degree of automation reduces footwear and enters the waiting time that operation is dried in footwear drying device, very sharp In batch production operation；And the dry required heating temperature of footwear is reduced by negative pressure generator, it avoids the need for because of footwear Heat resistance limitation occur to the case where heating temperature of water-base cement, to improve footwear drying efficiency, also avoid due to It is too high to the heating temperature of water-base cement so as to cause the damage to footwear performance.

Detailed description of the invention

Fig. 1 is the schematic perspective view of footwear drying device provided by the embodiment of the utility model；

Fig. 2 is the schematic perspective view when feeding gate of the footwear drying device of Fig. 1 is opened.

Appended drawing reference:

Label	Title	Label	Title
				11	Transport mechanism	12	Preliminary station
13	Drying station	14	Discharge station
				15	Drying box	151	Case ontology
152	Feeding gate	153	Discharge door
				154	Feeding gate collecting part	155	Discharge door collecting part
156	Feeding gate slide track component	157	Discharge door slide track component
				111	Conveyer belt	158	Feed gate seal
159	Discharge gate seal

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

In the description of the utility model embodiment, it is to be understood that term " length ", " width ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description the utility model embodiment and simplifies description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as the limitation to the utility model embodiment.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the utility model embodiment unless specifically defined or limited otherwise, term " installation ", " connects " connected " Connect ", the terms such as " fixation " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral； It can be mechanical connection, be also possible to connect；It can be directly connected, can also can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside two elements.It for the ordinary skill in the art, can be with Concrete meaning of the above-mentioned term in the utility model embodiment is understood as the case may be.

The specific implementation of the utility model is further described in more detail below in conjunction with specific embodiment:

Fig. 1,2 are please referred to, the utility model embodiment provides a kind of footwear drying device, is set on assembly line, is used for Operation is dried to the footwear for having applied water-base cement in shoe-making process process, the footwear drying device include transport mechanism 11, Drying box 15, dry temperature control component and negative pressure generator.

Wherein, transport mechanism 11 is pipeline organization, and for transmitting footwear and successively by preliminary station 12, back tender Position 13 and discharging station 14.It should be noted that transport mechanism 11 can be but be not limited to chain transfer mechanism or belt The common transport mechanism 11 of the machinery fields such as transport mechanism, before preliminary station 12, just one-step forming correlation work is completed in footwear Skill and water-base cement is used to be bonded, in Drying station 13, operation can be dried to footwear, in discharging station 14, footwear Drying process is completed, subsequent handling processing can be carried out.

Drying box 15, including case ontology 151, feeding gate 152 and discharge door 153, case ontology 151 offer drying chamber And be used to for drying chamber to be connected to external feed inlet, discharge port, Drying station 13 is located in drying chamber, preliminary station 12 It is respectively positioned on outside drying chamber with discharging station 14, feed inlet is used to that footwear to be moved to drying from preliminary station 12 for transport mechanism 11 Station 13, discharge port are used to that footwear to be moved to discharging station 14 from Drying station 13 for transport mechanism 11, and feeding gate 152 is used for Feed inlet is opened or closed, discharge door 153 is for opening or closing discharge port.It should be noted that when footwear is located in advance When standby station 12, feeding gate 152 opens the feed inlet of drying box 15, and footwear can be sent to Drying station by transport mechanism 11 13, i.e., in the drying chamber of drying box 15, when footwear is located at Drying station 13, feeding gate 152 close drying box 15 into Material mouth cooperates the discharge door 153 of closed state, at this point, drying box 15 forms a closed drying chamber, at this point, can be to shoes Operation is dried in tool, and when footwear completes drying operation, discharge door 153 opens the discharge port of drying box 15, transport mechanism Footwear is sent to discharging station 14 from Drying station 13 to carry out shoemaking subsequent process flow by 11, is sent back tender in footwear Behind position 13, discharge door 153 is closed, and feeding gate 152 can be again turned on, and footwear is sent into Drying station again for transport mechanism 11 13, it so recycles, realizes the automation drying operation of footwear, operation is dried to reduce footwear and enter footwear drying device Waiting time.Herein it should also be noted that, the size that drying box 15 is formed by drying chamber should be greater than footwear to be dried Size, that is, drying chamber should be able to accommodate footwear to be dried completely.

Dry temperature control component, for controlling the temperature of drying chamber.It should be noted that in shoe-making field, it is dry Operation often refers to the moisture or solvent evaporation made in water-base cement by means of thermal energy, and takes away the process of steam generated.Therefore, dry temperature Control component is mainly used for heat needed for providing the moisture or solvent evaporation in the water-base cement in footwear, and can will be inside drying chamber Temperature control at the boiling point of moisture or solvent in water-base cement so that the moisture or solvent in water-base cement be able to it is dry same When, it reduces temperature and large effect is generated to the performance of footwear.Herein it should also be noted that, when footwear is located at Drying station 13 When, feeding gate 152 closes the feed inlet of drying box 15, cooperates the discharge door 153 of closed state, and drying box 15 forms an envelope The drying chamber closed, at this point, can open dry temperature control component is dried operation to footwear.

Negative pressure generator, for reducing drying chamber air pressure or make drying chamber evacuation.It should be noted that working as gas When pressure is a standard atmospheric pressure, the boiling temperature of water is 100 degrees Celsius, but with the reduction of air pressure, the boiling point of water will therewith It reducing, reason is that the air pressure on the water surface can prevent hydrone from being evaporated, thus, drying chamber is reduced by negative pressure generator Interior air pressure makes drying chamber evacuation, and the boiling point of the moisture or solvent in water-base cement can be made to reduce, i.e., dry temperature control component control The temperature of system only needs that the moisture or solvent evaporation in water-base cement can be made in the boiling spread for the water being maintained under negative pressure condition, from And it solves and needs because the case where heat resistance of footwear carefully limits the heating temperature to water-base cement is done caused by occurring The problem of dry inefficiency, at the same also avoid due to the heating temperature to water-base cement it is too high so as to cause to footwear performance Damage.Thus, negative pressure generator is used to be located at Drying station 13 when footwear, and drying box 15 forms a closed drying chamber When, make to form the subnormal ambient for being lower than standard atmospheric pressure inside drying chamber by way of the air inside extraction drying chamber；It is negative Pressure generator is also used to that footwear is dried when dry temperature control component so that when moisture or solvent evaporation in water-base cement, Steam inside extraction drying chamber to maintain at normal atmospheric pressure inside drying chamber.

Specifically, the workflow of footwear drying device provided by the embodiment of the utility model are as follows: when footwear is located at preparation When station 12, feeding gate 152 opens the feed inlet of drying box 15, and footwear can be sent to Drying station 13 by transport mechanism 11, I.e. in the drying chamber of drying box 15, when footwear is located at Drying station 13, feeding gate 152 closes the charging of drying box 15 Mouthful, cooperate the discharge door 153 of closed state, at this point, drying box 15 forms a closed drying chamber, then, negative pressure generator Make to form the subnormal ambient for being lower than standard atmospheric pressure inside drying chamber by way of the air inside extraction drying chamber, in negative pressure Under state, the boiling temperature or preset temperature of moisture or solvent of the dry temperature control component by heating and temperature control in water-base cement Make the moisture or solvent evaporation in water-base cement in range, the steam inside negative pressure generator extraction drying chamber makes inside drying chamber Maintain under negative pressure state, when footwear complete drying operation when, negative pressure generator stops operating, drying chamber air pressure inside restore to Standard atmospheric pressure, discharge door 153 open the discharge port of drying box 15, and footwear is sent to by transport mechanism 11 from Drying station 13 Station 14 discharge to carry out shoemaking subsequent process flow, after footwear is sent Drying station 13, discharge door 153 is closed, charging Door 152 can be again turned on, and for transport mechanism 11 again by footwear feeding Drying station 13, so circulation carries out next dry work Industry process.

Footwear drying device provided by the embodiment of the utility model is by transport mechanism 11 and can open or close feed inlet Or the drying box 15 of discharge port realizes the automation drying operation of footwear, and footwear drying device is made to can be applied to pipelining In, footwear drying device high degree of automation provided by the embodiment of the utility model reduces footwear and enters footwear drying device The waiting time of operation is dried, is very beneficial to batch production operation；The dry dress of footwear provided by the embodiment of the utility model Setting also reduces the dry required heating temperature of footwear by negative pressure generator, avoids the need for the heat resistance limitation pair because of footwear The case where heating temperature of water-base cement, occurs, to improve footwear drying efficiency, also avoids due to the heating to water-base cement Temperature it is too high so as to cause the damage to footwear performance.

Fig. 1,2 are please referred to, in the utility model embodiment, drying box 15 further includes for the receipts when opening feed inlet Receive the feeding gate collecting part 154 of feeding gate 152, feeding gate collecting part 154 be set to the top of feeding gate 152 and with case ontology 151 It is fixedly connected, 154 bottom of feeding gate collecting part offers the feeding gate for passing in and out feeding gate collecting part 154 for feeding gate 152 Store mouth；Drying box 15 further includes the discharge door collecting part 155 for storing discharge door 153 when opening discharge port, discharging Door collecting part 155 is set to the top of discharge door 153 and is fixedly connected with case ontology 151, and 155 bottom of discharge door collecting part offers Discharge door for passing in and out discharge door collecting part 155 for discharge door 153 stores mouth.It should be noted that feeding gate is stored Part 154 is connected to 15 feed inlet side of drying box, and prominent feeding gate 152 is arranged, and 154 bottom of feeding gate collecting part opens up useful Mouth is stored in the feeding gate for passing in and out feeding gate collecting part 154 for feeding gate 152, which stores mouth size and be slightly larger than feeding gate 152 sizes, and feeding gate storage mouth is located at right above feeding gate 152, so that when feeding gate 152 is opened, feeding gate 152, which can store mouth from feeding gate, enters in feeding gate collecting part 154, and similarly, discharge door collecting part 155 is connected to drying box 15 Discharge port side, and prominent discharge door 153 is arranged, 155 bottom of discharge door collecting part is offered to discharge for passing in and out for discharge door 153 The discharge door of door collecting part 155 stores mouth, which stores mouth size and be slightly larger than 153 size of discharge door, and the discharge door is received Na Kou is located at right above discharge door 153 so that when discharge door 153 is opened, discharge door 153 can be stored from discharge door mouth into Enter in discharge door collecting part 155.It should be noted that when feeding gate 152 or discharge door 153 are closed, feeding gate 152 or discharging Door 153 still has part indwelling in feeding gate collecting part 154 or discharge door collecting part 155.

Fig. 1,2 are please referred to, in the utility model embodiment, drying box 15 further includes for carrying out to feeding gate 152 The feeding gate slide track component 156 of slide-and-guide, feeding gate slide track component 156 are set to feeding gate collecting part 154 relative to feeding gate The two sides of 152 glide direction simultaneously extend to feed inlet bottom, feeding gate slide track component 156 and feeding gate collecting part 154 and case Ontology 151 is fixedly connected, and feeding gate 152 slides in feeding gate slide track component 156 and along feeding gate slide track component 156；It is dry Dry cabinet 15 further includes the discharge door slide track component 157 for carrying out slide-and-guide to discharge door 153, discharge door slide track component 157 are set to discharge door collecting part 155 relative to the two sides of the glide direction of discharge door 153 and extend to discharge port bottom, discharge Door slide track component 157 is fixedly connected with discharge door collecting part 155 and case ontology 151, and discharge door 153 is embedded in discharge door slide track component It is slided in 157 and along discharge door slide track component 157.Preferably, feeding gate 152 and discharge door 153 can be through but not limited to slidings Mode open and close feed inlet or discharge port, thus, in the present embodiment, along feeding gate store mouth to two sides extend be equipped with feeding gate Slide track component 156, the feeding gate slide track component 156 extend to feed inlet bottom at the top of feeding gate collecting part 154, and feeding gate is sliding Rail assembly 156 is fixedly connected with drying box 15, and feeding gate 152 is in feeding gate slide track component 156 and along feeding gate sliding rail Component 156 slides up and down, and similarly, stores mouth along discharge door and extends to two sides equipped with discharge door slide track component 157, the discharge door Slide track component 157 extends to discharge port bottom, discharge door slide track component 157 and drying box at the top of discharge door collecting part 155 15 are fixedly connected, and discharge door 153 slides up and down in discharge door slide track component 157 and along discharge door slide track component 157.Pass through Slide track component, it can be achieved that the sliding of feeding gate 152 or discharge door 153 opens and closes, can also be achieved feeding gate 152 or discharge door 153 with Connection relationship between drying box 15.

Fig. 1,2 are please referred to, in the utility model embodiment, footwear drying device further includes connecting and controlling feeding gate The 152 charging drivers opened or closed, and connect and control the discharging driver that discharge door 153 opens or closes.Herein It should be noted that the charging driver and discharging driver can be but be not limited to motor driver, it is preferable that the present embodiment In, charging driver is settable but is not limited to be arranged inside feeding gate collecting part 154, and discharging driver is settable but is not limited to It is arranged inside discharge door collecting part 155.

Fig. 1,2 are please referred to, in the utility model embodiment, footwear drying device further includes for whether to incude footwear Into the inductive pick-up of Drying station 13, inductive pick-up is set in drying chamber, and inductive pick-up also connects with charging driver It connects.It should be noted that inductive pick-up can be set to drying chamber close to the side of feed inlet, when inductive pick-up senses It after the end of footwear is also by feed inlet, can determine whether completely to enter Drying station 13 for footwear, data sent into charging driving Device closes feed inlet by charging driver control feeding gate 152 to form closed drying chamber；Inductive pick-up can also be set to dry The centre of dry chamber, according to footwear size, when inductive pick-up senses that half footwear has passed through the induction of inductive pick-up It is judged as that footwear completely enters Drying station 13, data is sent into charging driver, by charging driver control feeding gate 152 Feed inlet is closed to form closed drying chamber；Inductive pick-up can also be set to drying chamber close to the side of discharge port, work as induction After the induction that sensor sensing passes through inductive pick-up to the front end of footwear, it can determine whether completely to enter Drying station for footwear 13, data are sent into charging driver, feed inlet is closed to form closed drying by charging driver control feeding gate 152 Chamber.Herein it should also be noted that, above-mentioned inductive pick-up includes but is not limited to infrared sensor.

Fig. 1,2 are please referred to, in the utility model embodiment, dry temperature control component includes heating member, for detecting drying The temperature sensor of intracavitary temperature and heating temperature for controlling heating member maintain the heating in preset temperature range Controller, heating member and temperature sensor are set in drying chamber, and heating member is connect with heating controller with temperature sensor.In This is it should be noted that heating member is used to heat footwear, and is used to provide the moisture or molten in the water-base cement in footwear Heat needed for agent vaporization, heating member is set in drying chamber, and is fixedly connected with 11 two sides of transport mechanism；Temperature sensor is used for The heating temperature of the temperature or heating member in drying chamber is detected, and will test data and be transmitted to heating controller；Heating controller Heating temperature for controlling heating member maintains it in preset temperature range, which is negative pressure generator institute The boiling temperature or preset temperature range of moisture or solvent under the negative pressure state of caused drying chamber in water-base cement, work as temperature When sensor institute detection data is in the preset temperature range, it is pre- that the heating temperature of heating controller control heating member maintains this If in temperature range.Specifically, when drying box 15 closes feeding gate 152 to form a closed drying chamber and negative pressure generation When device has been made inside drying chamber in negative pressure state, the heating member in dry temperature control component treats dry footwear, and to carry out heating dry Dry, during this, temperature sensor detects its heating temperature and sends data to heating controller, when temperature sensor is examined Measured data is in the boiling temperature of moisture or solvent under the negative pressure state of drying chamber caused by negative pressure generator in water-base cement Or when within the scope of default temperature, the heating temperature of heating controller control heating member is maintained in the preset temperature range, In After certain drying time, heating controller closes the heating function of heating member.

Fig. 1,2 are please referred to, in the utility model embodiment, transport mechanism 11 includes being used to carry and transport footwear to make Conveyer belt 111, conveyer belt 111 is successively by preliminary station 12, Drying station 13 and discharging station 14.Preferably, originally In embodiment, transport mechanism 11 is using belt transmission agency, which is because, the conveyer belt 111 can with bigger compared with chain Contact area contacts conducive to drying box 15 with 111 surface of conveyer belt to form closed drying chamber in favor of negative pressure generator Generate effectiveness.

Please refer to Fig. 1,2, in the utility model embodiment, drying box 15 further include for make feeding gate 152 with it is defeated The charging gate seal 158 of 111 palette of band is sent, charging gate seal 158 is attached at 152 bottom of feeding gate；Drying box 15 further include the discharging gate seal 159 for making discharge door 153 Yu 111 palette of conveyer belt, and discharging gate seal 159 pastes Set on 153 bottom of discharge door.It should be noted that during feeding gate 152 or discharge door 153 are closed, for make into Bin gate 152 or discharge door 153 form the drying chamber of sealing with 111 surface of conveyer belt energy palette, in feeding gate 152 or go out 153 bottom of bin gate, which is sticked, charging gate seal 158 or discharging gate seal 159, and the charging gate seal 158 or discharge door are close Sealing 159 can be but be not limited to sealing joint strip.

Fig. 1,2 are please referred to, in the utility model embodiment, footwear drying device further includes for starting or braking transmission The transmission driver of mechanism 11, transmission driver are connect with transport mechanism 11.It should be noted that footwear drying device is only It is vertically equipped with transmission driver, in actual application, when footwear is moved to back tender from preliminary station 12 by transport mechanism 11 When position 13, footwear need to stop one time for being enough that it is made to complete drying operation in Drying station 13, and within the time, transmission is driven Footwear is moved to Drying station 13 from preliminary station 12 for braking transport mechanism 11, when transport mechanism 11 needs to realize by dynamic device Or when footwear is moved to discharging station 14 from Drying station 13, transmission driver is for starting transport mechanism 11.

Footwear drying device provided by the embodiment of the utility model drives when footwear is located at preliminary station 12 in charging Under the control of device, feeding gate 152 is slipped into feeding gate collecting part 154 along feeding gate slide track component 156 to open drying box The feed inlet of body 15, under the control of transmission driver, transport mechanism 11 starts so that footwear is sent to Drying station 13, i.e., dry In the drying chamber of dry cabinet 15；When inductive pick-up detects that footwear is located at Drying station 13, in the control of charging driver Under, feeding gate 152 is slided along feeding gate slide track component 156 to close the feed inlet of drying box 15, cooperates going out for closed state Bin gate 153, at this point, drying box 15 forms a closed drying chamber, then, negative pressure generator is by extracting out inside drying chamber The mode of air makes to form the subnormal ambient for being lower than standard atmospheric pressure inside drying chamber, under negative pressure state, dry temperature control component The moisture or solvent evaporation that will make in water-base cement in the boiling spread of moisture or solvent of the heating and temperature control in water-base cement are born Steam inside pressure generator extraction drying chamber to maintain under negative pressure state inside drying chamber, during this, drives in transmission Under the control of dynamic device, transport mechanism 11 is in on-position；When footwear completes drying operation, negative pressure generator stops operating, Drying chamber air pressure inside is restored to standard atmospheric pressure, and under the control of discharging driver, discharge door 153 is along discharge door slide track component 157 slip into discharge door collecting part 155 discharge port for opening drying box 15, under the control of transmission driver, pass It send mechanism 11 that footwear is sent to discharging station 14 from Drying station 13 to carry out shoemaking subsequent process flow, is sent in footwear After Drying station 13, under the control of discharging driver, discharge door 153 is slided along discharge door slide track component 157 to close discharging Mouthful, feeding gate 152 can be again turned on, and footwear is sent into Drying station 13 again for transport mechanism 11, so circulation carries out down One drying operation process.

Footwear drying device provided by the embodiment of the utility model realizes footwear by transport mechanism 11 and drying box 15 Automation drying operation, can be applied to footwear drying device in pipelining, the footwear drying device the degree of automation Height reduces footwear and enters the waiting time that operation is dried in footwear drying device, is very beneficial to batch production operation；And lead to Crossing negative pressure generator reduces the dry required heating temperature of footwear, avoids the need for because the heat resistance of footwear is limited to water-base cement Heating temperature the case where occur, to improve footwear drying efficiency, also avoid due to the heating temperature to water-base cement too Height so as to cause the damage to footwear performance.

The utility model embodiment additionally provides a kind of footwear continuous-flow type production line, in the footwear continuous-flow type production line application Operation is dried to footwear in the footwear drying device stated.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle Within the scope of shield.

Claims (10)

1. a kind of footwear drying device characterized by comprising

Transport mechanism is pipeline organization, and for transmitting footwear and successively by preliminary station, Drying station and discharging work Position；

Drying box, including case ontology, feeding gate and discharge door, the case ontology offer drying chamber and are used to institute State drying chamber and be connected to external feed inlet, discharge port, the Drying station is located in the drying chamber, the preliminary station with The discharging station is respectively positioned on outside the drying chamber, and the feed inlet is used for footwear for the transport mechanism from the prepared work Position is moved to the Drying station, and the discharge port is used to that footwear to be moved to institute from the Drying station for the transport mechanism State discharging station, the feeding gate for opening or closing the feed inlet, the discharge door for open or close it is described go out Material mouth；

Dry temperature control component, for controlling the temperature of the drying chamber；

Negative pressure generator, for reducing the drying chamber air pressure or make the drying chamber evacuation.

2. footwear drying device as described in claim 1, which is characterized in that the drying box further includes for opening institute The feeding gate collecting part of the feeding gate is stored when stating feed inlet, the feeding gate collecting part is set to the top of the feeding gate simultaneously It is fixedly connected with the case ontology, feeding gate collecting part bottom is offered for passing in and out the feeding gate for the feeding gate The feeding gate of collecting part stores mouth；The drying box further includes for storing the discharge door when opening the discharge port Discharge door collecting part, the discharge door collecting part is set to the top of the discharge door and is fixedly connected with the case ontology, described Discharge door collecting part bottom offers the discharge door for passing in and out the discharge door collecting part for the discharge door and stores mouth.

3. footwear drying device as claimed in claim 2, which is characterized in that the drying box further include for it is described into Bin gate carry out slide-and-guide feeding gate slide track component, the feeding gate slide track component be set to the feeding gate collecting part relative to The two sides of the glide direction of the feeding gate simultaneously extend to the feed inlet bottom, the feeding gate slide track component and the charging Door collecting part and the case ontology are fixedly connected, and the feeding gate is in the feeding gate slide track component and along the feeding gate Slide track component sliding；The drying box further includes the discharge door slide track component for carrying out slide-and-guide to the discharge door, The discharge door slide track component is set to the two sides of glide direction of the discharge door collecting part relative to the discharge door and extension To the discharge port bottom, the discharge door slide track component is fixedly connected with the discharge door collecting part and the case ontology, institute Discharge door is stated in the discharge door slide track component and is slided along the discharge door slide track component.

4. footwear drying device as described in claim 1, which is characterized in that the footwear drying device further includes connecting and controlling The charging driver that the feeding gate opens or closes is made, and connects and controls the discharging that the discharge door opens or closes and drive Dynamic device.

5. footwear drying device as claimed in claim 4, which is characterized in that the footwear drying device further includes for incuding Whether footwear has entered the inductive pick-up of the Drying station, and the inductive pick-up is set in the drying chamber, the sense Inductive sensing device is also connect with the charging driver.

6. footwear drying device as described in claim 1, which is characterized in that the dry temperature control component includes heating member, uses It is maintained in the temperature sensor of temperature in the detection drying chamber and the heating temperature for controlling the heating member pre- If the heating controller in temperature range, the heating member and the temperature sensor are set in the drying chamber, the heating Part is connect with the heating controller with the temperature sensor.

7. footwear drying device as described in claim 1, which is characterized in that the transport mechanism includes being used to carry and transport The conveyer belt for sending footwear to act on, the conveyer belt successively pass through the preliminary station, the Drying station and the discharging work Position.

8. footwear drying device as claimed in claim 7, which is characterized in that the drying box further include for make it is described into The charging gate seal of bin gate and the conveyer belt palette, the charging gate seal are attached at the feeding gate bottom； The drying box further includes the discharging gate seal for making the discharge door Yu the conveyer belt palette, the discharging Gate seal is attached at the discharge door bottom.

9. such as footwear drying device of any of claims 1-8, which is characterized in that the footwear drying device also wraps The transmission driver for starting or braking the transport mechanism is included, the transmission driver is connect with the transport mechanism.

10. a kind of footwear continuous-flow type production line, which is characterized in that the footwear continuous-flow type production line application such as claim 1-9 Any one of described in footwear drying device operation is dried to footwear.