CN209573427U - 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 drying box, feeding mechanism, rotating mechanism and negative pressure generating mechanism.Drying box is at least provided with two, including case ontology, dry door and dry temperature control component, wherein dry temperature control component is used to control the temperature of drying chamber；Feeding mechanism send footwear to drying chamber from inlet and outlet when sending footwear to feed station for transmitting footwear and successively by preliminary station and feed station, and preliminary station is located at outside drying chamber；Another drying box, when one of drying box is moved to feed station, is moved to discharging station from feed station for rotating each drying box by rotating mechanism；Negative pressure generating mechanism for reducing each drying chamber air pressure or make drying chamber evacuation.Footwear drying device high degree of automation provided by the utility model, footwear drying efficiency is high, is very beneficial to batch production operation.

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 Low efficiency 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:

Drying box, at least provided with two, the drying box includes case ontology, dry door and does the drying box Dry temperature control component, the case ontology offers drying chamber and for the drying chamber to be connected to external inlet and outlet, described Dry door is used to control the temperature of the drying chamber for opening or closing the inlet and outlet, the dry temperature control component；

Feeding mechanism for transmitting footwear and successively by preliminary station and feed station, and is sent by footwear to institute Footwear is sent from the inlet and outlet to the drying chamber when stating feed station, the preliminary station is located at outside the drying chamber；

Rotating mechanism, for rotating each drying box, and it is described one of them described drying box to be moved to When feed station, another drying box is moved to discharging station from the feed station；

Negative pressure generating mechanism, for reducing each drying chamber air pressure or make the drying chamber evacuation.

Further, the rotating mechanism includes shaft and the rotating driver for driving shaft rotation, respectively The drying box is fixedly connected with the shaft respectively.

Further, the footwear drying device further includes connecting and controlling the opening and closing that the dry door opens or closes to drive Dynamic device.

Further, the footwear drying device further includes the sense for whether having entered the feed station for incuding footwear Inductive sensing device, the inductive pick-up are set in the drying chamber, and the inductive pick-up is also electrically connected with the opening and closing driver It connects.

Further, the drying box further includes the drying for storing the dry door when opening the inlet and outlet Door collecting part, the drying door collecting part are set to the top of the dry door and are fixedly connected with the case ontology, the drying The drying door that door collecting part bottom offers for passing in and out the dry door collecting part for the dry door stores mouth.

Further, the drying box further includes the drying door slide rail group for carrying out slide-and-guide to the dry door Part, the drying door slide track component are set to the dry door collecting part relative to the two sides of the glide direction of the dry door and prolong The inlet and outlet bottom is extended to, the drying door slide track component is fixedly connected with the dry door collecting part and the case ontology, The drying door slides in the dry door slide track component and along the dry door slide track component.

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 drying box further includes for pasting the sealed bottom of the dry door and the drying box The drying gate seal of conjunction, the dry gate seal are attached at the dry door bottom.

Further, the footwear drying device further includes discharging mechanism, and the discharging mechanism is used for footwear from described Discharging station is sent to blanking station, and the blanking station is located at outside the drying chamber.

The another object of the utility model, which also resides in, provides a kind of footwear continuous-flow type production line, the footwear continuous-flow type production Operation is dried to footwear using above-mentioned footwear drying device in line.

The utility model has the beneficial effects that

Footwear drying device provided by the utility model passes through feeding mechanism and can open or close the drying box of inlet and outlet Body realizes the automation drying operation of footwear, can be applied to footwear drying device in pipelining, and pass through rotating mechanism Each vacant drying box is rotated to feed station to carry footwear, and each drying box is being rotated to before discharging station It completes that operation is dried so that footwear be greatly shortened and enter footwear drying device to the drying operation of the footwear of its inside Waiting time also reduces the dry required heating temperature of footwear by negative pressure generating mechanism, avoids the need for because of the resistance to of footwear The case where hot heating temperature limited to water-base cement, occurs, to improve footwear drying efficiency, avoids due to aqueous The heating temperature of glue it is too high so as to cause the damage to footwear performance.Footwear drying device automation provided by the utility model Degree is high, and footwear drying efficiency is high, is very beneficial to batch production operation.

Detailed description of the invention

Fig. 1 is the partial structure diagram for the footwear drying device that an embodiment of the present invention provides；

Fig. 2 is the top view for the footwear drying device that Fig. 1 is provided.

Appended drawing reference:

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 be electrically connected；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements.For the ordinary skill in the art, may be used To understand concrete meaning of the above-mentioned term in the utility model embodiment as the case may be.

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

The utility model embodiment provides a kind of footwear drying device referring to FIG. 1-2, for having applied water-base cement Operation is dried in footwear, and the structure of the footwear drying device includes drying box 11, feeding mechanism, rotating mechanism 12 and bears Press generating mechanism.

Wherein, for drying box 11 at least provided with two, drying box 11 includes case ontology 111, dry door 112 and drying Temperature control component, case ontology 111 offer drying chamber and for drying chamber to be connected to external inlet and outlet, and dry door 112 is used In opening or closing inlet and outlet, dry temperature control component is used to control the temperature of drying chamber.It should be noted that being led in shoemaking In domain, drying operation often refers to the moisture or solvent evaporation made in water-base cement using 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 Temperature inside drying chamber is controlled at the boiling point of the moisture or solvent in water-base cement or at artificial preset temperature, so that aqueous While moisture or solvent in glue are dried, reduces temperature and biggish negative effect is generated to the performance of footwear.Specifically, When dry door 112 closes inlet and outlet, a closed drying chamber is formed inside the drying box 11, at this point, dry temperature can be opened Operation is dried to footwear in control component.Preferably, in the present embodiment, drying box 11 set there are four, it is mutually indepedent and be in Circumference array arrangement.

Feeding mechanism is sent by footwear to charging for transmitting footwear and successively by preliminary station and feed station Footwear is sent from inlet and outlet to drying chamber when station, preliminary station is located at outside drying chamber.It should be noted that charger Structure can be but be not limited to the common transport mechanism of the machinery fields such as roller conveyors structure or belt transmission agency, preliminary station it Before, footwear is completed first one-step forming related process and has been coated with the water-base cement to bond；In feeding mechanism by shoes to be dried When tool is sent from preliminary station to feed station, footwear to be dried enters the drying chamber of drying box 11 from the outside of drying box 11 It is interior.

One of drying box 11 is being moved to feed station for rotating each drying box 11 by rotating mechanism 12 When, another drying box 11 is moved to discharging station from feed station.It should be noted that when a vacant drying When cabinet 11 is rotated under the action of rotating mechanism 12 to feed station, dry door 112 opens the inlet and outlet of the drying box 11, So that feeding mechanism send footwear to be dried to the drying chamber of the drying box 11 from the inlet and outlet of the drying box 11, with Afterwards, which closes the drying box 11 to form a closed drying chamber, at this point, can to inside drying chamber wait do Operation is dried in dry footwear；When current drying box 11 has carried completion footwear to be dried, rotating mechanism 12 should Drying box 11 is rotated away from feed station and rotates next vacant drying box 11 to feed station, to pass through charger Structure continuation places footwear to be dried in vacant drying box 11；Footwear to be dried is carried from feed station in drying box 11 To the drying box 11 during the rotation of rotating mechanism 12 to discharging station, the drying box 11 for carrying footwear will continue Operation is dried to the footwear of its inside, and completes the drying operation of the footwear to be dried before arriving at discharging station；Dry Dry cabinet 11 arrives at discharging station, and by after manually taking out inside the drying box 11 and having dried footwear, the drying box 11 become a vacant drying box 11 again, can continue under the action of rotating mechanism 12, rotation to feed station, with carrying to Dry footwear so recycles, can substantially compress footwear and enter the waiting time that operation is dried in footwear drying device, improves Drying efficiency.Herein it should also be noted that, according to the setting of feed station and the station that discharges, the revolving speed of rotating mechanism 12 will It is different.In this example, it is assumed that drying box 11 is equipped with x, and circumferentially array is arranged, therefore each drying box The angle being spaced between 11 is α=360 °/x, and it is β that drying box 11, which needs the angle that rotates from feed station to discharging station, It spends, drying time needed for footwear to be dried is t seconds, wherein due to the every rotation alpha degree of drying box 11, will be stopped in the position For a period of time, within this time, footwear to be dried can be sent into the drying box 11 for being now placed in feed station by feeding mechanism It is interior, and can be taken out inside the drying box 11 for being now placed in discharging station and dry footwear be completed, it is assumed that this time is t₁Second, therefore the time for being actually used in rotation is t₂=t- (beta/alpha -1) * t₁, the revolving speed of rotating mechanism 12 is n revolutions per seconds, then rotates The calculation formula of the revolving speed of mechanism 12 are as follows: n=(β/360 °) ÷ t₂=(β/360 °)/[t- (beta/alpha -1) * t₁], and in every rotation t₃ Second stops t₁Second, t₃=t₂* α/β=[t- (beta/alpha -1) * t₁]*α/β.It is calculated by the formula, it can be to the rotation of rotating mechanism 12 Presetting for relevant parameter is carried out, so that drying box 11, in rotation to discharging station, the achievable drying of internal footwear is made Industry.It is calculated by the formula, can also adjust n and t when partially dried cabinet 11 breaks down₃Numerical value, in feed station The drying box 11 of failure is skipped at place, is continued to use other drying box 11 and is completed drying operation, so that it is dry to extend the footwear The service life of dry device.Specifically, when there are the drying box of failure, it assumes that the drying box of the failure is not present, N and t are recalculated according to the angle between the drying box that can be worked normally₃, n and t at this time₃Be not one it is constant not The value of change, answers concrete condition to make a concrete analysis of.

Negative pressure generating mechanism for reducing each drying chamber air pressure or make drying chamber evacuation.It should be noted that When air 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 It decreasing, reason is that the air pressure on the water surface can prevent hydrone from being evaporated, thus, it is reduced by negative pressure generating mechanism Air pressure in drying chamber 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 The temperature of component control only needs that the moisture or solvent in water-base cement can be made in the boiling spread for the water being maintained under negative pressure condition Vaporization needs to lead because the case where heat resistance of footwear carefully limits the heating temperature to water-base cement occurs to solve The low problem of the drying efficiency of cause, at the same also avoid due to the heating temperature to water-base cement it is too high so as to cause to footwear The damage of performance.Thus, negative pressure generating mechanism can be used for having entered drying chamber when footwear, and dry door 112 closes and forms an envelope When the drying chamber closed, make to be formed inside drying chamber by way of the air inside extraction drying chamber negative lower than standard atmospheric pressure Pressure ring border；Negative pressure generating mechanism can also be used to footwear be dried the moisture so that in water-base cement when dry temperature control component Or when solvent evaporation, extracts the steam inside drying chamber out and 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: according to feed station with And the setting of discharging station, the relevant parameter of rotating mechanism 12 is carried out presetting；It is vacant by first by rotating mechanism 12 The rotation of drying box 11 to feed station, the drying door 112 of the drying box 11 opens inlet and outlet, will be to by feeding mechanism Dry footwear is sent in the drying box 11 from preliminary station, and then, the dry door 112 of the drying box 11 is closed to form one First drying box 11 is rotated away from feed station and by next vacant drying box by closed drying chamber, rotating mechanism 12 Body 11 is rotated to feed station, and continues to place footwear to be dried in the vacant drying box 11 by feeding mechanism；In Drying box 11 leaves feed station later and arrives at before discharging station, and negative pressure generating mechanism is by extracting the drying box out The mode of air inside 11 drying chamber makes to form the subnormal ambient for being lower than standard atmospheric pressure inside drying chamber, in negative pressure shape Under state, the boiling temperature of moisture or solvent of the dry temperature control component by heating and temperature control in water-base cement or preset temperature model In enclosing, make the moisture or solvent evaporation in water-base cement, the steam that negative pressure generating mechanism persistently extracts inside drying chamber out makes drying Intracavitary portion maintains under negative pressure state, so that operation be dried to the footwear to be dried inside drying chamber；In drying box 11 It when arriving at discharging station, is taken out inside the drying box 11 and completes dry footwear, it is vacant which becomes one again Drying box 11, can continue under the action of rotating mechanism 12, rotation is to feed station, to carry footwear to be dried, such as This circulation can substantially compress footwear and enter the waiting time that operation is dried in footwear drying device, improve drying efficiency.

Footwear drying device provided by the embodiment of the utility model is by feeding mechanism and can open or close inlet and outlet Drying box 11 realizes the automation drying operation of footwear, can be applied to footwear drying device in pipelining, and pass through Rotating mechanism 12 rotates each vacant drying box 11 to feed station to carry footwear, and rotates by each drying box 11 The drying operation to the footwear of its inside is completed before to discharging station, so that footwear, which is greatly shortened, enters footwear drying device The waiting time of operation is dried, the dry required heating temperature of footwear is also reduced by negative pressure generating mechanism, avoiding needs The case where limiting the heating temperature to water-base cement because of the heat resistance of footwear, occurs, to improve footwear drying efficiency, keeps away Exempted from due to the heating temperature to water-base cement it is too high so as to cause the damage to footwear performance, also by 12 phase of rotating mechanism The presetting achievable drying operation of footwear for making drying box 11 in rotation to discharging station inside it for closing parameter, may be used also When there are the drying box 11 of failure, the drying box 11 of failure is skipped in feed station, continues to use other drying box 11 complete drying operation, to extend the service life of the footwear drying device.Footwear provided by the embodiment of the utility model Drying device high degree of automation, footwear drying efficiency height, long service life, are very beneficial to batch production operation.

Referring to FIG. 1-2, in the present embodiment, rotating mechanism 12 includes shaft 121 and rotates for drive shaft 121 Rotating driver 122, each drying box 11 is fixedly connected with shaft 121 respectively.It should be noted that multiple drying boxes Body 11 is arranged in a manner of circumference array and is connected in shaft 121, and shaft 121 is connect with rotating driver 122, passes through rotation Driver 122 can revolving speed to shaft 121, starting and braking control, it is preferable that shaft 121 is erected on rotation driving On the central axes of device 122, so set, may make the rotating driver 122 that there is the drying box 11 connecting with shaft 121 Certain supporting role.

Referring to FIG. 1-2, in the present embodiment, footwear drying device further include connect and control dry door 112 open or The opening and closing driver of closing.It should be noted that the opening and closing driver can be but be not limited to motor driver, preferably Ground, in the present embodiment, opening and closing driver is settable but is not limited to be arranged inside drying box 11.

Referring to FIG. 1-2, in the present embodiment, footwear drying device further includes for incuding whether footwear has entered charging The inductive pick-up of station, inductive pick-up are set in drying chamber, and inductive pick-up is also electrically connected with opening and closing driver.It needs herein It is noted that inductive pick-up can be set to drying chamber close to the side of inlet and outlet, when inductive pick-up senses the end of footwear It after end is also by inlet and outlet, can determine whether completely to enter Drying station for footwear, data sent into opening and closing driver, are driven by opening and closing Dynamic device controls dry door 112 and closes inlet and outlet to form closed drying chamber；Inductive pick-up can also be set to the centre of drying chamber, According to footwear size, when inductive pick-up senses that half footwear has passed through the induction of inductive pick-up, it can be judged as footwear Completely enter Drying station, data sent into opening and closing driver, by the dry door 112 of opening and closing driver control close inlet and outlet with Form closed drying chamber；Inductive pick-up can also be set to side of the drying chamber far from inlet and outlet, when inductive pick-up senses It after the induction that the front end of footwear passes through inductive pick-up, can determine whether completely to enter Drying station for footwear, data transmission opened Driver is closed, inlet and outlet are closed to form closed drying chamber by the dry door 112 of opening and closing driver control.It also needs to illustrate herein , above-mentioned inductive pick-up includes but is not limited to infrared sensor.

Referring to FIG. 1-2, in the present embodiment, drying box 11 further includes for storing dry door when opening inlet and outlet 112 drying door collecting part, dry door collecting part are set to the top of dry door 112 and are fixedly connected with case ontology 111, dry door The drying door that collecting part bottom offers for passing in and out dry door collecting part for dry door 112 stores mouth.It needs to illustrate herein It is that dry door collecting part is connected to drying box 11 and imports and exports side, and prominent dry door 112 is arranged, dry door collecting part bottom It offers the drying door for passing in and out dry door collecting part for dry door 112 and stores mouth, drying door storage mouth size is slightly larger than Dry 112 size of door, and drying door storage mouth is located at right above dry door 112, so that when dry door 112 is opened, Dry door 112 can enter in dry door collecting part from dry door storage mouth.It should be noted that being done when dry door 112 is closed Dry door 112 still has part indwelling in dry door collecting part.

Referring to FIG. 1-2, in the present embodiment, drying box 11 further includes for carrying out slide-and-guide to dry door 112 Drying door slide track component, dry door slide track component be set to dry door collecting part relative to dry door 112 glide direction two Side simultaneously extends to inlet and outlet bottom, and dry door slide track component is fixedly connected with dry door collecting part and case ontology 111, dry door 112 in dry door slide track component and along dry door slide track component sliding.Preferably, dry door 112 can be through but not limited to The mode of sliding opens and closes inlet and outlet, thus, in the present embodiment, mouth is stored along dry door and is extended to two sides equipped with dry door sliding rail Component, the drying door slide track component extend to inlet and outlet bottom, dry door slide track component and drying at the top of dry door collecting part Cabinet 11 is fixedly connected, and dry door 112 is embedded in dry door slide track component and slides up and down along dry door slide track component.Pass through cunning Rail assembly, it can be achieved that dry door 112 sliding opening and closing, can also be achieved the connection relationship between dry door 112 and drying box 11.

Referring to FIG. 1-2, in the present embodiment, dry temperature control component includes heating member, for detecting the temperature in drying chamber The temperature sensor of degree and heating temperature for controlling heating member maintain the heating controller in preset temperature range, add Warmware and temperature sensor are set in drying chamber, and heating member is connect with heating controller with temperature sensor.It needs herein Bright, heating member is used to provide the moisture in the water-base cement in footwear or solvent evaporation institute for heating footwear The heat needed, heating member is set in drying chamber, and is fixedly connected with feeding mechanism two sides；Temperature sensor is for detecting drying chamber The heating temperature of interior temperature or heating member, and will test data and be transmitted to heating controller；Heating controller adds for controlling The heating temperature of warmware maintains it in preset temperature range, which is drying caused by negative pressure generator The boiling temperature or preset temperature range of moisture or solvent under the negative pressure state of chamber in water-base cement, when temperature sensor is examined When measured data is in the preset temperature range, the heating temperature of heating controller control heating member maintains the preset temperature range It is interior.Specifically, when drying box 11 closes dry door 112 to form a closed drying chamber and negative pressure generator has made drying When intracavitary portion is in negative pressure state, the heating member in dry temperature control component is treated dry footwear and is thermally dried, during this, Temperature sensor detects its heating temperature and sends data to heating controller, when temperature sensor institute's detection data is in negative Press the boiling temperature or preset temperature of the moisture or solvent under the negative pressure state of drying chamber caused by generator in water-base cement When in range, the heating temperature of heating controller control heating member is maintained in the preset temperature range, is done by certain After the dry time, heating controller closes the heating function of heating member.

Referring to FIG. 1-2, in the present embodiment, drying box 11 further includes for making dry door 112 and drying box 11 Sealed bottom fitting drying gate seal, dry gate seal is attached at dry 112 bottom of door.It needs to illustrate herein It is, during dry door 112 is closed, to keep dry door 112 and the bottom palette of drying box 11 close to be formed The drying chamber of envelope, being sticked in dry 112 bottom of door has dry gate seal, it is preferable that the drying gate seal can be but unlimited In sealing joint strip.

Referring to FIG. 1-2, in the present embodiment, footwear drying device further includes discharging mechanism, and discharging mechanism is used for shoes Tool is sent to blanking station from discharging station, and blanking station is located at outside drying chamber.In the present embodiment, when drying box 11 is revolving When arriving at discharging station under the action of rotation mechanism 12, is taken out inside the drying box 11 not by the way of artificial and complete drying The footwear of operation, but a discharging mechanism is set, footwear can will have been dried inside the drying box 11 by the discharging mechanism It is sent to outside drying chamber from inlet and outlet, to carry out footwear subsequent processing.

The utility model embodiment can join the correlation of rotating mechanism 12 according to the setting of feed station and the station that discharges Number carries out presetting；First vacant drying box 11 is rotated to feed station, the drying box by rotating mechanism 12 11 drying door 112 opens inlet and outlet, and footwear to be dried is sent to the drying box 11 from preliminary station by feeding mechanism Interior, then, the dry door 112 of the drying box 11 is closed to form a closed drying chamber, and rotating mechanism 12 is by first drying Cabinet 11 is rotated away from feed station and by next vacant rotation of drying box 11 to feed station, and by feeding mechanism after Continue and places footwear to be dried in the vacant drying box 11；After drying box 11 leaves feed station and arrive at out Before expecting station, negative pressure generating mechanism makes drying chamber by way of the air inside the drying chamber for extracting the drying box 11 out Inside forms the subnormal ambient for being lower than standard atmospheric pressure, and under negative pressure state, dry temperature control component is by heating and temperature control in water Property glue in moisture or solvent boiling temperature or default temperature within the scope of, make the moisture or solvent evaporation in water-base cement, bear Pressure generating mechanism persistently extracts the steam inside drying chamber out and to maintain under negative pressure state inside drying chamber, thus to drying chamber Operation is dried in internal footwear to be dried；When drying box 11 arrives at discharging station, by manually from the drying box 11 inside, which are taken out, completes dry footwear, which becomes a vacant drying box 11 again, can continue in whirler Under the action of structure 12, rotation to feed station is so recycled with carrying footwear to be dried, can substantially compress footwear entrance The waiting time of operation is dried in footwear drying device, improves drying efficiency.

Footwear drying device provided by the embodiment of the utility model is by feeding mechanism and can open or close inlet and outlet Drying box 11 realizes the automation drying operation of footwear, can be applied to footwear drying device in pipelining, and pass through Rotating mechanism 12 rotates each vacant drying box 11 to feed station to carry footwear, and rotates by each drying box 11 The drying operation to the footwear of its inside is completed before to discharging station, so that footwear, which is greatly shortened, enters footwear drying device The waiting time of operation is dried, the dry required heating temperature of footwear is also reduced by negative pressure generating mechanism, avoiding needs The case where limiting the heating temperature to water-base cement because of the heat resistance of footwear, occurs, to improve footwear drying efficiency, keeps away Exempted from due to the heating temperature to water-base cement it is too high so as to cause the damage to footwear performance, also by 12 phase of rotating mechanism The presetting achievable drying operation of footwear for making drying box 11 in rotation to discharging station inside it for closing parameter, may be used also When there are the drying box 11 of failure, the drying box 11 of failure is skipped in feed station, continues to use other drying box 11 complete drying operation, to extend the service life of the footwear drying device.Footwear provided by the embodiment of the utility model Drying device high degree of automation, footwear drying efficiency height, long service life, are very beneficial to batch production operation.

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

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

Drying box, for the drying box at least provided with two, the drying box includes case ontology, dry door and dry temperature Component is controlled, the case ontology offers drying chamber and for the drying chamber to be connected to external inlet and outlet, the drying Door is used to control the temperature of the drying chamber for opening or closing the inlet and outlet, the dry temperature control component；

Feeding mechanism, for transmitting footwear and successively by preliminary station and feed station, and by footwear send to it is described into Expect to send footwear to the drying chamber from the inlet and outlet when station, the preliminary station is located at outside the drying chamber；

One of them described drying box for rotating each drying box, and is being moved to the charging by rotating mechanism When station, another drying box is moved to discharging station from the feed station；

Negative pressure generating mechanism, for reducing each 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 rotating mechanism includes shaft and for driving The rotating driver of the shaft rotation is moved, each drying box is fixedly connected with the shaft respectively.

3. footwear drying device as described in claim 1, which is characterized in that the footwear drying device further includes connecting and controlling Make the opening and closing driver that the dry door opens or closes.

4. footwear drying device as claimed in claim 3, which is characterized in that the footwear drying device further includes for incuding Whether footwear has entered the inductive pick-up of the feed station, and the inductive pick-up is set in the drying chamber, the sense Inductive sensing device is also electrically connected with the opening and closing driver.

5. footwear drying device as described in claim 1, which is characterized in that the drying box further includes for opening institute The drying door collecting part of the dry door is stored when stating inlet and outlet, the drying door collecting part is set to the top of the dry door simultaneously It is fixedly connected with the case ontology, the drying door collecting part bottom is offered for for the dry door disengaging dry door The drying door of collecting part stores mouth.

6. footwear drying device as claimed in claim 5, which is characterized in that the drying box further includes for described dry Dry door carries out the drying door slide track component of slide-and-guide, the drying door slide track component be set to the dry door collecting part relative to The two sides of the glide direction of the drying door simultaneously extend to the inlet and outlet bottom, the drying door slide track component and the drying Door collecting part and the case ontology are fixedly connected, and the drying door is in the dry door slide track component and along the dry door Slide track component sliding.

7. 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.

8. footwear drying device as described in claim 1, which is characterized in that the drying box further includes described dry for making The drying gate seal that dry door is bonded with the sealed bottom of the drying box, the dry gate seal are attached at the drying 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 Discharging mechanism is included, the discharging mechanism is used to footwear being sent to blanking station, blanking station position from the discharging station In outside the drying chamber.

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.