CN107212531B - Tooling plate with LED heating function for shoemaking equipment - Google Patents

Abstract

The invention discloses a tooling plate with LED heating for shoemaking equipment, wherein a tooling plate main body is provided with at least one tray and/or shoe rack for placing shoe materials, the tooling plate main body is provided with at least one LED lamp plate, and the LED lamp plates are provided with a plurality of LED lamps, wherein at least more than 50% of all light waves generated during electrification are 1-100 micrometers in wavelength, and the LED lamps are used for irradiating the shoe materials placed on the tray and/or the shoe rack. The tooling plate is provided with the LED lamp panel for heating the shoe materials placed on the tooling plate, and the LED lamp at least has the wavelength of more than 50% of light waves of 1-100 micrometers when being electrified and is used for irradiating the shoe materials conveyed into the shoe material heating channel, so that the heat exchange efficiency is high, the heating speed is high, the heating is more uniform, the heating temperature is more accurately controlled, the energy consumption is lower, and the energy-saving and environment-friendly effects are achieved.

Description

Tooling plate with LED heating function for shoemaking equipment

Technical Field

The invention relates to the technical field of tooling plates used for shoe making equipment, in particular to a tooling plate with LED heating used for shoe making equipment.

Background

The shoe making equipment and the production line are provided with the tooling plates, the tooling plates walk on rails or conveying lines in the shoe making equipment and the production line, the shoe making equipment and the production line convey shoe materials through the tooling plates, and the existing tooling plates are only baskets or racks and only have the function of conveying the shoe materials.

The shoe making drying oven is arranged at the position where the shoe materials need to be heated by the shoe making equipment and the production line, the heating device is arranged in the shoe making drying oven, the shoe making drying oven can be used for heat setting of the shoe materials, the shoe making drying oven can also be used for heating the shoe materials and activating various glue, and the various glue on the surface of the shoe materials is coated and brushed when the shoe materials are heated. After the tooling plate conveys shoe materials to enter the shoe making oven, the shoe materials on the tooling plate are heated through a heating device in the shoe making oven, the shoe making oven realizes heating the shoe materials through the high-temperature environment temperature provided in the shoe making oven, and the energy consumption of the shoe making oven is higher.

Present shoemaking oven all has a common problem in the aspect of the heating, and in shoemaking oven's the heating passageway, from the entry to the export heating passageway, its ambient temperature is inequality and unstable with heating temperature, and its ambient temperature and heating temperature can form a plurality of wave crests or trough, and the unstable heating interval of heating that shoe material can experience an interval temperature and have the change promptly influences shoe material heating effect.

On the other hand, in the shoe manufacturing industry, the vamp and the sole of a pair of shoes are generally put into a group and conveyed into a shoe manufacturing oven together, and different shoe materials have different technical requirements on heating temperature, such as the optimal heating temperature of the vamp and the optimal heating temperature of the sole are different, so that the technical problem is not solved in a better way at present.

Moreover, when the existing shoe making oven heats the shoe material, the temperature variation range of the provided heating temperature is relatively large, and a continuous and stable corresponding optimal heating temperature is provided for the shoe material and the glue water when the shoe material and the glue water are heated, so that the heating time can be reduced, the energy consumption required by heating can be reduced while the heating speed is increased, and the heating efficiency can be improved.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the tooling plate with the LED heating function for the shoe making equipment, which has the advantages of lower energy consumption, shorter heating time, more accurate temperature control and more flexible use mode.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a use in frock board that has LED heating of shoemaking equipment, including the frock board main part that is used for transporting the shoes material, frock board main part is provided with at least one tray and/or shoe rack that is used for placing the shoes material, an at least LED lamp plate of frock board main part installation, the LED lamp plate is installed a plurality of LED lamps that have more than 50% of the light wave in all light waves that produce when the circular telegram at least and is 1~100 microns, a shoes material for shine and place at tray and/or shoe rack, a glue that is used for heating shoes material and/or activation.

In a further technical scheme, 60-99% of all light waves generated by the LED lamp when the LED lamp is electrified have the wavelength of 1-10 microns, 7-25 microns, 20-50 microns, 46-68 microns, 52-96 microns or 70-90 microns, and the LED lamp is used for directionally irradiating the shoe material and achieving the heating purpose.

In a further technical scheme, the LED lamp is provided with a chip and/or a chip excitation circuit, and the wavelength of light waves generated when the LED lamp is electrified is determined by the chip and/or the chip excitation circuit of the LED lamp; the tooling plate main body is provided with at least two LED lamp panels which respectively generate light waves with different wavelengths when electrified or each LED lamp panel is provided with at least two LED lamps which respectively generate light waves with different wavelengths when electrified; the LED lamp panel of frock board main part produces the light wave of two at least different wavelength when circular telegram, only transfers the LED lamp circular telegram work that has corresponding wavelength during the use to have 70~95% wavelength of light wave in all light waves that produce and concentrate on 5~30 microns.

In a further technical scheme, the frock board main part is provided with the power that is used for inserting the power and docks the interface, be used for to the battery of LED lamp power supply, adopts the wireless power supply device of non-contact wireless reception electric energy and gives the at least one kind in the device with the ambient light of light energy conversion for the electric energy, LED lamp plate electricity connection power is to interface, battery, wireless power supply device or ambient light power supply device.

In a further technical scheme, a support piece is installed on one side of the tooling plate main body, and the LED lamp panel is installed on the support piece or the bottom surface of the tray; at least one LED lamp panel or at least two LED lamp panels at different heights or at least two LED lamp panels with different inclination angles are arranged above and/or on the side surface of the tray or the shoe rack; the LED lamp of LED lamp plate the LED lamp orientation the tray or the shoe rack.

In a further technical scheme, at least one tray and at least one shoe rack are respectively arranged at different height positions of the supporting piece; the support piece at least comprises one of a bracket, a support rod or a side plate; one side of the LED lamp panel is fixed on the support piece, or one side of the LED lamp panel is fixed at the designated position or any position of the support piece through the adjustable connecting device.

In a further technical scheme, at least one radiating fin and/or a radiating fan are mounted on the back/side face of the LED lamp or the back/side face of the LED lamp panel, and an airflow gap is reserved between adjacent LED lamp panels and/or adjacent radiating fins.

In a further technical scheme, at least one electrode group used for electrically connecting a power supply is installed on the bottom surface or the side surface of the tool plate main body, the LED lamp is electrically connected with the electrode group, a power supply is conducted when the electrode group of the tool plate main body is installed on the corresponding electrode group on the shoe making equipment in a static contact or dynamic contact mode, and the electric brushing rail group comprises one of a conductive rail, a conductive bar or a conductive belt.

In a further technical scheme, the tooling plate main body is provided with a bottom plate, and the bottom plate slides on a track/conveying line of the shoe making equipment; at least one electrode group is arranged on one side or two sides of the bottom surface of the bottom plate along the longitudinal direction and/or the transverse direction, and when the tool plate slides on the rail/conveying line of the shoe making equipment, the corresponding electrode group is electrically contacted with the brush rail group arranged on the rail/conveying line to conduct power supply.

In a further technical scheme, each electrode group comprises two conductive posts, a guide groove is formed in each of two sides of the bottom surface of the bottom plate along the longitudinal direction, a guide groove is formed in each of two sides of the bottom surface of the bottom plate along the transverse direction, a conductive post is arranged in each guide groove, and the conductive posts are elastically mounted in the guide grooves or fixed in the guide grooves; the guide grooves transversely penetrate through or longitudinally penetrate through two ends of the bottom plate, and the guide grooves on the bottom surface of the bottom plate are staggered in a shape like a Chinese character 'jing'; when the tooling plate slides on the track or the conveying line of the shoe making equipment, the conductive columns are electrically contacted with the conductive strips or the conductive belts arranged on the track or the conveying line of the shoe making equipment; along the transverse section or the longitudinal section, the width of the upper part of the conductive post is larger than that of the lower part of the conductive post, the change trend of the width of the conductive post from top to bottom is gradually reduced, the bottom surface of the conductive post is positioned in the guide groove or extends out of the guide groove, and the bottom surface of the conductive post is provided with a conductive bottom surface for brushing electricity; a convex block is fixed in the middle of the bottom surface of the bottom plate, and a plurality of side surfaces of the convex block are arranged to be pushing surfaces.

After adopting the structure, compared with the prior art, the invention has the advantages that:

firstly, the tool plate is provided with an LED lamp panel for generating a set wavelength, and the shoe material placed on the tool plate is heated, so that the heating function is realized on the tool plate.

Secondly, the LED lamp of the tooling plate at least has the wavelength of more than 50% of light waves of 1-100 microns when being electrified, is used for irradiating the shoe materials conveyed into the shoe material heating channel, and has the advantages of high heat exchange efficiency, high heating speed, more uniform heating, more accurate control of heating temperature, lower energy consumption, more energy conservation and environmental protection.

Thirdly, the heating device can be matched with a shoemaking oven for heating together, the tooling plate is used as a preheating device or an auxiliary heating device, shoe materials are preheated on the tooling plate before entering the oven, the heating time is shortened, auxiliary heating is provided in the oven through the LED lamps of the tooling plate, extra heating can be particularly provided in a section with lower temperature in the oven, the shoe materials are prevented from undergoing an unstable heating process when passing through the shoemaking oven, the heating temperature of the shoe materials can be controlled at the optimal temperature, the energy consumption is lower, and the heating device is more energy-saving and environment-friendly.

Fourthly, the LED lamp panels at different relative height positions or different inclination angles are arranged on the tooling plate, so that different heating temperatures can be provided for different areas or shoe material characteristics, and the problem that different shoe materials conveyed into the shoe making oven simultaneously require different heating temperatures is solved.

Fifthly, the heat generated when the LED lamp is electrified is blown to the shoe material through the radiating fins and the air flow, the heat is used as an auxiliary heating device, the light waves and the heat converted when the LED lamp is electrified are all used for heating the shoe material, the electric energy conversion efficiency is improved, compared with an infrared lamp tube, the energy consumption is further reduced by 40-60%, and the heating speed is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of another view angle according to an embodiment of the present invention.

Fig. 3 is a side view of a first embodiment of the invention.

Fig. 4 is a schematic view of a shoe-making oven according to an embodiment of the present invention.

Fig. 5 is a partially enlarged view of a portion a in fig. 4.

Fig. 6 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 7 is a side view of a second embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a third embodiment of the present invention.

Fig. 9 is a side view of a third embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a fourth embodiment of the present invention.

In the figure: 10. tray

11. LED lamp

12. LED lamp panel

13. Shoe rack

14. Support piece

15. Bottom plate

16. Conductive pole

17. Guide groove

18. Bump

19. And a conductive rail.

Detailed Description

The following are merely preferred embodiments of the present invention, and do not limit the scope of the present invention.

Example one

The utility model provides a use in frock board that has LED heating of shoemaking equipment, as shown in fig. 1 to 5, including the frock board main part that is used for transporting shoes material, the frock board main part is provided with at least one tray 10 and a shoe rack 13 that is used for placing shoes material, at least one LED lamp plate 12 of frock board main part installation, each LED lamp plate 12 all installs a plurality of LED lamps 11 that have the wavelength of the light wave more than 50% at least and be 1~100 microns when the circular telegram, is used for shining the shoes material of placing at tray and/or shoe rack, is used for heating shoes material and/or activation glue.

The LED lamp 11 is provided with a chip and a chip excitation circuit, the wavelength of light waves generated when the LED lamp 11 is electrified is determined by the chip and the chip excitation circuit of the LED lamp 11, and preferably, the selected LED lamp 11 controls the wavelength of 70-95% of all light waves generated when the LED lamp 11 is electrified to be controlled and concentrated in the range of 5-30 micrometers.

In a preferred embodiment, the LED lamp 11 is selected to generate 60-99% of all light waves with a wavelength of 1-10 μm.

In another preferred embodiment, the LED lamp 11 is selected to generate 60-99% of all light waves with a wavelength of 7-25 μm.

In another preferred embodiment, the selected LED lamp 11 generates 60-99% of all light waves when energized, and the wavelength of the light waves is 20-50 μm.

In another preferred embodiment, the LED lamp 11 is selected to generate 60-99% of all light waves with a wavelength of 46-68 μm.

In another preferred embodiment, the LED lamp 11 is selected to generate 60-99% of all light waves with a wavelength of 52-96 μm.

In another preferred embodiment, the selected LED lamp 11 has a wavelength of 60 to 99% of all light waves generated by the power-on of 70 to 90 μm.

In another preferred embodiment, the tool plate main body is provided with at least two LED lamp panels 12 which respectively generate light waves with different wavelengths when being electrified. When the LED lamp panel 12 of the tooling plate main body is electrified, at least two light waves with different wavelengths are generated, when the tooling plate main body is used, only the LED lamp 11 with the corresponding wavelength is called to be electrified for working, and the wavelengths of 70-95% of the light waves in all the light waves generated by the LED lamp panel 12 are concentrated in 5-30 micrometers.

In another preferred embodiment, each LED lamp panel 12 installed on the tool plate main body is respectively installed with 2 to 20 LED lamps 11 which respectively generate light waves with different wavelengths when being powered on. When the LED lamp panel 12 is powered on, light waves with various wavelengths are generated, only the LED lamp 11 with the corresponding wavelength is called to be powered on to work, and 70-95% of all the light waves generated by the LED lamp panel 12 are concentrated on 5-30 microns in wavelength.

The tooling plate main body is provided with one of a power supply interface for accessing a power supply, a battery for supplying power to the LED lamp 11, a wireless power supply device adopting non-contact wireless receiving electric energy and an ambient light power supply device converting light energy into electric energy, more than two of the power supply interface, the battery, the wireless power supply device or the ambient light power supply device can be selected for combined use, the LED lamp panel 12 is electrically connected with the power supply interface, the battery, the wireless power supply device or the ambient light power supply device, and the power supply requirement of the corresponding LED lamp panel 12 can be met.

At least one radiating fin is installed on the back or the side of the LED lamp 11, and an airflow gap is reserved between adjacent radiating fins, so that the flowing speed of airflow is accelerated, and heat generated when the LED lamp 11 is electrified is quickly conducted out. A heat radiation fan may be mounted on the back or side of the LED lamp 11.

Or, at least one heat sink and a heat dissipation fan are installed on the back or side of the LED lamp panel 12, and an airflow gap is left between adjacent heat sinks on the back of the LED lamp panel 12. Airflow gaps are reserved between the adjacent LED lamp panels 12 to accelerate the flow speed of airflow, and heat generated when the LED lamps 11 are electrified is used for heating shoe materials.

A support piece 14 is installed on one side of the tooling plate main body, and the LED lamp panel 12 is installed on the support piece 14 or the bottom surface of the tray 10; at least one LED lamp panel 12, or at least two LED lamp panels 12 at different heights, or at least two LED lamp panels 12 with different inclination angles are arranged above or on the side surface of the tray 10 or the shoe rack 13; the LED lamp 11 of the LED lamp panel 12 faces the tray 10 or the shoe rack 13. In a preferred embodiment, the LED lamp panel 12 is located above the tray 10 or above the shoe rack 13, the LED lamp 11 of the LED lamp panel 12 faces the tray 10 or the shoe rack 13, and the LED lamp 11 irradiates the shoe material placed on the tray 10 or the shoe rack 13 downwards when being powered on. The installation position of the LED can be adjusted as required, and the LED can be directly irradiated to the position of the shoe material to be heated without affecting the operation personnel to take and place the shoe material.

At least one tray 10 and at least one shoe rack 13 are respectively arranged on different height positions of the supporting piece 14; the support 14 includes at least one of a bracket, a support bar, or a side plate; one side of the LED lamp panel 12 is fixed to the support member 14.

In a preferred embodiment, an adjustable connecting device, such as a connecting member capable of sliding up and down and locking at a designated position of the supporting member 14, is installed on the supporting member 14, and one side of the LED lamp panel 12 is positioned and fixed at the designated position or any position of the supporting member 14 by the adjustable connecting device. Or, one side of the LED lamp panel 12 slides up and down on the supporting member 14, and the LED lamp panel 12 is locked at a designated position of the supporting member 14 by the locking mechanism. Or, positioning holes are formed in the supporting member 14 and/or the LED lamp panel 12 along the height direction, and the LED lamp panel 12 is installed at an optional height position through the positioning holes.

In this embodiment, the tooling plate main body has a bottom plate 15, a support rod and a shoe rack 13, the corner portion of one side of bottom plate 15 is fixed to the support rod, shoe rack 13 is fixed in the support rod, shoe rack 13 is located bottom plate 15 top, shoe rack 13 is used for placing the vamp, the brush mucilage binding face of vamp is upwards, LED lamp plate 12 is fixed in the support rod, LED lamp plate 12 is located the top of shoe rack 13, LED lamp 11 is towards shoe rack 13, light wave illumination is to the vamp of placing on shoe rack 13 when LED lamp 11 is circular telegram.

At least one electrode group that is used for the electric connection power is installed to the bottom surface or the side of frock board main part, and electrode group is connected to LED lamp 11 electricity, bottom plate 15 slide in shoemaking equipment's track or transfer chain, along longitudinal direction and/or horizontal direction, at least one electrode group is installed to one side or both sides of bottom plate 15's bottom surface, corresponding electrode group and the brush electric rail group electric contact who installs at track or transfer chain and switch on the power when the frock board slide in shoemaking equipment's track or transfer chain. The power supply is switched on when the electrode group of the tooling plate main body is statically or dynamically contacted with a corresponding brushing rail group arranged on the shoe making equipment, and the brushing rail group comprises one of a conductive rail 19, a conductive bar or a conductive belt.

Specifically, an electrode group is mounted on the front and rear portions of the bottom surface of the base plate 15 in the longitudinal direction, and an electrode group is mounted on the front and rear portions of the bottom surface of the base plate 15 in the transverse direction. Each electrode group comprises two conductive columns 16, the two conductive columns 16 of each electrode group are respectively located on two corresponding sides of the bottom surface of the bottom plate 15, and the two conductive columns 16 of each electrode group are respectively correspondingly installed in contact with a conductive rail 19 of the shoe making equipment or a conductive rail 19, a conductive bar or a conductive belt on two sides of the conveying line. Along the longitudinal direction, two sides of the bottom surface of the bottom plate 15 are respectively provided with a guide groove 17, along the transverse direction, the bottom surface of the conductive column 16 is positioned in the guide groove 17 or extends out of the guide groove 17, two sides of the bottom surface of the bottom plate 15 are respectively provided with a guide groove 17, each guide groove 17 is internally provided with a conductive column 16, and the conductive columns 16 are elastically arranged in the guide grooves 17 or fixed in the guide grooves 17; when the tooling plate slides on the track or the conveying line of the shoe making equipment, the conductive column 16 is electrically contacted with the conductive rail 19, the conductive bar or the conductive belt installed on the shoe making equipment, and preferably, the corresponding guide groove 17 on the bottom surface of the tooling plate is slidably sleeved on the corresponding conductive rail 19. Along the transverse section or the longitudinal section, the width of the upper part of the conductive column 16 is larger than that of the lower part, the change trend of the width of the conductive column 16 from top to bottom is gradually reduced, and the bottom surface of the conductive column 16 is provided with a conductive bottom surface for brushing electricity; a convex block 18 is fixed at the middle position of the bottom surface of the bottom plate 15, and a plurality of side surfaces of the convex block 18 are arranged into pushing surfaces; the guide grooves 17 transversely penetrate through or longitudinally penetrate through two ends of the bottom plate 15, and the guide grooves 17 on the bottom surface of the bottom plate 15 are arranged in a staggered mode in a shape like a Chinese character 'jing'.

Shoemaking equipment only installs the brush electric rail group of setting for length respectively in the track of the district section of needs to shoes material heating or one side or both sides of transfer chain, when the frock board walks to the district section of installing brush electric rail group, the corresponding electrode group of bottom plate 15 contacts two conductor rails 19, busbar or the conductor band of corresponding brush electric rail group respectively, provide the power for LED lamp 11, at this moment, LED lamp 11 circular telegram, LED lamp 11 produces the light wave irradiation shoes material that the wavelength is 7~25 microns, realize heating shoes material, the brush glue face and the glue of shoes material, need not use the shoemaking oven to heat.

LED lamp plate 12 shines shoes material and brush face of gluing, include at the static process and the removal in-process of frock board, LED lamp plate 12 provides a continuous and stable heating to shoes material and brush face of gluing, and can the heating temperature of accurate control LED lamp plate 12, each LED lamp plate 12 can set up corresponding heating temperature respectively, provide corresponding best heating temperature for shoes material and brush face of gluing, can reduce heating time, reduce the required energy consumption of heating when improving rate of heating, and can improve heating efficiency.

The application mode of the invention comprises the following steps:

firstly, as a tooling plate with an auxiliary heating device, the LED lamp 11 plays an auxiliary role in heating shoe materials, and the main heating work is also responsible for a shoe making oven in shoe making equipment, so that the heating time is shortened, and the heating temperature of the shoe materials is controlled to be close to the optimal temperature of the corresponding shoe materials or glue.

Wherein, according to the technological demand of difference and the cooperation demand of different shoemaking equipment, LED lamp 11 includes to the heating method and the using-way of shoes material: the LED lamp 11 is used for heating the shoe materials only before the shoe materials enter the shoe making oven, and the LED lamp 11 plays a role in preheating; only using the LED lamp 11 to heat the shoe material in the shoe making oven, wherein the LED lamp 11 plays a role in auxiliary heating; the LED lamp 11 is used for heating the shoe materials only before entering the shoe making oven and in the shoe making oven, and the LED lamp 11 plays a role in preheating and auxiliary heating; the LED lamps 11 are used to heat the shoe material before entering the shoe making oven, in the shoe making oven and after the shoe making oven is output.

And secondly, replacing a shoemaking oven and serving as a heating device of a shoe material, reducing shoemaking oven stations in the shoemaking forming line, namely, the shoemaking oven does not need to be installed in the shoemaking forming line, the LED lamp panel 12 is directly used for completing heating operation, and the tooling plate is used for conveying the shoe material on the conveying line to move forward or stopping to complete the heating operation on the conveying line.

Example two

The utility model provides a use in frock board that has LED heating for shoemaking equipment, it is shown in fig. 6 and 7, the frock board main part has a bottom plate 15, a support piece 14 and a shoe rack 13, support piece 14 is installed in bottom plate 15 one side, shoe rack 13 passes through support piece 14 and installs in bottom plate 15 top, the major structure of this embodiment is the same with embodiment one, its same part is no longer repeated, its difference lies in, three LED lamp plates 12 are installed on support piece 14's upper portion, three LED lamp plates 12 all are located shoe rack 13 top, the LED lamp plate 12 level of middle part sets up, the left and right sides of the LED lamp plate 12 of middle part is provided with the LED lamp plate 12 of a slope towards inboard direction respectively, the light wave of three LED lamp plates 12 concentrates on the region that the vamp of placing on shoe rack 13 needs the heating.

EXAMPLE III

The utility model provides a frock board that has LED heating for shoemaking equipment, as shown in fig. 8 and 9, the frock board main part has a bottom plate 15, a support piece 14, a tray 10 and a shoe rack 13, support piece 14 is installed in bottom plate 15 one side, shoe rack 13 passes through support piece 14 and installs in bottom plate 15 top, tray 10 passes through support piece 14 and installs in shoe rack 13 top, the major structure of this embodiment is the same with embodiment one, its common part is no longer repeated, its difference lies in, an LED lamp plate 12 is installed to the bottom surface of tray 10, the LED lamp plate 12 of the bottom surface of tray 10 is towards shoe rack 13.

A suspended LED lamp panel 12 is installed above the tray 10, a set distance is provided between the suspended LED lamp panel 12 and the tray 10, and the suspended LED lamp panel 12 faces the tray 10.

Example four

The utility model provides a use in frock board that has LED heating for shoemaking equipment, fig. 10 shows, the main structure of this embodiment is the same with the embodiment threephase, its same parts are no longer repeated, its difference lies in, installs second tray 10 between tray 10 and shoe rack 13, first tray 10, second tray 10 and unsettled LED lamp plate 12 are installed at bottom plate 15 from the bottom up interval in proper order promptly, and an LED lamp plate 12 is installed respectively to the bottom surface of first tray 10 and the bottom surface of second tray 10.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (8)

1. The utility model provides a use frock board that has LED heating for shoemaking equipment, is including the frock board main part that is used for transporting shoes material, and the frock board main part is provided with at least one tray (10) and/or shoe rack (13) that are used for placing shoes material, its characterized in that: the tool plate main body is provided with at least one LED lamp panel (12), the LED lamp panel (12) is provided with a plurality of LED lamps (11) which at least have more than 50% of all light waves generated during electrification and have the wavelength of 1-100 micrometers, and the LED lamps are used for irradiating shoe materials placed on the tray (10) and/or the shoe rack (13); the tooling plate main body is provided with at least one of a power supply interface for accessing a power supply, a battery for supplying power to the LED lamp (11), a wireless power supply device for receiving electric energy in a non-contact wireless mode and an ambient light power supply device for converting light energy into electric energy, and the LED lamp panel (12) is electrically connected with the power supply interface, the battery, the wireless power supply device or the ambient light power supply device; at least one radiating fin and/or a radiating fan are mounted on the back/side face of the LED lamp (11) or the back/side face of the LED lamp panel (12), and an airflow gap is reserved between the adjacent LED lamp panels (12) and/or the adjacent radiating fins.

2. A tooling plate with LED heating for a shoe making apparatus according to claim 1, wherein: the LED lamp (11) generates 60-99% of all light waves when being electrified, the wavelength of the light waves is 1-10 microns, 7-25 microns, 20-50 microns, 46-68 microns, 52-96 microns or 70-90 microns, and the LED lamp is used for directionally irradiating shoe materials and achieving the heating purpose.

3. A tooling plate with LED heating for a shoe making apparatus according to claim 1, wherein: the LED lamp (11) is provided with a chip and/or a chip excitation circuit, and the wavelength of light waves generated when the LED lamp (11) is electrified is determined by the chip and/or the chip excitation circuit of the LED lamp (11); the tool plate main body is provided with at least two LED lamp panels (12) which respectively generate light waves with different wavelengths when electrified or each LED lamp panel (12) is provided with at least two LED lamps (11) which respectively generate light waves with different wavelengths when electrified; the LED lamp panel (12) of frock board main part produces the light wave of two at least different wavelength when circular telegram, only transfers LED lamp (11) circular telegram work that have corresponding wavelength during the use to have 70~95% of the wavelength of the light wave of all light waves that produce and concentrate on 5~30 microns.

4. A tooling plate with LED heating for a shoe making apparatus according to claim 1, wherein: a support piece (14) is installed on one side of the tooling plate main body, and the LED lamp panel (12) is installed on the support piece (14) or the bottom surface of the tray (10); at least one LED lamp panel (12) or at least two LED lamp panels (12) at different heights or at least two LED lamp panels (12) with different inclination angles are arranged above and/or on the side surface of the tray (10) or the shoe rack (13); LED lamp plate (12) LED lamp (11) orientation tray (10) or shoe rack (13) for heating shoes material and/or activation glue.

5. The tooling plate with LED heating for a shoe making apparatus according to claim 4, wherein: at least one tray (10) and at least one shoe rack (13) are respectively arranged on the supporting piece (14) at different height positions; the support (14) comprises at least one of a bracket, a support bar or a side plate; one side of the LED lamp panel (12) is fixed on the support piece (14), or one side of the LED lamp panel (12) is fixed on the designated position or any position of the support piece (14) through the adjustable connecting device.

6. A tooling plate with LED heating for a shoe making apparatus according to any one of claims 1 to 5, wherein: at least one electrode group used for electrically connecting a power supply is installed on the bottom surface or the side surface of the tool plate main body, the LED lamp (11) is electrically connected with the electrode group, the power supply is conducted when the electrode group of the tool plate main body is installed on the corresponding brush power rail group on the shoe making equipment in a static contact or dynamic contact mode, and the brush power rail group comprises one of a conductive rail (19), a conductive bar or a conductive belt.

7. A tooling plate with LED heating for a shoe making apparatus according to claim 6, wherein: the tooling plate body is provided with a bottom plate (15), and the bottom plate (15) slides on a track/conveying line of the shoe making equipment; at least one electrode group is arranged on one side or two sides of the bottom surface of the bottom plate (15) along the longitudinal direction and/or the transverse direction, and when the tool plate slides on the rail/conveying line of the shoe making equipment, the corresponding electrode group is electrically contacted with the brush rail group arranged on the rail/conveying line to conduct power supply.

8. The tooling plate with LED heating for a shoe making apparatus according to claim 7, wherein: each electrode group comprises two conductive posts (16), a guide groove (17) is formed in each of two sides of the bottom surface of the bottom plate (15) along the longitudinal direction, a guide groove (17) is formed in each of two sides of the bottom surface of the bottom plate (15) along the transverse direction, a conductive post (16) is arranged in each guide groove (17), and the conductive posts (16) are elastically installed in the guide grooves (17) or fixed in the guide grooves (17); the guide grooves (17) transversely penetrate through or longitudinally penetrate through two ends of the bottom plate (15), and the guide grooves (17) on the bottom surface of the bottom plate (15) are staggered in a shape like a Chinese character 'jing'; when the tooling plate slides on the track or the conveying line of the shoemaking equipment, the conductive column (16) is electrically contacted with the conductive strip or the conductive belt arranged on the track or the conveying line of the shoemaking equipment; along the transverse section or the longitudinal section, the width of the upper part of the conductive column (16) is larger than that of the lower part, the change trend of the width of the conductive column (16) from top to bottom is gradually reduced, the bottom surface of the conductive column (16) is positioned in the guide groove (17) or extends out of the guide groove (17), and the bottom surface of the conductive column (16) is provided with a conductive bottom surface for brushing electricity; a convex block (18) is fixed in the middle of the bottom surface of the bottom plate (15), and a plurality of side surfaces of the convex block (18) are arranged to be pushing surfaces.

Images