CN205767515U - Ultrasonic heat fusing device - Google Patents

Ultrasonic heat fusing device Download PDF

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Publication number
CN205767515U
CN205767515U CN201620450975.9U CN201620450975U CN205767515U CN 205767515 U CN205767515 U CN 205767515U CN 201620450975 U CN201620450975 U CN 201620450975U CN 205767515 U CN205767515 U CN 205767515U
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China
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heating
hot melt
mould
die head
enclosed
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CN201620450975.9U
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Chinese (zh)
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李辉清
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Huizhou Yipin Science And Technology Co Ltd
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Huizhou Yipin Science And Technology Co Ltd
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Abstract

The utility model discloses ultrasonic heat fusing device, including enclosed heating assembly and ultrasound wave molding assembly, enclosed heating assembly includes heating mould, the bottom of heating mould is provided with single or multiple heating die head, heating die head is the cylindrical body that inner hollow closes around, in cylindrical body, the size of hollow space matches with the external dimensions size in the hot melt portion of workpiece, and before preheating, cylindrical body carries out enclosed after being set in from top to bottom outside workpiece hot melt portion and preheats;Ultrasound wave molding assembly includes ultrasonic vibrator and hot melt mould, the bottom of ultrasonic vibrator is connected with hot melt mould, the bottom of hot melt mould is provided with multiple hot melt die head for depressing molding, and hot melt die head is driven by ultrasonic vibrator with hot melt mould and descending carries out down-pressing forming.The advantages such as this utility model has homogeneous heating, and without dead angle, firing rate is fast, efficiency is high, and penetration is effective, and hot melt mould is durable, the life-span is long, and product surface is full, fineness good and product pulling force is sufficient.

Description

Ultrasonic heat fusing device
Technical field
This utility model relates to workpiece hot-melt technology field, is specially a kind of ultrasonic heat fusing device and method.
Background technology
The hot melt molding of existing workpiece is mainly by following several ways.Mode one, first plane preheating, pause afterwards, then down-pressing forming mode.This kind of mode has following deficiency: 1, the glue of workpiece does not add heat penetration, is easily generated deformation and disconnected foot during its molding;2, the surface of the work after processing not only, is easily generated wire drawing phenomenon;3, the fullest product easily occurs after molding, cause product defects;4, the product pulling force after heating, hot melt molding is not enough, easy fracture;5, hot melt mould is same mould with heating mould, and its hot melt molding mould is the most yielding, easily causes formed product size accurate, and 6, hot melt mould and heating mould are same mould, and its hot melt mould is not durable, and the life-span is short.Mode two, first plane preheating, then carry out shifting down-pressing forming mode.The first plane preheating of mode two, then shift down the mode pressed, make hot melt mould and heating mould be respectively independent two mould, the most yielding to a certain degree solving above-mentioned hot melt mould, easily cause formed product size not accurate, and hot melt mould is not durable, the problem that the life-span is short.But it still has following deficiency: 1, the glue of workpiece does not add heat penetration, during its molding, it is easily generated deformation and disconnected foot;2, the surface, hot melt portion of workpiece not only, is easily generated wire drawing phenomenon;3, the fullest product easily occurs after molding, cause product defects;4, the product pulling force after heating, hot melt molding is not enough, easy fracture.Mode three, directly uses ultrasound wave molding, and shortcoming is the workpiece that ultrasound wave may be only available for plastic cement fusing point less than 180 degree, and has no idea to realize for the workpiece that plastic cement fusing point is more than 180 degree.
Heating mould elder generation plane heating except above-mentioned employing uses hot melt mould to carry out two kinds of hot briquetting modes of down-pressing forming again, also has and uses steam non-contact thermal, and first thermoplastic cools down the mode reshaped afterwards.This kind of steam jet mode of heating is except heating the end face in hot melt portion, its periphery can also obtain certain preheating, it improves the homogeneous heating degree in hot melt portion to a certain extent, it is more easy to heat penetration, is to a certain degree solving workpiece yielding, disconnected foot, surface not only and the problem such as product shaping is the fullest.But it there is also the deficiency of self: its steam non-contact thermal, firing rate is slow, and efficiency is low, and the heating of its steam jet mode exists heating dead angle, impact heating and penetration effect.
Utility model content
This utility model provides a kind of homogeneous heating, and without dead angle, firing rate is fast, efficiency is high, and penetration is effective, and hot melt mould is durable, the life-span is long, and product surface is full, fineness good and the ultrasonic heat fusing device of product pulling force abundance and method.
This utility model can be achieved through the following technical solutions:
Ultrasonic heat fusing device, including enclosed heating assembly and ultrasound wave molding assembly, described enclosed heating assembly and ultrasound wave molding assembly are disposed side by side on fixed mount, described enclosed heating assembly includes heating mould, the bottom of described heating mould is provided with single or multiple protruding from and heats mould and for preheating the heating die head of workpiece, described heating die head is the cylindrical body that inner hollow closes around, in described cylindrical body, the size of hollow space matches with the external dimensions size in the hot melt portion of workpiece, before preheating, cylindrical body carries out enclosed after being set in from top to bottom outside workpiece hot melt portion and preheats;Described ultrasound wave molding assembly includes ultrasonic vibrator and hot melt mould, the bottom of described ultrasonic vibrator is connected with hot melt mould, the bottom of described hot melt mould is provided with multiple hot melt die head for depressing molding, and described hot melt die head is driven by ultrasonic vibrator with hot melt mould and descending carries out down-pressing forming.This utility model ultrasonic heat fusing device uses enclosed heating and the compound mode of ultrasound wave molding, first hot melt portion is carried out enclosed to preheat, then ultrasound wave molding position it is displaced to, hot melt portion passes through ultrasound wave molding assembly down-pressing forming, and its homogeneous heating, without dead angle, firing rate is fast, efficiency is high, penetration is effective, and hot melt mould is durable, the life-span is long, and product surface is full, fineness good and product pulling force sufficient.Enclosed heating assembly uses and heating die head is arranged to the cylindrical body structure that inner hollow closes around, traditional plane formula mode of heating is changed to enclosed mode of heating by it, have the advantage that 1, homogeneous heating, penetration is effective, efficiently solves and heats the impermeable yielding and disconnected foot problem caused in existing plane heating mode;2, heating process is without dead angle, heating is completely, enclosed heats, the outer surface making the hot melt portion of workpiece is arranged with heating die head, its heated mould headgear is located at outside hot melt portion, effectively prevent plane heating only from the defect of hot melt portion upper surface heating, it also avoid that steam is jet-propelled adds thermogenetic heating Dead Core Problems simultaneously, the heating of its enclosed is omnidistance without dead angle, and heating is completely;3, enclosed firing rate is fast, and efficiency is high, and enclosed heating makes the hot melt portion outer surface of workpiece entirely enclose thermal source, and heating die head with hot melt portion is contact heating, and it is effectively improved firing rate and the efficiency of heating surface;4, plane formula is heated die head and changes to cylindrical body formula heating die head, its simple in construction, design uniqueness.Ultrasound wave molding assembly uses the mode that is connected with ultrasonic vibrator of hot melt mould, and traditional mechanical down-pressing forming is changed to ultrasound wave down-pressing forming, has the advantage that 1, ultrasonic heat fusible pattern head can effectively improving product surface smoothness and plumpness;2, enclosed heating and being used in combination of ultrasound wave molding, effectively ensure that product pulling force is sufficient, it is to avoid occur because pulling force deficiency is easily generated the situation of fracture;3, ultrasound wave molding is without wire drawing, effectively prevent product wire drawing phenomenon.
Further, described ultrasonic vibrator is connected with upper and lower servo module by ticker fixed mount, the top of described upper and lower servo module is provided with upper and lower servomotor, up and down driven by servomotor upper and lower servo module moves up and down, upper and lower servo module and then moved up and down by ticker fixed mount drive ultrasonic vibrator.Using upper and lower servomotor as motive drive source, it is relative to traditional air cylinder driven, and upper and lower driven by servomotor is the most steady, average rate, strong, effectively prevent the excessive velocities using air cylinder driven to cause, the bending problem that bad regulation and control cause.The motive drive source of described ultrasonic vibrator is implemented in combination with power drive except use upper and lower servomotor and upper and lower servo module, it would however also be possible to employ upper and lower air cylinders is driven ultrasonic vibrator as power source and moves up and down.
Further, described cylindrical body includes cylinder, cylindroid, square tube or the irregular body matched with hot melt portion.Described heating die head can also be common cylinder die head, cylindroid die head, square tube die head, it is also possible to for other irregular body matched with the hot melt portion of workpiece, mainly to close with hot melt portion matching form.
Further, the top of described heating mould is connected with heating plate.
Further, described heating plate top is disposed with horizontal adjustment plate and adjustment fixing plate, and the riser top of the L shaped plate of described adjustment fixing plate is connected with the cylinder handspike adding hot cylinder by air cylinder fixed plate, described in add hot cylinder and be arranged on the top board of fixed mount.The power drive of described heating mould except use above-mentioned add hot cylinder in addition to, it would however also be possible to employ add thermoelectric perpetual motion machine and be driven.
Further, the riser of described fixed mount is provided with guide rail, and the riser back side of described adjustment fixing plate is connected with slide by slide block.
The method using above-mentioned ultrasonic heat fusing device to carry out hot melt molding, comprises the following steps:
The first step, place and conveying work pieces, workpiece is loaded placing clamp, on described placing clamp rack-mounted horizontal transmission module, the servo feeding motor being connected with horizontal transmission module or feeding cylinder drives the lower section carrying out that workpiece is sent to heat with placing clamp mould;
Second step, heating mould downstream packets encloses hot melt portion, being positioned at the heating mould above workpiece by adding hot cylinder or adding the hot melt portion that thermoelectric perpetual motion machine drives and control to be shifted downward to the heating die head of cylindrical body to surround on workpiece completely;
3rd step, enclosed preheats, and starts heating plate work, and even heat is passed to heat the single or multiple heating die heads of mold bottom by heating mould by heating plate, and heating die head carries out enclosed to the hot melt portion on workpiece and preheats;
4th step, workpiece shift, after having preheated in the 3rd step, workpiece is sent to the lower section of mould by servo feeding motor or feeding cylinder;
5th step, ultrasound wave down-pressing forming, upper and lower servomotor or upper and lower air cylinders drive hot melt die head, with ultrasound wave module is descending, hot melt portion after preheating on workpiece is carried out down-pressing forming.
nullBy using enclosed to heat and the compound mode of ultrasound wave molding,First hot melt portion is carried out enclosed to preheat,Make the uniform penetration in hot melt portion,Then ultrasound wave molding position it is displaced to,Hot melt portion passes through ultrasound wave molding assembly down-pressing forming,Enclosed homogeneous heating,Without dead angle,Firing rate is fast、Efficiency is high,Penetration is effective,After hot melt portion penetration, it is shifted,Play the effect in natural cooling hot melt portion,By ultrasound wave mould, it is carried out down-pressing forming the most again,Effectively prevent the situation that hot melt mould the most at high temperature works,Effectively prevent hot melt mould the most yielding,And then cause size inaccuracy and hot melt mould not to be durable,The problem that life-span is short,It is effectively improved between the use of hot melt mould、Life-span is long,Use ultrasound wave molding,Its product surface is full、Fineness is good、Product pulling force sufficient and also without wire drawing phenomenon.
Further, heating mould downward storke by adding hot cylinder control in second step, in the 3rd step, in the 5th step, hot melt die head downgoing time and stroke are by upper and lower Serve Motor Control by heating plate control pre-warmed heat time heating time for enclosed.
Further, after enclosed described in the 3rd step has preheated, add hot cylinder self-return.
Further, described workpiece is molded item, and described molded item is high temperature, infusibility or the molding material adding chemical fibre, and described high temperature is the temperature higher than 180 degree, that is to say described molded item for molded item that fusing point is more than 180 degree.
This utility model ultrasonic heat fusing device and heating means, use enclosed heating and the compound mode of ultrasound wave molding, first hot melt portion is carried out enclosed and preheat, be then displaced to ultrasound wave molding position, hot melt portion passes through ultrasound wave molding assembly down-pressing forming, has a following beneficial effect:
The first, homogeneous heating, penetration is effective, efficiently solves and heats the impermeable yielding and disconnected foot problem caused in existing plane heating mode;
The second, heating process is without dead angle, heating is completely, enclosed heats, the outer surface making the hot melt portion of workpiece is arranged with heating die head, its heated mould headgear is located at outside hot melt portion, effectively prevent plane heating only from the defect of hot melt portion upper surface heating, it also avoid that steam is jet-propelled adds thermogenetic heating Dead Core Problems simultaneously, the heating of its enclosed is omnidistance without dead angle, and heating is completely;
3rd, enclosed firing rate is fast, and efficiency is high, and enclosed heating makes the hot melt portion outer surface of workpiece entirely enclose thermal source, and heating die head with hot melt portion is contact heating, and it is effectively improved firing rate and the efficiency of heating surface;
4th, plane formula is heated die head and changes to cylindrical body formula heating die head, its simple in construction, design uniqueness;
5th, product surface fineness and plumpness are good, and ultrasonic heat fusible pattern head can effectively improving product surface smoothness and plumpness;
6th, being used in combination of product pulling force abundance, enclosed heating and ultrasound wave molding, effectively ensure that product pulling force is sufficient, it is to avoid because pulling force deficiency is easily generated the situation appearance of fracture;
7th, without wire drawing, ultrasound wave molding, without wire drawing, effectively prevent product wire drawing phenomenon.
Accompanying drawing explanation
Fig. 1 is the axonometric chart of this utility model ultrasonic heat fusing device;
Fig. 2 is the axonometric chart heating assembly in this utility model ultrasonic heat fusing device;
Fig. 3 is the axonometric chart heating die head in Fig. 2;
Fig. 4 is the functional-block diagram of the method for this utility model hot melt molding.
Detailed description of the invention
In order to make those skilled in the art be more fully understood that the technical solution of the utility model, below in conjunction with embodiment and accompanying drawing, this utility model product is described in further detail.
As shown in Figure 1 to Figure 3, ultrasonic heat fusing device, including enclosed heating assembly and ultrasound wave molding assembly, described enclosed heating assembly and ultrasound wave molding assembly are disposed side by side on fixed mount 10, described enclosed heating assembly includes heating mould 1, the bottom of described heating mould 1 is provided with single or multiple protruding from and heats mould 1 and for preheating the heating die head 2 of workpiece, the cylindrical body 3 that described heating die head 2 closes around for inner hollow, in described cylindrical body 3, the size of hollow space matches with the external dimensions size in the hot melt portion of workpiece, before preheating, cylindrical body 3 carries out enclosed after being set in from top to bottom outside workpiece hot melt portion and preheats;Described ultrasound wave molding assembly includes ultrasonic vibrator 16 and hot melt mould 18, described ultrasonic vibrator 16 is provided with protective cover, the bottom of described ultrasonic vibrator 16 is connected with hot melt mould 18, the bottom of described hot melt mould 18 is provided with multiple hot melt die head 19 for depressing molding, and described hot melt die head 19 is driven by ultrasonic vibrator 16 with hot melt mould 18 and descending carries out down-pressing forming.This utility model ultrasonic heat fusing device uses enclosed heating and the compound mode of ultrasound wave molding, first hot melt portion is carried out enclosed to preheat, then ultrasound wave molding position it is displaced to, hot melt portion passes through ultrasound wave molding assembly down-pressing forming, and its homogeneous heating, without dead angle, firing rate is fast, efficiency is high, penetration is effective, and hot melt mould 18 is durable, the life-span is long, and product surface is full, fineness good and product pulling force sufficient.Enclosed heating assembly uses and heating die head 2 is arranged to cylindrical body 3 structure that inner hollow closes around, traditional plane formula mode of heating is changed to enclosed mode of heating by it, have the advantage that 1, homogeneous heating, penetration is effective, efficiently solves and heats the impermeable yielding and disconnected foot problem caused in existing plane heating mode;2, heating process is without dead angle, heating is completely, enclosed heats, the outer surface making the hot melt portion of workpiece is arranged with heating die head 2, its heating die head 2 is set in outside hot melt portion, effectively prevent plane heating only from the defect of hot melt portion upper surface heating, it also avoid that steam is jet-propelled adds thermogenetic heating Dead Core Problems simultaneously, the heating of its enclosed is omnidistance without dead angle, and heating is completely;3, enclosed firing rate is fast, and efficiency is high, and enclosed heating makes the hot melt portion outer surface of workpiece entirely enclose thermal source, and heating die head 2 with hot melt portion is contact heating, and it is effectively improved firing rate and the efficiency of heating surface;4, plane formula is heated die head 2 and changes to cylindrical body 3 formula heating die head 2, its simple in construction, design uniqueness.Ultrasound wave molding assembly uses the mode that hot melt mould 18 is connected with ultrasonic vibrator 16, traditional mechanical down-pressing forming is changed to ultrasound wave down-pressing forming, has the advantage that 1, ultrasonic heat fusible pattern head 19 can effectively improving product surface smoothness and plumpness;2, enclosed heating and being used in combination of ultrasound wave molding, effectively ensure that product pulling force is sufficient, it is to avoid occur because pulling force deficiency is easily generated the situation of fracture;3, ultrasound wave molding is without wire drawing, effectively prevent product wire drawing phenomenon.
As shown in Figure 1, described ultrasonic vibrator 16 is connected with upper and lower servo module 15 by ticker fixed mount 17, the top of described upper and lower servo module 15 is provided with upper and lower servomotor 14, up and down servomotor 14 drives upper and lower servo module 15 to move up and down, upper and lower servo module 15 and then drive ultrasonic vibrator 16 to move up and down by ticker fixed mount 17.Using upper and lower servomotor 14 as motive drive source, it is relative to traditional air cylinder driven, and upper and lower servomotor 14 drives the most steady, average rate, strong, effectively prevent the excessive velocities using air cylinder driven to cause, the bending problem that bad regulation and control cause.
As shown in Figures 2 and 3, described cylindrical body 3 includes cylinder.The shape of described cylindrical body 3 is in addition to for cylinder, it is also possible to for common elliptical cylinder, square tube body or other irregular body matched with hot melt portion.That is to say cylindrical shape die head that described heating die head 2 can also be common, oval cylinder die head, square tube shape die head, it is also possible to for other irregular body shape die head matched with the hot melt portion of workpiece, mainly to close with hot melt portion matching form.
As shown in Figures 2 and 3, the top of described heating mould 1 is connected with heating plate 5.Described heating plate 5 top is disposed with horizontal adjustment plate 6 and adjustment fixing plate 7, riser 8 top of the L shaped plate of described adjustment fixing plate 7 is connected with the cylinder handspike adding hot cylinder 12 by air cylinder fixed plate 9, described in add hot cylinder 12 and be arranged on the top board 11 of fixed mount 10.The riser of described fixed mount 10 is provided with guide rail 13, and riser 8 back side of described adjustment fixing plate 7 is slidably connected with guide rail 13 by slide block.After workpiece is transferred into the location, lower section of heating mould 1, start and add hot cylinder 12, add hot cylinder 12 drive and control heat mould 1 be shifted downward to cylindrical body 3 heating die head 2 surround on workpiece completely hot melt portion after, start heating plate 5 to work, even heat is passed to heat the multiple heating die heads 2 bottom mould 1 by heating mould 1 by heating plate 5, and heating die head 2 carries out enclosed to the hot melt portion on workpiece and preheats.Certainly, described heating mould 1 is in addition to using and adding hot cylinder 12 and drive heating as power source mould 1 moves up and down, it is also possible to selects and adds thermoelectric perpetual motion machine and heating servo's module is combined as power source and is driven heating mould 1 and moves up and down.
As shown in Figures 1 to 4, the method using above-mentioned ultrasonic heat fusing device to carry out hot melt molding, comprise the following steps:
The first step, place and conveying work pieces, workpiece is loaded placing clamp, on described placing clamp rack-mounted horizontal transmission module, the servo feeding motor being connected with horizontal transmission module or feeding cylinder drives the lower section carrying out that workpiece is sent to heat with placing clamp mould 1;
Second step, heating mould 1 descending encirclement hot melt portion, being positioned at the heating mould 1 above workpiece by adding hot cylinder or adding the hot melt portion that thermoelectric perpetual motion machine 12 drives and control to be shifted downward to the heating die head 2 of cylindrical body 3 to surround on workpiece completely, this step heats mould 1 downward storke by adding hot cylinder or adding thermoelectric perpetual motion machine 12 and control;
3rd step, enclosed preheats, start heating plate 5 to work, even heat is passed to heat the single or multiple heating die heads 2 bottom mould 1 by heating plate 5 by heating mould 1, heating die head 2 carries out enclosed to the hot melt portion on workpiece and preheats, in this step, enclosed is controlled by heating plate 5 pre-warmed heat time heating time, after described enclosed has preheated, adds hot cylinder 12 self-return;
4th step, workpiece shift, after having preheated in the 3rd step, workpiece is sent to the lower section of mould by servo feeding motor or feeding cylinder;
5th step, ultrasound wave down-pressing forming, servomotor or upper and lower air cylinders 14 drive hot melt die head 19, with ultrasound wave module is descending, hot melt portion after preheating on workpiece is carried out down-pressing forming up and down, and in this step, hot melt die head 19 downgoing time and stroke are controlled by upper and lower servomotor 14.
As shown in Figures 1 to 4, described workpiece is molded item, and described molded item is high temperature, infusibility or the molding material adding chemical fibre, and described high temperature is the temperature higher than 180 degree.nullBy using enclosed to heat and the compound mode of ultrasound wave molding,First hot melt portion is carried out enclosed to preheat,Make the uniform penetration in hot melt portion,Then ultrasound wave molding position it is displaced to,Hot melt portion passes through ultrasound wave molding assembly down-pressing forming,Enclosed homogeneous heating,Without dead angle,Firing rate is fast、Efficiency is high,Penetration is effective,After hot melt portion penetration, it is shifted,Play the effect in natural cooling hot melt portion,By ultrasound wave mould, it is carried out down-pressing forming the most again,Effectively prevent the situation that hot melt mould 18 at high temperature works for a long time,Effectively prevent hot melt mould 18 the most yielding,And then cause size inaccuracy and hot melt mould 18 not to be durable,The problem that life-span is short,It is effectively improved between hot melt mould 18 use、Life-span is long,Use ultrasound wave molding,Its product surface is full、Fineness is good、Product pulling force sufficient and also without wire drawing phenomenon.
The above, preferred embodiment the most of the present utility model, not this utility model is made any pro forma restriction;The those of ordinary skill of all industry all can shown in by specification accompanying drawing and the above and implement this utility model swimmingly;But, all those skilled in the art in the range of without departing from technical solutions of the utility model, available disclosed above technology contents and a little change made, the equivalent variations modifying and develop, be Equivalent embodiments of the present utility model;Meanwhile, all any equivalent variations above example made according to substantial technological of the present utility model change, modify and differentiation etc., within all still falling within the protection domain of the technical solution of the utility model.

Claims (6)

1. ultrasonic heat fusing device, it is characterized in that: include enclosed heating assembly and ultrasound wave molding assembly, described enclosed heating assembly and ultrasound wave molding assembly are disposed side by side on fixed mount, described enclosed heating assembly includes heating mould, the bottom of described heating mould is provided with single or multiple protruding from and heats mould and for preheating the heating die head of workpiece, described heating die head is the cylindrical body that inner hollow closes around, in described cylindrical body, the size of hollow space matches with the external dimensions size in the hot melt portion of workpiece, before preheating, cylindrical body carries out enclosed after being set in from top to bottom outside workpiece hot melt portion and preheats;Described ultrasound wave molding assembly includes ultrasonic vibrator and hot melt mould, the bottom of described ultrasonic vibrator is connected with hot melt mould, the bottom of described hot melt mould is provided with multiple hot melt die head for depressing molding, and described hot melt die head is driven by ultrasonic vibrator with hot melt mould and descending carries out down-pressing forming.
Ultrasonic heat fusing device the most according to claim 1, it is characterized in that: described ultrasonic vibrator is connected with upper and lower servo module by ticker fixed mount, the top of described upper and lower servo module is provided with upper and lower servomotor, up and down driven by servomotor upper and lower servo module moves up and down, upper and lower servo module and then moved up and down by ticker fixed mount drive ultrasonic vibrator.
Ultrasonic heat fusing device the most according to claim 1 and 2, it is characterised in that: described cylindrical body includes cylinder, cylindroid, square tube or the irregular body matched with hot melt portion.
Ultrasonic heat fusing device the most according to claim 3, it is characterised in that: the top of described heating mould is connected with heating plate.
Ultrasonic heat fusing device the most according to claim 4, it is characterized in that: described heating plate top is disposed with horizontal adjustment plate and adjustment fixing plate, the riser top of the L shaped plate of described adjustment fixing plate is connected with the cylinder handspike adding hot cylinder by air cylinder fixed plate, described in add hot cylinder and be arranged on the top board of fixed mount.
Ultrasonic heat fusing device the most according to claim 5, it is characterised in that: the riser of described fixed mount is provided with guide rail, and the riser back side of described adjustment fixing plate is connected with slide by slide block.
CN201620450975.9U 2016-05-18 2016-05-18 Ultrasonic heat fusing device Withdrawn - After Issue CN205767515U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105946221A (en) * 2016-05-18 2016-09-21 惠州市壹品科技有限公司 Ultrasonic hot melting device and method
CN109383005A (en) * 2018-12-14 2019-02-26 浙江昌益塑业有限公司 A kind of processing technology and method of plastic bottle
CN109383006A (en) * 2018-12-14 2019-02-26 浙江昌益塑业有限公司 A kind of processing technology of PET plastic bottle
CN109648830A (en) * 2018-12-14 2019-04-19 浙江昌益塑业有限公司 A kind of production and processing technology of plastic bottle

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105946221A (en) * 2016-05-18 2016-09-21 惠州市壹品科技有限公司 Ultrasonic hot melting device and method
CN109383005A (en) * 2018-12-14 2019-02-26 浙江昌益塑业有限公司 A kind of processing technology and method of plastic bottle
CN109383006A (en) * 2018-12-14 2019-02-26 浙江昌益塑业有限公司 A kind of processing technology of PET plastic bottle
CN109648830A (en) * 2018-12-14 2019-04-19 浙江昌益塑业有限公司 A kind of production and processing technology of plastic bottle
CN109648830B (en) * 2018-12-14 2020-08-21 浙江昌益塑业有限公司 Production and processing technology of plastic bottle
CN109383006B (en) * 2018-12-14 2020-08-21 浙江昌益塑业有限公司 Processing technology of PET plastic bottle
CN109383005B (en) * 2018-12-14 2020-11-17 台州天华塑业机械有限公司 Processing technology of plastic bottle

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Granted publication date: 20161207

Effective date of abandoning: 20180928