CN207889078U - A kind of ultrasonic wave carbon deposition prevention device - Google Patents

Abstract

A kind of ultrasonic wave carbon deposition prevention device, including：Supersonic generator, the connector being connected with the supersonic generator and the heater being connected with the connector other end；The connector is connected with the ultrasonic oscillator in the supersonic generator, and the heater includes pedestal, the heater strip that is fixed on the pedestal, shade heating cavity shell on the base and is formed in the pedestal and the heating chamber heated between cavity shell；Heat medium is equipped in the heating chamber, the pedestal is equipped with the internal face being located in the heating chamber and the outside wall surface opposite with the internal face.

Description

A kind of ultrasonic wave carbon deposition prevention device

Technical field

The present invention relates to industrial technical field more particularly to a kind of ultrasonic wave carbon deposition prevention devices.

Background technology

Die heater is also known as mould temperature controller, the temperature control industry in injection mold is initially applied, later with mechanical row The development and application of industry is more and more extensive, and as the field of application die heater is more and more, the requirement to die heater is also higher and higher. And in die heater, heater is core devices.

Heat medium can be carbonized in the state of long-time heating in the heater, be formed in heater strip and heater inner wall Carbon distribution causes the time that machine is heated to predetermined temperature elongated, or even heating is less than predetermined temperature.So just needing to be replaced frequently Heat medium or periodic cleaning form the position of carbon distribution, not only consume more manpowers and time, but also cannot in real time effectively The accumulation for preventing carbon distribution and dirt.

Invention content

The purpose of the present invention is to provide a kind of a kind of simple in structure, good ultrasonic wave carbon deposition prevention devices of anti-carbon deposition effect.

To achieve the above object, the present invention adopts the following technical scheme that：A kind of ultrasonic wave carbon deposition prevention device, including：Ultrasound Wave producer, the connector being connected with the supersonic generator and the heating being connected with the connector other end Device；The connector is connected with the ultrasonic oscillator in the supersonic generator, and the heater includes heater strip The heating cavity shell and shape of pedestal, the heater strip being fixed on the heater strip pedestal, shade on the heater strip pedestal Heating chamber between heater strip pedestal described in Cheng Yu and the heating cavity shell；Heat medium, institute are equipped in the heating chamber It states heater strip pedestal and is equipped with the internal face being located in the heating chamber and the outside wall surface opposite with the internal face.

As the further improved technical solution of the utility model, the connector includes first chamber and second chamber, It is mutually separated with partition wall between the first chamber and the second chamber.

As the further improved technical solution of the utility model, the lower wall of the separate partition wall in the first chamber Face is connect with the ultrasonic oscillator, the upper wall surface in the second chamber far from the partition wall and the heater outside wall surface It is connected.

As the further improved technical solution of the utility model, the upper wall surface and a heating cavity shell at least wall It is connected

As the further improved technical solution of the utility model, the connector includes ontology and chamber, the chamber It is sleeved on outside the connector.

As the further improved technical solution of the utility model, the ontology is cylinder and is in L types.

As the further improved technical solution of the utility model, one end left wall face and the ultrasonic wave of the connector Oscillator is connected, and the other end right wall opposite with connector left wall face is connected with the heater.

As the further improved technical solution of the utility model, the right wall is connect with the outside wall surface.

As the further improved technical solution of the utility model, room and the heating is thermally isolated with described in the right wall A cavity shell at least wall is connected.

As the further improved technical solution of the utility model, a heating cavity shell at least wall and the connector It is connected.

By above technical scheme it is found that a kind of ultrasonic wave carbon deposition prevention device of the utility model is connected by heating cavity generator Heater and supersonic generator are connect, and one or more attachment devices are set outside heater so that heater passes through The vibrations of supersonic generator are heated to prevent carbon distribution to be deposited on cavity wall or heater strip.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of ultrasonic wave carbon deposition prevention device first embodiment of the utility model.

Fig. 2 is connector enlarged drawing in a kind of ultrasonic wave carbon deposition prevention device first embodiment of the utility model.

Fig. 3 is F-F sectional views in Fig. 2.

Fig. 4 is a kind of structural schematic diagram of ultrasonic wave carbon deposition prevention device second embodiment of the utility model.

Fig. 5 is a kind of structural schematic diagram of ultrasonic wave carbon deposition prevention device third embodiment of the utility model.

Fig. 6 is connector enlarged drawing in a kind of ultrasonic wave carbon deposition prevention device third embodiment of the utility model.

Fig. 7 is A-A sectional views in Fig. 6.

Fig. 8 is a kind of structural schematic diagram of the 4th embodiment of ultrasonic wave carbon deposition prevention device of the utility model

Reference numeral：1,1- connectors；11- first chambers；111- water inlets；112- water outlets；113- upper wall surfaces；12- Second chamber；The first stomatas of 121-；The second stomatas of 122-；123- lower wall surfaces；13- partition walls；11 '-ontologies；111 '-left wall faces； 112 '-right walls；12 '-chambers；121 '-cooling water inlets；122 '-cooling water outlets；2- supersonic generators；3- is heated Device；31- heater supports；311- internal faces；312- outside wall surfaces；32- heater strips；33- heating chambers；34- heats cavity shell.

Specific implementation mode

In order to keep the purpose of this utility model, technical solution and advantage clearer, below in conjunction with the accompanying drawings and it is embodied The present invention will be described in detail for example.

It please join Fig. 1 to a kind of ultrasonic wave carbon deposition prevention device shown in Fig. 8, the ultrasonic wave carbon deposition prevention device includes ultrasonic wave Generator 2, the connector 1,1 ' being connected with the supersonic generator 2 and it is connected with the connector 1, the 1 ' other end Heater 3.

The connector 1,1 ' is connected with the ultrasonic oscillator (not marking) in the supersonic generator 2.Institute Heater 3 is stated including heater strip pedestal 31, the heater strip 32 being fixed on the heater strip pedestal 31, shade in the heating Silk pedestal 31 on heating cavity shell 34 and be formed in the heater strip pedestal 31 and it is described heating cavity shell 34 between add Hot chamber 33.Heat medium (not labeled) is equipped in the heating chamber 33, the heater strip pedestal 31, which is equipped with, is located at the heating Internal face 311 in chamber 33 and the outside wall surface 312 opposite with the internal face 311.

It please join shown in Fig. 1 to Fig. 3, be the ultrasonic wave carbon deposition prevention device of the utility model first embodiment.The connection Device 1 is arranged in hollow cylinder shape, and the connector 1 includes first chamber 11 and second chamber 12,11 He of the first chamber It is mutually separated with partition wall 13 between the second chamber 12.The first chamber 11 is equipped with water inlet 111 and water outlet 112, Lower wall surface 113 far from the partition wall 13 in the first chamber 11 is connect with the ultrasonic oscillator, and cooling water passes through institute It states water inlet 111 and enters the first chamber 11 again through the outflow of the water outlet 112, make the reduction of 1 temperature of the connector, protection Ultrasonic oscillator is working properly.Upper wall surface 114 far from the partition wall 13 in the second chamber 12 and 3 phase of the heating chamber Connection.The second chamber 12 is equipped with the first stomata 121 and the second stomata 122 communicated with ambient atmosphere, second chamber Upper wall surface 123 far from the partition wall 13 in room 12 is connect with the outside wall surface 312 of the heater, to prevent heater strip 32 carbon distributions, the second chamber 12, can be to avoid the heating chambers 33 between the first chamber 11 and the heater 3 It is in direct contact with the first chamber 11, causes 11 temperature of the first chamber excessively high, the air layer in the second chamber 12 Achieve the effect that buffering.

It please join shown in Fig. 4, be the ultrasonic wave carbon deposition prevention device of the utility model second embodiment.In present embodiment The connector construction is roughly the same with the connector construction of first embodiment, and details are not described herein.Uniquely difference lies in：Institute It states connector 1 with a 34 at least wall of the heating cavity shell to be connected, i.e., the described connector 1 (is not marked with 3 left wall of the heater Note) or right wall (not marking) or upper wall (not marking) be connected.

It please join shown in Fig. 5 to Fig. 7, be the ultrasonic wave carbon deposition prevention device of the utility model third embodiment.The connection Device 1 ' includes ontology 11 ' and the chamber 12 ' that is sleeved on ontology 11 ', and there is the chamber 12 ' heat radiation function, the ontology 11 ' to be Solid metal body, cylindrical shape setting, L-shaped, the left wall face 111 ' for being located at top on the ontology 11 ' shakes with the ultrasonic wave Son connection, the right wall 112 ' for being located at the 11 ' other end of the ontology are connect with the outside wall surface 311.The water filling heat dissipation cavity 12 ' Positioned at the position close to the left wall face 111 ', the water filling heat dissipation cavity 12 ' is equipped with cooling water inlet 121 ' and cooling water goes out Mouth 122 ', cooling water enters from the cooling water inlet 121 ', is flowed out from the cooling water outlet 122 ', can reduce described The temperature of body 11 ', so as to play the role of protecting ultrasonic oscillator.

It please join shown in Fig. 8, be the ultrasonic wave carbon deposition prevention device of the 4th embodiment of the utility model.In present embodiment The connector construction is roughly the same with the connector construction of third embodiment, and details are not described herein.Uniquely difference lies in：Institute Connector 1 ' is stated with a 34 at least wall of the heating cavity shell to be connected, i.e., the right wall 112 ' of the connector 1 ' with it is described The left wall (not marking) or right wall (not marking) or upper wall (not marking) of heater 3 are connected.

In other embodiments, on the left wall of the heater 3 of the ultrasonic wave carbon deposition prevention device and lower wall simultaneously Equipped with connector 1,1 '；Or simultaneously equipped with company in the left wall and upper wall of the heater 3 of the ultrasonic wave carbon deposition prevention device Connect device 1,1 '；Or simultaneously equipped with connection on the left wall of the heater 3 of the ultrasonic wave carbon deposition prevention device, upper wall and lower wall Device 1,1 '.The position of the connector 1,1 ' can be exchanged.

In conclusion the connector 1,1 ' of the supersonic generator 2 is connected by being arranged outside the heater 3, And one or more connector 1,1 ' and supersonic generator 2 is arranged in external in the heater 3, can effectively prevent Carbon distribution is formed on 33 inner wall of heating chamber and heater strip 32.

It is used herein such as "upper", "lower", "left", "right", "front", "rear", representation space relative position term It is to describe relationship of the feature relative to another feature as shown in the drawings for the purpose convenient for explanation.It can manage Solution, according to the difference of product placement position, the term of relative space position can be intended to include other than orientation as shown in the figure Different direction, should not be interpreted as limitations on claims.In addition, descriptor "horizontal" used herein and non-fully It is equal to along perpendicular to gravity direction, allows the inclination for having certain angle.

In addition, above example is merely to illustrate the utility model and not limits technical side described in the utility model Case, understanding of this description should be based on persons of ordinary skill in the field, although this specification is with reference to above-mentioned Embodiment has been carried out detailed description to the utility model, still, it will be understood by those of ordinary skill in the art that, affiliated skill The technical staff in art field still can be modified or replaced equivalently the utility model, and all do not depart from this practicality newly The technical solution of the spirit and scope of type and its improvement should all be covered in the right of the utility model.

Claims (10)

1. a kind of ultrasonic wave carbon deposition prevention device, which is characterized in that including：Supersonic generator, with the supersonic generator phase The connector of connection and the heater being connected with the connector other end；The connector is sent out with positioned at the ultrasonic wave Ultrasonic oscillator in raw device is connected, and the heater includes heater strip pedestal, is fixed on adding on the heater strip pedestal Heating cavity shell on the heater strip pedestal of heated filament, shade and it is formed in the heater strip pedestal and the heating chamber shell Heating chamber between body；Heat medium is equipped in the heating chamber, the heater strip pedestal, which is equipped with, to be located in the heating chamber Internal face and the outside wall surface opposite with the internal face.

2. a kind of ultrasonic wave carbon deposition prevention device as described in claim 1, it is characterised in that：The connector includes first chamber And second chamber, it is mutually separated with partition wall between the first chamber and the second chamber.

3. a kind of ultrasonic wave carbon deposition prevention device as claimed in claim 2, it is characterised in that：Far from described in the first chamber The lower wall surface of partition wall is connect with the ultrasonic oscillator, in the second chamber far from the partition wall upper wall surface with it is described Heater outside wall surface is connected.

4. a kind of ultrasonic wave carbon deposition prevention device as claimed in claim 3, it is characterised in that：The upper wall surface and the heating chamber A shell at least wall is connected.

5. a kind of ultrasonic wave carbon deposition prevention device as described in claim 1, it is characterised in that：The connector includes ontology and chamber Room, the chamber are sleeved on outside the connector.

6. a kind of ultrasonic wave carbon deposition prevention device as claimed in claim 5, it is characterised in that：The ontology be metal cylinder simultaneously And it is L-shaped.

7. a kind of ultrasonic wave carbon deposition prevention device as claimed in claim 5, it is characterised in that：One end left wall face of the connector It is connected with the ultrasonic oscillator, the other end right wall opposite with connector left wall face is connected with the heater.

8. a kind of ultrasonic wave carbon deposition prevention device as claimed in claim 7, it is characterised in that：The right wall and the outside wall surface Connection.

9. a kind of ultrasonic wave carbon deposition prevention device as claimed in claim 7, it is characterised in that：The right wall and the heating chamber A shell at least wall is connected.

10. a kind of ultrasonic wave carbon deposition prevention device as claimed in any one of claims 1 to 9 wherein, the heating cavity shell at least one Wall is connected with the connector.