CN209555045U - A kind of blow forming device for high boron glass tea set kettle body mold - Google Patents

Abstract

The utility model relates to a kind of blow forming devices for high boron glass tea set kettle body mold, including bed die and half module component, the inside of the half module component is equipped with oil guide groove and temperature sensor, the molding machine further includes constant temperature system, the constant temperature system includes the first heat-resisting solenoid for being sequentially arranged and being connected by oil pipe, heat-resisting oil radiator, oil circulating pump and the second heat-resisting solenoid, fan is integrated on the heat-resisting oil radiator, the temperature sensor, first heat-resisting solenoid, second heat-resisting solenoid, oil circulating pump and fan are connected with control system.As shown from the above technical solution, the utility model makes no matter half module component can be in temperature constant state under any circumstance by the way that the constant temperature system being connected with half module component and control system is arranged, meet the requirement of four seasons production, the production capacity and quality of product are effectively increased, and ensures personal safety to a certain extent.

Description

A kind of blow forming device for high boron glass tea set kettle body mold

Technical field

The utility model relates to tea glass production fields, and in particular to a kind of for high boron glass tea set kettle body mold Blow forming device.

Background technique

It is blown currently, the air blowing molding mould for high boron glass tea set kettle body mold point can be divided into graphite tea set from material Gas molding die and steel tea set air blowing molding mould, half module and double blowing half molding dies can be divided by dividing from structure, and half Mould is mainly used in graphite blowing half and rolls molding, and double half die sinkings are mainly used in steel die blowing moulding or press-and-blow process It forms (sodium calcium industry), wherein the half module of double half die sinkings has linear relative movement to run mould jointly, has and closed around common axis rotary motion Die sinking, but no matter any high boron glass tea set kettle body mold air blowing molding mould is all naked mould.Naked mould is in blow forming process In have the disadvantage in that

1) initial stage of blowing moulding needs to heat mould inside product type chamber with firelock, to reach needed for molding The technological temperature wanted, but to will cause type chamber internal mode gray surface temperature excessively high and damage for the mode heated in this way, seriously affects Product surface finish, quality is by serious influence；2) initial stage of blowing moulding needs to produce mould inside with firelock The heating of product type chamber, only judges to form required technological temperature by experience sense organ, is extremely difficult to or surpasses in actual production Temperature, causes the kettle body of initial blowing moulding that quality requirement is not achieved at all, and single mold production often needs wave in the initial stage The product for taking 10 or more causes unnecessary waste；3) service intermittent and continous way work.When intermittent work, mold Temperature is too low, and the molding of product R arc is not full, has some setbacks, and temperature is excessively high, and product surface has flow liner, and product is easily deformed, and produces Product yield rate, quality are severely impacted.When automatic continuous production, often mold temperature is all overheat, is produced High boron kettle body product often oral area, deformation of bottom, especially deformation of bottom is severe；4) it can not meet seasonal requirement, no Same Seasonal Production environment temperature is different, especially summer and winter.When winter and summer continuous production, mold temperature can mistake Height easily causes high boron kettle body deformation of products；Summer in manual production mode, often stops not when temperature is excessively high Breath a period of time, it will affect production capacity in this way；In winter in manual production mode, high boron kettle body product R arc be often difficult blow at Type so full, smooth.In automatic continuous production, mold temperature it may be said that be all throughout the year it is high, until now High boron kettle body air blowing molding mould temperature being automated do not solved effectively so far, production capacity and quality are contradictory always, If high boron kettle body blowing moulding reaches quality requirement, often reduce manufacturing machine speed, reduce machine speed (reduce production capacity) again with cost, Added value controls contradiction, and in practice, reduction machine speed reaches the resulting profit of quality requirement and is difficult to maintain the normal of an enterprise Operation, therefore automating the high boron kettle body product of blowing moulding is usually low-end market；5) in manual production mode, manpower human body Close contact mold, the person are probably scalded, potential danger of depositing cash.

Utility model content

The purpose of this utility model is to provide a kind of blow forming devices for high boron glass tea set kettle body mold, should Molding machine is able to achieve the raising of quality and production capacity, and can not only meet four seasons production requirement, can also meet it is intermittent with it is continuous The production method of formula, and personal safety is ensured to a certain extent.

To achieve the above object, the utility model uses following technical scheme: including bed die and being symmetricly set on bottom The half module component of mould two sides, the half module components of two sides form the die sinking and molding of linear relative movement, the half module component it is interior Portion is equipped with oil guide groove and temperature sensor, which further includes the constant temperature system being connected respectively with the half module component of two sides, The constant temperature system includes the first heat-resisting solenoid, the heat-resisting oil radiator, circulation for being sequentially arranged and being connected by oil pipe Oil pump and the second heat-resisting solenoid, the heat-resisting solenoid of described first, the second heat-resisting solenoid pass through the first oil respectively The inlet and outlet of pipe, the 5th oil pipe and oil guide groove is connected to form the access between constant temperature system and oil guide groove, and described is resistance to Fan is integrated on hot oil radiator, the temperature sensor, the second heat-resisting solenoid, follows at the first heat-resisting solenoid Ring oil pump and fan are connected with control system.

The half module component includes die ontology, the side guard plate for being fixed on die ontology lateral surface and is fixed on mold The upper guard board of bodies top, between the side guard plate and die ontology be filled with side heat insulation foam, the die ontology with it is upper It is bottom-up between backplate to be successively arranged gasket and pressing plate, and heat insulation foam is also filled between pressing plate and upper guard board, it is described Gasket for sealing oil guide groove.

The inside of the die ontology is additionally provided with heating rod, and the heating rod is threadedly coupled with die ontology, and heats The inside of one end insertion die ontology of stick, the other end of heating rod are emerging in the bottom outside of die ontology, the heating Stick is connected with control system.

The heating rod is set side by side two.

The temperature sensor is threadedly coupled with die ontology, and in one end insertion die ontology of temperature sensor The other end in portion, temperature sensor is emerging in the bottom outside of die ontology.

The control system includes temperature controller, and the input terminal of the temperature controller is connected with temperature sensor, the temperature control Single-phase voltage regulating AC module, the first heat-resisting solenoid, the second heat-resisting solenoid, circulation is isolated with complete respectively in the output end of instrument Oil pump and fan are connected, and the output end of the full isolation single-phase voltage regulating AC module is connected with heating rod.

Single-phase voltage regulating AC module, the first heat-resisting solenoid, second is isolated in the temperature controller and temperature sensor entirely Heat-resisting solenoid, oil circulating pump and fan electrical connection, the full isolation single-phase voltage regulating AC module and heating rod are electrical Connection, the temperature controller and full isolation single-phase voltage regulating AC module are by power supply power supply.

The heat-resisting solenoid of described first is connected by the second oil pipe with heat-resisting oil radiator, the heat resistant oils heat dissipation Device is connected by third oil pipe with oil circulating pump, and the oil circulating pump passes through the 4th oil pipe and the second heat-resisting solenoid phase Even, the heat-resisting solenoid of described first is connected by the first oil pipe with the import of oil guide groove, the second heat-resisting solenoid It is connected by the 5th oil pipe with the outlet of oil guide groove.

Be connected between first oil pipe and the import of oil guide groove by the first oily adapter, the 5th oil pipe and Be connected between the outlet of oil guide groove by the second oily adapter, the described first oily adapter and the second oily adapter respectively with mould Have ontology to be threadedly coupled.

As shown from the above technical solution, the constant temperature system and control system that the utility model is connected by setting with half module component It unites to make no matter half module component can meet the requirement of four seasons production, effectively improve in temperature constant state under any circumstance The production capacity and quality of product, and personal safety is ensured to a certain extent.

Detailed description of the invention

Fig. 1 is the schematic perspective view one of the utility model；

Fig. 2 is the schematic perspective view two of the utility model；

Fig. 3 is the schematic perspective view of the utility model half module component；

Fig. 4 is the decomposition texture schematic diagram of the utility model half module component；

Fig. 5 is the principles of the present invention block diagram.

Specific embodiment

The utility model is described further with reference to the accompanying drawing:

A kind of blow forming device for high boron glass tea set kettle body mold as shown in Figure 1 and Figure 2, including bed die 1 with And it is symmetricly set on the half module component 2 of 1 two sides of bed die, the half module component 2 of two sides is relatively independent, the formation of half module component 2 of two sides The inside of the die sinking and molding of linear relative movement, half module component 2 is equipped with oil guide groove 21 and temperature sensor 22.The molding machine It further include the constant temperature system 3 being connected respectively with the half module component 2 of two sides, constant temperature system 3 includes being sequentially arranged and by oil pipe phase The first heat-resisting solenoid 31, heat-resisting oil radiator 32, oil circulating pump 33 and the second heat-resisting solenoid 34 even, first is heat-resisting Solenoid 31, the second heat-resisting solenoid 34 respectively by the first oil pipe 35, the 5th oil pipe 39 and oil guide groove 21 import and Outlet is connected to form the access between constant temperature system 3 and oil guide groove 21.Specifically, the i.e. first heat-resisting solenoid 31 passes through Second oil pipe 36 is connected with heat-resisting oil radiator 32, and heat-resisting oil radiator 32 is connected by third oil pipe 37 with oil circulating pump 33, Oil circulating pump 33 is connected by the 4th oil pipe 38 with the second heat-resisting solenoid 34, and the first heat-resisting solenoid 31 passes through the first oil Pipe 35 is connected with the import of oil guide groove 21, and the second heat-resisting solenoid 34 passes through the outlet phase of the 5th oil pipe 39 and oil guide groove 21 Even, the at this moment import of oil guide groove 21, the first oil pipe 35, the first heat-resisting solenoid 31, the second oil pipe 36, heat-resisting oil radiator 32, third oil pipe 37, oil circulating pump 33, the 4th oil pipe 38, the second heat-resisting solenoid 34 be connected, the 5th oil pipe 39, oil guide groove A circulation path passed through for heat resistant oils is formed between 21 outlet.

Further, it is connected between the first oil pipe 35 and the import of oil guide groove 21 by the first oily adapter 211, the 5th It is connected between oil pipe 39 and the outlet of oil guide groove 21 by the second oily adapter 212, the first oily adapter 211 and the second oil switching First 212 are threadedly coupled with die ontology 23 respectively.One end of namely first oily adapter 211 and the second oily adapter 212 with Oil guide groove 21 inside die ontology 23 is connected to, and the other end of the first oily adapter 211 and the second oily adapter 212 is respectively with the One oil pipe 35, the connection of the 5th oil pipe 39.

Further, fan 30 is integrated on heat-resisting oil radiator 32, fan 30 is threadedly coupled with heat-resisting oil radiator 32, Temperature sensor 22, the first heat-resisting solenoid 31, the second heat-resisting solenoid 34, oil circulating pump 33 and fan 30 with control System is connected.

Further, as shown in Figure 3, Figure 4, half module component 2 includes die ontology 23, is fixed on 23 lateral surface of die ontology Side guard plate 24 and be fixed on the upper guard board 25 at the top of die ontology 23, side is filled between side guard plate 24 and die ontology 23 Heat insulation foam 26, it is bottom-up between die ontology 23 and upper guard board 25 to be successively arranged gasket 27 and pressing plate 28, and pressing plate 28 with Heat insulation foam 29 is also filled between upper guard board 25, gasket 27 is for sealing oil guide groove 21.

Preferably, side heat insulation foam 26 and upper heat insulation foam 29 are the heat-preservation cotton of glass fibre material；Side guard plate 24, upper guard board 25 and pressing plate 28 be made of metal material；Gasket 27 is made of red copper material.Preferably, the shape of gasket 27 and pressing plate 28 Shape matches with the orthographic projection shape of oil guide groove 21 in the horizontal plane, the shape and mould of the upper heat insulation foam 29 and upper guard board 25 The orthographic projection shape of tool ontology 21 in the horizontal plane matches, and the side matches every cotton 26 with the shape of side guard plate 24.

Further, the inside of die ontology 23 is additionally provided with heating rod 20, and heating rod 20 is threadedly coupled with die ontology 23, And the inside of one end insertion die ontology 23 of heating rod 20, the other end of heating rod 20 are emerging in outside the bottom of die ontology 23 Side, heating rod 20 are connected with control system.In the present embodiment, heating rod 20 is set side by side two.

Further, temperature sensor 22 is threadedly coupled with die ontology 23, and one end of temperature sensor 22 is embedded in mould Have inside ontology 23, the other end of temperature sensor 22 is emerging in the bottom outside of die ontology 23.Temperature sensor 22 is used for Perceive the temperature of half module component 2.

Further, as shown in figure 5, control system includes temperature controller 41, the input terminal and temperature sensor of temperature controller 41 22 are connected, and single-phase voltage regulating AC module 42, the first heat-resisting solenoid 31, second is isolated with complete respectively in the output end of temperature controller 41 Heat-resisting solenoid 34, oil circulating pump 33 and fan 30 are connected, the full output end that single-phase voltage regulating AC module 42 is isolated and heating Stick 20 is connected.

Further, single-phase voltage regulating AC module 42, the first heat resistant oils electricity are isolated with temperature sensor 22, entirely for temperature controller 41 Magnet valve 31, the second heat-resisting solenoid 34, oil circulating pump 33 and fan 30 are electrically connected, complete that single-phase voltage regulating AC module 42 is isolated It is electrically connected with heating rod 20, temperature controller 41 and full isolation single-phase voltage regulating AC module 42 are by power supply power supply.

The working principle of the utility model is as follows:

The temperature of half module component is detected by temperature sensor.When half module component needs to heat, temperature controller exports analog quantity To full isolation single-phase voltage regulating AC module, it is complete be isolated single-phase voltage regulating AC module can turn-on power to two heating rods in parallel into Row heating；When being heated to technological temperature requirement, full single-phase voltage regulating AC module of being isolated can reduce electric current to maintain constant temperature；When half When membrane module 3 constantly absorbs the heat of high boron glass in blow forming process, temperature can be increased, when temperature sensor detects When temperature overtemperature, temperature controller is delivered a signal to, temperature controller controls the first heat-resisting solenoid, the second heat-resisting solenoid is opened, Control fan and oil circulating pump work simultaneously, at this moment the conduction oil of half module component internal can from the oily adapter of oil guide groove → second → The 5th heat-resisting solenoid of oil pipe → the second → four oil pipes → oil circulating pump → third oil pipe → heat-resisting oil radiator → the second Closed circuit follow is carried out in the oil circuit that the oily adapter → oil guide groove of the heat-resisting solenoid of oil pipe → the first → the first oil pipe → first is formed Ring, when heat resistant oils pass through heat-resisting oil radiator, heat can be forced to blow away by fan, when temperature is reduced to technological temperature requirement When, temperature sensor delivers a signal to temperature controller, and temperature controller closes the first heat-resisting solenoid, the second heat-resisting solenoid, together When stop fan and water circulating pump work.Above step is repeated, can remain that half module component is in the work of a constant temperature State.

The utility model has the beneficial effects that: 1) the utility model can be protected always no matter under any service condition Technological temperature needed for holding blowing moulding；2) surface temperature of the utility model mold is equal with environment temperature, effectively prevents The danger that human body is scalded；3) production capacity and quality can be improved in the utility model, and can meet the needs of four seasons production；4) this reality With the novel fraction defective for reducing product.

Embodiment described above is only that preferred embodiments of the present invention are described, not practical to this Novel range is defined, and under the premise of not departing from the spirit of the design of the utility model, those of ordinary skill in the art are to this The various changes and improvements that the technical solution of utility model is made should all fall into the protection that the utility model claims book determines In range.

Claims (9)

1. a kind of blow forming device for high boron glass tea set kettle body mold, it is characterised in that: including bed die (1) and right Claim setting in the half module component (2) of bed die (1) two sides, the half module component (2) of two sides forms the die sinking and conjunction of linear relative movement Mould, the inside of the half module component (2) are equipped with oil guide groove (21) and temperature sensor (22), the molding machine further include respectively with The connected constant temperature system (3) of the half module component (2) of two sides, the constant temperature system (3) include being sequentially arranged and by oil pipe phase The first heat-resisting solenoid (31), heat-resisting oil radiator (32), oil circulating pump (33) and the second heat-resisting solenoid (34) even, The heat-resisting solenoid of described first (31), the second heat-resisting solenoid (34) pass through the first oil pipe (35), the 5th oil pipe respectively (39) and the inlet and outlet of oil guide groove (21) is connected to form the access between constant temperature system (3) and oil guide groove (21), described Heat-resisting oil radiator (32) on be integrated with fan (30), the temperature sensor (22), the first heat-resisting solenoid (31), Second heat-resisting solenoid (34), oil circulating pump (33) and fan (30) are connected with control system.

2. the blow forming device according to claim 1 for high boron glass tea set kettle body mold, it is characterised in that: institute The half module component (2) stated includes die ontology (23), the side guard plate (24) for being fixed on die ontology (23) lateral surface and fixes Upper guard board (25) at the top of die ontology (23), it is heat-insulated filled with side between the side guard plate (24) and die ontology (23) Cotton (26), it is bottom-up between the die ontology (23) and upper guard board (25) to be successively arranged gasket (27) and pressing plate (28), it and between pressing plate (28) and upper guard board (25) is also filled with heat insulation foam (29), the gasket (27) is for sealing Oil guide groove (21).

3. the blow forming device according to claim 2 for high boron glass tea set kettle body mold, it is characterised in that: institute The inside for stating die ontology (23) is additionally provided with heating rod (20), and the heating rod (20) is threadedly coupled with die ontology (23), And the inside of one end insertion die ontology (23) of heating rod (20), the other end of heating rod (20) are emerging in die ontology (23) Bottom outside, the heating rod (20) is connected with control system.

4. the blow forming device according to claim 3 for high boron glass tea set kettle body mold, it is characterised in that: institute The heating rod (20) stated is set side by side two.

5. the blow forming device according to claim 1 for high boron glass tea set kettle body mold, it is characterised in that: institute The temperature sensor (22) stated is threadedly coupled with die ontology (23), and one end of temperature sensor (22) is embedded in die ontology (23) internal, the other end of temperature sensor (22) is emerging in the bottom outside of die ontology (23).

6. the blow forming device according to claim 1 or 3 for high boron glass tea set kettle body mold, feature exist In: the control system includes temperature controller (41), and the input terminal of the temperature controller (41) is connected with temperature sensor (22), institute State the output end of temperature controller (41) respectively with single-phase voltage regulating AC module (42), the first heat-resisting solenoid (31), the are isolated entirely Two heat-resisting solenoids (34), oil circulating pump (33) and fan (30) are connected, the full isolation single-phase voltage regulating AC module (42) output end is connected with heating rod (20).

7. the blow forming device according to claim 6 for high boron glass tea set kettle body mold, it is characterised in that: institute Single-phase voltage regulating AC module (42), the first heat-resisting solenoid is isolated in the temperature controller (41) stated and temperature sensor (22) entirely (31), the second heat-resisting solenoid (34), oil circulating pump (33) and fan (30) electrical connection, the full isolation single-phase voltage regulating AC module (42) and heating rod (20) are electrically connected, the temperature controller (41) and full isolation single-phase voltage regulating AC module (42) By power supply power supply.

8. the blow forming device according to claim 1 for high boron glass tea set kettle body mold, it is characterised in that: institute The heat-resisting solenoid of first stated (31) is connected by the second oil pipe (36) with heat-resisting oil radiator (32), and the heat resistant oils dissipate Hot device (32) is connected by third oil pipe (37) with oil circulating pump (33), and the oil circulating pump (33) passes through the 4th oil pipe (38) It is connected with the second heat-resisting solenoid (34), the heat-resisting solenoid of described first (31) passes through the first oil pipe (35) and oil guide groove (21) import is connected, and the second heat-resisting solenoid (34) passes through the outlet phase of the 5th oil pipe (39) and oil guide groove (21) Even.

9. the blow forming device according to claim 1 for high boron glass tea set kettle body mold, it is characterised in that: institute It is connected between the first oil pipe (35) stated and the import of oil guide groove (21) by the first oily adapter (211), the 5th oil It is connected between pipe (39) and the outlet of oil guide groove (21) by the second oily adapter (212), the described first oily adapter (211) And second oily adapter (212) be threadedly coupled respectively with die ontology (23).