CN209426259U - Energy-saving type trigger squeeze - Google Patents
Energy-saving type trigger squeeze Download PDFInfo
- Publication number
- CN209426259U CN209426259U CN201821574040.7U CN201821574040U CN209426259U CN 209426259 U CN209426259 U CN 209426259U CN 201821574040 U CN201821574040 U CN 201821574040U CN 209426259 U CN209426259 U CN 209426259U
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- China
- Prior art keywords
- pipe
- fluid
- pressing plate
- energy
- heater
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Abstract
A kind of energy-saving type trigger squeeze, suitable for being heated and being cooled down by fluid, include lamination unit, heating unit, cooling unit, pump, and valve unit, the heating unit includes heater, be connected to the heater and the lamination unit first introduces pipe, and it is connected to the first return pipe of the heater and the lamination unit, the cooling unit includes cooler, it is connected to the cooler and the first introducing pipe and is introduced with first return pipe mutually completely cuts off second and managed, and it is connected to the second return pipe of the cooler and first return pipe, in a cooling cycle state, the fluid flows through described second and introduces pipe, described first introduces pipe, the lamination unit, second return pipe, and the cooler.By making the fluid after cooling down without the heater, reach the effect of saving the time and reducing energy consumption.
Description
Technical field
The utility model relates to a kind of hot-press forming devices, more particularly to a kind of section suitable for hot-forming pcb board
It can formula trigger squeeze.
Background technique
Refering to fig. 1, a kind of existing trigger squeeze, including a heating unit 12, one of lamination unit 11, one are cooling single
First 13, three-way valves 14 and a pump 15.The heating unit 12 has the heater 121, one for being used to heat fluid
The first of a connection heater 121 and the lamination unit 11 introduce pipe 122 and the connection heater 121 and
First return pipe 123 of the lamination unit 11, the cooling unit 13 have one be used to cooling fluid cooler 131,
The the second introducing pipe 132 and a connection cooler of one connection, first return pipe 123 and the cooler 131
131 and the lamination unit 11 the second return pipe 133, the three-way valve 14 be set to it is described second introduce pipe 132 with it is described
First return pipe, 123 junction, the pump 15 are set to first return pipe 123 and are located at the heater 121 and described
Between three-way valve 14.
When heating, after fluid is heated to a hot pressing temperature by the heater 121, sequentially flows through described first and introduce
Pipe 122, the lamination unit 11, first return pipe 123 and the three-way valve 14, then via first return pipe 123
When returning to the heater 121, and cooling down, after fluid is cooled to a temperature of colding pressing by the cooler 131, sequentially flow through
Described second introduces pipe 132, the three-way valve 14, first return pipe 123, the heater 121, the first introducing pipe
122 and the lamination unit 11, then the cooler 131 is returned to via second return pipe 133.
However, while cooling due to fluid, first return pipe 123, the heater 121 and described can be flowed through
One introduces pipe 122, still has high temperature inside pipeline residual temperature and the heater 121, need to expend additional energy fluid is cooling
The extremely temperature of colding pressing, and when heated, and need to expend additional energy and be warming up to the heater 121 for being reduced to low temperature
The hot pressing temperature causes the problem of expending the time and wasting energy.
Summary of the invention
The purpose of this utility model is to provide a kind of energy-saving type trigger squeezes that can be saved the time and reduce energy consumption.
The utility model energy-saving type trigger squeeze, suitable for carrying out heating and cold by heating fluid and the cooling fluid
But, it is characterised in that: the energy-saving type trigger squeeze includes lamination unit, heating unit, cooling unit, pump and valve unit.
The lamination unit includes that two energy utilize described in the main pressing plate by internal fluid adjustment temperature, connection
Main pressing plate is simultaneously used to distribute the inflow communicating pipe that the fluid flows into the main pressing plate, and is connected to the main pressing plate and is used to collect
Flow out the outflow communicating pipe of the fluid of the main pressing plate.
The heating unit includes for heating the heater of the fluid, being connected to the heater and the lamination unit
The inflow communicating pipe first introduce pipe, and be connected to the outflow communicating pipe of the heater and the lamination unit
First return pipe.
The cooling unit includes for cooling down the cooler of the fluid, the connection cooler and first introducing
Pipe and introducing with first return pipe mutually completely cuts off second is managed, and is connected to the of the cooler and first return pipe
Two return pipes, second return pipe and first return pipe junction form the first contact, and described second introduces pipe and institute
It states the first introducing pipe junction and forms the second contact.
The pump connection described first, which introduces, to be managed and is set between second contact and the inflow communicating pipe, the section
Energy formula pressing plate function converts between a heating cycle state and a cooling cycle state, in the heating cycle state,
The fluid is heated to hot pressing temperature by the heater, and driven by the pump and sequentially flow through described first introduce pipe,
The inflow communicating pipe, the main pressing plate, the outflow communicating pipe and first return pipe, return the heater and follow
Ring heating, in the cooling cycle state, the fluid is cooled to temperature of colding pressing by the cooler, and by the pump band
It moves and sequentially flows through described second and introduce pipe, the first introducing pipe, the inflow communicating pipe, the main pressing plate and the stream
Communicating pipe out, then the cooler circulation temperature lowering is returned to via second return pipe.
The valve unit includes the three-way valve for being set to first contact.
The energy-saving type trigger squeeze of the utility model, the valve unit further include being set to described first to introduce pipe and be located at
The first control valve between the heater and second contact, and be set to described second and introduce pipe and be located at the cooler
And the second control valve between second contact.
The energy-saving type trigger squeeze of the utility model, also includes voltage regulation unit, and the voltage regulation unit includes expansion bucket, and connection
The voltage-stabiliser tube of the expansion bucket and the first introducing pipe.
The energy-saving type trigger squeeze of the utility model, the main pressing plate are each along pressurization axially spaced-apart setting and parallel to each other
A main pressing plate have can be driven and along it is described pressurization axial movement mainboard ontology, and set on the mainboard ontology and be used to feel
Survey the main temperature sensibility of the mainboard body temperature, each mainboard ontology have connect it is described flow into communicating pipe main flow inlet,
The main flow outlet of the outflow communicating pipe is connected, and is connected to the main flow inlet and the main flow outlet and can pass through for fluid
Main channel.
The energy-saving type trigger squeeze of the utility model, the lamination unit further include that at least one is connected to the mainboard ontology
Between and it is folding and formed it is multiple pressing spaces copper foils.
The energy-saving type trigger squeeze of the utility model, the lamination unit further include being arranged in parallel and being located at the main pressing plate
Secondary pressing plate between the main pressing plate, it is described pair pressing plate have can be driven and along it is described pressurization axial movement subplate ontology, and
Set on the subplate ontology and for sensing the secondary temperature sensibility of the subplate body temperature, the subplate ontology has described in connection
Flow into secondary inflow entrance, the secondary outflux of the connection outflow communicating pipe of communicating pipe, and the connection secondary inflow entrance and the pair
Outflux simultaneously can be for the subaisle that fluid passes through, and the quantity of the copper foil is two, and is located at the subplate ontology and institute
It states between mainboard ontology.
The energy-saving type trigger squeeze of the utility model, the quantity of the copper foil are two and are spaced apart from each other, the pressing space
It is formed between the copper foil.
The utility model has the beneficial effects that: due to it is described second introduce pipe connection it is described first introduce pipe and with it is described
First return pipe mutually completely cuts off, so that fluid after cooling is without the heater, therefore in the cooling cycle state
In the cooling cycle state, it is not required to spend additional time and energy cools down the heater body, described
When heating cycle state, also it is not required to that extra time is spent to begin to warm up the fluid in the heater from the temperature of colding pressing,
Reach the effect of saving the time and reducing energy consumption.
Detailed description of the invention
Other features and effect of the utility model will be clearly presented in the embodiment referring to schema, in which:
Fig. 1 is a schematic diagram of an existing trigger squeeze;
Fig. 2 is a schematic diagram of a first embodiment of the utility model energy-saving type trigger squeeze, illustrates described first
Embodiment is in a heating cycle state;
Fig. 3 is a schematic diagram of the first embodiment, illustrates the first embodiment in a cooling cycle state;
Fig. 4 is incomplete schematic cross-sectional view acquired by a line IV-IV along Fig. 2;And
Fig. 5 is an incomplete schematic diagram of a second embodiment of the utility model energy-saving type trigger squeeze.
Specific embodiment
Before the utility model is described in detail, it shall be noted that in the following description content, similar element is with phase
With number indicate.
Refering to Fig. 2, Fig. 3, Fig. 4, a first embodiment of the utility model energy-saving type trigger squeeze, suitable for passing through heating
One fluid and the cooling fluid are heated and are cooled down, and the energy-saving type trigger squeeze includes one lamination unit 2, one and adds
The cooling unit 4, one of hot cell 3, one pumps 5, valve units 6 and a voltage regulation unit 7.
The lamination unit 2 includes two pressurize along one setting of the axial direction interval Z and parallel to each other main pressing plate 21, one
It is arranged in parallel with the main pressing plate 21 and secondary pressing plate 22, two between the main pressing plate 21 is connected to the secondary pressing plate
Copper foil 23, one between 22 and the main pressing plate 21 are connected to the main pressing plate 21 and are used to distribute the fluid inflow the main pressure
The inflow communicating pipe 24 of plate 21 and a connection main pressing plate 21 simultaneously are used to collect the fluid for flowing out the main pressing plate 21
Outflow communicating pipe 25, the main pressing plate 21 and the secondary pressing plate 22 can be using passing through described fluid adjustment temperature inside its.
Each main pressing plate 21 has a mainboard ontology 211 and one that can be driven and move along the pressurization axial direction Z
A main temperature sensibility 212 for being set to the mainboard ontology 211 and being used to sense 211 temperature of mainboard ontology, each mainboard sheet
Body 211 has the mainstream of connection main flow inlet 213, one connections outflow communicating pipe 25 for flowing into communicating pipe 24
Outlet 214 and a connection main flow inlet 213 and the main flow outlet 214 simultaneously can be for main channels 215 that fluid passes through.
There is the pair pressing plate 22 one can be driven and be set to along the pressurization axial direction Z subplate ontology 221 moved and one described
Subplate ontology 221 and the secondary temperature sensibility 222 for being used to sense 221 temperature of subplate ontology, the subplate ontology 221 have one
It is connected to the secondary outflux 224 and one of secondary inflow entrance 223, the one connections outflow communicating pipe 25 for flowing into communicating pipe 24
A connection secondary inflow entrance 223 and the secondary outflux 224 simultaneously can be for subaisles 225 that fluid passes through.
Each copper foil 23 is folding and forms multiple pressing spaces 231, and the pressing space 231 is used to accommodate wait press
The pcb board of conjunction.It is noted that can also omit in other state sample implementations and be not provided with the secondary pressing plate 22, and the copper foil
23 quantity are one.
The heating unit 3 includes heater 31, the one connection heaters 31 for being used to heat the fluid
And the first of the inflow communicating pipe 24 of the lamination unit 2 introduces pipe 32 and a connection heater 31 and described
The first return pipe 33 of the outflow communicating pipe 25 of lamination unit 2.In this present embodiment, the heater 31 is boiler, but
It is not limited.It is noted that fluid described in the present embodiment is kerosene, water is also possible in other state sample implementations, but
It is not limited.
The cooling unit 4 includes 41, one, the cooler connection coolers 41 for being used to cool down the fluid
And it is described first introducing pipe 32 and with first return pipe 33 mutually completely cut off second introduce pipe 42 and a connection it is described cold
But the second return pipe 43 of device 41 and first return pipe 33, second return pipe 43 are connect with first return pipe 33
Place forms a first contact P1, and described second, which introduces pipe 42, forms second contact with first introducing, 32 junction of pipe
P2.In this present embodiment, the cooler 41 is heat exchanger, and but not limited to this.
5 connection described first of pump introduces pipe 32 and is set to the second contact P2 and the inflow communicating pipe 24
Between.
The valve unit 6 includes that three-way valve 61, one for being set to the first contact P1 are set to described the
Described in one introducing pipe 32 and the first control valve 62 positioned at the heater 31 and the second contact P2 between and one are set to
Second introduces pipe 42 and the second control valve 63 between the cooler 41 and the second contact P2.
The voltage regulation unit 7 includes that an expansion bucket 71 and the connection expansion bucket 71 and described first introduce pipe
32 voltage-stabiliser tube 72.
The energy-saving type pressing plate function converts between a heating cycle state and a cooling cycle state, such as Fig. 2,
When the heating cycle state, the fluid is heated to by a hot pressing temperature by the heater 31, and utilize the pump 5
Drive and control the three-way valve 61 and make the fluids in series flow through it is described first introduce pipe 32, the inflow communicating pipe 24,
The main channel 215 and the subaisle 225, the outflow communicating pipe 25 and first return pipe 33, return described add
Hot 31 circulating-heating of device, the fluid are not passed through second reflux by flowing to the heater 31 when the three-way valve 61
Pipe 43, first control valve 62 is opened to allow the fluid to flow to the inflow communicating pipe from the heater 31 at this time
24, second control valve 63 is closed to prevent described in fluid flow direction of the cooler 41 to second control valve 63
Second contact P2, such as Fig. 3, in the cooling cycle state, by the cooler 41 by the fluid be cooled to one it is cold
Temperature is pressed, and is driven using the pump 5 and is controlled 61 changing flow direction of three-way valve and the fluids in series is made to flow through described the
Two introduce pipe 42, the first introducing pipe 32, the inflow communicating pipe 24, the main channel 215 and the subaisle 225, and
The outflow communicating pipe 25, then 41 circulation temperature lowering of cooler is returned to via second return pipe 43, the fluid passes through
The cooler 41 is flowed to when the three-way valve 61 and is not passed through first return pipe 33, and second control valve 63 is opened at this time
It opens to allow the fluid to flow to the inflow communicating pipe 24 from the cooler 41, first control valve 62 is closed to prevent
The fluid of the heater 31 to first control valve 62 flows to the second contact P2.
In use, making the energy-saving type trigger squeeze at the heating cycle state, improved using the heater 31 described
The temperature of fluid and then the temperature of the mainboard ontology 211 and the subplate ontology 221 is improved, then after being pressed, then makes institute
Energy-saving type trigger squeeze is stated into the cooling cycle state, the temperature of the fluid is reduced using the cooler 41 and then reduces institute
The temperature for stating mainboard ontology 211 and the subplate ontology 221, the process for pressing pcb board is existing technology, so herein no longer
It repeats.
Refering to Fig. 5, a second embodiment of the utility model is analogous to the first embodiment, and difference is in
In: the lamination unit 2 includes two main pressing plates 21 and two copper foils 23, each copper foil 23 is connected to described
Between mainboard ontology 211, the copper foil 23 is spaced each other, and the pressing space 231 is formed between the copper foil 23, the pressure
Pcb board to be laminated can be put by closing space 231, can also be put into insulation board on demand.
Then, the second embodiment reaches more preferably heat-conducting effect by the way that two copper foils 23 are arranged.
It is summarized as follows via above-mentioned explanation, then by the advantages of the utility model:
1. the fluid is in the heating cycle state and the cooling cycle state compared in existing trigger squeeze
It all can be by the heater 31, so that the temperature in the heater 31 has been reduced to institute in the heating cycle state
State temperature of colding pressing, need to take additional time and energy the temperature inside the fluid and the heater 31 could be improved to
The hot pressing temperature, and in the cooling cycle state, and needs take additional time and energy could be by the heating
The temperature of 31 inside of device and the fluid is down to the temperature of colding pressing, and the utility model is by connecting the second introducing pipe 42
Pipe 32, and the three-way valve 61 of arranging in pairs or groups are introduced in described first, so that the fluid is not passed through in the cooling cycle state
The heater 31, and then the temperature inside the heater 31 is enable to maintain high temperature, reaches to save the time and reduce energy and disappears
The effect of consumption.
2. by first control valve 62 and second control valve 63, so that described in the cooling cycle state
Heater 31 does not flow into the first introducing pipe 32 to the fluid between first control valve 62 and temperature in pipe is caused to rise, and
In the heating cycle state, the fluid between the cooler 41 and second control valve 63 does not flow into described first and introduces
Pipe 32 and cause in pipe temperature to decline, further reach the effect of saving the energy.
3. by the expansion bucket 71 of the voltage regulation unit 7, so that the expansion bucket 71 is adjustable when temperature inversion
Pressure in pipe, and element is avoided to damage because of overpressure variation, reach and uses upper safer effect.
4. the utility model structure is simplified, the effect of saving the time and reducing energy consumption can be reached.
In conclusion the utility model energy-saving type trigger squeeze, introduces since the second introducing pipe 42 is connected to described first
Pipe 32 and with the mutually isolation of first return pipe 33 so that when cooling cycle state, fluid after cooling without described plus
Hot device 31, therefore in the cooling cycle state, be not required to spend additional time and energy to inside the heater 31 into
Row cooling when the heating cycle state, is also not required to spend extra time by the fluid in the heater 31 from the cold pressing
Temperature is begun to warm up, and reaches the effect of saving the time and reducing energy consumption, so can reach the purpose of this utility model really.
Claims (7)
1. a kind of energy-saving type trigger squeeze, suitable for being heated and being cooled down by heating fluid and the cooling fluid, feature
Be: the energy-saving type trigger squeeze includes lamination unit, heating unit, cooling unit, pump and valve unit, and the pressing is single
Member includes that two energy utilize the fluid for passing through inside to adjust the main pressing plate of temperature, the connection main pressing plate and are used to distribute institute
The inflow communicating pipe that fluid flows into the main pressing plate is stated, and is connected to the main pressing plate and is used to collect the institute for flowing out the main pressing plate
State the outflow communicating pipe of fluid, the heating unit include for heat the heater of the fluid, the connection heater and
The first of the inflow communicating pipe of the lamination unit introduces pipe, and is connected to the described of the heater and the lamination unit
The first return pipe of communicating pipe is flowed out, the cooling unit includes for cooling down the cooler of the fluid, the connection cooling
Device and the first introducing pipe and the second introducing pipe mutually completely cut off with first return pipe, and the connection cooler and institute
The second return pipe of the first return pipe is stated, second return pipe and first return pipe junction form the first contact, institute
It states the second introducing pipe and described first and introduces the second contact of pipe junction formation, the pump connection described first, which introduces, to be managed and be arranged
Between second contact and the inflow communicating pipe, the energy-saving type pressing plate function is cold in a heating cycle state and one
But it is converted between recurrent state, in the heating cycle state, the fluid is heated to hot pressing temperature by the heater, and
It is driven by the pump and sequentially flows through described first and introduce pipe, the inflow communicating pipe, the main pressing plate, outflow connection
Pipe and first return pipe, return the heater, and in the cooling cycle state, the fluid passes through described cold
But device is cooled to temperature of colding pressing, and is driven by the pump and sequentially flow through described second and introduce pipe, described first introduce pipe, described
Communicating pipe, the main pressing plate and the outflow communicating pipe are flowed into, then returns to the cooler, institute via second return pipe
Stating valve unit includes the three-way valve for being set to first contact.
2. energy-saving type trigger squeeze according to claim 1, it is characterised in that: the valve unit further include be set to it is described
First introduces pipe and the first control valve between the heater and second contact, and is set to described second and introduces pipe
And the second control valve between the cooler and second contact.
3. energy-saving type trigger squeeze according to claim 1, it is characterised in that: also include voltage regulation unit, the voltage regulation unit
Including expanding bucket, and the voltage-stabiliser tube of the connection expansion bucket and the first introducing pipe.
4. energy-saving type trigger squeeze according to claim 1, it is characterised in that: the main pressing plate is along pressurization axially spaced-apart setting
And it is parallel to each other, each main pressing plate has and can be driven along the mainboard ontology of the pressurization axial movement, and is set to described
Mainboard ontology and the main temperature sensibility for being used to sense the mainboard body temperature, each mainboard ontology, which has, connects the inflow company
The main flow inlet of siphunculus, the main flow outlet of the connection outflow communicating pipe, and it is connected to the main flow inlet and the main flow outlet
And it can be for main channel that fluid passes through.
5. energy-saving type trigger squeeze according to claim 4, it is characterised in that: the lamination unit further includes at least one company
It is connected between the mainboard ontology and copper foils that are folding and forming multiple pressing spaces.
6. energy-saving type trigger squeeze according to claim 5, it is characterised in that: the lamination unit further includes and the main pressure
Plate is arranged in parallel and the secondary pressing plate between the main pressing plate, and the pair pressing plate is axially moved with that can be driven along the pressurization
Dynamic subplate ontology, and set on the subplate ontology and for sensing the secondary temperature sensibility of the subplate body temperature, the subplate
Ontology has the secondary outflux for being connected to the secondary inflow entrance for flowing into communicating pipe, the connection outflow communicating pipe, and described in connection
Secondary inflow entrance and the secondary outflux simultaneously can be for the subaisles that fluid passes through, and the quantity of the copper foil is two, and is located at
Between the subplate ontology and the mainboard ontology.
7. energy-saving type trigger squeeze according to claim 5, it is characterised in that: the quantity of the copper foil is for two and mutual
Every the pressing space is formed between the copper foil.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821574040.7U CN209426259U (en) | 2018-09-26 | 2018-09-26 | Energy-saving type trigger squeeze |
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Application Number | Priority Date | Filing Date | Title |
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CN201821574040.7U CN209426259U (en) | 2018-09-26 | 2018-09-26 | Energy-saving type trigger squeeze |
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CN209426259U true CN209426259U (en) | 2019-09-24 |
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ID=68007353
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CN201821574040.7U Expired - Fee Related CN209426259U (en) | 2018-09-26 | 2018-09-26 | Energy-saving type trigger squeeze |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109130299A (en) * | 2018-09-26 | 2019-01-04 | 活跃科技股份有限公司 | Energy-saving type trigger squeeze |
-
2018
- 2018-09-26 CN CN201821574040.7U patent/CN209426259U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109130299A (en) * | 2018-09-26 | 2019-01-04 | 活跃科技股份有限公司 | Energy-saving type trigger squeeze |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190924 Termination date: 20200926 |