Specific embodiment
To make the objectives, technical solutions and advantages of the present invention clearer, With reference to embodiment
And referring to attached drawing, the utility model is further described.It should be understood that these descriptions are merely illustrative, and do not really want
Limit the scope of the utility model.In addition, in the following description, descriptions of well-known structures and technologies are omitted, to avoid not
Necessarily obscure the concept of the utility model.
The utility model embodiment provides a kind of laminating machine, and Fig. 1 is the lamination according to one embodiment of the utility model
Machine inside cavity structural schematic diagram, Fig. 2 are the A-A sectional views of Fig. 1.As depicted in figs. 1 and 2, which includes: rack 1;The
One blower 2, is configured at the top in rack 1;Heating element 3 is configured in rack 1 and is located at the lower section of the first blower 2;It accommodates
Mechanism 4 is configured in rack 1 and is located at the lower section of heating element 3, and holding mechanism 4 includes accommodating chamber 42, and accommodating chamber 42 is for holding
Carry heated object;When the work of the first blower 2, the leeway of manufacture spreads to the heat of heating element 3 in rack 1.
By the setting of above-mentioned component, the intracorporal top of chamber of laminating machine is arranged in the first blower 2, in heating element 3
Top, the first blower 2 are close from heating element 3, and heat loss will be reduced, the first blower 2 by hot gas from top to down rapidly, equably
The bottom for blowing to laminating machine cavity promotes the gas for being heated the heating of element 3 to flow in the entire cavity of laminating machine, makes hot gas
Body uniformly dispersing.
Optionally, the laminating machine in an embodiment of the present invention further includes the second blower 41, and holding mechanism 4 is arranged in
Side, for the air-flow in accommodating chamber 42 to be formed turbulent flow to improve homogeneous heating degree.Second blower 41 blows the first blower 2
Hot gas sucking holding mechanism 4 accommodating chamber 42, the air-flow in accommodating chamber 42 is formed into turbulent flow to improve homogeneous heating degree, it is real
Now the heated object in accommodating chamber 42 is evenly heated.
Optionally, the opposite sides face of holding mechanism 4 is arranged in the second blower 41, as shown in Figure 1, by the cavity of laminating machine
The accommodating chamber 42 of the hot gas sucking holding mechanism 4 of interior two sides forms two strands of reverse thermal currents, two bursts of reverse thermal currents head-on collision shapes
At turbulent flow, thermal current uniformly dispersing in accommodating chamber 42, so that the heating uniformity of each accommodating chamber 42 greatly improves.
Optionally, the first supporting element 11 for configuring the first blower 2 is provided in rack 1, for configuring heating element 3
The second supporting element 12, for configure 4 third supporting element 13 of holding mechanism and for configure be located at 1 bottom of rack holding mechanism
4 the 4th supporting element 14, the first supporting element 11, the second supporting element 12, third supporting element 13 and the 4th supporting element 14 and 1 phase of rack
It is mating;Wherein, the first supporting element 11, the second supporting element 12 and third supporting element 13 are provided with multiple through-holes.
Optionally, the first supporting element 11, the second supporting element 12, third supporting element 13 and the 4th supporting element 14 are to be arranged in parallel
Plate object.
Optionally, the first supporting element 11 and lamination frame top inner wall are spaced a distance, the distance about 300-800mm, the
One supporting element 11 forms air duct with lamination frame top inner wall for gas circulating flow in laminating machine cavity.
Optionally, the distance about 300-600mm of the first supporting element 11 and the second supporting element 12, this distance namely first wind
The distance of machine 2 and heating element 3, it can thus be seen that the first blower 2 and heating element 3, apart from remote, heat loss is small, and heats
Uniformly.
In an embodiment of the utility model, the first blower 2 is fixed on the first supporting element 11, and Fig. 4 is the B2- of Fig. 1
B2 sectional view, that is, the first blower 2 is in the distribution map of the first supporting element 11.Lead to as shown in figure 4, the first supporting element 11 has
Hole, optionally, as shown in figure 4, being long stripes through hole 111, which has 2;The long stripes through hole 111 setting is the
Optionally the opposite sides of the first supporting element 11 is arranged in the side of one supporting element 11, before the chamber as being in laminating machine is intracorporal
Two sides afterwards, as shown in figure 4, the long stripes through hole 111, for circulating the intracorporal thermal current of laminating machine chamber, heat exchange is tied
Air-flow after beam comes back to the first blower 2 by this long stripes through hole 111, and the first blower 2 promotes the air-flow to heating unit again
Part 3, is heated.
Optionally, Fig. 3 is the B1-B1 sectional view of Fig. 1, that is, the structural schematic diagram of the second supporting element 12.Such as Fig. 3 institute
Show, the second supporting element 12 has multiple through-holes, and there are two types of types for multiple through-hole, another one is long stripes through hole 121,122
Kind is short strip through-hole 123;Optionally, long stripes through hole 121,122 has 4, and optionally, long stripes through hole 121,122 is two
Kind specification, two opposite long stripes through holes 121,122 specifications are consistent, and distribution is set to the attached of the four edges of the second supporting element 12
Closely, as being located at the long stripes through hole 122 of the intracorporal left and right sides of laminating machine chamber and the long stripes through hole 121 of front and rear sides, wherein
The long through-hole 121 for the front and rear sides of second supporting element 12 being located in lamination rack cavity and being located at for the first support frame 11 are laminated
111 position of long through-hole of the intracorporal front and rear sides of rack chamber is opposite, for guiding the gas after heat exchange to the first blower 2,
So that gas circulates in laminating machine cavity.As shown in figure 3, the short strip through-hole 123 of the second supporting element 12 setting has
It is multiple, optionally, 6-60, it is distributed in matrix.
Optionally, Fig. 6 is the C2-C2 sectional view of Fig. 1;The namely structural schematic diagram of third supporting element 13.Optionally,
Three supporting elements 13 be it is multiple, preferably third supporting element 13 be 2, third supporting element have multiple long through-holes 131,132, be chosen as
4, near the four edges of third supporting element 13, it is located at the long through-hole 132 of the left and right sides in lamination rack cavity
It is identical as the arragement direction of long stripes through hole 122 of the second supporting element 12 setting, and the strip with the setting of the second supporting element 12
122 position of shape through-hole is opposite, be conducive to laminating machine chamber it is intracorporal heating air-flow from top to down pass through this long stripes through hole
132, into the accommodating chamber 42 of holding mechanism 4;And the length for the front and rear sides of third supporting element 13 being located in lamination rack cavity
The long through-hole position 111 for the front and rear sides of through-hole 131 and the first support frame 11 being located in lamination rack cavity is opposite, and being used for will
Gas after heat exchange guides to the first blower 2, so that gas circulates in laminating machine cavity.
Fig. 5 is the C1-C1 sectional view of Fig. 1, from fig. 5, it can be seen that the top of holding mechanism 4 is provided with multiple through-holes, it can
As gas outlet for the gas outflow in accommodating chamber 42,2 long through-holes 421 are chosen as, the top of holding mechanism 4 is set
Opposite sides, the front and rear sides in lamination rack cavity, with third supporting element 13 before being laminated in rack cavity
Long through-hole 111 of the front and rear sides of the long through-hole 131 of two sides and the first supporting element 11 being located in lamination rack cavity afterwards
It sets relatively, to allow the air-flow after exchanging heat smoothly to export accommodating chamber 42, then passes through the length being arranged on the first supporting element 11
Strip through-hole 111 moves up air-flow in laminating machine cavity inner recirculation flow into the first blower 2.Fig. 8 is practical new according to this
Schematic diagram is flowed to after gas converting heat in the laminating machine cavity of one embodiment of type.As shown in figure 8, heat exchange after gas from accommodate machine
The long through-hole 421 at 4 top of structure comes out, into the strip for the front and rear sides of third supporting element 13 being located in lamination rack cavity
Through-hole 131 up flows at the first blower 2, and gas circulates in completion laminating machine cavity.
By the setting of above-mentioned component, the intracorporal air-flow of laminating machine chamber is circulated by each through-hole, so that plus
Heat and heat transfer effectively carry out, while also having reached thermal current and being evenly heated to heated object.
In an embodiment of the utility model, the first blower 2 is arranged on the first supporting element 11, and optionally, setting exists
The downside of first supporting element 11.
Optionally, the first blower 2 is multiple, preferably 10-30.
Optionally, the first blower 2 is high-power blower, if power is 0.6-0.9KW, 1300-1600 cubic metres of air quantity/small
When, revolving speed 1300-1600r/min, the first blower promotes the flowing of gas in laminating machine cavity, is uniformly scattered onto hot gas
Entire space greatly improves homogeneous heating degree.
In embodiment, heating element 3 is arranged on the second supporting element 12, optionally, the second supporting element 12 is arranged in
Downside, optionally, heating element are electric heater, heating tube etc., it is preferred that use dry combustion method type air heating pipe, heating power
40-80KW is heated based on the heating tube of 30KW supplemented by the heating tube of heating and power 30KW using two groups.
Optionally, it is provided with temperature measurer in accommodating chamber 42, is such as provided with 2-4 temperature measurer, optionally, temperature measurer setting exists
The center of 42 top inner wall of accommodating chamber.
Optionally, the first blower 2 and heating element 3 are spaced a distance, the distance be 300-600mm, the first blower and plus
Thermal element is conducive to effective use and the heating uniformity of heat at a distance of closer.
Optionally, holding mechanism 4 is 2-6, and is arranged successively along short transverse.
In an embodiment of the present invention kind, holding mechanism 4 is arranged on third supporting element 13, the bottom of holding mechanism 4
It is slidably connected with third supporting element 13.
Wherein, the outer wall of the two sides of the inner wall of laminating machine, holding mechanism 4 and third supporting element 13 form air duct, third branch
The long stripes through hole 132 of support member 13 passing through from top to down for air-flow accommodates to suck thermal current by the second blower 41
Chamber 42, for heating heated object.
Optionally, heated object is photovoltaic tile, is placed in dedicated poly-bag as the photovoltaic tile put well is laminated, takes out to poly-bag
Vacuum is then placed in accommodating chamber 42.Heating element 3 heats the intracorporal gas of laminating machine chamber, and the promotion of the first blower 2 is added
The gas of heat flows in the entire cavity of laminating machine, and the long stripes through hole 122 and third for passing through the second supporting element 12 support
The long stripes through hole 132 of part 13 and the second blower 41 carry out thermal current heating to the photovoltaic tile of the inside into holding mechanism 4,
Thermal current heats the homogeneous heating degree for substantially increasing photovoltaic tile.
In general, holding mechanism 4 has multiple, it is chosen as 2-6, such as 3.
The bottom of holding mechanism 4 is provided with slide unit, which is slidably connected with third supporting element 13, optional
, which is the pull-out mechanism with guide rail, for the pick-and-place to heated object.This slide unit is conducive to be heated
Part is steadily placed or taken out.
Holding mechanism 4 in laminating machine cavity bottom is arranged on the 4th supporting element 14, bottom and the 4th supporting element
14 are slidably connected.
Optionally, the 4th supporting element 14 is the plate object for having through-hole, identical as third supporting element 13.
Optionally, the 4th supporting element 14 is the plate object of not through-hole.
Similar, the bottom in the holding mechanism 4 in laminating machine cavity bottom is provided with slide unit, the slide unit
It is slidably connected with the 4th supporting element 14, optionally, which is the pull-out mechanism with guide rail, for heated object
It picks and places.This slide unit is conducive to steadily being placed or taken out for heated object.
The number of second blower 41 be it is multiple, optionally, each accommodating chamber 42 every side setting 41 numbers of the second blower be
4-10.
Optionally, as shown in Fig. 2, the second blower 41 is linearly evenly distributed on the side of holding mechanism 4.
Optionally, the power of the second blower 41 be 12-16W, 0.5-0.9 cubes m/h of air quantity, revolving speed 1600-
2000r/min, wind pressure 2-3mmAq.
Optionally, the bearing type of the second blower 41 is double ball bearing.
Wherein, power of the power of the second blower 41 less than the first blower 2.First blower 2 promotees heating element 3 from source
The gas of heating is set rapidly to flow in the entire cavity of laminating machine, then by the second blower 41 by heated gas
It sucks in accommodating chamber 42, thermal current heating is carried out to the heated object of the inside.Optionally, multiple settings of second blower 41 are accommodating
The intracorporal hot wind of laminating machine chamber is sucked accommodating chamber 42, and multiple the second blowers 41 being oppositely arranged by the opposite sides of mechanism 4
Promoting the intracorporal hot wind reverse flow of laminating machine chamber, forms two strands of inverted drafts, inverted draft, which meets to hit, forms turbulent flow, thus
Substantially increase homogeneous heating degree, heating speed and heating efficiency.
By the synergistic effect of the first blower 2 and the second blower 41, the whole cavity of laminating machine and accommodating chamber 42 can be made equal
It is even heated, and then the heated object being evenly heated in accommodating chamber 42.
Fig. 7 is that heat gas flows to schematic diagram in the laminating machine cavity according to one embodiment of the utility model.Such as Fig. 7 institute
Show, the first blower 2 is arranged on the intracorporal top of laminating machine chamber, and the top of heating element 3 is arranged in.3 pairs of heating element laminations
The intracorporal gas of machine cavity is heated, and optionally, using electric heating, the intracorporal gas of laminating machine chamber is heated to room temperature to 350
DEG C, it is chosen as 160-180 DEG C;Under the driving of the first blower 2, be heated gas from top to down rapid of the heating of element 3 and
Uniformly spread to the entire cavity space of laminating machine, and flow in the entire cavity of laminating machine, laminating machine it is whole
A cavity temperature is increased to room temperature to 350 DEG C, is chosen as 160-180 DEG C;Second blower 41 is arranged in the opposite of holding mechanism 4
Two sides import the gas of heating in the accommodating chamber 42 of holding mechanism 4, since the second blower 41 is oppositely arranged, by laminating machine
The accommodating chamber 42 of the intracorporal hot gas sucking holding mechanism 4 of chamber forms two strands of reverse thermal currents, two bursts of reverse thermal currents head-on collision shapes
At turbulent flow, turbulent thermal current uniformly dispersing in accommodating chamber 42 is formed, so that the heating uniformity of each accommodating chamber 42 is significantly
It improves, and the heated object for being placed on accommodating chamber 42 also obtains thermally equivalent;After the completion of heating, the gas in accommodating chamber 42 is calm
The long stripes through hole 421 at top of mechanism 4 received exports, and optionally, the top through-hole of holding mechanism 4 is long stripes through hole 421, if
The two sides at the top of holding mechanism 4 are set, this two sides is in the front and rear sides orientation of laminating machine cavity.Be conducive to laminating machine in this way
The heat transfer of hot gas in cavity: gas for heating enters accommodating chamber 42 from the intracorporal left and right sides of laminating machine chamber, is holding
Chamber 42 of receiving carries out heat exchange, and after the completion of heat exchange, gas is exported from the through-hole 421 at 4 top of holding mechanism, which is located at
The front and rear sides at 4 top of holding mechanism, that is, it is located at the intracorporal front and rear sides of chamber of laminating machine, that is, after the completion of heat exchange
Gas concentrate on the intracorporal front and rear sides of laminating machine chamber, the first wind is entered by the long stripes through hole 111 of the first supporting element 11
Machine 2 circulates so as to laminating machine cavity interior air-flow, and the long stripes through hole 111 of the first supporting element 11 is also in laminating machine
The intracorporal front and rear sides of chamber.It can be seen that: the air-flow after the completion of air-flow for heating and heat exchange moves towards entirely different, phase
It being independent of each other, wherein air-flow trend for heating is the intracorporal left and right sides of the chamber of laminating machine, and after the completion of heat exchange
Air-flow trend is the intracorporal front and rear sides of the chamber of laminating machine, then passes through the long stripes through hole 111 of the first supporting element 11, enters
First blower 2 is heated the flowing of the gas of the heating of element 3 in the powerful promotion laminating machine cavity of first blower 2.So significantly
Reduce heat loss, improve heat utilization efficiency, and substantially increases the uniformity of heating.
As described in Figure 7, in holding mechanism 4, the gas of the heating of element 3 is heated under the driving of the first blower 2, is passed through
The through-hole of second supporting element 12 and the through-hole of third supporting element 13, long stripes through hole 121,131 are located at the intracorporal left side of laminating machine chamber
Warmed-up gas is exactly concentrated on the intracorporal left and right sides of laminating machine chamber by right two sides, then passes through the left and right of holding mechanism 4
Second blower 41 of two sides sucks accommodating chamber 42, and the opposite sides of holding mechanism 4 is arranged in multiple second blowers 41, multiple opposite
The second blower 41 being arranged promotes the intracorporal hot wind reverse flow of laminating machine chamber, forms two strands of inverted drafts, and inverted draft meets
It hits and forms turbulent flow, to substantially increase homogeneous heating degree, heating speed and heating efficiency.
By the synergistic effect of the first blower 2 and the second blower 41, the whole cavity of laminating machine and accommodating chamber 42 can be made equal
It is even heated, and then the heated object being evenly heated in accommodating chamber 42.
As shown in FIG. 7 and 8, since the long stripes through hole 421 at 4 top of holding mechanism is arranged in the intracorporal front and back of laminating machine chamber
Two sides, so concentrating on the intracorporal front and back two of laminating machine chamber from the gas that the long stripes through hole 421 at 4 top of holding mechanism comes out
Side, the gas are the gas after the completion of heat exchange, its trend is to flow up along the intracorporal front and back side of laminating machine chamber to return to
At first blower 2, it is heated the heating of element 3, under the driving effect of the first blower 2, heated gas is supported by third
The through-hole of part 13, the second supporting element 12 and the first supporting element 11 flows downward into accommodating chamber 42, which is located at third support
The left and right sides of part 13, the second supporting element 12 and the first supporting element 11, that is, it is in the intracorporal left and right sides of laminating machine chamber, this
Sample ensures that the trend of the gas after the completion of heat exchange is different from the trend of the gas of pending heat exchange, after the completion of heat exchange
Gas flow up and returned at the first blower 2 to start new circulation along the intracorporal front and rear sides of laminating machine chamber, and it is pending
The gas of heat exchange flows downward the quilt heated in accommodating chamber 42 into accommodating chamber 42 along the intracorporal left and right sides of laminating machine chamber
Heating member.The two is mutually independent of each other, and is conducive to the utilization of heat in this way, greatly reduces heat loss, improves the thermal efficiency.Heat exchange is completed
Gas afterwards passes through the long stripes through hole 111 of the first supporting element 11, into the first blower 2, and starts new circulation.
The utility model embodiment utilizes the synergistic effect of the first blower 2 and the second blower 41, using hot air circulation mode,
It solves the problems such as laminating machine heating is uneven, product yield is low, the balanced ventilation amount of each holding mechanism 4 may be implemented, mention
Heating uniformity in high laminating machine cavity takes full advantage of heat source, reduces heat loss, keeps high temperature uniform, heating effect is more
It is good, sufficiently meet the requirement of user.
It should be understood that the above-mentioned specific embodiment of the utility model is used only for exemplary illustration or explains this reality
With novel principle, without constituting limitations of the present invention.Therefore, in the spirit and scope without departing from the utility model
In the case of any modification, equivalent substitution, improvement and etc. done, should be included within the scope of protection of this utility model.In addition,
The appended claims for the utility model are intended to cover to fall into attached claim scope and boundary or this range and boundary
Whole change and modification in equivalent form.