CN107253386B - A kind of shell fills patch non-woven fabrics apparatus automatically - Google Patents

Abstract

The present invention relates to the art fields of apparatus automatization assembling, it refers in particular to a kind of shell and fills patch non-woven fabrics apparatus automatically, including the shell feed device for conveying shell, the patch bed die for non-woven fabrics to be closely attached on to housing cavity, the non-woven fabrics feed device for being used to for non-woven fabrics being transplanted on patch bed die, the hot-press arrangement for being used to heat the shell for having pasted non-woven fabrics and the bed die lifting drive for being used to that patch bed die to be driven to go up and down.Structure of the invention is ingenious in design, highly effective and safe, and high degree of automation and production efficiency are efficient.

Description

A kind of shell fills patch non-woven fabrics apparatus automatically

Technical field

The present invention relates to the technical field of apparatus automatization assembling, refer in particular to a kind of shell and fill patch nonwoven automatically to lay It is standby.

Background technique

With the continuous development of digital product, require to stick non-woven fabrics in the shell of many digital products, it is anti-to play Damp and shockproof effect.It is most of all to post non-woven fabrics especially in the shell of sound equipment.However, now substantially using artificial In the inner cavity 81 for the shell 8 for being adhered to non-woven fabrics 9 using double-sided adhesive (as shown in attached drawing 1 and Figure 13), there are whole for artificial fitting The problems such as shape is difficult, and quality standard is difficult to uniformly, labour cost height and low production efficiency.

Summary of the invention

The present invention for problem of the prior art provide one kind can automated production, quality standardization, reduce labour at The shell of this and raising production efficiency fills patch non-woven fabrics apparatus automatically.

In order to solve the above-mentioned technical problem, the present invention adopts the following technical scheme:

A kind of shell provided by the invention fills patch non-woven fabrics apparatus automatically, including the shell feeding dress for conveying shell It sets, the patch bed die for non-woven fabrics to be closely attached on to housing cavity, the non-woven fabrics for being used to be transplanted on non-woven fabrics on patch bed die Feed device, the hot-press arrangement for being heated to the shell for having pasted non-woven fabrics and the bottom for driving patch bed die to go up and down Mould lifting drive.

Therein, the shell feed device includes the shell transfer mechanism for being transplanted on shell above patch bed die It is fixedly clamped two shell clamping devices above patch bed die with the shell for sending shell transfer mechanism, two institutes State the two sides that shell clamping device is respectively arranged at shell feeding mechanism.

Therein, the non-woven fabrics feed device includes the non-woven fabrics rest area being set to above patch bed die and is used to incite somebody to action Non-woven fabrics is depressed into the non-woven fabrics press mechanism on patch bed die from non-woven fabrics rest area.

Further, the non-woven fabrics press mechanism includes lower platen, is slideably positioned in two of lower platen two sides respectively Side plate, the pushing lifting drive for driving lower platen to go up and down, the traversing driving of the pushing for driving lower platen traversing Device and side pressure driving devices for driving two side plates to open and fold；The lower platen is equipped with material returned bar and is used for The elastic component that material returned bar is resetted.

Therein, the hot-press arrangement includes the first hot pressing mechanism and difference that hot pressing is carried out for the upper surface to shell The two sides of shell are carried out with the second hot pressing mechanism of hot pressing.

Further, first hot pressing mechanism includes heating platen and the heating platen driving dress for driving heating platen to be displaced It sets.

Therein, the hot-press arrangement includes hot pressing cover and the hot pressing cover driving device for driving hot pressing cover to be displaced, institute It states hot pressing and is provide with the top for being placed in patch bed die, the hot pressing is covered with the cavity matched with shell.

It is therein, it further include for hooking the two shells hook opening mechanism for opening shell two sides, described two shells hook booting Structure is respectively arranged at the two sides of patch bed die.

Further, the shell hooks opening mechanism and includes movable plate, the rotation axis for being set to movable plate, is installed in rotation axis Multiple overhead kick blocks, the rotating drive mechanism for driving rotation axis to rotate and for driving movable plate to move respectively along X-axis and Z axis Dynamic XZ axis driving mechanism.

It is therein, it further include the non-woven fabrics clamp system compressed for the non-woven fabrics to patch bed die two sides, it is described Non-woven fabrics clamp system includes that lifter plate, at least two are slideably positioned in the gripping block of lifter plate two sides, for driving folder respectively Tight block is opened with the driving clamping device folded and the clamping lifting drive for driving lifter plate to go up and down, it is described at least Two gripping blocks are respectively arranged at the two sides of patch bed die.

Beneficial effects of the present invention:

A kind of shell provided by the invention fills patch non-woven fabrics apparatus automatically, and non-woven fabrics is first transplanted on by non-woven fabrics feed device The outer surface of patch bed die, then shell is transplanted on the top of patch bed die, bed die lifting drive by shell feed device Patch bed die is driven to rise, so that patch bed die enters the inner cavity of shell with non-woven fabrics, to make the interior of non-woven fabrics and shell Chamber fitting, then hot-press arrangement heats the outer surface of shell, makes the solid-state hot melt adhesive heating and melting of non-woven fabrics, hot pressing dress After setting stopping heating, cool and solidify hot melt adhesive, so that non-woven fabrics be enable rapidly to bond with shell.Whole process automation It completes, without fitting manually, greatly improves production efficiency and product quality.Structure of the invention is ingenious in design, highly effective and safe, from Dynamicization degree height and production efficiency are efficient.

Detailed description of the invention

Fig. 1 is structure schematic diagram of the invention.

Fig. 2 is structural schematic diagram of the invention.

Fig. 3 is another viewing angle constructions schematic diagram of the invention.

Fig. 4 is structure front view of the invention.

Fig. 5 is the enlarged structure schematic diagram in Fig. 4 at A.

Fig. 6 is the structural schematic diagram that shell of the invention hooks opening mechanism.

Fig. 7 is partial structure diagram of the invention.

Fig. 8 is the structural decomposition diagram of non-woven fabrics press mechanism of the invention.

Fig. 9 is the structural schematic diagram of non-woven fabrics clamp system of the invention.

Figure 10 is another viewing angle constructions schematic diagram of non-woven fabrics clamp system of the invention.

Figure 11 is the structural schematic diagram of shell clamping device of the invention.

Figure 12 is another example structure schematic diagram of hot-press arrangement of the invention.

Figure 13 is the structural schematic diagram of shell.

Description of symbols

1- shell feed device；11- shell transfer mechanism；111- delivery sheet；112- feeding driving device；12- shell folder Hold mechanism；121- clamp bracket；122- elevator；123- cross sliding driving device；124- grip block；1241- accommodation groove；125- liter Driving device drops；2- non-woven fabrics feed device；21- non-woven fabrics rest area；22- non-woven fabrics press mechanism；221- lower platen； 2211- escape groove；222- side plate；223- pushes lifting drive；224- side pressure driving device；23- pushes displacement drive Device；24- material returned bar；25- elastic component；3- bed die lifting drive；4- hot-press arrangement；The first hot pressing mechanism of 41-；411- heat Pressing plate；412- heating platen driving device；The second hot pressing mechanism of 42-；43- hot pressing cover；44- hot pressing cover driving device；5- shell hooks Opening mechanism；51- movable plate；52- rotation axis；53- overhead kick block；54- rotating drive mechanism；541- is rotatablely connected block；542- rotation Driving device；55-XZ axis driving mechanism；6- non-woven fabrics clamp system；61- lifter plate；62- gripping block；63- clamps driving dress It sets；64- clamps lifting drive；7- patch bed die；8- shell；The inner cavity 81-；9- non-woven fabrics；10- fluorescence detector.

Specific embodiment

For the ease of the understanding of those skilled in the art, the present invention is made further below with reference to embodiment and attached drawing Bright, the content that embodiment refers to not is limitation of the invention.The present invention is described in detail below in conjunction with attached drawing.

As shown in Figures 1 to 4, a kind of loudspeaker casing provided by the invention fills patch non-woven fabrics apparatus automatically, including for defeated It send the shell feed device 1 of shell, the patch bed die 7 for non-woven fabrics to be closely attached on to housing cavity, be used to transfer non-woven fabrics Non-woven fabrics feed device 2 on to patch bed die 7, the hot-press arrangement 4 for being heated to the shell for having pasted non-woven fabrics and Bed die lifting drive 3 for driving patch bed die 7 to go up and down.

In practical applications, non-woven fabrics is first transplanted on the outer surface of patch bed die 7 by non-woven fabrics feed device 2, then shell Shell is transplanted on the top of patch bed die 7 by body feed device 1, and bed die lifting drive 3 drives patch bed die 7 to rise, with Patch bed die 7 is set to enter the inner cavity of shell with non-woven fabrics, so that non-woven fabrics be made to be bonded with the inner cavity of shell, then hot-press arrangement The outer surface of 4 pairs of shells is heated, and after so that the solid-state hot melt adhesive heating and melting of non-woven fabrics, hot-press arrangement 4 is stopped heating, makes heat Melten gel cooling and solidifying, so that non-woven fabrics be enable rapidly to bond with shell.High degree of automation of the present invention replaces by hand completely Operation reduces labor intensity of workers, saves cost of labor, improves the efficiency of pressing, while improving the efficiency and production of production Quality.

In the present embodiment, referring to fig. 2, Fig. 4 and Fig. 7, the shell feed device 1 include for shell to be transplanted on patch It the shell transfer mechanism 11 of the top of bed die 7 and is fixedly clamped for the shell for sending shell transfer mechanism 11 in patch bottom Two shell clamping devices 12 of 7 top of mould, two shell clamping devices 12 are respectively arranged at the two of shell feeding mechanism Side.

At work, shell is placed on shell transfer mechanism 11, shell is transplanted on patch by shell transfer mechanism 11 The top of bed die 7, then two shell clamping devices 12 respectively clamp the both ends of shell and remove shell transfer mechanism 11, shell transfer mechanism 11 resets, and makes shell clamping device 12 that shell to be fixed on to the top of patch bed die 7, then bed die liter Dropping driving device 3 drives patch bed die 7 to rise, and patch bed die 7 is made to enter the inner cavity of shell with non-woven fabrics, and shell clamps at this time Mechanism 12 discharges clamping to shell, and bed die lifting drive 3 drives patch bed die 7 to drop to designated position, finally allows heat Pressure device 4 carries out heating bonding to the outer surface of shell, and after completing bonding, shell clamping device 12 clamps shell, patch bed die 7 Housing cavity is removed, shell transfer mechanism 11 moves on to the lower section of shell, and shell is discharged into shell and transferred by shell clamping device 12 In mechanism 11, the reset of shell transfer mechanism 11 can take shell away.

Specifically, referring to fig. 4, Fig. 7 and Figure 10, the shell transfer mechanism 11 includes delivery sheet 111 and send for driving The feeding driving device 112 that flitch 111 is displaced, the feeding driving device 112 cooperate sliding block and sliding rail to realize using cylinder. At work, shell is placed on delivery sheet 111, feeding driving device 112 can drive delivery sheet 111 mobile, and shell is moved It is sent to the top of patch bed die 7；The shell clamping device 12 includes clamp bracket 121, the liter for being set to the clamp bracket 121 Drop block 122, the cross sliding driving device 123 for being set to 122 top of elevator, the clamping being drivingly connected with cross sliding driving device 123 Plate 124 and for drive elevator 122 go up and down lifting drive 125, the cross sliding driving device 123 be cylinder or Hydraulic cylinder, the lifting drive 125 cooperates sliding block and sliding rail to realize using cylinder, when delivery sheet 111 transfers shell When to the top of patch bed die 7, cross sliding driving device 123 drives grip block 124 is mobile simultaneously to abut with one end of shell, thus right The both ends of shell are clamped, and then lifting drive 125 drives elevator 122 to rise, and are driven grip block 124 to rise, are made Shell removes delivery sheet 111, and delivery sheet 111 resets under the driving of feeding driving device 112, in order to the entrance of patch bed die 7 It is able to enter the inner cavity of shell.The structure mobile accuracy is high, sensitive and reliable for operation stabilization is controlled, to improve life of the invention Produce efficiency.

In the present embodiment, referring to Figure 10, the grip block 124 is equipped with the accommodation groove 1241 for accommodating shell, to shell When body is clamped, the end of shell can be embedded in accommodation groove 1241, and shell clamp system is enable firmly to drive shell It is mobile, improve stability of the invention.

In the present embodiment, referring to Fig. 3 and Fig. 7, the non-woven fabrics feed device 2 includes non-woven fabrics rest area 21 and is used to incite somebody to action Non-woven fabrics is depressed into the non-woven fabrics press mechanism 22 on patch bed die 7 from non-woven fabrics rest area 21.

In practical applications, non-woven fabrics is placed on non-woven fabrics rest area 21, non-woven fabrics press mechanism 22 is pushed nothing Woven fabric presses to the outer surface of patch bed die 7, and then patch bed die 7 drives non-woven fabrics to enter the inner cavity of shell, make non-woven fabrics with The inner cavity of shell is bonded.

In the present embodiment, referring to figs. 7 and 8, the non-woven fabrics press mechanism 22 includes lower platen 221, sliding is set respectively Two side plates 222,223 and of pushing lifting drive for driving lower platen 221 to go up and down for being placed in 221 two sides of lower platen Side pressure driving device 224 for driving two side plates 222 to open and fold；The lower platen 221 be equipped with material returned bar 24 and Elastic component 25 for resetting material returned bar 24.Specifically, pushing displacement drive 225, pushing lifting drive 223 and side pressure driving device 224 is all made of cylinder cooperation sliding rail and sliding block is realized, the structure install convenient, be quick on the draw and Cost is relatively low；Elastic component 25 is compressed spring, and responding fast, cost is relatively low and reliable for operation.

At work, the top that displacement drive 225 drives lower platen 221 to be laterally moved to non-woven fabrics rest area 21 is pushed, 221 lifting drive 125 of lower platen drives lower platen 221 to decline, while lower platen 221 drives two side plates 222 to decline, Side plate 222 pushes non-woven fabrics at this time, and when being depressed into certain position, side pressure driving device 224 drives side plate 222 toward patch The direction of bed die 7 is mobile, non-woven fabrics is fitted on the outer surface of patch bed die 7, and then side pressure driving device 224 drives side pressure Plate 222 is separated with patch bed die 7, pushes lifting drive 223 and lower platen 221 is driven to rise, which can effectively keep away Exempt from side plate 222 and friction damage is generated to non-woven fabrics in uphill process.Meanwhile one end of compressed spring is supported with lower platen 221 It connects, the other end of compressed spring is abutted with material returned bar 24, and when lower platen 221 is separated with patch bed die 7, material returned bar 24 can be pushed up Firmly non-woven fabrics prevents lower platen 221 from causing non-woven fabrics to generate offset in uphill process.The smart structural design can make nonwoven Cloth can be fitly fitted on patch bed die 7, to improve the quality of production of the invention.

In the present embodiment, referring to Fig. 1 and Fig. 4, the hot-press arrangement 4 includes carrying out hot pressing for the upper surface to shell First hot pressing mechanism 41 and the second hot pressing mechanism 42 that respectively two sides of shell are carried out with hot pressing.Specifically, first heat Press mechanism 41 includes heating platen 411 and the heating platen driving device 412 for driving heating platen 411 to be displaced.Wherein, the first hot pressing As mechanism 41 with the structure of the second hot pressing mechanism 42 is with working principle.Heating platen driving device 412 is cylinder, the structure Install convenient, is quick on the draw and cost is relatively low.At work, heating platen 411 is heated to 100 DEG C to 140 DEG C in advance, patch bottom After mould 7 allows non-woven fabrics to be bonded with the inside of shell into enclosure interior, heating platen driving device 412 drives heating platen 411 to push It is heated to the upper surface of shell, then the heating platen 411 of the second blanching mechanism is under the driving of heating platen driving device 412 The heating for pressing to the two sides progress 5 seconds of shell allows non-woven fabrics can to enable the hot melt adhesive flash melt of non-woven fabrics Rapidly bonded with shell.

It further include opening two shells of shell two sides for hooking and hooking booting referring to fig. 4, Fig. 5 and Fig. 6 in the present embodiment Structure 5, described two shells hook the two sides that opening mechanism 5 is respectively arranged at patch bed die 7.Due to there is the opening of some shells to be equipped with Chimb, the chimb can stop the entrance of patch bed die 7, and therefore, shell hooks the two sides that shell can be had chimb by opening mechanism 5 Hook is opened, so that patch bed die 7 can be avoided chimb and swimmingly enter enclosure interior.

Specifically, the shell hooks the rotation axis 52 that opening mechanism 5 includes movable plate 51, is set to movable plate 51, is installed in Multiple overhead kick blocks 53 of rotation axis 52, for drive rotation axis 52 rotate rotating drive mechanism 54 and for driving movable plate 51 The XZ axis driving mechanism 55 that can be moved respectively along X-axis and Z axis.Wherein, XZ axis driving mechanism 55 can be driven using existing two axis Motivation structure, preferably, X-axis of the present invention and Z axis movement cooperate sliding rail and sliding block to realize using cylinder.The structure installation side Just, response action is fast, easy to control.

In practical applications, when shell clamp system, which clamps the both ends of shell, is suspended in aerial, XZ axis driving mechanism 55 First driving movable plate 51 rises to certain position, and then rotating drive mechanism 54 drives rotation axis 52 to rotate, and drives overhead kick block 53 Horizontal position is turned to from vertical state, so that the barb of overhead kick block 53 be made to be turned to the inside of shell, is then located at shell The XZ axis driving mechanism 55 of two sides respectively drives direction movement of the movable plate 51 far from shell, at this time the barb and shell of overhead kick block 53 The chimb of body abuts, so that the two sides of shell be unpluged, so that patch bed die 7 is swimmingly entered the inside of shell, works as patch After cloth bed die 7 enters enclosure interior, rotating drive mechanism 54 drives rotation axis 52 to rotate, and resets the rotation of overhead kick block 53, at this time The two sides of shell just reset under the elastic force of itself, and pad pasting bed die is enable to be embedded in the inside of shell；When the completion pair of hot-press arrangement 4 After shell heating, shell hooks opening mechanism 5 and repeats the above steps, and patch bed die 7 is enable to remove shell.This is simple and compact for structure, Make shell paste non-woven fabrics to be easy, it is easy to accomplish production automation improves production efficiency, reduces cost of labor.

In the present embodiment, referring to Fig. 5, the rotating drive mechanism 54 includes the rotation connection block connecting with rotation axis 52 541 and the device of rotation driving 542 for driving rotation connection block 541 to rotate, the device of rotation driving 542 is set to movement Plate 51.Specifically, device of rotation driving 542 is cylinder, piston rod and rotation connection fast hinged, the cylinder body of cylinder and the shifting of cylinder Movable plate 51 is hinged.It drives the rotation of rotation connection block 541 to drive rotation axis 52 to rotate using cylinder, uses articulated manner can be with Keep the driving of cylinder more flexible, it is easy to control and stable.The structure is easy for installation, and response action is fast, easy to control.

It further include being compressed for the non-woven fabrics to 7 two sides of patch bed die referring to fig. 4, Fig. 8 and Fig. 9 in the present embodiment Non-woven fabrics clamp system 6, the non-woven fabrics clamp system 6 is set to the lower section of patch bed die 7；The non-woven fabrics clamp system 6 include that lifter plate 61, at least two is slideably positioned in the gripping block 62 of 61 two sides of lifter plate, for driving gripping block 62 to open respectively The driving clamping device 63 opened and folded and the clamping lifting drive 64125 for driving lifter plate 61 to go up and down, it is described At least two gripping blocks 62 are respectively arranged at the two sides of patch bed die 7.Specifically, driving clamping device 63 and clamping lifting device It is all made of cylinder or hydraulic cylinder, the structure install convenient, is quick on the draw and cost is relatively low.Wherein, the side plate 222 is equipped with The escape groove 2211 matched with gripping block 62, when in order to side plate 222 and the past fitting of patch bed die 7 simultaneously of gripping block 62, Gripping block 62 can be accommodated in escape groove 2211, realize the two sides that non-woven fabrics is clamped in patch bed die 7；The escape groove 2211 design can avoid gripping block 62, and side plate 222 and gripping block 62 is avoided to interfere in moving process, To improve job stability and high efficiency of the invention.

At work, while general who has surrendered's non-woven fabrics fits in patch bed die 7 under non-woven fabrics press mechanism 22, lifting is clamped Device drives lifter plate 61 to rise, and gripping block 62 is made to be located at the two sides of patch bed die 7, and then side plate 222 and gripping block 62 are same When drawn close toward patch bed die 7, non-woven fabrics is clamped in the two sides of patch bed die 7, then non-woven fabrics press mechanism 22 leaves patch Bed die 7, shell hooks opening mechanism 5 and opens the two sides hook of shell at this time, driving of the patch bed die 7 in bed die lifting drive 3 Under ascend into the inside of shell, hooked before the release of opening mechanism 5 hooks shell and draw in shell, driving clamping device 63 drives gripping block 62 leave patch bed die 7, then clamp lifting device driving lifter plate 61 and decline, so that the decline of gripping block 62 be driven to remove shell Body, last shell hook the release of opening mechanism 5 and draw the hook of shell, are bonded shell completely with patch bed die 7.The structure is simply tight It gathers, stable and reliable operation and displacement accuracy are high.

In the present embodiment, referring to fig. 2, the two sides of the shell feed device 1 are respectively equipped with fluorescence detector 10.Specifically , fluorescence detector 10 uses grating detector.When operator places shell on delivery sheet 111, two fluorescence detectors 10 can detect that manpower stops the running of machine in operation, to prevent the generation of production accident, improve production security.

Embodiment two

The present embodiment is basically the same as the first embodiment, the difference is that: referring to Figure 12, the hot-press arrangement 4 includes heat Pressure cover 43 and the hot pressing cover driving device 44 for driving hot pressing cover 43 to be displaced, the hot pressing cover 43 are set to patch bed die 7 Top, the hot pressing cover 43 are equipped with the cavity matched with shell.When carrying out hot pressing to shell, hot pressing cover driving device 44 is driven Dynamic hot pressing cover 43 is mobile to shell, makes to be heated in the cavity of shell insertion hot pressing cover 43.

The above is only present pre-ferred embodiments, is not intended to limit the present invention in any form, although The present invention is disclosed as above with preferred embodiment, and however, it is not intended to limit the invention, any person skilled in the art, It does not depart within the scope of technical solution of the present invention, when the technology contents using the disclosure above make a little change or are modified to equivalent change The equivalent embodiment of change, but without departing from the technical solutions of the present invention, technology refers to above embodiments according to the present invention Made any simple modification, equivalent change and modification, belong in the range of technical solution of the present invention.

Claims (10)

1. a kind of shell fill automatically patch non-woven fabrics apparatus, it is characterised in that: including shell feed device (1), patch bed die (7), Non-woven fabrics feed device (2), hot-press arrangement (4) and the bed die lifting drive for driving patch bed die (7) to go up and down (3), extraneous shell is transferred to the top of patch bed die (7), the non-woven fabrics feed device by the shell feed device (1) (2) extraneous non-woven fabrics is transferred to the outer surface of patch bed die (7)；The bed die lifting drive (3) drives outer surface The direction for carrying the shell that the patch bed die (7) of non-woven fabrics is transferred towards shell feed device (1) is mobile, so that patch bed die (7) enter the inner cavity of shell with non-woven fabrics, until being bonded non-woven fabrics with the inner cavity of shell；The hot-press arrangement (4) is used for Hot pressing is carried out to the shell for being fitted with non-woven fabrics, so that non-woven fabrics can quickly be binded with shell.

2. a kind of shell according to claim 1 fills patch non-woven fabrics apparatus automatically, it is characterised in that: the shell feeding dress Setting (1) includes shell transfer mechanism (11) for being transplanted on shell above patch bed die (7) and for by shell drag-over unit The shell that structure (11) is sent is fixedly clamped two shell clamping devices (12) above patch bed die (7), two shells Clamping device (12) is respectively arranged at the two sides of shell feeding mechanism.

3. a kind of shell according to claim 1 fills patch non-woven fabrics apparatus automatically, it is characterised in that: the non-woven fabrics feeding Device (2) includes the non-woven fabrics rest area (21) being set to above patch bed die (7) and is used to place non-woven fabrics from non-woven fabrics Area (21) is depressed into the non-woven fabrics press mechanism (22) on patch bed die (7).

4. a kind of shell according to claim 3 fills patch non-woven fabrics apparatus automatically, it is characterised in that: the non-woven fabrics pushes Mechanism (22) includes lower platen (221), two side plates (222) for being slideably positioned in lower platen (221) two sides respectively, for driving The pushing lifting drive (223) of dynamic lower platen (221) lifting, the traversing drive of pushing for driving lower platen (221) traversing Dynamic device (225) and for driving two side pressure driving devices (224) side plates (222) opening and folded；The lower platen (221) material returned bar (24) and the elastic component (25) for resetting material returned bar (24) are equipped with.

5. a kind of shell according to claim 1 fills patch non-woven fabrics apparatus automatically, it is characterised in that: the hot-press arrangement It (4) include carrying out the first hot pressing mechanism (41) of hot pressing for the upper surface to shell and heat being carried out to the two sides of shell respectively The second hot pressing mechanism (42) of pressure.

6. a kind of shell according to claim 5 fills patch non-woven fabrics apparatus automatically, it is characterised in that: first hot press Structure (41) includes heating platen (411) and the heating platen driving device (412) for driving heating platen (411) to be displaced.

7. a kind of shell according to claim 1 fills patch non-woven fabrics apparatus automatically, it is characterised in that: the hot-press arrangement It (4) include hot pressing cover (43) and the hot pressing cover driving device (44) for driving hot pressing cover (43) to be displaced, the hot pressing cover (43) It is set to the top of patch bed die (7), the hot pressing cover (43) is equipped with the cavity matched with shell.

8. a kind of shell according to claim 1 fills patch non-woven fabrics apparatus automatically, it is characterised in that: further include being opened for hooking Two shells of shell two sides hook opening mechanism (5), and described two shells hook opening mechanism (5) and are respectively arranged at patch bed die (7) Two sides.

9. a kind of shell according to claim 8 fills patch non-woven fabrics apparatus automatically, it is characterised in that: the shell hooks booting Structure (5) includes movable plate (51), is set to the rotation axis (52) of movable plate (51), is installed in multiple overhead kick blocks of rotation axis (52) (53), for driving the rotating drive mechanism (54) of rotation axis (52) rotation and for driving movable plate (51) respectively along X-axis and Z The mobile XZ axis driving mechanism (55) of axis.

10. a kind of shell according to claim 1 fill automatically patch non-woven fabrics apparatus, it is characterised in that: further include for pair The non-woven fabrics clamp system (6) that the non-woven fabrics of patch bed die (7) two sides is compressed, the non-woven fabrics clamp system (6) include Lifter plate (61), at least two are slideably positioned in the gripping block (62) of lifter plate (61) two sides, for driving gripping block respectively (62) driving clamping device (63) for opening and folding and the clamping lifting drive for driving lifter plate (61) to go up and down (64), at least two gripping block (62) is respectively arranged at the two sides of patch bed die (7).