CN220215575U - Rotary gluing device - Google Patents

Abstract

The utility model discloses a rotary gluing device which comprises a feeding mechanism, a gluing mechanism and a receiving mechanism which are sequentially connected, wherein the gluing mechanism is provided with more than one material clamp, a discharging slideway is arranged between the material clamp and the receiving mechanism, a dispensing valve is arranged above the material clamp, the material clamp is connected with a rotary driving piece, a push rod is arranged on one side of the material clamp far away from the discharging slideway, the push rod is connected with a push rod driving piece, an opening penetrating through the material clamp is arranged on the material clamp, the opening is matched with the push rod and the discharging slideway, the push rod pushes materials from the opening on one side of the material clamp to the material clamp, the dispensing valve above the material clamp is used for gluing the materials, and the glued materials are pushed out by the push rod through the discharging slideway and enter the receiving mechanism. Compared with the prior art, the method has the advantages of protecting materials, being high in processing efficiency and the like.

Description

Rotary gluing device

Technical Field

The utility model relates to the technical field of gluing, in particular to a rotary gluing device.

Background

In the production process of the battery cap, the outer edge of the sealing ring of the battery cap needs to be glued, so that the battery cap is convenient to fix. At present, the outer edge of a battery sealing ring is coated with glue, or the surface of some round products is coated with glue in an annular way, usually in a rotary glue coating mode, namely, a glue dispensing head is kept fixed, and the glue coating is completed by rotating the products. In the prior art, the rubber coating device that uses always is equipped with the anchor clamps that press from both sides tight material, and after it pressed from both sides tight material and carry out spacing to the material, accomplishes annular rubber coating through driving material internal rotation in anchor clamps, because the anchor clamps of fixed material keep motionless, produce relative slip between material rotatory time and the anchor clamps, very easily lead to the peripheral friction damage that appears of product, seriously influence the quality of material, in addition, rubber coating equipment among the prior art carries out the material loading earlier, begin the rubber coating after waiting the anchor clamps fixed material, take out the ejection of compact from the ejection of compact later with the material again, the material loading is longer with ejection of compact consuming time, can't carry out the material loading work in the ejection of compact, machining efficiency is very low.

Therefore, in view of the above-mentioned problems in the prior art, there is a need for a glue spreading device that can effectively protect materials while improving the processing efficiency.

Disclosure of Invention

The utility model aims to provide a rotary gluing device which is used for protecting materials and has high processing efficiency.

The utility model provides a rotatory rubber coating device, includes feeding mechanism, rubber coating mechanism and the receiving mechanism that connects gradually, rubber coating mechanism is equipped with more than one material anchor clamps, be equipped with the ejection of compact slide between material anchor clamps and the receiving mechanism, material anchor clamps top is equipped with the dispensing valve, material anchor clamps are connected with rotary driving piece, one side that ejection of compact slide was kept away from to the material anchor clamps is equipped with the push rod, the push rod is connected with the push rod driving piece, be equipped with the opening that link up material anchor clamps on the material anchor clamps, the opening with push rod and ejection of compact slide cooperate, the push rod pushes the material from the opening part of material anchor clamps one side to material anchor clamps, carries out the rubber coating to the material by the dispensing valve of material anchor clamps top, and the material after the rubber coating is released through ejection of compact slide by the push rod after getting into the receiving mechanism.

In the technical scheme, the material feeding mechanism, the gluing mechanism and the material receiving mechanism are sequentially connected, the material feeding mechanism is used for feeding materials to the gluing mechanism, more than one material clamp is arranged on the gluing mechanism and used for clamping the materials fed by the feeding mechanism, the glue dispensing valve arranged above the material clamp is used for gluing the materials, the bottom of the material clamp is connected with a rotary driving piece, the material clamp can drive the materials to rotate together under the driving action of the rotary driving piece after clamping the materials, so that annular gluing work is performed, in the prior art, after the clamp for fixing the materials can not rotate, the annular gluing is completed through driving the materials to rotate, relative sliding is generated between the materials and the clamp, friction damage occurs on the periphery of the products, the quality of the materials is influenced, the material clamp is driven to rotate, friction is prevented from being generated between the materials and the material clamp, and the materials are effectively protected; in addition, the both sides of material anchor clamps are equipped with ejection of compact slide and the push rod that corresponds respectively, ejection of compact slide is located and is close to one side of receiving material mechanism to be connected with receiving material mechanism, the push rod is located and is close to one side of feeding mechanism, wherein, be equipped with two openings of opposite direction distribution on the material anchor clamps, because the push rod is connected with the push rod driving piece, the push rod can promote the material to get into in the material anchor clamps through the opening and fix, after accomplishing the rubber coating work, the push rod is with the material from material anchor clamps release to on the ejection of compact slide through the opening to push along ejection of compact slide to on receiving material mechanism, handle and collect, wherein, the push rod also can be with the material release of accomplishing the rubber coating in the material anchor clamps simultaneously, in addition, the material anchor clamps are provided with more than one, ejection of compact slide and push rod correspond the setting, also can be in single ejection of compact slide one end corresponds to set up a plurality of material anchor clamps to can realize multichannel synchronous rubber coating and ejection of compact work, show and promote machining efficiency.

Further, as an optimized technical scheme, the feeding mechanism comprises a vibration feeding tray and a conveying belt, wherein the vibration feeding tray is provided with a feeding track, one end of the feeding track is connected with the conveying belt, and the conveying belt is positioned below the push rod.

In the above technical scheme, feeding mechanism includes vibration feeding tray and conveyer belt, vibration feeding tray arranges the material, through the pay-off track transports to the conveyer belt, the conveyer belt will arrange the material and send to by the material anchor clamps, wait the push rod sends the material into the material anchor clamps.

Further, as a preferable technical scheme, a clamping groove is formed in the bottom of the push rod and used for pushing materials on the conveyor belt into the material clamp, and a sensor is arranged above the push rod.

In the technical scheme, the clamping groove is formed in the bottom of the push rod and is used for clamping materials on the conveying belt and conveying the materials to the material clamp, wherein when the push rod works, the top end part of the push rod, which is close to the material clamp, moves forwards, and in the process of pushing the glued materials to the material receiving mechanism, the clamping groove in the bottom of the push rod clamps and conveys the materials on the conveying belt to the material clamp, so that the materials are synchronously taken and put, and the processing efficiency is greatly improved; and a sensor is arranged above the push rod and used for detecting whether the materials on the conveyor belt are in place.

Further, as a preferable technical scheme, the push rod driving member comprises a pushing driving member and a lifting driving member, and the pushing driving member is used for driving the push rod to move back and forth and up and down.

In the above technical scheme, the push rod driving piece includes pushing driving piece and lift driving piece, pushing driving piece is used for driving the push rod is at material anchor clamps and the back-and-forth movement in ejection of compact slide, lift driving piece is used for making the push rod lifting, gives way for the material on the conveyer belt, in a duty cycle, the push rod carries out the lifting earlier, waits after the sensor detects the material on the conveyer belt in place, the push rod descends, later moves forward, when ejecting the material in the material anchor clamps, carries material on the conveyer belt into the material anchor clamps through the draw-in groove of bottom, accomplishes the release and the placing of material, then resets, repeats above-mentioned action.

Further, as an optimal technical scheme, a gluing driving piece is arranged above the dispensing valve, and the gluing driving piece is connected with the dispensing valve through a supporting rod.

In the technical scheme, the dispensing valve is detachably connected with the supporting rod, the supporting rod is connected with the driving end of the gluing driving piece and moves up and down under the driving of the gluing driving piece, so that the dispensing valve is driven to move to meet the gluing requirement.

Further, as the preferable technical scheme, one side of the material clamp is provided with a fixed plate, the gluing driving piece is connected to the upper portion of the fixed plate, which is located at one side of the material clamp, and the upper portion of one side of the fixed plate, which is far away from the material clamp, is connected with a diaphragm pump.

In the above technical scheme, the fixing plate is arranged at one side of the material clamp, the fixing plate is connected with the supporting rod, the supporting rod is in sliding connection with the fixing plate and can perform up-down interaction, one end of the supporting rod, far away from the fixing plate, is detachably connected with the dispensing valve, and the dispensing driving piece can drive the dispensing valve on the supporting rod to move up and down by driving the supporting rod to move up and down, so that the distance between the dispensing valve and the material is adjusted to be suitable for different dispensing requirements; the other side that the fixed plate top was kept away from the rubber coating driving piece is equipped with the diaphragm pump, the diaphragm pump is used for carrying the glue that the rubber coating needs for the dispensing valve, and when rubber coating work goes on, it is connected with dispensing valve top through the pipeline to send into the dispensing valve inside with glue.

Further, as a preferable technical scheme, the gluing mechanism further comprises a storage barrel and a pressure regulating valve, wherein the storage barrel is used for storing glue, and the pressure regulating valve is used for regulating the pressure of the diaphragm pump.

In the above technical scheme, the storage barrel is used for storing glue, the storage barrel is connected with the diaphragm pump through the pipeline, the diaphragm pump draws out the glue in the storage barrel, and sends to the dispensing valve, the pressure regulating valve is used for controlling the pressure of diaphragm pump, adjusts the flow of glue.

Further, as the preferable technical scheme, the material receiving mechanism comprises a drying device, a hollow platform connected with the discharging slideway is arranged inside the drying device, a material receiving platform is arranged at the discharging end of the drying device, a material receiving tray is arranged on the material receiving platform, and the material receiving tray is kept flush with the hollow platform of the drying device.

In the technical scheme, the drying device is used for drying the material subjected to gluing, accelerating the solidification of the glue and ensuring the gluing effect, a hollow platform is arranged in the drying device, the hollow platform is connected with one end of the discharging slideway, which is far away from the material clamp, and the material subjected to gluing enters the hollow platform through the discharging slideway under the pushing action of the push rod; the receiving platform is arranged in parallel with the drying device, a receiving tray is arranged on the receiving platform, and the receiving tray is kept flush with the hollow platform of the drying device and is detachably connected with the receiving platform.

Further, as the preferable technical scheme, one side of the drying device far away from the material receiving disc is provided with a movable pushing plate, and the movable pushing plate is in sliding connection with the hollow platform.

In the above technical scheme, receive the charging tray and keep the parallel and level with drying device's cavity platform, drying device keeps away from one side of receiving the charging tray and is equipped with movable push plate, movable push plate cooperatees with cavity platform to constitute sliding connection with it, movable push plate can be in slide back and forth in the cavity platform, the material of cavity platform is advanced to the ejection of compact slide, after drying device accomplishes drying process, through movable push plate is released to the receiving tray of opposite side on, collects, the receiving tray is kept away from one side of drying device is equipped with the receipts material handle, conveniently receive the charging tray after full material of receiving tray takes out.

Further, as a preferable technical scheme, a plurality of air blowing devices are arranged on the drying device, and the air blowing devices are communicated with the hollow platform inside.

In the above technical scheme, drying device top is equipped with a plurality of blast apparatus, blast apparatus's air outlet is linked together with inside cavity platform, makes blast apparatus can blow in to cavity platform, dries or dry the material that the rubber coating is accomplished for glue design guarantees the rubber coating effect.

Compared with the prior art, the application has the following beneficial effects:

the protection material, in this application material anchor clamps bottom is connected with rotary driving spare, and material anchor clamps are after pressing from both sides tight material, can drive the material that is pressed from both sides tight together rotatory under rotary driving spare's drive effect, accomplish rotatory rubber coating work, can not produce relative slip and friction between material anchor clamps and the material, effectively prevent that the material periphery from wearing and tearing from appearing, compare in prior art the inside at fixed anchor clamps of product, the rubber coating mode of rotating with the anchor clamps relatively can effectively protect material quality.

Machining efficiency is high, in this application the push rod is when pushing the material anchor clamps with the material, also can be simultaneously with accomplish the material of rubber coating in the material anchor clamps and release, in addition, the material anchor clamps are provided with more than one, ejection of compact slide and push rod correspond the setting, also can be in single ejection of compact slide one end corresponds and sets up a plurality of material anchor clamps to can realize multichannel synchronous rubber coating and ejection of compact work, show promotion machining efficiency.

Drawings

Fig. 1 is a perspective view of an embodiment of the present application.

Fig. 2 is an enlarged view of the position a in fig. 1.

Fig. 3 is a front view of an embodiment of the present application.

Fig. 4 is a top view of fig. 3.

Reference numerals in the drawings:

a feeding mechanism; 110-vibrating feeding tray; 111-feeding tracks; 120-conveyor belt;

a gluing mechanism; 210-push rod; 211-clamping grooves; 212-connecting rod; 213-sensor; 220-material clamp; 230-a discharge slideway; 240-dispensing valve; 241-struts; 250-fixing plate; 260-a diaphragm pump; 270-a storage tub; 280-a pressure regulating valve;

a material receiving mechanism; 310-a drying device; 311-air blowing device; 320-a material receiving platform; 321-a receiving tray; 322 a receiving handle; 330-active push plate.

400-a rotary drive; 410-lifting drive; 420-pushing driving piece; 430-glue drive.

Detailed Description

The rotary gumming device of the present utility model will be described in further detail below with reference to specific embodiments and accompanying drawings.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, a rotary glue spreading device includes a feeding mechanism 100, a glue spreading mechanism 200 and a receiving mechanism 300 sequentially connected, where the glue spreading mechanism 200 is provided with more than one material clamp 220, a glue dispensing valve 240 is disposed between the material clamp 220 and the receiving mechanism 300, the material clamp 220 is connected with a rotary driving member 400, a push rod 210 is disposed on a side of the material clamp 220 away from the discharge slide 230, the push rod 210 is connected with a push rod driving member, an opening penetrating the material clamp 220 is disposed on the material clamp 220, the opening cooperates with the push rod 210 and the discharge slide 230, the push rod 210 pushes material from the opening on one side of the material clamp 220 to the material clamp 220, glue is spread by the glue dispensing valve 240 above the material clamp 220, and the glued material is pushed out of the discharge slide 230 by the push rod 210 and enters the receiving mechanism 300.

In this embodiment, the application includes a feeding mechanism 100, a gluing mechanism 200, and a receiving mechanism 300, where the feeding mechanism 100, the gluing mechanism 200, and the receiving mechanism 300 are sequentially connected, the feeding mechanism 100 is used to send a material to the gluing mechanism 200, and the gluing mechanism 200 is provided with at least one material clamp 220 for clamping the material sent by the feeding mechanism 100, a dispensing valve 240 is disposed above the material clamp 220 and is used to glue the material, a rotary driving member 400 is connected to the bottom of the material clamp 220, and after the material clamp 220 clamps the material, the material clamp 220 can be driven by the driving member 400 to rotate together so as to perform annular gluing, while in the prior art, after the material clamp is limited, the clamp for fixing the material is driven to rotate so as to complete annular gluing, in this way, relative sliding is generated between the material and the clamp, so that friction damage occurs around the product, and the quality of the material is affected. In addition, two sides of the material fixture 220 are respectively provided with a corresponding discharging slideway 230 and a pushing rod 210, the discharging slideway 230 is located at one side close to the material receiving mechanism 300 and is connected with the material receiving mechanism 300, the pushing rod 210 is located at one side close to the material feeding mechanism 100, two openings distributed in opposite directions are formed in the material fixture 220, and due to the fact that the pushing rod 210 is connected with a pushing rod 210 driving piece, the pushing rod 210 can push materials to enter the material fixture 220 to be fixed through the openings, after the gluing operation is completed, the pushing rod 210 pushes the materials out of the material fixture 220 through the openings onto the discharging slideway 230 and pushes the materials onto the material receiving mechanism 300 along the discharging slideway 230 for processing and collecting, wherein the pushing rod 210 can push the materials which are glued in the material fixture 220 out at the same time when pushing the materials into the material fixture 220.

In this embodiment, it is preferable, but not limited to, that the number of the material clamps 220 is 2, and the number of the discharging slides 230 and the pushing rods 210 is also 2, and besides the arrangement and combination manner shown in this embodiment, that is, the manner that 1 discharging slide 230 corresponds to 1 material clamp 220, a plurality of material clamps 220 may be set at one end of a single discharging slide 230 according to the production requirement in the same direction, so that multi-channel synchronous gluing and discharging work can be implemented, and the processing efficiency is significantly improved.

In this embodiment, the rotation driving member 400 is a stepping motor, and the rotation angle of the stepping motor is accurate, so that fine adjustment can be realized, thereby facilitating accurate control of the rotation angle of the material clamp 220, enabling the opening to be accurately aligned with the directions of the discharge slideway 230 and the push rod 210, ensuring accurate pushing and normal operation.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, the feeding mechanism 100 includes a vibration feeding tray 110 and a conveyor belt 120, the vibration feeding tray 110 is provided with a feeding rail 111, one end of the feeding rail 111 is connected to the conveyor belt 120, and the conveyor belt 120 is located under the push rod 210.

In this embodiment, the feeding mechanism 100 includes a vibration feeding tray 110 and a conveyor belt 120, the vibration feeding tray 110 arranges materials, the materials are conveyed onto the conveyor belt 120 through the feeding rail 111, and the conveyor belt 120 conveys the arranged materials to the side of the material fixture 220, and waits for the push rod 210 to convey the materials into the material fixture 220.

In this embodiment, preferably, a sensor 213 is disposed on the feeding track 111, for monitoring the material conveying situation, so as to ensure that the materials are sent to the conveyor belt 120 according to the arrangement requirement.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, a clamping groove 211 is formed at the bottom of the push rod 210, for pushing the material on the conveyor 120 into the material holder 220, and a sensor 213 is disposed above the push rod 210.

In this embodiment, a clamping groove 211 is formed at the bottom of the push rod 210, and the clamping groove 211 is used for clamping the material on the conveyor belt 120 and sending the material to the material fixture 220, wherein when the push rod 210 works, the top part of the push rod 210, which is close to the material fixture 220, moves forward, and in the process of pushing the material with glue coated to the material receiving mechanism 300, the clamping groove 211 at the bottom of the push rod 210 also clamps and sends the material on the conveyor belt 120 to the material fixture 220, so that the synchronous picking and placing of the material is realized, and the processing efficiency is greatly improved; a sensor 213 is disposed above the push rod 210, and preferably, the sensor 213 employs a photoelectric detection switch for detecting whether the material on the conveyor belt 120 is in place.

In this embodiment, preferably, a groove is disposed at an end of the push rod 210 near the material fixture 220, so as to prevent the push rod 210 from colliding with the dispensing valve 240 when pushing out the material.

In this embodiment, preferably, according to the number of the material holders 220, 2 pushing rods 210 are provided, in order to make each pushing rod 210 move synchronously, one end of the pushing rod 210 away from the material holder 220 is fixed on a connecting rod 212, the connecting rod 212 is connected with the driving member of the pushing rod 210, and the connecting rod 212 drives the pushing rod 210 to move under the driving of the driving member of the pushing rod 210.

In this embodiment, it is preferable, but not limited to, that 1 clamping groove 211 is provided on each push rod 210, and the number of material clamps 220 corresponding to a single discharge slideway 230 can be increased according to production requirements, so that the number of clamping grooves 211 on a single push rod 210 is correspondingly increased, and the processing efficiency is improved.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, the push rod 210 driving member includes a pushing driving member 420 and a lifting driving member 410 for driving the push rod 210 to move back and forth and up and down.

In this embodiment, the driving members of the push rod 210 include a pushing driving member 420 and a lifting driving member 410, preferably, the lifting driving member 410 is fixed on the pushing driving member 420, the lifting driving member 410 is driven to move forward and backward by the pushing driving member 420, the lifting driving member 410 is connected to the connecting rod 212 of the fixed push rod 210, the pushing driving member 420 is used to drive the lifting driving member 410 to move forward and backward, so as to drive the push rod 210 to move forward and backward in the material clamp 220 and the discharging slideway 230, the lifting driving member 410 is used to lift the push rod 210, so that the material on the conveyor belt 120 is avoided, after the sensor 213 detects that the material on the conveyor belt 120 is in place, the push rod 210 is lifted first, then moves forward, the material on the conveyor belt 120 is pushed out by the clamping groove 211 at the bottom, the material on the conveyor belt 120 is pushed out and placed by the material clamp 220, and then reset is repeated.

In this embodiment, preferably, the pushing driving member 420 and the lifting driving member 410 are cylinders, and other driving members that meet the conditions may be selected besides the cylinders.

Referring to fig. 1 to 2, in a preferred embodiment of the present utility model, a glue driving member 430 is disposed above the dispensing valve 240, and the glue driving member 430 is connected to the dispensing valve 240 through a strut 241.

In this embodiment, preferably, the glue spreading driving member 430 is an air cylinder, the glue dispensing valve 240 is detachably connected with the supporting rod 241, and the supporting rod 241 is connected with the driving end of the glue spreading driving member 430 and is driven by the glue spreading driving member 430 to move up and down, so as to drive the glue dispensing valve 240 to move, thereby meeting the glue spreading requirement.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, a fixing plate 250 is disposed at one side of the material holder 220, the glue driving member 430 is connected to an upper portion of the fixing plate 250 at one side of the material holder 220, and a diaphragm pump 260 is connected to an upper portion of the fixing plate 250 at one side thereof remote from the material holder 220.

In this embodiment, the fixing plate 250 is disposed on one side of the material fixture 220, the fixing plate 250 is connected with a supporting rod 241, the supporting rod 241 is slidably connected with the fixing plate 250, and may perform up-down interaction, one end of the supporting rod 241 away from the fixing plate 250 is detachably connected with the dispensing valve 240, and the dispensing driving member 430 may drive the dispensing valve 240 on the supporting rod 241 to move up and down by driving the supporting rod 241 to move up and down, so as to adjust the distance between the dispensing valve 240 and the material, so as to be suitable for different dispensing requirements; the other side of the top of the fixing plate 250, which is far away from the glue spreading driving member 430, is provided with a diaphragm pump 260, and the diaphragm pump 260 is used for delivering glue needed for spreading glue to the glue dispensing valve 240, and is connected with the top of the glue dispensing valve 240 through a pipeline when the glue spreading work is performed, so that the glue is delivered into the glue dispensing valve 240.

In this embodiment, preferably, the diaphragm pump 260 is a pneumatic diaphragm pump, and in addition, in order to facilitate the pumping of the glue in the storage tub 270, the diaphragm pumps 260 are all disposed on the fixing plate 250 near one side of the storage tub 270.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, the glue applying mechanism 200 further includes a storage tank 270 and a pressure regulating valve 280, wherein the storage tank 270 is used for storing glue, and the pressure regulating valve 280 is used for regulating the pressure of the diaphragm pump 260.

In this embodiment, the storage tank 270 is used for storing glue, the storage tank 270 is connected to the diaphragm pump 260 through a pipeline, the diaphragm pump 260 pumps out the glue in the storage tank 270 and sends the glue to the dispensing valve 240, and the pressure regulating valve 280 is used for controlling the pressure of the diaphragm pump 260 and regulating the flow rate of the glue.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, the material receiving mechanism 300 includes a drying device 310, a hollow platform connected to the material outlet chute 230 is disposed inside the drying device 310, a material receiving platform 320 is disposed at a material outlet end of the drying device 310, and a material receiving tray 321 is disposed on the material receiving platform 320, and the material receiving tray 321 is kept flush with the hollow platform of the drying device 310.

In this embodiment, the drying device 310 is configured to dry the material after the glue is applied, accelerate the glue to solidify, and ensure the glue application effect, and a hollow platform is disposed inside the drying device 310, and is connected to one end of the discharge chute 230, which is far away from the material fixture 220, so that the material after the glue application enters the hollow platform through the discharge chute 230 under the pushing action of the push rod 210; the material receiving platform 320 is arranged in parallel with the drying device 310, and is provided with a material receiving disc 321, and the material receiving disc 321 is kept flush with the hollow platform of the drying device 310 and is detachably connected with the material receiving platform 320.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, a movable pushing plate 330 is disposed on a side of the drying device 310 away from the receiving tray 321, and the movable pushing plate 330 is slidably connected to the hollow platform.

In this embodiment, the material receiving tray 321 is kept flush with the hollow platform of the drying device 310, a movable pushing plate 330 is disposed on one side of the drying device 310 away from the material receiving tray 321, the movable pushing plate 330 is matched with the hollow platform and is in sliding connection with the hollow platform, the movable pushing plate 330 can slide back and forth in the hollow platform, the material discharging slideway 230 feeds into the hollow platform, after the drying device 310 completes the drying treatment, the material is pushed out to the material receiving tray 321 on the other side through the movable pushing plate 330 to be collected, and a material receiving handle 322 is disposed on one side of the material receiving tray 321 away from the drying device 310, so that the material receiving tray 321 is conveniently taken out after the material receiving tray 321 is filled with the material.

In this embodiment, the movable pushing plate 330 is an air cylinder, and pushes the material in the hollow platform out onto the material receiving tray 321 through the reciprocating motion of the air cylinder.

Referring to fig. 1 to 4, in a preferred embodiment of the present utility model, a plurality of air blowing devices 311 are provided on the drying device 310, and the air blowing devices 311 are in communication with the hollow platform inside.

In this embodiment, the top of the drying device 310 is provided with a plurality of air blowing devices 311, and an air outlet of each air blowing device 311 is communicated with the hollow platform inside, so that each air blowing device 311 can blow air into the hollow platform, and the material after the glue coating is dried or dried, so that the glue is shaped, and the glue coating effect is ensured.

In this embodiment, preferably, the blower 311 is a fan, and the blower 311 is provided with 4 blower units and distributed in 2 rows and 2 columns.

In the description of the present utility model, it should be understood that the terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

While the utility model has been described in conjunction with the specific embodiments above, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, all such alternatives, modifications, and variations are included within the spirit and scope of the following claims.

Claims (10)

1. The utility model provides a rotatory rubber coating device, includes feeding mechanism, rubber coating mechanism and the receiving mechanism that connects gradually, its characterized in that, rubber coating mechanism is equipped with more than one material anchor clamps, be equipped with the ejection of compact slide between material anchor clamps and the receiving mechanism, material anchor clamps top is equipped with the dispensing valve, material anchor clamps are connected with rotary driving piece, one side that ejection of compact slide was kept away from to the material anchor clamps is equipped with the push rod, the push rod is connected with the push rod driving piece, be equipped with the opening that link up material anchor clamps on the material anchor clamps, the opening with push rod and ejection of compact slide cooperate, the push rod pushes the material from the opening part of material anchor clamps one side to material anchor clamps, carries out the rubber coating to the material by the dispensing valve of material anchor clamps top, and the material after the rubber coating is released out through ejection of compact slide back entering receiving mechanism by the push rod.

2. The rotary gumming device of claim 1, wherein the feeding mechanism comprises a vibratory feeding tray and a conveyor belt, the vibratory feeding tray is provided with a feeding track, one end of the feeding track is connected with the conveyor belt, and the conveyor belt is located below the push rod.

3. The rotary gumming device of claim 2, wherein a clamping groove is formed in the bottom of the push rod for pushing materials on the conveyor belt into the material clamp, and a sensor is arranged above the push rod.

4. A rotary gumming device as set forth in claim 1, wherein said push rod driving member includes a pushing driving member and a lifting driving member for driving said push rod to move back and forth and up and down.

5. The rotary gumming device of claim 1, wherein a gumming driving member is arranged above the gumming valve, and the gumming driving member is connected with the gumming valve through a supporting rod.

6. The rotary gumming device of claim 5, wherein a fixed plate is arranged on one side of the material clamp, the gumming driving member is connected to the fixed plate at an upper portion of one side of the material clamp, and a diaphragm pump is connected to an upper portion of one side of the fixed plate away from the material clamp.

7. The rotary gumming device of claim 6, wherein said gumming mechanism further comprises a storage barrel for storing glue and a pressure regulating valve for regulating the pressure of said diaphragm pump.

8. The rotary gumming device of claim 1, wherein the material receiving mechanism comprises a drying device, a hollow platform connected with the material discharging slide way is arranged inside the drying device, a material receiving platform is arranged at a material discharging end of the drying device, a material receiving tray is arranged on the material receiving platform, and the material receiving tray is kept level with the hollow platform of the drying device.

9. The rotary gumming device of claim 8, wherein a movable push plate is provided on a side of the drying device remote from the receiving tray, the movable push plate being slidably connected to the hollow platform.

10. Rotary gumming device according to claim 9, characterized in that said drying means are provided with a plurality of blowing means communicating with the hollow platform inside.