CN216182704U - Feeding mechanism of plastic uptake machine - Google Patents

Abstract

The utility model discloses a feeding mechanism of a plastic uptake machine, which comprises a conveying part and a clamping part, wherein the conveying part comprises a material clamping component and a transferring component, the material clamping component longitudinally moves between a material receiving station and a heating station, and the transferring component longitudinally moves between the heating station and a forming station; the clamping part divide into left clamping part and right clamping part, left side clamping part and right clamping part are all including centre gripping complex punch holder two and lower plate two, at the heating station, the clamping position of punch holder one and lower plate one, the clamping position of punch holder three and lower plate three all stagger the setting with the clamping position of punch holder two and lower plate two. By adopting the sectional feeding, the heating station and the forming station can operate simultaneously, thus improving the production efficiency.

Description

Feeding mechanism of plastic uptake machine

Technical Field

The utility model relates to an improved plastic suction machine device, in particular to a feeding mechanism of a box body plastic suction machine.

Background

The plastic sucking machine takes plastic plates as raw materials, and the plastic plates are heated and softened to be subjected to plastic sucking molding. At present, the existing plastic sucking machine mainly adopts manual discharging, the plastic sucking machine is divided into a left station and a right station, a heating zone is arranged in the middle, the plastic sucking machine feeds materials to the left side or the right side after heating, and finished products are manually taken after forming, so that the problems of large potential safety hazard, low efficiency, high labor cost and the like exist.

Disclosure of Invention

In view of the technical problems in the background art, the technical problem to be solved by the utility model is to provide a feeding mechanism of a plastic uptake machine, which improves the production efficiency and has a waste rejecting function.

In order to solve the technical problems, the utility model adopts the following technical scheme: this kind of feeding mechanism of plastic uptake machine, its characterized in that: comprises a conveying component which comprises

A conveying part which comprises

The clamping assembly longitudinally moves between the material receiving station and the heating station and is divided into a left clamping assembly and a right clamping assembly, the left clamping assembly and the right clamping assembly respectively comprise an upper clamping plate I and a lower clamping plate I which are in clamping fit,

the transfer assembly longitudinally moves between the heating station and the forming station and is divided into a left transfer assembly and a right transfer assembly, and the left transfer assembly and the right transfer assembly respectively comprise an upper clamping plate III and a lower clamping plate III which are matched in a clamping manner;

and the clamping part is arranged at the heating station, the clamping part is divided into a left clamping part and a right clamping part, the left clamping part and the right clamping part comprise an upper clamping plate II and a lower clamping plate II which are matched with each other in a clamping manner, and the clamping positions of the upper clamping plate I and the lower clamping plate I, the clamping positions of the upper clamping plate III and the lower clamping plate III are staggered with the clamping positions of the upper clamping plate II and the lower clamping plate II at the heating station.

The material feeding device adopts segmented feeding, materials are fed from the material receiving station to the heating station, the material clamping assembly and the material transferring assembly are respectively adopted from the heating station to the forming station, and the heating station and the forming station can operate simultaneously, so that the production efficiency is improved.

Preferably, the conveying component further comprises a first driving component for driving the first upper clamping plate and the first lower clamping plate to swing oppositely or reversely, when in clamping, the first driving component and the first lower clamping plate swing oppositely, the clamping component is closed and clamped, and when in opening, the first driving component and the second driving component swing reversely, and the clamping component opens; the opening and closing are realized in a swinging mode, so that the clamping opening for opening the upper clamping plate I and the lower clamping plate I is large, and the blanking is not influenced.

Preferably, the first driving assembly comprises an upper rotating shaft, a lower rotating shaft and a first power part, the first upper clamping plate and the second lower clamping plate are respectively arranged on the upper rotating shaft and the lower rotating shaft, gears which are meshed with each other are arranged on the upper rotating shaft and the lower rotating shaft, and the gears are in transmission connection with the power part. The power part I drives the gear to rotate, so that the upper rotating shaft and the lower rotating shaft rotate, the upper clamping plate I and the lower clamping plate I are driven to swing oppositely or reversely, the plates are clamped when the upper clamping plate I and the lower clamping plate I are closed, and the plates are opened and loosened.

Preferably, the clamping position of the upper clamping plate II and the clamping position of the lower clamping plate II are arranged on the inner side of the clamping position of the upper clamping plate I and the clamping position of the lower clamping plate I, and the conveying component further comprises a driving component II for driving the upper clamping plate I and the lower clamping plate I to swing oppositely or reversely.

Preferably, a waste removing part is arranged below the conveying part, and the waste removing part comprises

The conveying belt ascends and descends between the feeding station and the receiving station;

a specification detection component;

and the controller is used for controlling the conveying of the conveying belt, and the specification detection assembly and the conveying part are connected with the controller.

The conveyer belt connects the material back at the unloading station, and specification test component detects the panel of receiving, if unqualified panel of size, the conveyer belt sees off it, if qualified in size, then the conveyer belt rises to connecing the material station, presss from both sides the centre gripping of material subassembly with panel both sides to send the material to the heating station by pressing from both sides the material subassembly, realized automatic inspection rejects function, guarantee product quality, improved the product percent of pass.

Preferably, the specification detection assembly comprises a left sensor, a right sensor, a front sensor and a rear sensor which are arranged on the rack; the left sensor and the right sensor can move transversely on the rack, and the front sensor and the rear sensor can move longitudinally on the rack. The position of each sensor is adjusted according to the size requirement, the specification of the material is detected through each sensor, the collected information is sent to the controller, and the controller sends instructions to the conveying belt and the clamping assembly.

Preferably, the conveying belt is divided into a left conveying belt and a right conveying belt, a supporting platform is arranged between the left conveying belt and the right conveying belt, and the conveying belt and the supporting platform are arranged on the lifting seat; the left and right conveying belts can support materials and can convey materials, the left and right conveying belts are arranged more stably, the supporting platform plays an auxiliary role, the middle position of the plate is supported, and the plate is prevented from being affected by droop in shape, detection and conveying.

Preferably, the conveying part also comprises a first conveying component for driving the clamping component to move back and forth, a second conveying component for driving the transferring component to move back and forth, and a guide component for the clamping component and the transferring component to move longitudinally; the material clamping assembly and the transferring assembly longitudinally move on the same guide assembly, and the structure is compact and reasonable.

Preferably, the conveying component further comprises a finished product output assembly which longitudinally moves between the forming station and the discharging station, the finished product output assembly is divided into a left finished product output assembly and a right finished product output assembly, and the left finished product output assembly and the right finished product output assembly respectively comprise an upper clamping plate four and a lower clamping plate four which are in clamping fit. After the material is formed, the material is sent out through the finished product output assembly, manual operation is omitted, and production efficiency is further improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the transfer unit of the present invention at a blanking station.

Fig. 3 is a schematic view of the conveying component of the utility model at a receiving station.

Fig. 4 is a schematic view of the clamping assembly of the present invention 1.

Fig. 5 is a schematic view 2 of the clamping assembly of the present invention.

Fig. 6 is a left side view of the left gripping member and left transfer assembly of the present invention.

Detailed Description

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings. In the figure, the X-axis direction is horizontal, the Y-axis direction is vertical, and the Z-axis direction is vertical.

The feeding mechanism of the plastic uptake machine comprises a conveying part, a material clamping part 6 and a waste removing part, wherein the conveying part comprises a material clamping component 5 longitudinally moving between a material receiving station 1 and a heating station 2 and a transfer component 7 longitudinally moving between the heating station 2 and a forming station 3, the material clamping component 5 is divided into a left material clamping component and a right material clamping component, and the left material clamping component and the right material clamping component respectively comprise an upper clamping plate I16 and a lower clamping plate I17 which are in clamping fit; the transfer assembly 7 is divided into a left transfer assembly and a right transfer assembly, and the left transfer assembly and the right transfer assembly respectively comprise an upper clamping plate III 25 and a lower clamping plate III 26 which are matched in a clamping manner; the material clamping component 6 is arranged at a heating station 2, the clamping component is divided into a left clamping component and a right clamping component, the left clamping component and the right clamping component comprise an upper clamping plate II 23 and a lower clamping plate II 24 which are matched with each other in a clamping manner, the clamping positions of an upper clamping plate I16 and a lower clamping plate I17, an upper clamping plate III 25 and a lower clamping plate III 26 are arranged in a staggered manner with the clamping positions of the upper clamping plate II 23 and the lower clamping plate II 24 at the heating station, see the attached drawing 1, when the material clamping component moves to the heating station 2, the clamping positions of the upper clamping plate II and the lower clamping plate II are arranged at the inner sides of the clamping positions of the upper clamping plate I and the lower clamping plate I, the clamping position and the heating station 2 are handed over, namely, after the material clamping component 6 clamps the material, the material clamping component 5 loosens the material, the material receiving station 1 is returned to the clamping component 6 for heating operation, at the moment, the material clamping component 7 is returned to the heating station 2, similarly, the clamping positions of the upper clamping plate II 23 and the lower clamping plate II 24 are arranged on the inner sides of the clamping positions of the upper clamping plate III and the lower clamping plate III, the material is clamped by the transfer assembly 7, after heating is completed, the material is loosened by the clamping part, the heated material is sent to the forming station 3 by the transfer assembly 7 for plastic suction operation, the new material is sent to the heating station 2 by the material clamping assembly 5, and the steps are repeated; the utility model adopts the sectional feeding, shortens the conveying stroke, and leads the heating station 2 and the forming station 3 to be capable of operating simultaneously, thereby improving the production efficiency. In order to further improve production efficiency, conveying part still includes finished product output assembly 8 at longitudinal movement between shaping station 3 and ejection of compact station 4, finished product output assembly divide into left finished product output assembly and right finished product output assembly, left side finished product output assembly and right finished product output assembly all include centre gripping complex punch holder four and lower plate four, it sends the material of heating to shaping station 3 to transmit subassembly 7 to after receiving the material by forming die, it then gets back to heating station 2 to transmit subassembly 7, and finished product conveying assembly 8 then moves to shaping station 3, with the material centre gripping, treat after the material plastic uptake shaping, again with fashioned product seeing off, so replaced manual operation, also further improved production efficiency.

The material clamping assembly 5, the transfer assembly 7, the finished product output assembly 8 and the clamping component 6 can adopt pneumatic clamps, namely an upper clamping plate and a lower clamping plate are driven by a cylinder to be pressed up and down; in this embodiment, the conveying component further comprises a first driving component for driving the first upper clamping plate and the first lower clamping plate to swing oppositely or reversely, when the first upper clamping plate 16 and the first lower clamping plate 17 swing oppositely, the clamping component is closed to clamp two sides of a material, when the first upper clamping plate and the first lower clamping plate swing reversely, the clamping component opens, the material is loosened or the material is placed at the open position to wait for being clamped, and the material is opened and closed in a swinging mode, so that the open clamping opening of the first upper clamping plate and the first lower clamping plate is larger, the first upper clamping plate and the first lower clamping plate are in a vertical state, a certain gap is formed between the clamping component and the material, the material can enter from the upper side, the lower side, the rear side or the front side of the clamping component and cannot collide with the clamping component, and therefore the clamping component can be opened and closed optimally in a swinging mode. See fig. 4 and 5, the first driving assembly includes an upper rotating shaft 18, a lower rotating shaft 19 and a first power part 27, the first upper clamping plate and the second lower clamping plate are respectively installed on the upper rotating shaft and the lower rotating shaft, the upper rotating shaft and the lower rotating shaft are provided with gears 15 which are meshed with each other, the gears are in transmission connection with one power part, the first power part can adopt cylinders, motors and the like, the first power part 27 drives the gears 15 to rotate, so that the upper rotating shaft 18 and the lower rotating shaft 19 synchronously and reversely rotate, then the first upper clamping plate 16 and the first lower clamping plate 17 are driven to swing or reversely swing, if the two swing in the opposite direction, the materials are closed, the materials are clamped, the material clamping assembly longitudinally moves to convey the materials to a heating station, if the two swing in the opposite direction, the materials are opened, the materials are loosened at the heating station, and the material clamping assembly is opened at the material receiving station 1 to wait for the materials. The conveying part also comprises a first conveying component for driving the clamping component to move back and forth, a second conveying component for driving the transferring component to move back and forth, a third conveying component for driving the finished product output component to move back and forth, and a guide component 9 for driving the clamping component, the transferring component and the finished product output component to move longitudinally.

The structures of the transfer assembly 7 and the finished product output assembly 8 can adopt the same structure as that of the material clamping assembly, the material is changed after being heated, and in order to increase the clamping effect, the clamping surface of the upper clamping plate or the lower clamping plate can adopt a tooth surface; referring to the attached drawing 6, the mounting positions of the upper clamp plate two 23 and the lower clamp plate two 24 of the clamping component are also at two sides of the frame, but the clamping positions of the upper clamp plate two 23 and the lower clamp plate two are at the inner sides of the upper clamp plate one and the lower clamp plate one, the models of the upper clamp plate two and the lower clamp plate two are larger, and the mounting ends are required to avoid the clamping component 5 and the transferring component 7, in the attached drawing, the upper clamp plate two 23 is fixedly mounted on the frame, the lower clamp plate two is driven by the driving component two to swing, the driving component two comprises a cylinder 20, a connecting rod one 21 and a connecting rod two 22, the cylinder is mounted on the frame, the connecting rod two is rotatably mounted on the frame, one end of the connecting rod one is connected with the cylinder, the other end of the connecting rod two is hinged with one end of the connecting rod two, the lower clamp plate two 24 is mounted at the other end of the connecting rod two 22, the cylinder extends out, the connecting rod one moves downwards to drive the connecting rod two to swing, so that the lower clamp plate two swing upwards and press-fit with the upper clamp plate two, and clamping is realized, otherwise, the cylinder retracts, the lower clamping plate II swings downwards, and the clamping part is opened.

The waste removing part comprises a conveying belt 10 which ascends and descends between a discharging station and a receiving station 1, a specification detection assembly 11 and a controller for controlling the conveying of the conveying belt, the specification detection assembly and the conveying part are connected with the controller, the controller controls the operation of the whole machine, the specification detection assembly sends detected plate size information to the controller, the controller compares the received information with pre-stored size information and finally sends an instruction to the conveying part and the conveying belt 10, namely, after the conveying belt receives materials at the discharging station, the specification detection assembly 11 detects the received materials, if the sizes are unqualified, the controller sends an instruction to the conveying belt 10 to drive the conveying belt 10, in order to avoid collision between the materials and the specification detection assembly, the conveying belt ascends, avoids the specification detection assembly, then sends out the materials, and uniformly collects the materials of the specifications, if the size is qualified, the conveying belt 10 rises to the material receiving station 1, the material clamping assembly 5 clamps the two sides of the material, and the material is conveyed to the heating station 2 through the material clamping assembly. The utility model can automatically remove the materials with inconsistent specifications, ensure the product quality and improve the product percent of pass. The conveying belt is divided into a left conveying belt and a right conveying belt, a supporting table 13 is arranged between the left conveying belt and the right conveying belt, the conveying belt and the supporting table are arranged on a lifting seat, and the lifting seat can be driven to lift through a screw rod mechanism and an air cylinder; left and right conveyer belt can hold in the palm the material, can pay-off again, and it is more stable to control to set up moreover, saddle 13 has then played the additional act, holds the intermediate position of panel, avoids panel because of flagging shape, the detection and the transport that influence panel. The specification detection component 11 can be detected by an image sensor or a position sensor, in this embodiment, the specification detection component comprises a left sensor, a right sensor, a front sensor and a rear sensor which are arranged on a rack, the left sensor, the right sensor, the front sensor and the rear sensor are respectively used for collecting the left position, the right position, the front position and the rear position of the material, and the controller calculates according to the collected position information to obtain the specification of the material and judges whether the specification is qualified. Because the finished product specification is different, required material specification also can change, for satisfying the detection of the material of different specifications, left side sensor and right sensor can lateral shifting in the frame, preceding sensor and back sensor can longitudinal movement in the frame, adjust the position of each sensor according to dimensional requirement, see figures 2 and 3, left side sensor, right sensor, preceding sensor and back sensor install respectively on left mounting panel, right mounting panel, preceding mounting panel and back mounting panel 12, are equipped with horizontal pole and screw rod one and the vertical pole and the screw rod two of vertical setting of horizontal setting in the frame, the screw thread handedness at screw rod one and two ends of screw rod is opposite, and both ends all set up the nut, and horizontal pole and vertical pole are equipped with the axle sleeve, left side mounting panel, right mounting panel are connected with last two nuts of screw rod one respectively, and with the axle sleeve connection on the horizontal pole, rotate screw rod one and make left mounting panel and right mounting panel along lateral shifting, and then adjusting the transverse positions of the left sensor and the right sensor, wherein similarly, the front mounting plate and the rear mounting plate are respectively connected with the two upper nuts of the second screw rod and are connected with the shaft sleeve on the longitudinal rod, and the second screw rod is rotated to enable the front mounting plate and the rear mounting plate to move longitudinally along the longitudinal rod, so that the longitudinal positions of the front sensor and the rear sensor are adjusted.

When the mechanism works, a conveying belt 10 waits for materials at a blanking station, the materials are placed on the conveying belt, a specification detection assembly 11 collects size information of the materials and sends the information to a controller, the controller calculates and judges whether the sizes of the materials are qualified or not, then the conveying belt rises to a material receiving station 1, unqualified products are produced, the conveying belt 10 transmits the materials to enable the materials to be conveyed backwards, the materials are qualified, an upper clamping plate 16 and a lower clamping plate 17 of a clamping assembly swing to be closed to clamp two sides of the materials, then the clamping assembly 5 moves forwards to a heating station 2, the clamping assembly 5 clamps two sides of the materials, clamping positions of the clamping assemblies are arranged on the inner sides of the upper clamping plate I and the lower clamping plate I, the upper clamping plate I and the lower clamping plate I swing reversely, the clamping assembly 5 is opened and moves backwards to the material receiving station 1 to wait for material receiving again, at the moment, the materials of the heating station are clamped by a clamping assembly 6, the material of shaping station 3 is then clamped by forming die, it clamps the material to shift on to heating station 2 to pass on the subassembly 7, finished product output assembly 8 moves on to shaping station 3 and with the material centre gripping, heating station and shaping station synchronous operation, and after the completion, material clamping assembly 5, material shifting assembly 7 and finished product output assembly 8 all move a station forward, and the fashioned material is sent to ejection of compact station by finished product output assembly promptly, and the material after passing on the subassembly and will heating is sent to the shaping station, material clamping assembly will connect the material of material station to the heating station, and the mould of shaping station is pushed down the material, and the material centre gripping is held to the clamping part of heating station, therefore after the pay-off, material clamping assembly, pass on subassembly and finished product output assembly all move a station backward, so repeatedly.

Claims (10)

1. The utility model provides a feeding mechanism of plastic uptake machine which characterized in that: comprises that

A conveying part which comprises

The clamping assembly longitudinally moves between the material receiving station and the heating station and is divided into a left clamping assembly and a right clamping assembly, the left clamping assembly and the right clamping assembly respectively comprise an upper clamping plate I and a lower clamping plate I which are in clamping fit,

the transfer assembly longitudinally moves between the heating station and the forming station and is divided into a left transfer assembly and a right transfer assembly, and the left transfer assembly and the right transfer assembly respectively comprise an upper clamping plate III and a lower clamping plate III which are matched in a clamping manner;

and the clamping part is arranged at the heating station, the clamping part is divided into a left clamping part and a right clamping part, the left clamping part and the right clamping part comprise an upper clamping plate II and a lower clamping plate II which are matched with each other in a clamping manner, and the clamping positions of the upper clamping plate I and the lower clamping plate I, the clamping positions of the upper clamping plate III and the lower clamping plate III are staggered with the clamping positions of the upper clamping plate II and the lower clamping plate II at the heating station.

2. The feeding mechanism of the vacuum forming machine according to claim 1, wherein: the conveying component further comprises a first driving component for driving the upper clamping plate and the lower clamping plate to swing oppositely or reversely, the first driving component and the lower clamping plate swing oppositely during clamping, the clamping component is closed and clamped, and the clamping component swings reversely and opens during opening.

3. The feeding mechanism of the vacuum forming machine according to claim 2, wherein: the first driving assembly comprises an upper rotating shaft, a lower rotating shaft and a first power part, the first upper clamping plate and the second lower clamping plate are respectively installed on the upper rotating shaft and the lower rotating shaft, a gear meshed with the upper rotating shaft and the lower rotating shaft is installed on the upper rotating shaft and the lower rotating shaft, and the gear is in transmission connection with the power part.

4. The feeding mechanism of the vacuum forming machine according to claim 2, wherein: the conveying component also comprises a driving component II for driving the upper clamping plate I and the lower clamping plate I to swing oppositely or reversely.

5. The feeding mechanism of the vacuum forming machine according to claim 1, wherein: a waste rejecting part is arranged below the conveying part and comprises

The conveying belt ascends and descends between the feeding station and the receiving station;

a specification detection component;

and the controller is used for controlling the conveying of the conveying belt, and the specification detection assembly and the conveying part are connected with the controller.

6. The feeding mechanism of the vacuum forming machine according to claim 5, wherein: the specification detection assembly comprises a left sensor, a right sensor, a front sensor and a rear sensor which are arranged on the rack.

7. The feeding mechanism of the vacuum forming machine according to claim 6, wherein: the left sensor and the right sensor can move transversely on the rack, and the front sensor and the rear sensor can move longitudinally on the rack.

8. The feeding mechanism of the vacuum forming machine according to claim 5, wherein: the conveyer belt divide into left conveyer belt and right conveyer belt, and is equipped with the saddle between the two, conveyer belt and saddle are installed on the seat that goes up and down.

9. The feeding mechanism of the vacuum forming machine according to claim 1, wherein: the conveying part also comprises a first conveying component for driving the clamping component to move back and forth, a second conveying component for driving the transferring component to move back and forth, and a guide component for the clamping component and the transferring component to move longitudinally.

10. The feeding mechanism of the vacuum forming machine according to claim 1, wherein: the conveying component further comprises a finished product output assembly which longitudinally moves between the forming station and the discharging station, the finished product output assembly is divided into a left finished product output assembly and a right finished product output assembly, and the left finished product output assembly and the right finished product output assembly respectively comprise an upper clamping plate four and a lower clamping plate four which are in clamping fit.

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