CN214938815U - Paper pulp molding hot-pressing shaping device capable of feeding and discharging rapidly - Google Patents

Abstract

The utility model relates to a pulp molding hot-pressing shaping device capable of feeding and discharging rapidly, which comprises a frame, a movable mould device, a fixed mould device, an electric feeding and discharging device and a hydraulic station; the movable mould device is arranged at the bottom end in the rack through an oil cylinder and a telescopic rod; the fixed die device is fixedly arranged at the top end in the rack and is matched with the movable die device; the electric loading and unloading device is arranged between the movable die device and the fixed die device in a crossing manner; the hydraulic station is fixedly arranged on the top of the frame. The utility model adopts the double-layer shaping screen plate to alternately move and feed, thereby greatly shortening the feeding and discharging time and improving the production efficiency; the electric loading and unloading device is adopted to replace manual loading and unloading, so that the labor intensity and the labor cost are effectively reduced; and a set of motor drives two sets of shaping screens to move alternately at the same time, so that the equipment cost is reduced.

Description

Paper pulp molding hot-pressing shaping device capable of feeding and discharging rapidly

Technical Field

The utility model relates to a hot pressing setting device, concretely relates to go up paper pulp molding hot pressing setting device of unloading fast belongs to hot pressing setting equipment technical field.

Background

The pulp moulding is a stereo paper-making technology, which uses waste paper as raw material and moulds a certain shape of paper product by a special mould on a moulding machine. It has four major advantages: the raw materials are waste paper, including paperboard, waste paper box paper, waste white edge paper and the like, and the sources are wide; the manufacturing process is completed by the working procedures of pulping, adsorption molding, drying and shaping and the like, and is harmless to the environment; can be recycled and reused; the volume is smaller than that of the foamed plastic, and the foamed plastic can be overlapped and is convenient for transportation. The paper pulp molding can be used as a lunch box and tableware, and can be used as an industrial cushion package, and the development is very rapid. In the prior art, certain hot-pressing drying time is required for processing hot-pressed and shaped products, and hot-pressing shaping is a process which takes the longest time in the production process of paper pulp molded products. In the actual production process, the processes of adsorption molding, wet embryo transfer and the like are stopped and standby for most of time, and the production efficiency of the whole machine is generally low. And after the hot-pressing shaping work is finished, manual feeding and blanking are needed, so that the labor intensity is increased, and the labor cost is high.

How to provide one kind for this through electronic unloading of going up fast to improve the work efficiency of hot pressing design, reduce intensity of labour and cost of labor's paper pulp molding hot pressing setting device is the utility model discloses a research purpose.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a pulp molding hot pressing setting device of unloading fast replaces artifical unloading of going up through increasing electronic unloader, realizes improving the work efficiency that hot pressing was stereotyped, reduces intensity of labour and cost of labor's purpose.

For solving the prior art problem, the utility model discloses the technical scheme who adopts is:

a pulp molding hot-pressing shaping device capable of feeding and discharging quickly comprises a rack, a movable mold device, a fixed mold device, an electric feeding and discharging device and a hydraulic station; the movable mould device is arranged at the bottom end in the rack through an oil cylinder and a telescopic rod; the fixed die device is fixedly arranged at the top end in the rack and is matched with the movable die device; the electric loading and unloading device is arranged between the movable die device and the fixed die device in a crossing manner; the hydraulic station is fixedly arranged at the top of the frame; the electronic unloader that goes up include: the device comprises a sliding rod I and a sliding rod II which are respectively arranged at the bottom and the middle part of the electric feeding and discharging device, a transmission rack I which is arranged on the sliding rod I through a sliding bearing, a transmission rack II which is arranged on the sliding rod II through a sliding bearing, a screen plate support rod I which is fixedly arranged at the two ends of the transmission rack I, a screen plate support rod II which is fixedly arranged at the two ends of the transmission rack II, a driving motor which is fixedly arranged at one side of the electric feeding and discharging device, transmission gears which are arranged at the two sides of the electric feeding and discharging device through a bearing seat and a transmission shaft, a shaping screen plate I and a shaping screen plate II; positioning pins are arranged on the screen plate supporting rod I and the screen plate supporting rod II; the shaping screen plate I is fixed on the screen plate support rod I through a positioning pin; the shaping screen plate II is fixed on the screen plate support rod II through a positioning pin; the transmission gear is connected with the driving motor through a belt; the bottom and the top of the transmission gear are respectively meshed and connected with the transmission rack I and the transmission rack II.

Furthermore, the transmission rack I is a single-sided toothed rack, one side with teeth is arranged upwards, and the other side without teeth is arranged downwards; the screen plate supporting rod I is arranged at the bottom of the transmission rack I.

Furthermore, the transmission rack II is a single-sided toothed rack, one side with teeth is arranged downwards, and the other side without teeth is arranged upwards; the screen supporting rod II is arranged at the top of the transmission rack II.

Furthermore, a buffer rubber pad is sleeved on the locating pin.

Furthermore, the sliding rod I and the sliding rod II are both made of high-strength stainless steel materials with smooth mirror surfaces.

Furthermore, the moving die device and the fixed die device are respectively provided with a heating plate I and a heating plate II.

The utility model has the advantages that: 1. the double-layer shaping screen plate is adopted for alternately moving and feeding, so that the feeding and discharging time is greatly shortened, and the production efficiency is improved; 2. the electric loading and unloading device is adopted to replace manual loading and unloading, so that the labor intensity and the labor cost are effectively reduced; 3. and a set of motor drives two sets of shaping screens to move alternately at the same time, so that the equipment cost is reduced.

Drawings

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

Fig. 2 is a schematic diagram of the structure of the electric loading and unloading device of the present invention.

Fig. 3 is a schematic structural view of the electric loading and unloading device after the screen plate is taken off and shaped.

Fig. 4 is an installation schematic diagram of the cushion rubber pad of the present invention.

Fig. 5 is a partial enlarged view of the present invention.

Fig. 6 is a partial structure view of the present invention.

Fig. 7 is a schematic structural diagram of the hydraulic station of the present invention.

Wherein: the device comprises a frame 1, a moving die device 2, a fixed die device 3, an electric feeding and discharging device 4, a hydraulic station 5, an oil cylinder 6, an expansion rod 7, a sliding rod I401, a sliding rod II402, a sliding bearing 403, a transmission rack I404, a transmission rack II405, a screen plate support rod I406, a screen plate support rod II407, a positioning pin 408, a driving motor 409, a transmission gear 410, a shaping screen plate I411, a shaping screen plate II412, a buffer rubber cushion 413, a heating plate I201 and a heating plate II 301.

Detailed Description

In order to make the technical solution of the present invention more understandable to those skilled in the art, the present invention is further analyzed with reference to fig. 1 to 7.

As shown in fig. 1-7, a pulp molding hot-press molding device capable of feeding and discharging rapidly comprises a frame 1, a moving die device 2, a fixed die device 3, an electric feeding and discharging device 4 and a hydraulic station 5; the movable mold device 2 is arranged at the bottom end in the frame 1 through an oil cylinder 6 and an expansion rod 7, and the oil cylinder 6 is used for driving the movable mold device 2 to ascend and be matched with the fixed mold device 3; the fixed die device 3 is fixedly arranged at the top end in the frame 1 and is matched with the movable die device 2; the electric loading and unloading device 4 is arranged between the movable mould device 2 and the fixed mould device 3 in a crossing way; the hydraulic station 5 is fixedly arranged at the top of the frame 1, the hydraulic station 5 adopts a special hydraulic station for pulp molding, and the hydraulic station 5 is a hydraulic source device or a hydraulic device comprising a control valve and the like, wherein the hydraulic source device comprises a hydraulic pump, a driving motor, an oil tank, a direction valve, a throttle valve, an overflow valve and the like; the oil supply is carried out according to the flow direction, pressure and flow required by the driving device, the oil supply device is suitable for various machines with the driving device separated from a hydraulic station, the hydraulic station is connected with the driving device (an oil cylinder 6) by an oil pipe, and a hydraulic system can realize various specified actions; the electric loading and unloading device 4 comprises: a sliding rod I401 and a sliding rod II402 which are respectively arranged at the bottom and the middle part of the electric loading and unloading device 4, a transmission rack I404 which is arranged on the sliding rod I401 through a sliding bearing 403, a transmission rack II405 which is arranged on the sliding rod II402 through a sliding bearing 403, a screen plate support rod I406 which is fixedly arranged at the two ends of the transmission rack I404, a screen plate support rod II407 which is fixedly arranged at the two ends of the transmission rack II405, a driving motor 409 which is fixedly arranged at one side of the electric loading and unloading device 4, a transmission gear 410 which is arranged at the two sides of the electric loading and unloading device 4 through a bearing seat and a transmission shaft, a shaping screen plate I411 and a shaping screen plate II 412; positioning pins 408 are arranged on the screen plate supporting rod I406 and the screen plate supporting rod II 407; the shaping screen plate I411 is fixed on the screen plate support rod I406 through a positioning pin 408; the shaping screen plate II412 is fixed on the screen plate support rod II407 through a positioning pin 408; the transmission gear 410 is connected with a driving motor 409 through a belt; the bottom and the top of the transmission gear 410 are respectively meshed with a transmission rack I404 and a transmission rack II 405; the driving motor 409 drives the transmission gear 410 to rotate through a belt, so that the transmission gear rack I404 and the transmission gear rack II405 move alternately (since the transmission gear rack I404 and the transmission gear rack II405 are respectively meshed with the bottom and the top of the transmission gear 410, when the transmission gear 410 rotates, the movement directions of the transmission gear rack I404 and the transmission gear rack II405 are opposite), and thus the shaping screen plate I411 and the shaping screen plate II412 move alternately to feed and discharge alternately.

In this embodiment, the driving rack I404 is preferably a single-sided toothed rack, the toothed side is disposed upward (meshed with the bottom of the driving gear 410), and the non-toothed side is disposed downward; the screen support bar I406 is arranged at the bottom of the transmission rack I404 (namely, the screen support bar I406 is arranged on the side without teeth, so that the transmission gear 410 is prevented from colliding with the screen support bar I406 when the gear rack rolls).

In this embodiment, it is preferable that the driving rack II405 is a single-sided toothed rack, one side with teeth is disposed downward (engaged with the top of the driving gear 410), and the other side without teeth is disposed upward; the screen plate support rod II407 is arranged on the top of the transmission rack II405 (namely, the screen plate support rod II407 is arranged on the non-toothed surface, so that the transmission gear 410 is prevented from colliding with the screen plate support rod II407 when the gear and the rack roll).

In this embodiment, preferably, the positioning pin 408 is sleeved with a buffer rubber pad 413, and the buffer rubber pad is disposed between the shaping screen and the screen supporting rod to perform a buffering and damping function.

In this embodiment, the sliding rod I401 and the sliding rod II402 are preferably made of high-strength stainless steel with smooth mirror surfaces, which can ensure that the sliding bearing 403 can move smoothly and the sliding rod is not easy to deform.

In this embodiment, preferably, the moving die device 2 and the fixed die device 3 are respectively provided with a heating plate I201 and a heating plate II301 for providing heat for hot press forming.

The utility model discloses during the use, step one: placing the wet embryo product subjected to adsorption molding on a molding screen plate I411, driving a transmission gear 410 by a driving motor 409 to feed the molding screen plate I411, and simultaneously discharging a molding screen plate II 412; step two: when the shaping screen plate I411 enters a set working position, the hydraulic station 5 controls the oil cylinder 6 to drive the movable mould device 2 to ascend, and jacks up the shaping screen plate I411 to be matched with the fixed mould device 3 (the width and length of the movable mould plate of the movable mould device 2 are respectively smaller than the distance between the two transmission racks I404 and the distance between the two screen plate support rods I406, so that the shaping screen plate I411 is smoothly jacked up without colliding with the transmission racks I404 and the screen plate support rods I406 when the movable mould device 2 ascends), and then the hot-press shaping is carried out; step three: after the shaping is finished, the movable mold device 2 descends, and the shaping screen plate I411 descends along with the descending and falls on the positioning pin 408 of the screen plate support rod I406 (the shaping screen plate I411 is provided with a positioning hole matched with the positioning pin 408); a driving motor 409 (reversely rotates with the feeding process) drives a transmission rack 410 to enable the shaping screen plate I411 to be fed; and meanwhile, feeding the sizing screen II412 which is refilled, and repeating the second step and the third step. The utility model adopts the double-layer shaping screen plate to alternately move and feed, thereby greatly shortening the feeding and discharging time (reducing the original feeding time from 8 seconds to 2 seconds), and improving the production efficiency; the electric loading and unloading device is adopted to replace manual loading and unloading, so that the labor intensity and the labor cost are effectively reduced; a set of motor drives two sets of design otter boards alternate movement simultaneously, has reduced equipment cost, is fit for using widely.

The technical solutions provided by the present application are introduced in detail, and the principles and embodiments of the present application are explained herein by applying embodiments, and the descriptions of the embodiments are only used to help understand the method and the core ideas of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (6)

1. The utility model provides a pulp molding hot pressing setting device of unloading in quick which characterized in that: the device comprises a rack, a moving die device, a fixed die device, an electric loading and unloading device and a hydraulic station; the movable mould device is arranged at the bottom end in the rack through an oil cylinder and a telescopic rod; the fixed die device is fixedly arranged at the top end in the rack and is matched with the movable die device; the electric loading and unloading device is arranged between the movable die device and the fixed die device in a crossing manner; the hydraulic station is fixedly arranged at the top of the frame; the electronic unloader that goes up include: the device comprises a sliding rod I and a sliding rod II which are respectively arranged at the bottom and the middle part of the electric feeding and discharging device, a transmission rack I which is arranged on the sliding rod I through a sliding bearing, a transmission rack II which is arranged on the sliding rod II through a sliding bearing, a screen plate support rod I which is fixedly arranged at the two ends of the transmission rack I, a screen plate support rod II which is fixedly arranged at the two ends of the transmission rack II, a driving motor which is fixedly arranged at one side of the electric feeding and discharging device, transmission gears which are arranged at the two sides of the electric feeding and discharging device through a bearing seat and a transmission shaft, a shaping screen plate I and a shaping screen plate II; positioning pins are arranged on the screen plate supporting rod I and the screen plate supporting rod II; the shaping screen plate I is fixed on the screen plate support rod I through a positioning pin; the shaping screen plate II is fixed on the screen plate support rod II through a positioning pin; the transmission gear is connected with the driving motor through a belt; the bottom and the top of the transmission gear are respectively meshed and connected with the transmission rack I and the transmission rack II.

2. The pulp molding hot-press shaping device capable of feeding and discharging rapidly as claimed in claim 1, wherein: the transmission rack I is a single-sided toothed rack, one side with teeth is arranged upwards, and the other side without teeth is arranged downwards; the screen plate supporting rod I is arranged at the bottom of the transmission rack I.

3. The pulp molding hot-press shaping device capable of feeding and discharging rapidly as claimed in claim 1, wherein: the transmission rack II is a single-sided toothed rack, one side with teeth is arranged downwards, and the other side without teeth is arranged upwards; the screen supporting rod II is arranged at the top of the transmission rack II.

4. The pulp molding hot-press shaping device capable of feeding and discharging rapidly as claimed in claim 1, wherein: the locating pin is sleeved with a buffer rubber pad.

5. The pulp molding hot-press shaping device capable of feeding and discharging rapidly as claimed in claim 1, wherein: the sliding rod I and the sliding rod II are both made of high-strength stainless steel materials with smooth mirror surfaces.

6. The pulp molding hot-press shaping device capable of feeding and discharging rapidly as claimed in claim 1, wherein: the moving die device and the fixed die device are respectively provided with a heating plate I and a heating plate II.

Images