CN211941235U - Edge cutting device for plant fiber molded product - Google Patents

Abstract

The utility model relates to a trimming device for plant fiber molding products; the technical problem to be solved is to overcome the defects of the background technology, and provide the edge cutting device which can completely cut off the product and the waste edge without the coupling and the silk breaking after the edge cutting, prevent the waste edge from being sleeved on the periphery of the product and enable the waste edge to be positioned below the product, ensure that the product is not taken up and must be positioned at a fixed position after the edge cutting, and has the characteristics of stable work and simple structure. The technical scheme is as follows: the utility model provides a plant fiber molded products side cut device which characterized in that: this side cut device includes: the edge cutting die is provided with a stripper plate which can move up and down relative to the upper die body, and a stripper spring is arranged between the stripper plate and the edge cutting upper die; the lower die for trimming is provided with a plurality of positioning blocks capable of positioning products, and a positioning block spring is arranged between each positioning block and the corresponding lower mounting plate, so that the products after trimming are thoroughly separated from the waste edges cut off.

Description

Edge cutting device for plant fiber molded product

Technical Field

The utility model relates to a trimming device of a plant fiber (plant fiber for short; the same below) molding product comprising paper pulp; in particular to an automatic cutting device for the redundant edge of a plant fiber molding product and an automatic cutting device for a single product in a conjoined product.

Background

The actual edge of the produced plant fiber molding product has rough edges and large and small edges which often cannot meet the design requirements by the existing plant fiber molding production equipment; such as the outer edges of the same article, some local edges being larger than the designed edge of the article and some local edges being smaller than the designed edge of the article, or the edges having fine burrs, etc. In order to achieve a precise product shape or contour, the currently adopted method is to leave a certain amount of edge cutting on the product before edge cutting, and then cut off the redundant part of the product through the edge cutting, so as to obtain the product with the required shape or required requirement. The processes of cutting off the redundant parts of the products, cutting off the single products in the connected products, puncturing the products, leaving cuts or impressions on the products and the like are all classified into the edge cutting of the plant fiber molding products, and the edges cut off from the useful products are called waste edges.

At present, the trimming of plant fiber molded products at home and abroad has a great problem that a few fibers are also broken into filaments after trimming, the products and the waste edges cannot be completely disconnected, the products and the waste edges cannot be broken although the appearance is not influenced and the products are broken as soon as being pulled, but the products still carry the waste edges stuck with the edges to come out together when the products are taken out, the automatic separation of the products and the waste edges after trimming cannot be realized, and the efficiency is greatly influenced; even if the waste edge is completely cut off, the waste edge is sleeved on the periphery of the product, so that when the product is moved out after automatic trimming, the waste edge is sleeved on the product and then the product is moved out together, and the quality and the yield of the product are influenced.

In addition, when the plant fiber molding product is subjected to automatic trimming, another great problem exists, namely after trimming, when the trimming upper die is opened and moved upwards, the trimmed product is often clamped on the trimming upper die or the moved trimming upper die is lifted and falls off to deviate from the original position, so that the subsequent product can be continuously clamped or the product deviating from the original position cannot be automatically moved out, the positioning of the subsequent product is influenced, and the automatic trimming cannot be performed due to frequent stopping treatment. It is very difficult to solve the above problems.

To solve these trimming problems, it is necessary to: 1. designing an edge cutting device to separate the waste edge from the product after the product is subjected to edge cutting; 2. when the trimmed product is removed from the trimming die, the waste edge is preferably positioned at the lower position of the product; 3. the product after trimming is accurately positioned before trimming and must be in a fixed position after trimming; 4, in order not to affect the production speed, the above requirements must be completed in the trimming process.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome not enough that above-mentioned background art exists, provide one kind after cutting edge, goods and slitter edge break off completely and not the lotus root is disconnected silk even, the slitter edge no longer overlaps and make the slitter edge be located the goods below on the goods periphery to ensure that the goods is not taken up and must be in the side cut device of a fixed position after cutting edge, this side cut device should have job stabilization, simple structure's characteristics, in order to improve goods quality and production efficiency.

The utility model provides a technical scheme is:

the utility model provides a plant fiber molded products side cut device which characterized in that: this side cut device includes: the edge cutting die is provided with a stripper plate which can move up and down relative to the upper die body, and a stripper spring is arranged between the stripper plate and the edge cutting upper die; the lower die for trimming is provided with a plurality of positioning blocks capable of positioning products, and a positioning block spring is arranged between each positioning block and the corresponding lower mounting plate, so that the positioning blocks can move up and down relative to the lower die body, and the products and cut waste edges can be thoroughly separated after trimming.

The upper die body of the die on each trimming edge is respectively provided with an elastic body so as to eliminate the phenomenon of clamping the trimmed product by the upper die body.

The lower mold body contains: the lower die top side plate is positioned at the periphery of each positioning block, the top side plate spring vertically upwards applies force to the lower die top side plate, and the blade die with the cutting edge upwards fixed between the positioning block and the lower die top side plate for trimming; the positioning block can be positioned in the blade die in a vertically movable mode, and the lower die top edge plate can be positioned at the periphery of the blade die in a vertically movable mode so as to push the cut waste edge and the trimmed product to be higher than the blade die through the upward movement of the lower die top edge plate and the upward movement of the positioning block respectively.

The elastic body is a sponge block or a rubber block.

The utility model has the advantages that: in the trimming process, the slitter edge is thoroughly separated from the product, the slitter edge is ensured to be retained in the trimming lower die, the product is positioned above the trimming lower die, the slitter edge is positioned below the product, and the slitter edge is not adhered to the slitter edge when the product is automatically moved out, so that the product is ensured not to be taken up and positioned at a fixed position after trimming, the automation of trimming, moving out the product and removing the slitter edge is realized, and the product quality and the production efficiency are improved.

Drawings

FIG. 1 is a front view of a trimming device for a plant fiber molded product.

Fig. 2 is a schematic sectional view of the plant fiber molded product edge cutting device shown in fig. 1 in the direction from a-a.

Fig. 3 is a schematic view showing a structure of a die assembly state of the upper die and the lower die for trimming (trimming of the product, the slitter edge 3.2 is pressed by the stripper 1a against the lower die for trimming, and the slitter edge and the product are cut).

Fig. 4 is an enlarged view of a portion of the structure of fig. 3.

Fig. 5 is a schematic sectional view showing the structure of the trimming apparatus for trimming a plant fiber molded article by the blade flat cutting method (the blade is bent to the shape of the article and fixed to the lower die of the trimming).

Fig. 6 is a schematic sectional view showing the structure of the trimming apparatus for trimming a plant fiber molded product by the blade butt cutting method (shown in a state where the upper trimming die and the lower trimming die are closed and the blade is about to cut into the product to be cut).

Fig. 7 is an enlarged view of a portion of the structure of fig. 6.

Fig. 8 is a schematic structural view of a trimming device for a plant fiber molded product mounted on a trimming machine.

The reference numbers in the figures illustrate: 1-cutting an edge mould; 1.1-upper die body; 1.2-upper die mounting plate; 1.3-a discharge spring; 1.4-stripper plate guide post; 1.5-a limiting rod; 1 a-a stripper plate; 1 b-an elastomer; 2-trimming the lower die; 2.1-lower die body; 2.1.1-lower die top side plate; 2.1.2-blade holder plate; 2.1.3-top edge plate spring; 2.1.4-blade die; 2.1.5-knife pressing plate; 2.1.6-top edge plate limit guide rod; 2.2-positioning block; 2.3-locating block spring; 2.4-lower mounting plate; 2.5-positioning block guide post; 3-a product to be cut; 3.1-trimming the finished product; 3.2-slitter edge.

Detailed Description

The following further description is made with reference to the embodiments shown in the drawings.

The utility model provides a trimming device sets up a stripper 1a that can carry out relative movement from top to bottom for last die body 1.1 on the mould 1 of cutting edge, at the in-process of cutting edge, stripper 1a pushes down the slitter edge around every last die body 1.1 earlier, the in-process that last die body 1.1 continues to move down has promoted locating piece 2.2 and has moved down until the slitter edge is cuted off from the goods, when mould 1 die sinking moved up on the cutting edge, stripper 1a continues to push down the slitter edge until the locating piece jack-up and move up to the upper limit position that the edge of the back goods of cutting edge was higher than the slitter edge slightly, and after last die body 1.1 breaks away from the locating piece, stripper 1a just begins to move up and leaves the slitter edge that cuts off; the process completely separates the product after the edge cutting from the cut waste edge, and realizes that the waste edge is left on the lower die 2 of the edge cutting, thereby conveniently realizing that the product after the edge cutting is positioned on the cut waste edge. Conditions are created for taking the trimmed product and the waste edge respectively in the next step.

There are many ways to cut the fibers between the product and the scrap edge, two are typical: 1, a punching method is also called a shearing method, as shown in figures 3 and 4, when in trimming, an upper die body 1.1 is inserted into a lower die body 2.1, and the waste edge is sheared from a product like scissors; 2, blade flat cutting method, as shown in fig. 6 and 7.

Example 1 punching method

The edge cutting device for the plant fiber molding products shown in figure 1, figure 2 and figure 3 comprises an edge cutting upper die 1, an edge cutting lower die 2, a stripper plate 1a and a sponge. The trimming die 1 contains: an upper die body 1.1 and an upper die mounting plate 1.2.

The stripper plate 1a is arranged on the trimming die 1 through a stripper plate guide column 1.4, a limiting rod 1.5 and a discharge spring 1.3.

In the trimming apparatus using the die cutting method, as shown in fig. 2 and 3, in trimming, an upper die 1.1 of a trimming die 1 is inserted into a lower die 2.1 of a trimming die 2, and the upper die 1.1 and the lower die 2.1 are sheared with each other to cut off the waste selvage from the product. As shown in fig. 4, the outer side of the lower end surface of the upper die body 1.1 and the inner side of the upper end surface of the lower die body 2.1 cooperate with each other to form shearing, the outer side of the lower end surface of the upper die body 1.1 can be regarded as an upper knife edge, and the inner side of the upper end surface of the lower die body 2.1 can be regarded as a lower knife edge.

As shown in fig. 1, 2 and 8, the trimming die 1 is located right above the trimming lower die 2, the stripper plate 1a is mounted on the trimming die 1 through a stripper guide post 1.4 and a limiting rod 1.5, the upper die body 1.1 penetrates through the stripper plate 1a, or the stripper plate 1a is sleeved around the upper die body 1.1, the stripper plate 1a can slide up and down on the stripper guide post 1.4, that is, the stripper plate can move up and down relative to the upper die body 1.1 along the stripper guide post 1.4, the limiting rod 1.5 plays a role in limiting the stripper plate 1a to limit the lowest position of the stripper plate 1a relative to the upper die body 1.1, which is moved downward (the bottom end of the limiting rod penetrates through the through hole of the upper die mounting plate downward and then is fixedly connected with the stripper plate through a thread, and the nut head at the top end of the limiting rod is larger in diameter than the through hole, so as to be hooked at the top port of the through. Still be equipped with discharge spring 1.3 between stripper and the mould on the side cut, discharge spring 1.3 through the pre-compaction and have certain elasticity is compressed between stripper 1a and the last mould mounting panel 1.2 of mould 1 on the side cut, stripper 1a has down trend under the effect of discharge spring's 1.3 elasticity and self gravity, but stripper 1a has been held to gag lever post 1.5, prevent that stripper 1a from popping out from mould 1 on the side cut, gag lever post 1.5 plays limiting displacement to stripper 1a, restrict stripper 1a at a minimum extreme position for last die body 1.1.

The lower trimming die 2 comprises a lower die body 2.1, a positioning block 2.2, a positioning block spring 2.3, a lower mounting plate 2.4 and a positioning block guide post 2.5.

The whole shape or the local shape of the positioning block 2.2 is matched with the whole shape or the local shape of the product, so that the product 3 to be cut is accurately positioned on the lower die of the trimming edge. In the trimming process, a product to be cut is firstly sent to the positioning block 2.2 of the trimming lower die 2, and the product to be cut is accurately positioned on the positioning block 2.2 of the trimming lower die to wait for trimming.

The positioning blocks 2.2 are respectively installed on the lower installation plate 2.4 through positioning block guide pillars 2.5, the positioning blocks 2.2 are installed in the lower die body 2.1, or the lower die body 2.1 is sleeved around the positioning blocks 2.2, and each positioning block can be provided with one or more positioning block guide pillars 2.5. The positioning block 2.2 can slide up and down along the positioning block guide post 2.5, so that the positioning block can move up and down relative to the lower die body 2.1, the lower mounting plate 2.4 and other parts of the lower trimming die 2. A positioning block spring 2.3 is arranged between the positioning block and a lower mounting plate 2.4 of the trimming lower die, and the positioning block 2.2 is bounced up by the prepressing positioning block spring 2.3 with certain elasticity. The positioning block guide post 2.5 has a limiting effect at the same time, so that the positioning block spring 2.3 is prevented from ejecting the positioning block 2.2 from the trimming lower die 2, and the positioning block 2.2 is limited at a highest position relative to the lower die body 2.1 (the bottom end of the positioning block guide post downwards penetrates through a through hole of the positioning block and then is fixed on the lower mounting plate through a screw; a boss at the top end of the positioning block guide post is hooked with a top port of the through hole due to the fact that the diameter of the boss is larger than that of the through hole, so that the positioning block cannot be upwards separated from the positioning block guide post), and the highest position which can be reached by the positioning block. The lower die body 2.1 can also be used for directly guiding the positioning block 2.2 arranged in the lower die body 2.1, and the positioning block guide post 2.5 only has a limiting effect on the positioning block 2.2. The positioning block guide post 2.5 can only play a role in guiding the positioning block 2.2, and the limiting rod is additionally arranged to play a role in limiting the positioning block 2.2.

In the trimming process, a product to be cut is sent to a positioning block 2.2 of a trimming lower die 2 to wait for trimming, and the positioning block 2.2 enables a product 3 to be cut to be accurately positioned on the trimming lower die; the die 1 moves downwards on the trimming edge with the stripper plate 1a, and the lower end surface of the stripper plate 1a is slightly lower than the lower end surface of the upper die body 1.1, so that the lower end surface of the stripper plate 1a contacts the waste edge part of the product to be cut placed on the trimming lower die 2 first, and presses the waste edge of the product to be cut on the trimming lower die 2, in this embodiment, the waste edge of the product to be cut is pressed on the lower die body 2.1 on the trimming lower die 2. And the upper die body 1.1 of the edge cutting die 1 continuously moves downwards to press the positioning block 2.2 with the product, the upper die body 1.1 pushes the positioning block 2.2 with the product to move downwards and cut the waste edge, and the upper die body 1.1 stops moving downwards.

After finishing the side cut, the die 1 on the side cut moves up with the upper die body 1.1, at this moment, the locating piece 2.2 with the product after the side cut also begins to move up with the upper die body 1.1 under the effect of locating piece spring 2.3, the stripper 1a continues to compress the waste edge that downcuts on the die 2 under the effect of the elasticity of the stripper spring 1.3, until the locating piece jack-up and move up to the upper limit position of the product after the side cut, and the upper die body 1.1 breaks away from the locating piece, after the stripper 1a has slipped to the lowest limit position of the stop lever 1.5, the stripper 1a just follows the die on the side cut and shifts up and leaves the waste edge that downcuts. Namely, the discharging plate 1a moves up along with the upper die and leaves the cut waste edge after the following conditions are met: the positioning block jacks up the trimmed product and moves up to the upper limit position, the upper die body 1.1 is separated from the positioning block, and the stripper plate 1a slides to the lowest limit position of the limiting rod 1.5.

The process completely separates the product after the edge cutting from the cut waste edge, and realizes that the waste edge is left on the lower die 2 of the edge cutting, thereby conveniently realizing that the product after the edge cutting is positioned on the cut waste edge. Conditions are created for taking the trimmed product and the waste edge respectively in the next step.

The trimming die 1 moves up to the place with the stripper plate 1a, the trimmed products and the cut waste edges which are not adhered together are clearly moved out of the trimming lower die 2 layer by layer for respective classification and placement, and new products to be cut are sent to the positioning block 2.2 of the trimming lower die 2 to wait for trimming.

In the practical process, the following problem still occurs, after the trimming upper die 1 moves down to complete trimming, when the die is opened and moves up, the upper die body 1.1 which moves up after the die is opened often clamps the trimmed product to move up, or the product which is clamped by the upper die body which moves up to midway trimming falls down and deviates from the positioning block, namely after trimming, the trimmed product is usually not left on the positioning block 2.2 of the trimming lower die 2, but is sucked on the upper die body 1.1 or clamped on the upper die body 1.1 or falls down to deviate from the positioning block 2.2 after moving up. The consequences are: the following products can be continuously clamped on the upper die body 1.1, or the products which move upwards and fall off the offset positioning block 2.2 cannot be automatically moved out to hinder the positioning of the next batch of products to be cut, so that the trimming cannot be normally carried out and the machine must be stopped.

Through repeated tests, the problem that the product is absorbed or clamped on the upper die body 1.1 after the edge cutting can be thoroughly solved by installing the elastic body 1b (such as sponge or rubber block) on the edge cutting upper die 1.

As shown in fig. 2 and 3, sponges are respectively arranged in the upper die body 1.1 of the die 1 on each trimming edge, and the sponges can press products on the corresponding positioning blocks 2.2 when die assembly trimming is carried out.

A sponge is arranged in each upper die body 1.1, namely the sponge is arranged above each positioning block 2.2. Each group of sponge can be arranged on the upper die body 1.1 of the edge cutting die 1 and also can be arranged on the upper die mounting plate 1.2 of the edge cutting die 1. However, one piece or a group of sponges is arranged above each positioning block 2.2, so that each product can be kept on the positioning blocks 2.2 when the die is opened after trimming, and the phenomenon of 'belt clamping' that the product is clamped on the upper die body 1.1 or is carried by the upper die body 1.1 after trimming is eliminated.

Because the sponge has elasticity, in the process that the upper trimming die 1 moves downwards to be matched with the lower trimming die 2 to cut the waste edges, the sponge presses the product to be cut placed on the positioning block 2.2 before the upper die body 1.1 pushes and presses the positioning block 2.2 of the lower trimming die 2; after cutting off the waste edge, the edge cutting upper die 1 drives the upper die body 1.1 to move upwards, and the sponge can press the product after edge cutting on the positioning block 2.2 of the edge cutting lower die 2 in the rebound stretching process. After last die body 1.1 breaks away from locating piece 2.2, the sponge can also be pushed down the ready-cut product on locating piece 2.2 for a little time because of the extension of kick-backing, and die 1 takes last die body 1.1 to continue to shift up on cutting the edge, and the sponge is accomplished to kick-backing, ensures that the back of cutting edge back goods stays on locating piece 2.2, and the sponge follows and goes up die body 1.1 and shift up and leave the back goods of cutting edge. Other elastomers may be used, and the sponge is preferred because it is flexible and does not damage the surface of the article.

The sponge effectively prevents the problem that the product after edge cutting leaves the positioning block 2.2 of the lower die 2 when the die 1 on the edge cutting moves upwards. When the die 1 for trimming moves upwards during die opening, the product after trimming is ensured to be remained on the positioning block 2.2 of the lower die 2 for trimming, and the phenomenon of belt clamping of the upper die body 1.1 on the product after trimming is eliminated.

Example 2 blade Flat cutting method

As shown in fig. 5, 6 and 7, the lower die body 2.1 of the trimming lower die 2 of the blade flat cutting method is a combined structure, and the lower die body 2.1 comprises a lower die top edge plate 2.1.1, a blade fixing plate 2.1.2, a top edge plate spring 2.1.3, a blade die 2.1.4, a pressing knife plate 2.1.5 and a top edge plate limiting guide rod 2.1.6. The lower cutting edge of the lower die body 2.1 described in embodiment 1 is replaced by a blade die 2.1.4 formed by bending a blade, the blade is bent to form a closed blade die 2.1.4 which has the same shape as the edge of the product to be cut, the blade is bent into the closed blade die and always has a seam, and the seam can be one of the hidden troubles of the lotus broken filament connection between the product 3.1 and the waste edge 3.2 after the edge cutting caused by the continuous fiber cutting. A positioning block 2.2 is arranged in the closed blade die, a product to be cut is placed on the positioning block 2.2, and the upper die body 1.1 presses the edge of the product on the blade die 2.1.4, so that the waste edge of the product is cut. A slight difference from the die cutting method of example 1 is that the upper die body 1.1 is not inserted into the lower die body 2.1 to cut, but the lower end surface of the upper die body 1.1 as shown in fig. 7 presses the product to be cut with the waste edge against the blade die 2.1.4 to cut.

The structure of the lower mold body 2.1 is broken down into: a lower die top side plate 2.1.1; blade fixing plate 2.1.2; a top edge plate spring 2.1.3; blade 2.1.4; a knife pressing plate 2.1.5; the top edge plate is limited by the guide rod 2.1.6.

Except for the above differences from example 1, the other structure of the edge slitting device for plant fiber molded articles described in this example is substantially the same as that of example 1. As shown in fig. 5, 6 and 7, the stripper plate 1a is also mounted on the upper die 1 of the upper trimming die through a stripper guide post 1.4 and a limiting rod 1.5, the stripper plate 1a is sleeved around the upper die 1.1, the stripper plate can move up and down along the stripper guide post 1.4 relative to the upper die 1.1 of the upper trimming die 1, and the limiting rod 1.5 plays a role in limiting the stripper plate 1 a. A discharging spring 1.3 is arranged between the discharging plate and the trimming upper die.

The trimming lower die 2 comprises a lower die body 2.1; 2.2, positioning blocks; a positioning block spring 2.3; a lower mounting plate 2.4; and (5) positioning block guide posts 2.5.

The lower mold body 2.1 contains: the lower die top edge plate 2.1.1 is positioned at the periphery of each positioning block, the top edge plate spring 2.1.3 vertically upwards applies force to the lower die top edge plate, and the blade die 2.1.4 with a cutting edge upwards fixed between the positioning block and the lower die top edge plate for trimming; as can be seen in fig. 5: the blade die is clamped and fixed by a blade pressing plate 2.1.5 and a blade fixing plate 2.1.2, and the bottom end of a top side plate limiting guide rod 2.1.6 downwards passes through a through hole of a top side plate of the lower die and a top side plate spring and then is fixed on the blade fixing plate through threads; the top edge plate limiting guide rod is larger than the through hole due to the fact that the diameter of the boss at the top end of the top edge plate limiting guide rod is larger than that of the through hole, and therefore the top hole opening of the through hole is pulled by the hook, and the top edge plate of the lower die cannot be separated from the top edge plate limiting guide rod upwards.

In the trimming process, a product to be cut is firstly sent to the positioning block 2.2 of the trimming lower die 2, and the product to be cut is accurately positioned on the positioning block 2.2 of the trimming lower die to wait for trimming.

The positioning block 2.2 is arranged in a blade die 2.1.4 enclosed by the blades, and the positioning block 2.2 is arranged on the lower die 2 for trimming through a positioning block guide post 2.5. The positioning block 2.2 can move up and down along the positioning block guide post 2.5, so the positioning block can move up and down relatively relative to the blade die 2.1.4. A positioning block spring 2.3 is also arranged below the positioning block. The positioning block guide post 2.5 has a limiting function, so that the positioning block spring 2.3 is prevented from ejecting the positioning block 2.2 from the lower trimming die 2, the positioning block 2.2 is limited at a proper highest position relative to the blade die 2.1.4, the waste edge 3.2 of a product on the positioning block 2.2 is positioned above the upper edge of the blade die 2.1.4 and is slightly higher than the upper surface of the top side plate 2.1.1 of the lower die, a limiting rod of the positioning block can be additionally arranged, and the guiding function and the limiting function of the positioning block guide post 2.5 are separated.

The lower die top edge plate 2.1.1 is arranged on the blade fixing plate 2.1.2 through the top edge plate limiting guide rod 2.1.6 or is directly fixed on the lower mounting plate 2.4, and a top edge plate spring 2.1.3 is arranged between the lower die top edge plate 2.1.1 and the blade fixing plate 2.1.2. The lower die top edge plate 2.1.1 is sleeved around the blade die 2.1.4, the lower die top edge plate 2.1.1 can move up and down relative to the blade die 2.1.4 along the top edge plate limiting guide rod 2.1.6, and the top edge plate limiting guide rod 2.1.6 also plays a role in limiting the upper limit of the lower die top edge plate 2.1.1 at the same time, so that the highest position of the lower die top edge plate 2.1.1 in bouncing is limited.

In the trimming process, the product to be trimmed is sent to the positioning block 2.2 of the trimming lower die 2 to be trimmed and the like, and the positioning block 2.2 enables the product to be trimmed to be accurately positioned on the trimming lower die. The die 1 is moved downwards on the cutting edge with the stripper plate 1a, the lower end surface of the stripper plate 1a is slightly lower than the lower end surface of the upper die body 1.1, the lower end surface of the stripper plate 1a first contacts the waste edge part of the product to be cut placed on the lower cutting edge die 2 and presses the waste edge of the product to be cut on the lower die top edge plate 2.1.1 of the lower cutting edge die 2, because the elasticity of the top edge plate spring 2.1.3 is much greater than that of the stripper spring 1.3, the stripper spring 1.3 can contract further and the top edge plate spring 2.1.3 is hardly compressed further when the stripper plate 1a is pressed on the lower die top edge plate 2.1.1. At this time, the trimming upper die 1 continues to move downwards, the lower end surface of the upper die body 1.1 is firstly pressed to the product and the positioning block 2.2 and pushes the positioning block 2.2 to move downwards, then the lower end surface of the upper die body 1.1 is pressed to the lower die top edge plate 2.1.1, the upper die body 1.1 pushes the positioning block 2.2 and the lower die top edge plate 2.1.1 to move downwards together, the top edge plate spring 2.1.3 and the positioning block spring 2.3 are compressed, and the discharging plate 1a pressed on the lower die top edge plate 2.1.1 also moves downwards together with the lower die top edge plate 2.1.1 and the upper die body 1.1 until the upper die body 1.1 presses the edge of the product to be cut to the blade die 2.1.4 to cut the waste edge.

After trimming, the trimming die 1 moves up with the upper die body 1.1, at this time, the top edge plate spring 2.1.3 and the positioning block spring 2.3 rebound, and the lower die top edge plate 2.1.1 and the positioning block 2.2 move up with the upper die body 1.1. The upper die top edge plate 2.1.1 moves upwards and the positioning block 2.2 moves upwards to push the cut waste edge and the cut product to be cut to be higher than the blade die 2.1.4 respectively, the limit position of the upward movement of the positioning block 2.2 is slightly higher than the limit position of the upward movement of the lower die top edge plate 2.1.1, the positioning block 2.2 moves upwards first and then moves upwards to be positioned (reaching the upper limit position of the positioning block 2.2) after the lower die top edge plate 2.1.1 moves upwards to make the position where the cut product stays higher than the cut waste edge, the die 1 carries the upper die body 1.1 to continue moving upwards on the cut edge, the upper die body 1.1 is separated from the positioning block 2.2 carrying the cut product, and the discharging plate 1a continues to press the cut waste edge for 3.2 a little time under the action of the discharging spring 1.3 until the limiting rod 1.5 pulls the discharging plate 1a to. The process completely separates the product after the edge cutting from the cut waste edge, and realizes that the waste edge is left on the lower die 2 of the edge cutting, thereby conveniently realizing that the product after the edge cutting is positioned on the cut waste edge. Conditions are created for taking the trimmed product and the waste edge respectively in the next step.

The trimming die 1 moves up to the position with the stripper plate 1a, the trimmed product and the cut waste edge are moved out of the trimming lower die 2, and a new product to be cut is sent to the positioning block 2.2 of the trimming lower die 2 to wait for trimming.

Similarly, a set of sponges is arranged in each upper mold body 1.1 above each positioning block 2.2, and each set of sponges can press against the positioning block 2.2 during die assembly and trimming. When the trimming die 1 moves upwards during die opening, the trimmed product is ensured to be left on the positioning block 2.2 of the trimming lower die 2, and the phenomenon of belt clamping of the trimmed product by the upper die body 1.1 is eliminated.

Combining example 1 and example 2, the edge trimming process of the plant fiber molded article was performed according to the following steps:

1) the trimming upper die 1 with the stripper plate 1a moves downwards;

2) the stripper plate 1a contacts the waste edge part of the product to be cut placed on the lower trimming die 2 and presses the waste edge part of the product to be cut on the lower die body 2.1 of the lower trimming die 2;

3) the upper die body 1.1 continuously moves downwards to press the positioning block 2.2 with the product, the upper die body 1.1 pushes the positioning block 2.2 with the product to move downwards and cut off the waste edge, and the upper die body 1.1 stops moving downwards;

4) the edge cutting die 1 moves upwards together with the upper die body 1.1, the positioning block 2.2 with the cut product moves upwards along with the edge cutting die 1, and the discharging plate 1a continues to press the cut waste edge on the edge cutting lower die 2, so that the cut product is completely disconnected from the waste edge;

5) after moving up to the position, the positioning block 2.2 with the trimmed product continues to move up along with the upper die body 1.1 until the stripper plate 1a is separated from the waste edges and also moves up along with the upper trimming die, and the cut waste edges are left on the lower trimming die 2;

6) the trimming upper die with the stripper plate 1a moves up to the position;

7) the trimmed product and the cut waste edges are removed from the trimming lower die 2;

8) a new product to be cut is sent to a positioning block 2.2 of the lower trimming die 2 to wait for trimming;

9) and (5) repeating the steps 1 to 8, and repeatedly circulating the edge cutting operation.

Claims (4)

1. The utility model provides a plant fiber molded products side cut device which characterized in that: this side cut device includes: the edge cutting die comprises an edge cutting die (1) and an edge cutting lower die (2), wherein a discharging plate (1a) capable of moving up and down relative to an upper die body (1.1) is arranged on the edge cutting die (1), and a discharging spring (1.3) is arranged between the discharging plate (1a) and the edge cutting die (1); the lower die (2) for trimming is provided with a plurality of positioning blocks (2.2) capable of positioning products, and a positioning block spring (2.3) is arranged between each positioning block and the corresponding lower mounting plate (2.4) so that the positioning blocks (2.2) can move up and down relative to the lower die body (2.1), and the products and cut waste edges can be thoroughly separated after trimming.

2. The plant fiber molding trimming device according to claim 1, wherein: an elastic body (1b) is respectively arranged in an upper die body (1.1) of the die (1) on each cut edge so as to eliminate the clamping band phenomenon of the upper die body (1.1) on the product after the cut edge.

3. The plant fiber molding trimming device according to claim 2, wherein: the lower mold body (2.1) comprises: a lower die top side plate (2.1.1) positioned at the periphery of each positioning block, a top side plate spring (2.1.3) vertically applying force upwards to the lower die top side plate, and a blade die (2.1.4) with a cutting edge upwards fixed between the positioning block and the lower die top side plate for trimming; the positioning block (2.2) can be positioned in the blade die in a vertically movable mode, and the lower die top edge plate (2.1.1) can be positioned at the periphery of the blade die (2.1.4) in a vertically movable mode, so that the cut waste edges and the cut products are respectively pushed to be higher above the blade die (2.1.4) through the upward movement of the die top edge plate (2.1.1) and the upward movement of the positioning block (2.2).

4. The plant fiber molding trimming device according to claim 3, wherein: the elastic body is a sponge block or a rubber block.

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