CN211164167U - Multi-layer slicer - Google Patents

Abstract

The utility model relates to the technical field of processing of foaming materials, in particular to a multi-layer slicer, which comprises a plurality of groups of slicing mechanisms, wherein the groups of slicing mechanisms are sequentially arranged at intervals in the front-back sequence; the film cutting mechanisms comprise leading-in platforms, cutter belts and motors for driving the cutter belts, the leading-in platforms correspond to the cutter belts and are positioned on the front sides of the cutter belts, and the positions of the cutter belts are higher than those of the leading-in platforms corresponding to the cutter belts; the leading-in platforms of the film cutting mechanisms are sequentially arranged from front to back with a certain height difference, and the leading-in platforms are sequentially increased. The slicer is used for the layered slicing of the foam board, and can carry out multi-layer cutting on the foam mother board by one-time feeding; the defect that only one layer of plate can be cut at one time at present is overcome; the thickness of the multi-layer foam board cut each time is adjustable; uniformly cutting the plate; the work efficiency of providing different specification products to customer's demand has been improved.

Description

Multi-layer slicer

Technical Field

The utility model relates to a expanded material processing technology field, more specifically relate to a multilayer slicer.

Background

The foam board is a relatively important product in the market at present. Foam boards are used in many fields, and the specification and size of the foam board required for each field are different. In the preparation process of the foam board, the price is generally carried out according to the set specification, and then the post-processing cutting treatment is carried out according to the requirement. Such as foam boards cut to different thicknesses according to thickness requirements.

Currently, the cutting of foam boards with different thicknesses is generally performed layer by using a cutting knife, so that the mother board is not cut once, and a slicing procedure is required. Such processes result in lower efficiency and higher labor costs.

Therefore, aiming at the problem that the foam mother boards produced in batch at present are cut in different thicknesses, equipment with higher working efficiency is needed to meet the requirements of low cost and high efficiency in production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve present cystosepiment and cut the lower, the higher problem of cost of labor of efficiency that relates when being the board of different thickness, provide a multilayer slicer.

The multilayer slicer that the present case relates changes the present situation that can only set up one deck foam sheet at present in principle to the board of the different thickness of multilayer cuts simultaneously, thereby has greatly improved work efficiency, specifically, only needs once to pass through the machine with the foam mother board, just can obtain the panel of many different thickness.

The utility model provides a technical scheme that its technical problem adopted is:

a multilayer slicer comprises a plurality of groups of slicing mechanisms, wherein the groups of slicing mechanisms are sequentially arranged at intervals in a front-back sequence; the film cutting mechanisms comprise leading-in platforms, cutter belts and motors for driving the cutter belts, the leading-in platforms correspond to the cutter belts and are positioned on the front sides of the cutter belts, and the positions of the cutter belts are higher than those of the leading-in platforms corresponding to the cutter belts; the leading-in platforms of the film cutting mechanisms are sequentially arranged from front to back with a certain height difference, and the leading-in platforms are sequentially increased.

Preferably, a height adjusting mechanism is arranged below the introducing platform, and the top of the height adjusting mechanism is connected with the introducing platform for adjusting the relative height of the introducing platform.

Preferably, a pressing mechanism is arranged above the introducing platform, the pressing mechanism comprises a motorized pulley and a pressure adjusting mechanism for supporting and adjusting the motorized pulley, and the motorized pulley is arranged corresponding to the knife belt.

Preferably, each leading-in platform rear side all corresponds and is provided with the conveyer belt, and the one end of conveyer belt is located corresponding sword area below, and partial or whole conveyer belt slope sets up, and from top to bottom overall arrangement.

Preferably, the device further comprises a leading-out platform, and the leading-out platform is arranged corresponding to the tail end of the conveyor belt.

Preferably, the film cutting mechanism further comprises two guide wheels, the cutter belt is of an annular closed structure, and the cutter belt is sleeved on the two motors and the two guide wheels to form a rectangular structure.

Preferably, part or all of the conveyor belts are obliquely arranged from the leading-in platform through the closed cutter belts adjacent to the leading-in platform, and the rear ends of the conveyor belts are connected with the leading-out platform.

The utility model has the advantages that: the foam mother board can be subjected to multi-layer cutting by one-time feeding; the defect that only one layer of plate can be cut at one time at present is overcome; the thickness of the multi-layer foam board cut each time is adjustable; uniformly cutting the plate; the work efficiency of providing different specification products to customer's demand has been improved.

Drawings

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

Fig. 2 is a schematic view of the configuration structure of the knife belt of the present invention.

In the figure: the device comprises a film opening mechanism 101, a leading-in platform 102, a knife belt 103, a motor 104, a conveyor belt 105, a leading-out platform 106, a guide wheel 107, a height adjusting mechanism 108, a pressing mechanism 201, a motorized roller 202, a pressure adjusting mechanism 203 and a mother board 301.

Detailed Description

Further refinements will now be made on the basis of the representative embodiment shown in the figures. It should be understood that the following description is not intended to limit the embodiments to one preferred embodiment. On the contrary, it is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the embodiments as defined by the appended claims.

In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments in accordance with the embodiments. Although these embodiments are described in sufficient detail to enable those skilled in the art to practice the embodiments, it is to be understood that these examples are not limiting, such that other examples may be used and that corresponding modifications may be made without departing from the spirit and scope of the embodiments.

Specifically, referring to fig. 1 and 2, fig. 1 and 2 show a multi-layer slicer, as shown in fig. 1, the slicer includes a plurality of sets of slicing mechanisms 101, and a layer of plate material is sliced by the sets of slicing mechanisms 101 to be assembled and configured; the detailed settings are as follows: the film-opening mechanisms 101 of each group are sequentially arranged at intervals in a front-back order; each slitting mechanism 101 is used for slitting the entering foam mother board according to a certain thickness specification. Each group of the opening mechanisms 101 comprises a leading platform 102, a knife belt 103 and a motor 104 for driving the knife belt 103, wherein the leading platform 102 is used for leading in foam boards, and the foam boards after being led in enter the next opening mechanism 101 after being cut by the knife belt 103 for the next opening operation. Therefore, the lead-in platform 102 corresponds to the knife strip 103 and the lead-in platform 102 is located at the front side of the knife strip 103, and the lead-in platform 102 leads in the foam mother board for subsequent cutting by the knife strip 103. And the knife belt 103 is higher than the corresponding lead-in platform 102, and the thickness of the plate opened by the sheet opening mechanism 101 is determined according to the interval between the knife belt 103 and the lead-in platform 102. The lead-in platforms 102 of the respective film-opening mechanisms 101 are sequentially arranged at a certain height difference from front to back, and the respective lead-in platforms 102 are sequentially heightened. In this way, the original foam master can be integrally split in multiple thicknesses at one time.

The above-mentioned opening mechanism 101 further includes two guide wheels 107, the knife belt 103 is an annular closed structure, and the knife belt 103 is sleeved on the two motors 104 and the two guide wheels 107 to form a rectangular structure. As shown in fig. 2, two guide wheels 107 are located at the upper side, two motors 104 are located at the lower side, which together form four fixed points of a rectangle, and then the knife strip 103 is defined as a rectangular structure, and the knife strip 103 is driven by the motors 104 to rotate along the rectangle.

In order to adjust and confirm the thickness of the plurality of foam boards, a height adjusting mechanism 108 is arranged below the introducing platform 102, and the top of the height adjusting mechanism 108 is connected with the introducing platform 102 for adjusting the relative height of the introducing platform 102. By adjusting the relative height of the lead-in platform 102, the height difference between the platform and the knife band 103 is adjusted. Thereby changing the thickness of the sheet material being cut while passing through the slitting mechanism 101. In addition, as shown in fig. 1, a pressing mechanism 201 is disposed above the lead-in platform 102, and the pressing mechanism 201 is used for driving the foam mother board forward to enter the slicer, and is used for combining the foam board with the lead-in platform 102 to improve the thickness precision of the cut board. Specifically, the pressing mechanism 201 includes a motorized pulley 202 and a pressure adjustment mechanism 202 for supporting and adjusting the motorized pulley 202, and the motorized pulley 202 is disposed in correspondence with the blade 103. The motorized pulley 202 is driven by an external motor 104 or the like, the pressure adjustment mechanism 202 is arranged from top to bottom, and the distance between the motorized pulley 202 and the introduction platform 102 is adjusted by adjusting the pressure adjustment mechanism 202, thereby adjusting the precision of the thickness of the foam board to be cut or opened as a whole.

After the foam board is cut by the knife belt 103, the cut finished product needs to be led out, so that a conveyor belt 105 is correspondingly arranged on the rear side of each introduction platform 102, one end of each conveyor belt 105 is located below the corresponding knife belt 103, and part or all of the conveyor belts 105 are obliquely arranged and are arranged from top to bottom. Meanwhile, a leading-out platform 106 is also arranged, and the leading-out platform 106 is arranged corresponding to the tail end of the conveyor belt 105. Since the knife belt 103 is rectangular, a space is provided in the knife belt 103, part or all of the conveyor belt 105 is obliquely arranged from the introduction platform 102 through the closed knife belt 103 adjacent to the introduction platform, and the rear end of the conveyor belt 105 is connected with the discharge platform 106. Typically, the last conveyor 105 need not be tilted.

According to the multilayer slicer provided by the scheme, a foam mother board enters the first slicing mechanism 101, enters the first slicing mechanism 101 along the introduction platform 102 of the first slicing mechanism 101, is cut by the first group of knife belts 103, is sequentially cut by the second group of knife belts 103 and the third group of knife belts 103, and is finally cut into a plurality of layers of plates. The cut sheet is transported back along the conveyor 105 and finally guided out along the take-off platform 106 for subsequent collection. The multilayer slicer can divide the foam mother board into a plurality of layers at one time, has controllable precision and adjustable thickness, and greatly improves the manufacturing efficiency of products.

For purposes of explanation, specific nomenclature is used in the above description to provide a thorough understanding of the described embodiments. It will be apparent, however, to one skilled in the art that these specific details are not required in order to practice the embodiments described above. Thus, the foregoing descriptions of specific embodiments described herein are presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the embodiments to the precise form disclosed. It will be apparent to those skilled in the art that certain modifications, combinations, and variations can be made in light of the above teachings.

Claims (7)

1. A multi-layer slicer, comprising: the device comprises a plurality of groups of sheet-opening mechanisms, wherein the sheet-opening mechanisms are sequentially arranged at intervals in a front-back sequence; the film cutting mechanisms comprise leading-in platforms, cutter belts and motors for driving the cutter belts, the leading-in platforms correspond to the cutter belts and are positioned on the front sides of the cutter belts, and the positions of the cutter belts are higher than those of the leading-in platforms corresponding to the cutter belts; the leading-in platforms of the film cutting mechanisms are sequentially arranged from front to back with a certain height difference, and the leading-in platforms are sequentially increased.

2. The multi-layer slicer of claim 1, wherein: and a height adjusting mechanism is arranged below the introducing platform, and the top of the height adjusting mechanism is connected with the introducing platform and used for adjusting the relative height of the introducing platform.

3. The multi-layer slicer of claim 2, wherein: a pressing mechanism is arranged above the introducing platform and comprises an electric roller and a pressure adjusting mechanism used for supporting and adjusting the electric roller, and the electric roller and the cutter belt are correspondingly arranged.

4. The multi-layer slicer of claim 1, wherein: every introduces the platform rear side and all corresponds and is provided with the conveyer belt, and the one end of conveyer belt is located corresponding sword area below, and partial or whole conveyer belt slope sets up, and from top to bottom overall arrangement.

5. The multi-layer slicer of claim 4, wherein: the device also comprises a leading-out platform, wherein the leading-out platform is arranged corresponding to the tail end of the conveyor belt.

6. A multi-layer slicer as claimed in any one of claims 1-5, wherein: the film cutting mechanism further comprises two guide wheels, the cutter belt is of an annular closed structure, and the cutter belt is sleeved on the two motors and the two guide wheels to form a rectangular structure.

7. The multi-layer slicer of claim 6, wherein: part or all of the conveyor belts pass through the closed cutter belts adjacent to the guide platform and are obliquely arranged, and the rear ends of the conveyor belts are connected with the guide platform.

Images