CN220548392U - Biological cellulose material pore-forming device - Google Patents

Abstract

The utility model relates to the technical field of processing of biological cellulose materials, and solves the technical problem that a material plate needs to be moved and fixed once and then subjected to hole forming during hole forming, in particular to a biological cellulose material hole forming device. According to the utility model, intermittent displacement can be automatically carried out on the material plate in the pore-forming process, so that uninterrupted pore-forming is realized, and the working efficiency is improved.

Description

Biological cellulose material pore-forming device

Technical Field

The utility model relates to the technical field of biological cellulose material processing, in particular to a biological cellulose material pore-forming device.

Background

The cellulose material is a material which takes cellulose as a main component and has good mechanical strength and chemical stability, so the cellulose material produced by taking artificial cellulose as a raw material is manufactured into a fiber board and applied to the fields of construction, furniture and the like.

When a material plate made of cellulose materials is subjected to hole forming, most hole forming devices firstly fix the material plate, the drill bit of a drilling machine moves downwards to perform hole forming on the material plate, the device for fixing the material plate after hole forming is opened, then the material plate is manually moved, and the next hole forming is performed after the material plate is fixed again.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a biological cellulose material pore-forming device, which solves the technical problem that the pore-forming is carried out after the material plate is required to be moved and fixed once and once in pore-forming, and achieves the purpose of intermittently pushing the material plate to displace in the pore-forming process.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a biological cellulose material pore-forming device, includes the base, install on the base and be fixed with the workstation, workstation slidable mounting has the fixed establishment who is used for fixed material board, install the pushing equipment who advances fixed establishment intermittently on the base, be fixed with the support on the base, install the pore-forming mechanism to the drilling of material board on the support.

The fixing mechanism comprises a push plate which is slidably connected to the workbench, two L-shaped clamping blocks are fixed on the push plate, material plates are placed on the clamping blocks, and limiting mechanisms for limiting the material plates are arranged on the clamping blocks.

The pushing mechanism comprises a first tripod and a second tripod which are fixed on a base, wherein a rotating rod is connected to the first tripod in a rotating mode, a crank is fixed on the rotating rod, a connecting rod is connected to the crank in a rotating mode, a swinging rod is connected to the other end of the connecting rod in a rotating mode, the other end of the swinging rod is connected to the second tripod in a rotating mode, a supporting rod is fixed to the connecting rod, a U-shaped block is connected to the other end of the supporting rod in a rotating mode, a moving plate is fixed to the U-shaped block, a plurality of pushing rods are fixed to the moving plate, a notch used by being matched with the pushing rods is formed in the pushing plate, and a motor used for driving the crank to rotate is arranged on the base.

Further, the hole forming mechanism comprises an electric push rod fixed on the support, a drilling machine is fixed at the telescopic end of the electric push rod, and a drill bit is fixed on the drilling machine.

Further, the rotating rod, the tripod I, the tripod II, the crank, the connecting rod, the supporting rod and the U-shaped block are symmetrically provided with two groups on the base.

Further, the rotating rods are sleeved with rotating wheels, and the outer sides of the two rotating wheels are in transmission connection with belts.

Further, the limiting mechanism comprises a limiting block which is slidably connected to the clamping block, a screw is mounted on the limiting block in a threaded manner, an elastic pressing block is fixed at the lower end of the screw, and a knob is fixed on the screw.

Further, a bolt for fixing the limiting block is arranged on the clamping block in a threaded mode.

By means of the technical scheme, the utility model provides a biological cellulose material pore-forming device, which has at least the following beneficial effects:

1. according to the utility model, due to the arrangement of the pushing mechanism, the crank is driven to rotate by the motor, the push plate can be intermittently pushed to displace by the deflector rod, and the intermittent displacement can be automatically carried out on the material plate in the hole forming process, so that uninterrupted hole forming is realized, and the working efficiency is improved.

2. According to the utility model, due to the arrangement of the fixing mechanism, the limiting block and the screw rod are adjusted, so that the fixing mechanism can adapt to fixing of material plates with different thicknesses during pore-forming, and the practicability of the device is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application.

In the drawings:

FIG. 1 is a schematic view of a whole pore-forming device for biological cellulose material according to the present utility model;

FIG. 2 is a schematic diagram of a pushing mechanism according to the present utility model;

FIG. 3 is a schematic diagram of a movable plate pushing a push plate according to the present utility model;

fig. 4 is a schematic structural view of a fixing mechanism in the present utility model.

In the figure: 1. a base; 2. a work table; 3. a fixing mechanism; 301. a push plate; 302. a clamping block; 303. a limiting mechanism; 3031. a limiting block; 3032. a screw; 3033. pressing the blocks; 3034. a bolt; 4. a pushing mechanism; 401. a tripod I; 402. a tripod II; 403. a crank; 404. a connecting rod; 405. a support rod; 406. a U-shaped block; 407. a moving plate; 408. a deflector rod; 409. a motor; 4010. a rotating wheel; 4011. a belt; 5. a pore-forming mechanism; 501. an electric push rod; 502. and (5) a drilling machine.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Fig. 1-4 illustrate one embodiment of the present utility model: the utility model provides a biological cellulose material pore-forming device, includes base 1, installs on base 1 and is fixed with workstation 2, and workstation 2 slidable mounting has fixed establishment 3 that are used for fixed material board, installs the pushing equipment 4 of intermittent type propulsion fixed establishment 3 on the base 1, is fixed with the support on the base 1, installs the pore-forming mechanism 5 to the drilling of material board on the support. The pushing mechanism 4 can automatically carry out intermittent displacement on the material plate in the hole forming process, so that uninterrupted hole forming is realized, and the working efficiency is improved.

The pushing mechanism 4 comprises a first tripod 401 and a second tripod 402 which are fixed on the base 1, the first tripod 401 is rotationally connected with a rotating rod, a crank 403 is fixed on the rotating rod, a connecting rod 404 is rotationally connected on the crank 403, the other end of the connecting rod 404 is rotationally connected with a swinging rod, the other end of the swinging rod is rotationally connected on the second tripod 402, a supporting rod 405 is fixed on the connecting rod 404, the other end of the supporting rod 405 is rotationally connected with a U-shaped block 406, a moving plate 407 is fixed on the U-shaped block 406, a plurality of notches matched with the shifting rod 408 are formed in the moving plate 407, a motor 409 for driving the crank 403 to rotate is arranged on the base 1, two groups of rotating rods, the first tripod 401, the second tripod 402, the crank 403, the connecting rod 404, the supporting rod 405 and the U-shaped block 406 are symmetrically arranged on the base 1, rotating wheels 4010 are sleeved on the rotating rods, and a belt 4011 is connected to the outer sides of the two rotating wheels 4010 in a transmission mode. Before hole making, a material plate is fixed on a clamping block 302, then a motor 409 is started to drive a rotating rod to drive a crank 403 to rotate, and the crank 403 rotates to drive a connecting rod 404 and a swinging rod to rotate, so that a supporting rod 405 on the connecting rod 404 can swing in an arc shape, and as two supporting rods 405 are rotationally connected to a U-shaped block 406 below a moving plate 407, the moving plate 407 and a deflector 408 on the moving plate 407 can be driven to intermittently swing in an arc shape, and as a notch matched with the deflector 408 is formed on a push plate 301, when the material plate on the push plate 301 is used for hole making, the push plate 301 is moved to one side along a workbench 2 corresponding to the notch when the deflector 408 swings in an arc shape after hole making is completed, until the material plate above the push plate 301 is completely hole making, the mechanism can automatically displace the material plate needing hole making, and the hole making is performed continuously, so that the working efficiency of hole making is improved.

In this embodiment, the hole forming mechanism 5 includes an electric push rod 501 fixed on a support, a drilling machine 502 is fixed at the telescopic end of the electric push rod 501, a drill bit is fixed on the drilling machine 502, the hole forming mechanism 5 cooperates with the pushing mechanism 4, and when hole forming, the drilling machine 502 is intermittently pushed by the electric push rod 501 to perform hole forming on a material plate on the fixing mechanism 3.

Example 2

On the basis of embodiment 1, as shown in fig. 1-3, the fixing mechanism 3 comprises a push plate 301 slidably connected to the workbench 2, two L-shaped clamping blocks 302 are fixed on the push plate 301, material plates are placed on the clamping blocks 302, limiting mechanisms 303 for limiting the material plates are arranged on the clamping blocks 302, each limiting mechanism 303 comprises a limiting block 3031 slidably connected to the clamping blocks 302, a screw rod 3032 is mounted on each limiting block 3031 in a threaded manner, an elastic pressing block 3033 is fixed at the lower end of each screw rod 3032, a knob is fixed on each screw rod 3032, and bolts 3034 for fixing the corresponding limiting blocks 3031 are mounted on the corresponding clamping blocks 302 in a threaded manner. Before pore-forming, place the material board on fixture block 302 earlier, adjust stopper 3031's height according to the thickness of material board, screw bolt 3034 is screwed up after adjusting, rotates the knob, thereby drives screw rod 3032 and adjusts down the removal with screw rod 3032 for press piece 3033 moves down tightly and fixes the material board, and this mechanism can be suitable for the material board of different thickness and fix when pore-forming, increases the practicality of mechanism.

The implementation process of the implementation is as follows: before the hole is made, firstly, place the material board on fixture block 302, adjust the height of stopper 3031 according to the thickness of material board, screw 3034 is screwed down after adjusting, rotate the knob, thereby drive screw 3032 and adjust down to move with screw 3032, make pressing block 3033 move down tightly fixed material board, thereby be suitable for the material board of different thickness and fix, then start drilling machine 502, promote drilling machine 502 to move down through electric putter 501 and make the hole to the material board, during the hole making, starter motor 409, crank 403 rotation on the dead lever through motor 409 drive, crank 403 rotates and drives connecting rod 404 and swinging arms and rotate, thereby branch 405 on the connecting rod 404 can carry out the arc swing, because of two branch 405 rotations are connected on the U type piece 406 of movable plate 407, thereby can drive the driving lever 408 on movable plate 407 and intermittently carry out the arc swing, because of set up the notch that cooperates with driving lever 408 on the push plate 301, therefore, the material board on the push plate 301 is at the time of hole making, at the time interval according to the hole making, at the time of making hole making, at the time of hole making, the time of the hole making has a notch on the corresponding to the driving lever 408, can carry out the automatic motion to the opening on the side of the push plate 301, can move to the opening on the material board when the opening is moved to the corresponding notch on the side of the driving lever 408, can move to the automatic side of the opening 301, can be moved to the hole on the side of the automatic side of the material plate when the opening has to the hole in the hole.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a biological cellulose material pore-forming device, includes base (1), its characterized in that: the device is characterized in that a workbench (2) is fixedly arranged on the base (1), a fixing mechanism (3) for fixing a material plate is slidably arranged on the workbench (2), a pushing mechanism (4) for intermittently pushing the fixing mechanism (3) is arranged on the base (1), a support is fixedly arranged on the base (1), and a hole making mechanism (5) for drilling a material plate is arranged on the support;

the fixing mechanism (3) comprises a push plate (301) which is connected to the workbench (2) in a sliding manner, two L-shaped clamping blocks (302) are fixed on the push plate (301), material plates are placed on the clamping blocks (302), and limiting mechanisms (303) for limiting the material plates are arranged on the clamping blocks (302);

the pushing mechanism (4) comprises a first tripod (401) and a second tripod (402) which are fixed on the base (1), a rotating rod is connected to the first tripod (401) in a rotating mode, a crank (403) is fixed to the rotating rod, a connecting rod (404) is connected to the crank (403) in a rotating mode, a swinging rod is connected to the other end of the connecting rod (404) in a rotating mode, the other end of the swinging rod is connected to the second tripod (402) in a rotating mode, a supporting rod (405) is fixed to the connecting rod (404), a U-shaped block (406) is connected to the other end of the supporting rod (405) in a rotating mode, a movable plate (407) is fixed to the U-shaped block (406), a plurality of notches which are matched with the shifting rod (408) in use are formed in the pushing plate (301), and a motor (409) used for driving the crank (403) in a rotating mode is installed on the base (1).

2. A biological cellulose material pore-forming device according to claim 1, wherein: the hole forming mechanism (5) comprises an electric push rod (501) fixed on the support, a drilling machine (502) is fixed at the telescopic end of the electric push rod (501), and a drill bit is fixed on the drilling machine (502).

3. A biological cellulose material pore-forming device according to claim 1, wherein: two groups of rotating rods, a first tripod (401), a second tripod (402), a crank (403), a connecting rod (404), a supporting rod (405) and a U-shaped block (406) are symmetrically arranged on the base (1).

4. A biological cellulose material pore-forming device according to claim 1, wherein: the rotating rods are respectively sleeved with a rotating wheel (4010), and the outer sides of the two rotating wheels (4010) are in transmission connection with a belt (4011).

5. A biological cellulose material pore-forming device according to claim 1, wherein: the limiting mechanism (303) comprises a limiting block (3031) which is slidably connected to the clamping block (302), a screw rod (3032) is mounted on the limiting block (3031) in a threaded mode, an elastic pressing block (3033) is fixed at the lower end of the screw rod (3032), and a knob is fixed on the screw rod (3032).

6. A biological cellulose material pore-forming device according to claim 5, wherein: and a bolt (3034) for fixing the limiting block (3031) is arranged on the clamping block (302) in a threaded manner.