CN112192642A - Single-face automatic feeding four-column cutting machine - Google Patents

Single-face automatic feeding four-column cutting machine Download PDF

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Publication number
CN112192642A
CN112192642A CN202010967564.8A CN202010967564A CN112192642A CN 112192642 A CN112192642 A CN 112192642A CN 202010967564 A CN202010967564 A CN 202010967564A CN 112192642 A CN112192642 A CN 112192642A
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China
Prior art keywords
rod
plate
vertical
cylinder
rods
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Granted
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CN202010967564.8A
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Chinese (zh)
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CN112192642B (en
Inventor
谷庆
王�忠
付主木
张周强
孙月群
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Jiangsu Kuntai Machinery Co Ltd
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Jiangsu Kuntai Machinery Co Ltd
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Priority to CN202010967564.8A priority Critical patent/CN112192642B/en
Publication of CN112192642A publication Critical patent/CN112192642A/en
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Publication of CN112192642B publication Critical patent/CN112192642B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/01Means for holding or positioning work
    • B26D7/02Means for holding or positioning work with clamping means
    • B26D7/025Means for holding or positioning work with clamping means acting upon planar surfaces
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D5/00Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D5/42Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between work feed and clamp

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  • Life Sciences & Earth Sciences (AREA)
  • Forests & Forestry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Processing Of Stones Or Stones Resemblance Materials (AREA)
  • Blinds (AREA)

Abstract

The invention discloses a single-side automatic feeding four-column cutting machine, which comprises: four post cutting machine bodies, the front end of four post cutting machine bodies is provided with autoloading mechanism, and autoloading mechanism includes conveyer, guide mechanism, and guide mechanism includes two fixed flitchs, material pole, two latched devices, first motor, elevating system, second motor and guide cylinder, and first motor setting is connected on the surface of one of them fixed flitch and with the rotation of material pole. The four-column cutting machine body is provided with a special automatic feeding mechanism, particularly a conveyor and a material guide mechanism, so that the cutting efficiency of raw materials can be further improved; the material guiding mechanism comprises two fixed material plates, a material rod, two locking mechanisms, a first motor, a lifting mechanism, a second motor and a material guiding cylinder, the raw materials are positioned and prevented from shifting or jumping on the material rod, the material guiding mechanism can also be suitable for the raw materials with different sizes, and the application range of the single-face automatic feeding four-column cutting machine is further expanded.

Description

Single-face automatic feeding four-column cutting machine
Technical Field
The invention relates to the technical field of four-column cutting machines, in particular to a single-side automatic feeding four-column cutting machine.
Background
The four-column cutting machine is a hydraulic precise four-column cutting machine, is widely applied to the material cutting processing procedures in industries such as handbags, bags, shoes, leatherware, silk flowers, foam cotton, plastic uptake, plush toys, sports goods, automobile goods, EVA and the like, and has the characteristics of simple operation, safety, power saving, strong cutting force, stable stress, convenient maintenance and the like.
Chinese patent application No. 201710818150.7 discloses a single-sided automatic feeding four-column cutting machine, which lacks a dedicated feeding mechanism and is to be further improved. Therefore, there is a need for a single-sided autoloading four-column cutting machine that at least partially solves the problems of the prior art.
Disclosure of Invention
In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
In order to at least partially solve the above problems, the present invention provides a single-sided automatic feeding four-column cutting machine, comprising:
the four-column cutting machine comprises a four-column cutting machine body, wherein the front end of the four-column cutting machine body is provided with an automatic feeding mechanism, the automatic feeding mechanism comprises a conveyor and a material guiding mechanism, the material guiding mechanism comprises two fixed material plates, a material rod, two locking mechanisms, a first motor, a lifting mechanism, a second motor and a material guiding cylinder, the material rod is arranged between the two fixed material plates, the first motor is arranged on the outer surface of one of the fixed material plates and is rotationally connected with the material rod, the locking mechanism is arranged on the inner surface of the fixed material plates, the lifting mechanism is arranged at the upper ends of the two fixed material plates, the second motor is arranged on the lifting mechanism, the material guide cylinder is arranged below the lifting mechanism and is rotationally connected with the second motor, the locking mechanism, the first motor, the lifting mechanism and the second motor are all electrically connected with a controller.
Preferably, the locking mechanism includes a connecting portion, a translational portion and a locking portion, the connecting portion is connected to the fixed material plate, the translational portion is movably connected to the connecting portion and located below the material rod, the locking portion is movably connected to the translational portion and located above the material rod, and both the translational portion and the locking portion are electrically connected to the controller.
Preferably, the locking part comprises two first electric telescopic rods and a first semicircular clamping plate, the two first electric telescopic rods are located on two sides of the material rod, the lower end of each first electric telescopic rod is connected with the translation part, each first electric telescopic rod is electrically connected with the controller, and the first semicircular clamping plate is arranged at the upper end of each first electric telescopic rod and located above the material rod.
Preferably, the translation portion comprises two second electric telescopic rods and a second semicircular clamping plate, one end of each second electric telescopic rod is connected with the connecting portion, the second electric telescopic rod is electrically connected with the controller, the second semicircular clamping plate is arranged at the other end of each second electric telescopic rod, and the lower end of the first electric telescopic rod is connected with the second semicircular clamping plate;
the connecting part comprises a flat plate and a vertical plate, the flat plate is connected with the fixed material plate, the vertical plate is arranged on the flat plate, and the second electric telescopic rod is connected with the vertical plate.
Preferably, a first groove, a second groove and two third grooves are formed in the inner surface of the fixed material plate, the first groove is located below the material rod, the second groove is located above the material rod, the two third grooves are located on two sides of the material rod respectively and are used for being communicated with the first groove and the second groove, the first groove is used for containing the connecting portion and the translation portion, the second groove is used for containing the first semicircular clamping plate, and the third groove is used for containing the first electric telescopic rod.
Preferably, a flat fin plate is arranged at the end part of the first semicircular clamping plate, a vertical through hole is arranged in the flat fin plate, two vertical blind holes are arranged on the upper surface of the flat fin plate, the two vertical blind holes are respectively positioned at two sides of the vertical through hole, horizontal through holes are arranged on the left side wall and the right side wall of the flat fin plate, the horizontal through holes penetrate through the vertical blind holes and the vertical through holes, a first built-in rod and a fourth spring are arranged in the horizontal through holes, the first built-in rod is arranged in the horizontal through holes, the fourth spring is sleeved on the first built-in rod and abuts against the outer ends of the horizontal through holes, a third vertical rod is arranged in the vertical blind holes, an opening corresponding to the third vertical rod is arranged on the first built-in rod, and the upper ends of the two third vertical rods are connected with a second flat rod, the upper end of the first electric telescopic rod penetrates through the vertical through hole and is provided with a circumferential groove which abuts against the second flat rod, and the part, close to the upper end, of the first electric telescopic rod is provided with a circumferential groove corresponding to the first built-in rod.
Preferably, a first side baffle is arranged at the upper end of the vertical blind hole, and a second side baffle corresponding to the first side baffle is arranged on the side wall of the third vertical rod; and the lower end of the third vertical rod is provided with a fifth spring, and the lower end of the fifth spring is connected with the lower end of the vertical blind hole.
Preferably, a plurality of anchor assemblies are arranged at the bottom of the fixed material plate, each anchor assembly comprises an anchor pad seat, two first bearing mechanisms, a second bearing mechanism and a third bearing mechanism, each first bearing mechanism comprises a T-shaped bearing rod, a first oblique rod, a first sleeve, a second sleeve and a U-shaped bearing portion, a foot hole is formed in each anchor pad seat, the lower end of the T-shaped bearing rod is connected into the foot hole, the lower end of the first oblique rod is hinged with the upper end of the T-shaped bearing rod, the first sleeve is arranged at the upper end of the first oblique rod, the second sleeve is sleeved in the first sleeve, the length of the second sleeve is greater than that of the first sleeve, each U-shaped bearing portion comprises a transverse plate, a plurality of L-shaped rods, a first vertical rod and a second vertical rod, each L-shaped rod is arranged at the end of the second sleeve, the transverse plate is arranged at the upper ends of the two L-shaped rods, and the first vertical rod and the second vertical rod are arranged on the transverse plate;
the third bears mechanism includes horizontal wane, lower margin roof, a plurality of U type pole, horizontal wane sets up first vertical pole the upper end of second vertical pole, it is a plurality of U type pole sets up with inverting on the horizontal wane, lower margin roof sets up a plurality ofly the upper end of U type pole.
Preferably, the method further comprises the following steps:
the spring group comprises a first spring, a second spring and a third spring, the first spring is arranged between the two first oblique rods, the second spring is arranged between the upper ends of the two T-shaped bearing rods, and the third spring is arranged between the lower ends of the two T-shaped bearing rods;
an inner cellular board disposed within the second sleeve.
Preferably, the inner surface of the first semicircular clamping plate is provided with a protection mechanism, the protection mechanism comprises a first U-shaped plate, a second U-shaped plate and a plurality of protection inner rods, the plurality of protection inner rods are all arranged between the first U-shaped plate and the second U-shaped plate, a protection rotating cylinder and two braking mechanisms are arranged on each protection inner rod, the protection rotating cylinder is positioned between the two braking mechanisms, each braking mechanism comprises a rotating plate, a supporting cylinder, a holding cylinder and two internal braking mechanisms, the rotating plate, the supporting cylinder and the holding cylinder are all sleeved on the protection inner rods, the rotating plate is connected with the supporting cylinder through a bearing, a fourth groove is arranged on the inner wall of the supporting cylinder, a connecting hole is arranged on the bottom of the supporting cylinder, the surface of the rotating plate facing the protection rotating cylinder is rotatably connected with the protection rotating cylinder, the holding cylinder is rotatably connected to one end of the supporting cylinder, which is far away from the protection rotating cylinder, an inclined inner sleeve is arranged at one end, far away from the support cylinder, in the holding cylinder;
the two internal mechanisms are positioned on two sides of the protective inner rod and comprise a third U-shaped plate, a horizontally arranged inner cylinder, a second internal rod, a third inclined rod, a first connecting plate, a third internal rod, a wire cylinder, a third connecting plate, a conical semi-jacket and an inner rotary disc;
the second built-in rod is arranged on the inner wall of the supporting cylinder and positioned above the fourth groove, the first connecting plate is arranged in the fourth groove through a sixth spring, the second built-in rod is movably connected with the third U-shaped plate through the horizontally-arranged inner cylinder, the first connecting plate is movably connected with the horizontally-arranged inner cylinder through a second inclined rod, the third built-in rod is arranged on the cylinder bottom and positioned on one side of the connecting hole, a second connecting plate is arranged on the third built-in rod in a sliding mode and connected with the first connecting plate through a third inclined rod, the wire cylinder is arranged in the connecting hole, the second connecting plate is connected with the wire cylinder through a first screw rod, the lower portion of the wire cylinder is sleeved with the inner rotary disc, the holding cylinder is rotatably connected with the inner rotary disc through an inner manufacturing sleeve, and the conical semi-clamping sleeve is connected with the inclined inner sleeve in a sliding mode, the conical semi-jacket is provided with a fifth groove, the fifth groove is provided with a fourth built-in rod, the third connecting plate is arranged on the fourth built-in rod in a sliding mode and is rotatably connected with the wire barrel through a second lead screw, a third side baffle corresponding to the third connecting plate is arranged in the holding barrel, and a seventh spring abutting against the third connecting plate is arranged on the fourth built-in rod.
Compared with the prior art, the invention at least comprises the following beneficial effects:
the invention provides a single-side automatic feeding four-column cutting machine, which is characterized in that a special automatic feeding mechanism, specifically a conveyor and a material guiding mechanism, is arranged on a four-column cutting machine body, so that the cutting efficiency of raw materials can be further improved; simultaneously, guide mechanism includes two fixed flitchs, material pole, two latched devices, first motor, elevating system, second motor and guide cylinder, fixes a position and prevents that raw and other materials from taking place skew or drunkenness on the material pole to raw and other materials, also can be applicable to the raw and other materials of different sizes, has further improved the application range of this single face autoloading four-column cutting machine.
Other advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural diagram of a flat-plate compound machine according to the present invention.
Fig. 2 is a schematic structural view of a material guide mechanism in the flat plate compound machine according to the present invention.
Fig. 3 is a schematic structural view of a connecting portion in the flat-panel compound machine according to the present invention.
Fig. 4 is a schematic structural view of a flat fin plate in the flat plate compound machine of the present invention.
Fig. 5 is a schematic diagram of a foot assembly in the flat-plate compound machine according to the present invention.
Fig. 6 is a schematic structural view of a protection mechanism in the flat-plate compound machine according to the present invention.
Fig. 7 is a schematic view of the internal structure of the brake mechanism in the flat-plate compound machine according to the present invention.
FIG. 8 is a top view of the guard mechanism of the flat compound machine of the present invention.
Fig. 9 is a schematic structural view of the flat-plate compound machine of the present invention, in which the brake mechanism is separated from the inner protective rod.
Fig. 10 is a partial structural view of the build-in mechanism of the flat-bed laminating machine according to the present invention.
Fig. 11 is a schematic view of a part of the structure of a tapered half jacket in the flat-plate compound machine according to the present invention.
Detailed Description
The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.
It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.
As shown in fig. 1 to 11, the present invention provides a single-sided automatic feeding four-column cutting machine, including:
a four-column cutting machine body 10, an automatic feeding mechanism is arranged at the front end of the four-column cutting machine body 10, the automatic feeding mechanism comprises a conveyor 11 and a guide mechanism 12, the guide mechanism 12 comprises two fixed material plates 2, a material rod 3, two locking mechanisms 4, a first motor 1, a lifting mechanism 13, a second motor 14 and a guide cylinder 15, the material rod 3 is arranged between the two fixed material plates 2, the first motor 1 is arranged on the outer surface of one of the fixed material plates 2 and is rotationally connected with the material rod 3, the locking mechanisms 4 are arranged on the inner surfaces of the fixed material plates 2, the lifting mechanism 13 is arranged at the upper ends of the two fixed material plates 2, the second motor 14 is arranged on the lifting mechanism 13, the guide cylinder 15 is arranged below the lifting mechanism 13 and is rotationally connected with the second motor 14, the locking mechanism 4, the first motor 1, the lifting mechanism 13 and the second motor 14 are all electrically connected with a controller.
The working principle of the technical scheme is as follows: the invention provides a single-side automatic feeding four-column cutting machine which mainly comprises a four-column cutting machine body 10, wherein an automatic feeding mechanism, specifically a conveyor 11 and a material guide mechanism 12, is arranged at the front end of the four-column cutting machine body 10, when the single-side automatic feeding four-column cutting machine is used, a raw material 100 to be cut is conveyed to the material guide mechanism 12 through the conveyor 11, the raw material 100 is guided through the material guide mechanism 12, the raw material 100 is prevented from being deviated, and then the raw material is conveyed into the four-column cutting machine body 10 to be cut, so that the cutting quality and efficiency are improved; specifically, the material guiding mechanism 12 comprises two fixed material plates 2, a material rod 3, two locking mechanisms 4, a first motor 1, a lifting mechanism 13, a second motor 14 and a material guiding cylinder 15; during the use, operating personnel uses the controller to start first motor 1, latched device 4, elevating system 13, second motor 14, and first motor 1 drives material pole 3 and rotates, and latched device 4 then removes to material pole 3 middle part, and two latched device 4 are fixed a position and are prevented that raw and other materials 100 from taking place skew or drunkenness on material pole 3 to raw and other materials 100, and elevating system 13 removes the top of raw and other materials 100 with guide cylinder 15, and second motor 14 then drives guide cylinder 15 and rotates and material pole 3 and dispose and convey raw and other materials 100.
The use of the four-post cutting machine body 10 is described in detail in patent application No. 201710818150.7, and the present invention is not described in detail.
The beneficial effects of the above technical scheme are that: through the design of the structure, the invention provides a single-side automatic feeding four-column cutting machine, which is characterized in that a special automatic feeding mechanism, specifically a conveyor 11 and a material guide mechanism 12, is matched with a four-column cutting machine body 10, so that the cutting efficiency of raw materials 100 can be further improved; meanwhile, the material guiding mechanism 12 comprises two fixed material plates 2, a material rod 3, two locking mechanisms 4, a first motor 1, a lifting mechanism 13, a second motor 14 and a material guiding cylinder 15, positions the raw materials 100 and prevents the raw materials 100 from shifting or shifting on the material rod 3, and the single-sided automatic feeding four-column cutting machine can also be suitable for the raw materials 100 with different sizes, so that the application range of the single-sided automatic feeding four-column cutting machine is further enlarged.
In one embodiment, the locking mechanism 4 includes a connecting portion 41, a translating portion 42, and a locking portion 43, the connecting portion 41 is connected to the fixed plate 2, the translating portion 42 is movably connected to the connecting portion 41 and located below the material rod 3, the locking portion 43 is movably connected to the translating portion 42 and located above the material rod 3, and both the translating portion 42 and the locking portion 43 are electrically connected to the controller.
The working principle of the technical scheme is as follows: the embodiment provides a structure of latch mechanism 4, specifically speaking, latch mechanism 4 of this structure includes connecting portion 41, translation portion 42 and hasp portion 43, and connecting portion 41 is installed on fixed flitch 2, and operating personnel starts the controller during the use, and then translation portion 42 moves to raw material 100, and then drives hasp portion 43 and moves to raw material 100, and then operating personnel uses the controller to start hasp portion 43, and hasp portion 43 then moves to material pole 3 and fixes a position raw material 100 with translation portion 42 cooperation.
The beneficial effects of the above technical scheme are that: through the design of the above structure, the present embodiment provides the structure of the latch mechanism 4, and the latch mechanism 4 of the structure includes the connecting portion 41, the translating portion 42 and the latch portion 43, so that the structure is simple and convenient to use, and the positioning of the raw material 100 can be better achieved.
In one embodiment, the locking portion 43 includes two first electric telescopic rods 431 and a first semicircular clamping plate 432, the two first electric telescopic rods 431 are located at two sides of the material rod 3, the lower end of the first electric telescopic rods 431 is connected with the translation portion 42, the first electric telescopic rods 431 are electrically connected with the controller, and the first semicircular clamping plate 432 is arranged at the upper end of the first electric telescopic rods and above the material rod 3.
The working principle of the technical scheme is as follows: the embodiment provides a structure of the locking part 43, specifically speaking, the locking part 43 includes two first electric telescopic rods 431 and a first semicircular clamping plate 432, when in use, an operator uses a controller to start the first electric telescopic rods 431, because the first electric telescopic rods 431 are in an extended state at an initial state so that the first semicircular clamping plate 432 is located above the material rod 3, the first electric telescopic rods 431 start to be contracted, then the first semicircular clamping plate 432 is driven to move downwards to the inner semicircular surface of the first semicircular clamping plate 432 to be close to the material rod 3, and the first semicircular clamping plate 432 is matched with the translation part 42 to fix the raw material 100 on the material rod 3.
The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, provide the concrete structure of hasp portion 43 in this embodiment, the hasp portion 43 of this structure includes two electric telescopic handle 431, first semicircle splint 432, and simple structure facilitates the use, and first semicircle splint 432 and translation portion 42 cooperation are fixed raw and other materials 100 on material pole 3 and are fixed a position in the intermediate position for raw and other materials 100 can stable rotation, avoid taking place skew or drunkenness on material pole 3.
In one embodiment, the translation portion 42 includes two second electric telescopic rods 421 and a second semicircular clamping plate 422, one end of the second electric telescopic rod 421 is connected to the connecting portion, the second electric telescopic rod 421 is electrically connected to the controller, the second semicircular clamping plate 422 is disposed at the other end of the second electric telescopic rod 421, and the lower end of the first electric telescopic rod 431 is connected to the second semicircular clamping plate 422;
the connecting portion 41 comprises a horizontal plate 411 and a vertical plate 412, the horizontal plate 411 is connected with the fixed material plate 2, the vertical plate is arranged on the horizontal plate, and the second electric telescopic rod 421 is connected with the vertical plate.
The working principle of the technical scheme is as follows: this embodiment provides a translation portion 42's structure, specifically speaking, this structure's translation portion 42 includes two second electric telescopic handle 421, second semicircle splint 422, in using, operating personnel uses the controller to start second electric telescopic handle 421, because second electric telescopic handle 421 is in the contraction state at initial condition, so second electric telescopic handle 421 starts the back, then the extension is driving second semicircle splint 422 to move to raw and other materials 100, second semicircle splint 422 is then driving first electric telescopic handle 431, first semicircle splint 432 moves to raw and other materials 100, make second semicircle splint 422 and first semicircle splint 432 cooperate and fix raw and other materials 100 at stockpile 3, specifically, translation portion 42 has been realized, the fixed of hasp portion 43 to raw and other materials 100.
The embodiment further provides a structure of the connecting portion 41, specifically, the connecting portion 41 of the structure includes a flat plate 411 and a vertical plate 412, the vertical plate 412 is disposed on the flat plate 411, and the flat plate 411 is connected to the fixed material plate 2, so that the connecting portion 41 provides a supporting function for the translating portion 42 and the locking portion 43.
The beneficial effects of the above technical scheme are that: through the design of the structure, the embodiment provides a specific structure of the translation portion 42, the translation portion 42 of the structure comprises two second electric telescopic rods 421 and a second semicircular clamping plate 422, the structure is simple and convenient to use, and the fixation of the raw material 100 is specifically realized by matching with the locking portion 43;
still provide the concrete structure of connecting portion 41 in this implementation, the connecting portion 41 of this structure is including putting board 411, vertical board 412 horizontally, and simple structure facilitates the use, for translation portion 42, lock catch portion 43 provide the supporting role, makes things convenient for operating personnel to use whole latched device 4.
In one embodiment, a first groove 21, a second groove 22 and two third grooves 23 are disposed on an inner surface of the fixed plate 2, the first groove 21 is located below the material rod 3, the second groove 22 is located above the material rod 3, the two third grooves 23 are respectively located on two sides of the material rod 3 and are used for communicating the first groove 21 with the second groove 22, the first groove 21 is used for accommodating the connecting portion and the translating portion, the second groove 22 is used for accommodating the first semicircular clamping plate 432, and the third groove 23 is used for accommodating the first electric telescopic rod.
The working principle of the technical scheme is as follows: in order to store the locking mechanism 4 during non-operation, a first groove 21, a second groove 22 and two third grooves 23 are provided in this embodiment, specifically, the connecting portion 41 is installed in the first groove 21, the operator uses the controller to start the second electric telescopic rod 421, the second electric telescopic rod 421 retracts to move the second semicircular clamping plate 422 to the first groove 21, the first electric telescopic rod 431 extends upwards to move the first semicircular clamping plate 432 away from the material rod 3, the second electric telescopic rod 421 retracts the second semicircular clamping plate 422 into the first groove 21, the second electric telescopic rod 421 is stored in the third groove 23, and the first semicircular clamping plate 432 is stored in the second groove 22.
The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, provide first recess 21, second recess 22 and two third recesses 23 in this embodiment, made things convenient for operating personnel to accomodate connecting portion 41, translation portion 42 and hasp portion 43 in first recess 21, second recess 22 and two third recesses 23 for whole latched device 4 is accomodate, is accomodate whole latched device 4 when not using simultaneously, also avoids latched device 4 to take place unexpected the damage in the outside.
In one embodiment, a flat fin plate 433 is disposed at an end of the first semicircular clamping plate 432, a vertical through hole 434 is disposed in the flat fin plate 433, two vertical blind holes 435 are disposed on an upper surface of the flat fin plate 433, the two vertical blind holes 435 are respectively disposed at two sides of the vertical through hole 434, a horizontal through hole 436 is disposed on each of left and right side walls of the flat fin plate 433, the horizontal through hole 436 penetrates through the vertical blind hole 435 and the vertical through hole 434, a first built-in rod 437 and a fourth spring 443 are disposed in the horizontal through hole 436, the first built-in rod 437 is disposed in the horizontal through hole 436, the fourth spring 443 is sleeved on the first built-in rod 437 and abuts against an outer end of the horizontal through hole 435, a third vertical rod 444 is disposed in the vertical blind hole 444, and an opening corresponding to the third vertical rod 444 is disposed on the first built-in rod 437, the upper ends of the two third vertical rods 444 are connected with a second flat rod 438, the upper end of the first electric telescopic rod penetrates through the vertical through hole 434 and is provided with a circumferential groove 439 corresponding to the first built-in rod 437, and the first electric telescopic rod is abutted against the second flat rod 438, and the part of the first electric telescopic rod close to the upper end of the first electric telescopic rod is provided with a circumferential groove 439.
The working principle of the technical scheme is as follows: in order to conveniently connect the first electric telescopic rod 431 and the flat fin 433 together for the convenience of subsequent disassembly, a vertical through hole 434 is arranged in the flat fin 433, a vertical blind hole 435 and a horizontal through hole 436 are arranged on the flat fin 433, the horizontal through hole 436 penetrates through the vertical blind hole 435 and the vertical through hole 434, a third vertical rod 444 is arranged in the horizontal through hole 436, the upper ends of the two third vertical rods 444 are connected with a second horizontal rod 438, a first built-in rod 437 is arranged in the horizontal through hole 436, an opening is formed in the first built-in rod 437, a circumferential groove 439 is arranged at the upper end of the first electric telescopic rod 431, so that an operator can install the two first built-in rods 437 in the horizontal through hole 436 and extend into the circumferential groove 439, and because a fourth spring 443 is also arranged on the first built-in rod 437, the fourth spring 443 can abut against the first built-in rod 437, so that the first built-in rod 437 can be inserted into the circumferential groove 439 all the way, the third vertical rod 444 passes through the opening of the first internal rod 437, further providing a stop for the first internal rod 437 to prevent the first internal rod 437 from separating from the circumferential groove 439;
similarly, when an electric telescopic rod 431 is required to be separated from the flat fin plates 433, an operator only needs to pull the second flat rod 438 upwards, so that the two third vertical rods 444 are pulled out of the openings, and then the operator moves the first built-in rod 437 outwards to separate the inner end of the first built-in rod 437 from the circumferential groove 439, so that the first electric telescopic rod 431 can be separated from the flat fin plates 433, and the first semicircular clamping plate 432 can be taken down.
The beneficial effects of the above technical scheme are that: through the design of the structure, the structures such as the flat fin plate 433, the vertical through hole 434, the horizontal through hole 436, the first built-in rod 437 and the third vertical rod 444 are provided in the embodiment, so that an operator can conveniently mount and separate the first electric telescopic rod 431 and the flat fin plate 433, and the effects of saving trouble and labor are achieved; the fourth spring 443 is disposed on the first built-in lever 437 to prevent the first built-in lever 437 from separating from the horizontal through hole 436 and prevent the first built-in lever 437 from being lost.
In one embodiment, a first side baffle 440 is disposed at the upper end of the vertical blind hole 435, and a second side baffle 441 corresponding to the first side baffle 440 is disposed on the sidewall of the third vertical rod 444; the lower end of the third vertical rod 444 is provided with a fifth spring 442, and the lower end of the fifth spring 442 is connected with the lower end of the vertical blind hole 435.
The working principle of the technical scheme is as follows: in the embodiment, in order to prevent the third vertical rod 444 from being directly taken out of the vertical blind hole 435 and being lost, the first side baffle 440 is disposed at the upper end of the vertical blind hole 435, and the second side baffle 441 is disposed on the side wall of the third vertical rod 444, so that when the third vertical rod 444 is pulled up from the vertical blind hole 435, the first side baffle 440 abuts against the second side baffle 441, so that the third vertical rod 444 cannot be taken out, and thus the third vertical rod 444 cannot be lost; further, a fifth spring 442 is provided at a lower end of the third vertical rod 444, and a lower end of the fifth spring 442 is connected with a lower end of the vertical blind hole 435, so that the third vertical rod 444 can be automatically restored to pass through the opening on the first built-in rod 437.
The beneficial effects of the above technical scheme are that: through the design of the structure, the embodiment provides the structures such as the first side baffle 440 and the second side baffle 441, so that the third vertical rod 444 cannot be directly taken out of the vertical blind hole 435, and the third vertical rod 444 is prevented from being lost; and the third vertical rod 444 may automatically pass through the opening on the first built-in rod 437 by the fifth spring 442, preventing the first built-in rod 437 from disengaging from the circumferential groove 439.
In one embodiment, a plurality of anchor assemblies 5 are disposed at the bottom of the retainer plate 2, each anchor assembly 5 includes an anchor pad 501, two first bearing mechanisms, a second bearing mechanism and a third bearing mechanism, each first bearing mechanism includes a T-shaped bearing rod 502, a first diagonal rod 503, a first sleeve 504, a second sleeve 505 and a U-shaped bearing portion, each anchor pad 501 is provided with a foot hole, a lower end of the T-shaped bearing rod 502 is connected to the foot hole, a lower end of the first diagonal rod 503 is hinged to an upper end of the T-shaped bearing rod 502, the first sleeve 504 is disposed at an upper end of the first diagonal rod 503, the second sleeve 505 is sleeved in the first sleeve 504, and a length of the second sleeve 505 is greater than a length of the first sleeve 504, and the U-shaped bearing portion includes a horizontal plate 506, a plurality of L-shaped rods 507, a horizontal plate 504, and a U-shaped bearing portion, The first vertical rod 508 and the second vertical rod 509, the L-shaped rods 507 are arranged at the end parts of the second sleeve 505, the transverse plate 506 is arranged at the upper ends of the two L-shaped rods 507, and the first vertical rod 508 and the second vertical rod 509 are arranged on the transverse plate 506;
the third bearing mechanism comprises a transverse rocker 515, a foot margin top plate 510 and a plurality of U-shaped rods 511, wherein the transverse rocker 515 is arranged at the upper ends of the first vertical rod 508 and the second vertical rod 509, the plurality of U-shaped rods 511 are arranged on the transverse rocker 515 in an inverted manner, and the foot margin top plate 510 is arranged at the upper ends of the plurality of U-shaped rods 511.
The working principle of the technical scheme is as follows: the material guide mechanism 12 can convey the raw material 100 to the four-column cutting machine body 10 for cutting operation when in work; however, the material rod 3 will shake the fixed material plate 2 when rotating, so the present embodiment provides the anchor assembly 5, and the anchor assembly 5 is used to provide a better supporting function for the fixed material plate 2, so as to counteract the shaking function, so that the material guiding mechanism 12 is always in a more stable state, wherein the anchor assembly 5 comprises an anchor pad seat 501, two first bearing mechanisms, a second bearing mechanism and a third bearing mechanism, the anchor pad seat 501 is designed on the bottom surface to provide a supporting function for the whole anchor assembly 5, the two first bearing mechanisms are designed on the anchor pad seat 501, wherein the T-shaped bearing rod 502 is installed in the foot hole and connected to the first sleeve 504 through the first inclined rod 503, the second sleeve 505 is sleeved in the first sleeve 504, two ends of the first sleeve 504 are connected to the plurality of L-shaped rods 507, so as to support the transverse plate 506, the transverse plate 506 is connected to a transverse rocker 515 in the third bearing mechanism through the first vertical rod 508 and the second vertical rod 509, the transverse rocker 515 is connected to the ground foot top plate 510 through the plurality of U-shaped rods 511, so that the whole ground foot assembly 5 provides support for the material guiding mechanism 12, wherein the transverse rocker 515 in the third bearing mechanism can be made of spring steel plates with different lengths, better support elastic force is provided to offset the shaking of the fixed material plate 2, and the two first bearing mechanisms and the second bearing mechanisms share the load better, so that the whole ground foot assembly 5 not only has better springs, but also has better structural stability.
The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, the concrete structure of lower margin assembly 5 is provided in this embodiment, this structure lower margin assembly 5 includes lower margin base 501, two first bearing mechanism, second bearing mechanism and third bearing mechanism, for fixed flitch 2 provides the support, provide better supporting spring force in order to offset the rocking of guide mechanism 12, and two first bearing mechanism, second bearing mechanism share the bearing better, make whole lower margin assembly 5 not only can have better spring, and the stability of structure is also better.
In one embodiment, further comprising:
a spring set comprising a first spring 512, a second spring 513 and a third spring 514, wherein the first spring 512 is disposed between the two first diagonal rods 503, the second spring 513 is disposed between the upper ends of the two T-shaped carrier rods 502, and the third spring 514 is disposed between the lower ends of the two T-shaped carrier rods 502;
an inner cellular board 514, the inner cellular board 514 being disposed within the second sleeve 505.
The working principle of the technical scheme is as follows: in the embodiment, a structure of a spring group and an inner cellular board 514 is provided, and in order to increase the structural stability of the foundation assembly 5, a first spring 512 is arranged between two first diagonal rods 503, a second spring 513 is arranged between the upper ends of two T-shaped bearing rods 502, and a third spring 514 is arranged between the lower ends of the T-shaped bearing rods 502, so that the stability between the two first bearing mechanisms is increased in turn; the inner honeycomb plate 514 is designed in the second sleeve 505, so that the bearing capacity of the second sleeve 505 is increased, the second sleeve 505 is prevented from deforming, and the service life is prolonged.
The beneficial effects of the above technical scheme are that: through the design of the structure, the spring group and the inner cellular board 514 are provided in the embodiment, wherein the stability between the two first bearing mechanisms is increased through the first spring 512, the second spring 513 and the third spring 514; the inner cellular board 514 can prevent the second sleeve 505 from deforming, prolong the service life, and further increase the structural stability of the anchor assembly 5.
In one embodiment, the inner surface of the first semicircular clamping plate 432 is provided with a protection mechanism 6, the protection mechanism 6 comprises a first U-shaped plate 601, a second U-shaped plate 602, and a plurality of protection inner rods 603, the plurality of protection inner rods 603 are all arranged between the first U-shaped plate 601 and the second U-shaped plate 602, a protection rotating cylinder 604 and two braking mechanisms are arranged on the protection inner rods 603, the protection rotating cylinder 604 is located between the two braking mechanisms, the braking mechanisms comprise a rotating plate 605, a supporting cylinder 606, a holding cylinder 607 and two internal braking mechanisms, the rotating plate 605, the supporting cylinder 606 and the holding cylinder 607 are all sleeved on the protection inner rods 603, the rotating plate 605 is connected with the supporting cylinder 606 through a bearing 628, the inner wall of the supporting cylinder 606 is provided with a fourth groove 608, the bottom of the supporting cylinder 606 is provided with a connecting hole, the surface of the rotating plate 605 facing the protection rotating cylinder 604 is rotatably connected with the protection rotating cylinder 604, the holding cylinder 607 is rotatably connected to one end of the supporting cylinder 606 away from the protective rotating cylinder 604, and an inclined inner sleeve 609 is arranged at one end of the holding cylinder 607 away from the supporting cylinder 606;
two of the internal mechanisms are located on either side of the guard inner rod 603, the internal mechanisms including a third U-shaped plate 610, a flat internal cylinder 629, a second internal rod 611, a third diagonal rod 612, a first connecting plate 613, a third internal rod 614, a wire barrel 615, a third connecting plate 616, a tapered half collet 617, and an internal dial 618;
the second built-in rod 611 is disposed on the inner wall of the supporting cylinder 606 and above the fourth groove 608, the first connecting plate 613 is disposed in the fourth groove 608 through a sixth spring 619, the second built-in rod 611 is movably connected to the third U-shaped plate 610 through the flat inner cylinder 629, the first connecting plate 613 is movably connected to the flat inner cylinder 629 through a second diagonal rod 620, the third built-in rod 614 is disposed on the cylinder bottom and on one side of the connecting hole, a second connecting plate 621 is slidably disposed on the third built-in rod 614, the second connecting plate 621 is connected to the first connecting plate 613 through a third diagonal rod 612, the filament cylinder 615 is disposed in the connecting hole, the second connecting plate 621 is connected to the filament cylinder 615 through a first filament rod, the lower portion of the filament cylinder 615 is sleeved on the inner disc 618, the holding cylinder 607 is rotatably connected to the inner disc 618 through an inner sleeve 622, the tapered half jacket 617 is connected with the inclined inner sleeve 609 in a sliding manner, a fifth groove 623 is formed in the tapered half jacket 617, a fourth built-in rod 624 is arranged in the fifth groove 623, the third connecting plate 616 is arranged on the fourth built-in rod 624 in a sliding manner, the third connecting plate 616 is rotatably connected with the screw tube 615 through a second screw rod 625, a third side baffle 626 corresponding to the third connecting plate 616 is arranged in the holding tube 607, and a seventh spring 627 which abuts against the third connecting plate 616 is arranged on the fourth built-in rod 624.
The working principle of the technical scheme is as follows: since the first semicircular clamping plate 432 directly positions the raw material 100 on the material rod 3 to prevent the raw material 100 from shifting or shifting on the material rod 3, friction will occur between the end of the raw material 100 and the inner surface of the first semicircular clamping plate 432, in this embodiment, the protection mechanism 6 is installed on the inner surface of the first semicircular clamping plate 432, specifically, the protection mechanism 6 includes a first U-shaped plate 601, a second U-shaped plate 602, and a plurality of protection inner rods 603, and the protection inner rods 603 are installed with a protection drum 604 and two brake mechanisms, so that in operation, the protection drum 604 is in contact with the raw material 100 through the protection drum 604, and the protection drum 604 rotates on the protection inner rods 603, thereby reducing the friction force between the first semicircular clamping plate 432 and the raw material 100, and further improving the working efficiency; after the protective drum 604 is used for a period of time, the protective drum 604 needs to be replaced, so that when an operator detaches the protective inner rod 603 from the first U-shaped plate 601 and the second U-shaped plate 602, the holding cylinder 607 is rotated to separate the holding cylinder 606 from the protective inner rod 603, and the brake mechanism can be rapidly detached from the protective inner rod 603, specifically, the protective inner rod 603 is hooped by the brake mechanism through the two third U-shaped plates 610 and the two tapered half-clamping sleeves 617, so that the fixed connection between the brake mechanism and the protective inner rod 603 is realized, that is, the two brake mechanisms limit the protective drum 604 on the protective inner rod 603, and the phenomenon that the protective drum 604 moves on the protective inner rod 603 is prevented; when the protective drum 604 is disassembled, an operator rotates the holding cylinder 607, the inner sleeve 622 in the holding cylinder 607 drives the inner rotary disc 618 to rotate, the inner rotary disc 618 drives the wire barrel 615 to rotate, the wire barrel 615 drives the second lead screw 625 to rotate because the rotation directions of the wire barrel 615, the first lead screw and the second lead screw 625 are different, the second lead screw 625 drives the third connecting plate 616 and the conical half jacket 617 to move towards the wire barrel 615, the seventh spring 627 abuts against the third connecting plate 616 and the fifth groove 623, the whole conical half jacket 617 moves towards the wire barrel 615 along the slope of the inclined inner sleeve 609 under the action of the fourth built-in rod 624, the whole conical half jacket 617 is separated from the protective inner rod 603, and the third side baffle 626 starts to block the conical half 617;
meanwhile, the wire barrel 615 drives the first screw rod to rotate, so that the first screw rod drives the second connecting plate 621 to move towards the wire barrel 615 along the third built-in rod 614, the second connecting plate 621 drives the third inclined rod 612 to move towards the wire barrel 615, the third inclined rod 612 drives the first connecting plate 613 to move, the first connecting plate 613 compresses the sixth spring 619 and pulls the second inclined rod 620 to move, because the second inclined rod 620 is hinged with the first connecting plate 613 and the horizontal inner cylinder 629, the second inclined rod 620 drives the horizontal inner cylinder 629 to move towards the support cylinder 606 along the second built-in rod 611, and the horizontal inner cylinder 629 drives the third U-shaped plate 610 to separate from the guard inner rod 603, so as to realize the separation between the guard inner rod 603, the third U-shaped plate 610 and the guard inner rod 603, and the process is convenient for an operator to rapidly detach the guard rotary drum 604 from the guard inner rod 603, time-saving and labor-saving and high efficiency.
The beneficial effects of the above technical scheme are that: through the design of the structure, the specific structure of the protection mechanism 6 is provided in the embodiment, the protection mechanism 6 of the structure comprises a first U-shaped plate 601, a second U-shaped plate 602 and a plurality of protection inner rods 603, the protection inner rods 603 are provided with a protection rotary drum 604 and two brake mechanisms, the protection rotary drum 604 rotates with the raw material 100, the friction force between the end part of the raw material 100 and the first semicircular clamping plate 432 is reduced, and the working efficiency is improved; meanwhile, the two braking mechanisms have a positioning effect on the protective rotary drum 604, and can be quickly separated from the protective inner rod 603, so that the protective rotary drum 604 can be conveniently replaced by an operator, the operator is prevented from disassembling the braking mechanisms by other tools, the braking mechanisms are simple in structure and can be repeatedly used, and the production cost is reduced; the design of the two braking mechanisms can be suitable for the protective inner rod 603 without diameter, and the application range is enlarged.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a four post cutting machines of single face autoloading which characterized in that includes:
the four-column cutting machine comprises a four-column cutting machine body (10), wherein an automatic feeding mechanism is arranged at the front end of the four-column cutting machine body (10), the automatic feeding mechanism comprises a conveyor (11) and a guide mechanism (12), the guide mechanism (12) comprises two fixed material plates (2), a material rod (3), two latch mechanisms (4), a first motor (1), a lifting mechanism (13), a second motor (14) and a guide cylinder (15), the material rod (3) is arranged between the two fixed material plates (2), the first motor (1) is arranged on the outer surface of one of the fixed material plates (2) and is rotatably connected with the material rod (3), the latch mechanisms (4) are arranged on the inner surface of the fixed material plates (2), the lifting mechanism (13) is arranged at the upper ends of the two fixed material plates (2), and the second motor (14) is arranged on the lifting mechanism (13), the material guide cylinder (15) is arranged below the lifting mechanism (13) and is rotationally connected with the second motor (14), and the latch mechanism (4), the first motor (1), the lifting mechanism (13) and the second motor (14) are all electrically connected with the controller.
2. The single-sided automatic feeding four-column cutting machine according to claim 1, wherein the locking mechanism (4) comprises a connecting portion (41), a translation portion (42) and a locking portion (43), the connecting portion (41) is connected with the fixed material plate (2), the translation portion (42) is movably connected with the connecting portion (41) and is located below the material rod (3), the locking portion (43) is movably connected with the translation portion (42) and is located above the material rod (3), and the translation portion (42) and the locking portion (43) are electrically connected with the controller.
3. The single-sided automatic feeding four-column cutting machine according to claim 2, wherein the locking portion (43) comprises two first electric telescopic rods (431) and a first semicircular clamping plate (432), the two first electric telescopic rods (431) are located on two sides of the material rod (3), the lower end of each first electric telescopic rod (431) is connected with the translation portion (42), each first electric telescopic rod (431) is electrically connected with the controller, and the first semicircular clamping plate (432) is arranged at the upper end of each first electric telescopic rod and located above the material rod (3).
4. The single-sided automatic feeding four-column cutting machine according to claim 3, wherein the translation portion (42) comprises two second electric telescopic rods (421) and a second semicircular clamping plate (422), one end of each second electric telescopic rod (421) is connected with the connecting portion, the second electric telescopic rods (421) are electrically connected with the controller, the second semicircular clamping plate (422) is arranged at the other end of each second electric telescopic rod (421), and the lower end of the first electric telescopic rod (431) is connected with the second semicircular clamping plate (422);
the connecting portion (41) comprises a flat plate (411) and a vertical plate (412), the flat plate (411) is connected with the fixed material plate (2), the vertical plate is arranged on the flat plate, and the second electric telescopic rod (421) is connected with the vertical plate.
5. The single-sided automatic feeding four-column cutting machine according to claim 4, wherein a first groove (21), a second groove (22) and two third grooves (23) are formed in the inner surface of the fixed material plate (2), the first groove (21) is located below the material rod (3), the second groove (22) is located above the material rod (3), the two third grooves (23) are located on two sides of the material rod (3) respectively and are used for communicating the first groove (21) with the second groove (22), the first groove (21) is used for accommodating the connecting portion and the translation portion, the second groove (22) is used for accommodating the first semicircular clamping plate (432), and the third groove (23) is used for accommodating the first electric telescopic rod.
6. The single-sided automatic feeding four-column cutting machine according to claim 3, wherein the end of the first semicircular clamping plate (432) is provided with a flat fin plate (433), a vertical through hole (434) is provided in the flat fin plate (433), two vertical blind holes (435) are provided on the upper surface of the flat fin plate (433), the two vertical blind holes (435) are respectively located at two sides of the vertical through hole (434), and a flat through hole (436) is provided on each of the left and right side walls of the flat fin plate (433), the flat through hole (436) penetrates through the vertical blind hole (435) and the vertical through hole (434), a first built-in rod (437) and a fourth spring (443) are provided in the flat through hole (436), the first built-in rod (437) is provided in the flat through hole (436), and the fourth spring (443) is sleeved on the first built-in rod (437) and abuts against the outer end of the flat through hole (436), a third vertical rod (444) is arranged in the vertical blind hole (435), an opening corresponding to the third vertical rod (444) is formed in the first built-in rod (437), the upper ends of the two third vertical rods (444) are connected with a second flat rod (438), the upper end of the first electric telescopic rod penetrates through the vertical through hole (434) and is provided with a second flat rod (438) which is abutted against the first flat rod, and a circumferential groove (439) corresponding to the first built-in rod (437) is formed in the position, close to the upper end, of the first electric telescopic rod.
7. The single-sided autoloading four-column cutting machine of claim 6, wherein the upper end of the vertical blind hole (435) is provided with a first side baffle (440), and the side wall of the third vertical rod (444) is provided with a second side baffle (441) corresponding to the first side baffle (440); the lower end of the third vertical rod (444) is provided with a fifth spring (442), and the lower end of the fifth spring (442) is connected with the lower end of the vertical blind hole (435).
8. The single-sided automatic feeding four-column cutting machine according to claim 1, wherein a plurality of anchor assemblies (5) are arranged at the bottom of the fixed material plate (2), each anchor assembly (5) comprises an anchor pad seat (501), two first bearing mechanisms, a second bearing mechanism and a third bearing mechanism, each first bearing mechanism comprises a T-shaped bearing rod (502), a first inclined rod (503), a first sleeve (504), a second sleeve (505) and a U-shaped bearing part, a foot hole is arranged on each anchor pad seat (501), the lower end of each T-shaped bearing rod (502) is connected in the foot hole, the lower end of each first inclined rod (503) is hinged with the upper end of each T-shaped bearing rod (502), each first sleeve (504) is arranged at the upper end of each first inclined rod (503), each second sleeve (505) is sleeved in each first sleeve (504), the length of the second sleeve (505) is greater than that of the first sleeve (504), the U-shaped bearing part comprises a transverse plate (506), a plurality of L-shaped rods (507), a first vertical rod (508) and a second vertical rod (509), the L-shaped rods (507) are arranged at the end part of the second sleeve (505), the transverse plate (506) is arranged at the upper ends of the two L-shaped rods (507), and the first vertical rod (508) and the second vertical rod (509) are arranged on the transverse plate (506);
the third bearing mechanism comprises a transverse rocker (515), a foundation top plate (510) and a plurality of U-shaped rods (511), wherein the transverse rocker (515) is arranged at the upper ends of the first vertical rod (508) and the second vertical rod (509), the U-shaped rods (511) are arranged on the transverse rocker (515) in an inverted mode, and the foundation top plate (510) is arranged at the upper ends of the U-shaped rods (511).
9. The single-sided autoloading four-column cutting machine of claim 8, further comprising:
a spring set comprising a first spring (512), a second spring (513) and a third spring (514), wherein the first spring (512) is arranged between the two first diagonal rods (503), the second spring (513) is arranged between the upper ends of the two T-shaped bearing rods (502), and the third spring (514) is arranged between the lower ends of the two T-shaped bearing rods (502);
an inner cellular plate (514), the inner cellular plate (514) disposed within the second sleeve (505).
10. The single-sided automatic feeding four-column cutting machine according to claim 3, wherein a protection mechanism (6) is arranged on the inner surface of the first semicircular clamping plate (432), the protection mechanism (6) comprises a first U-shaped plate (601), a second U-shaped plate (602) and a plurality of protection inner rods (603), the protection inner rods (603) are arranged between the first U-shaped plate (601) and the second U-shaped plate (602), a protection rotary drum (604) and two braking mechanisms are arranged on the protection inner rods (603), the protection rotary drum (604) is arranged between the two braking mechanisms, each braking mechanism comprises a rotating plate (605), a supporting cylinder (606), a holding cylinder (607) and two internal braking mechanisms, the rotating plate (605), the supporting cylinder (606) and the holding cylinder (607) are all sleeved on the protection inner rods (603), the rotating plate (605) is connected with the supporting cylinder (606) through a bearing (628), a fourth groove (608) is formed in the inner wall of the supporting cylinder (606), a connecting hole is formed in the bottom of the supporting cylinder (606), the surface, facing the protective rotating cylinder (604), of the rotating plate (605) is rotatably connected with the protective rotating cylinder (604), the holding cylinder (607) is rotatably connected to one end, far away from the protective rotating cylinder (604), of the supporting cylinder (606), and an inclined inner sleeve (609) is arranged at one end, far away from the supporting cylinder (606), in the holding cylinder (607);
the two internal mechanisms are positioned on two sides of the protective inner rod (603), and each internal mechanism comprises a third U-shaped plate (610), a horizontally-arranged inner cylinder (629), a second internal rod (611), a third inclined rod (612), a first connecting plate (613), a third internal rod (614), a wire cylinder (615), a third connecting plate (616), a conical semi-jacket (617) and an inner rotary disk (618);
the second built-in rod (611) is arranged on the inner wall of the support cylinder (606) and located above the fourth groove (608), the first connecting plate (613) is arranged in the fourth groove (608) through a sixth spring (619), the second built-in rod (611) is movably connected with the third U-shaped plate (610) through the flat inner cylinder (629), the first connecting plate (613) is movably connected with the flat inner cylinder (629) through a second inclined rod (620), the third built-in rod (614) is arranged on the cylinder bottom and located on one side of the connecting hole, a second connecting plate (621) is arranged on the third built-in rod (614) in a sliding manner, the second connecting plate (621) is connected with the first connecting plate (613) through the third inclined rod (612), the wire cylinder (615) is arranged in the connecting hole, and the second connecting plate (621) is connected with the wire cylinder (615) through the first inclined rod (612), the lower portion of the wire barrel (615) is sleeved with the inner rotary disc (618), the holding barrel (607) is rotatably connected with the inner rotary disc (618) through an inner sleeve (622), the conical semi-jacket (617) is connected with the inclined inner sleeve (609) in a sliding mode, a fifth groove (623) is formed in the conical semi-jacket (617), a fourth built-in rod (624) is arranged in the fifth groove (623), the third connecting plate (616) is arranged on the fourth built-in rod (624) in a sliding mode, the third connecting plate (616) is rotatably connected with the wire barrel (615) through a second screw rod (625), a third side baffle (626) corresponding to the third connecting plate (616) is arranged in the holding barrel (607), and a seventh spring (627) abutting against the third connecting plate (616) is arranged on the fourth built-in rod (624).
CN202010967564.8A 2020-09-15 2020-09-15 Single-face automatic feeding four-column cutting machine Active CN112192642B (en)

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