CN113787372A

CN113787372A - Aluminum template frame slotting equipment

Info

Publication number: CN113787372A
Application number: CN202111169674.0A
Authority: CN
Inventors: 温海平
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-08
Filing date: 2021-10-08
Publication date: 2021-12-14

Abstract

The invention discloses aluminum template frame slotting equipment, which comprises a support frame, wherein positioning cavities with leftward openings are respectively arranged in the left end surfaces of the front side and the rear side of the support frame, side positioning assemblies for positioning slotting positions before slotting are arranged in the two positioning cavities, and supporting wheel cavities with downward openings are respectively arranged at the front positions and the rear positions of the left end surface and the right end surface of the support frame. Thereby improving the efficiency of the aluminum template in installation and application.

Description

Aluminum template frame slotting equipment

Technical Field

The invention relates to the technical field of aluminum formworks, in particular to aluminum formwork frame slotting equipment.

Background

The aluminum alloy template is a template system of a new generation behind a wood template, bamboo, wood plywood and steel template, the aluminum alloy template uses an aluminum alloy section as a main material, and is a template suitable for concrete engineering and manufactured by machining, welding and other processes.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the slotting equipment for the frame of the aluminum template, which solves the problems that the slotting precision is effectively preserved because a machine is large and is not easy to carry when the aluminum template needs to be slotted temporarily.

The invention is realized by the following technical scheme.

The invention relates to aluminum template frame slotting equipment which comprises a support frame, wherein positioning cavities with leftward openings are respectively arranged in the left end surfaces of the front side and the rear side of the support frame, side positioning components for positioning slotting positions before slotting are arranged in two positioning cavities, supporting wheel cavities with downward openings are respectively arranged in the front and rear positions of the left and the right lower end surfaces of the support frame, supporting and moving components for supporting and assisting in moving in a slotting process are respectively arranged in the four supporting wheel cavities, a supporting cavity which is communicated up and down is arranged in the middle of the support frame, a machine shell which is in sliding connection with the cavity wall of the supporting cavity is arranged in the supporting cavity, lifting grooves with outward openings are respectively arranged on the front and the rear end surfaces of the machine shell, lifting components for descending and cutting after cutting positioning are arranged in the lifting grooves, a slotting cavity with downward openings is arranged in the lower end surface of the machine shell, and a slotting cutting component for cutting the width of a slotted groove is arranged on the rear side of the slotting cavity, be equipped with in the grooving chamber front side right side chamber wall with it intercommunication and the decurrent excision of opening and remove the chamber, the excision is removed the intracavity and is equipped with the fluting excision subassembly that will carry out the partial excision of needs fluting when being used for the fluting, be equipped with the excision piece removal chamber of intercommunication with it in the grooving chamber front side left side chamber wall, the excision piece removes the intracavity and is equipped with the chamber of demolising of intercommunication with it, demolish the intracavity and be equipped with the dismouting excision piece subassembly that is used for adjusting fluting excision thickness when slotting, be equipped with the excision piece chamber of intercommunication with it in the excision piece removal chamber back cavity wall, be equipped with the excision piece shifting chute of intercommunication with it in the excision piece chamber front cavity wall, be equipped with in the excision piece shifting chute and be used for carrying out the excision piece and store the excision piece shifting chute that removes.

Preferably, the side locating component comprises two locating electric push rods arranged on the right cavity wall in the locating cavity, the left end face of each locating electric push rod is in power connection with a locating body, a locating wheel cavity which is communicated from left to right is arranged in the left end face of the locating body, the front and rear upper and lower cavity walls of the locating wheel cavity are respectively in rotation connection with three locating shafts, and locating wheels are fixed on the locating shafts.

Preferably, the supporting and moving assembly comprises supporting shafts which are arranged on the left cavity wall and the right cavity wall of the four supporting wheel cavities and are connected in a rotating mode, and supporting wheels are fixed on the four supporting shafts.

Preferably, the lifting assembly comprises two lifting electric blocks arranged on the front cavity wall and the rear cavity wall of the support frame, and the end faces of the lifting electric blocks close to the middle part of the support cavity are arranged in the two lifting grooves on the casing and are in power connection with the cavity walls.

Preferably, fluting cutting subassembly is including establishing rotate the cutting axle of connection on the fluting chamber front side cavity wall, both ends all are fixed with cutting blade, two about the cutting axle between the cutting blade the cutting axle part is equipped with cutting adjustment telescopic link, cutting axle right-hand member be equipped with the cutting motor in the fluting chamber wall, cutting motor left end face power is connected cutting axle right-hand member face.

Preferably, the slotted cutting assembly comprises a cutting electric push rod arranged above the cutting moving cavity, the lower end of the cutting electric push rod is in power connection with a cutting rotating cavity which is in sliding connection with the wall of the cutting moving cavity, a cutting rotating motor is arranged in the left end surface of the cutting rotating cavity, a cutting shaft is connected to the left end surface of the cutting rotating motor in a power mode, the cutting shaft is connected with a plurality of cutting sheets in a sliding way, the left end of the cutting shaft is provided with a nut, the middle part of the nut is provided with a nut hole which is communicated with the left and the right, the cutting shaft is in threaded connection with the nut hole, four extrusion cavities with right openings are arranged on the right end face of the nut, four extrusion blocks with right ends extending out of the cavities are arranged in the extrusion cavities, the left end faces of the extrusion blocks enable one ends of extrusion springs to be fixed with the extrusion blocks, and the other ends of the extrusion springs are fixed on the left cavity wall of the extrusion cavities.

Preferably, dismouting excision piece subassembly is including establishing demolish flexible piece of demolising on the chamber left side wall, and the power connection has demolishs the piece on demolising flexible piece right-hand member face, demolish a right-hand member face and be equipped with and demolish the electro-magnet, demolish the nut dismouting chamber that is equipped with the opening to the right in the piece right-hand member face, be equipped with in the nut dismouting chamber left side wall and demolish the motor, demolish power connection has on the motor right-hand member face nut dismouting piece that nut dismouting intracavity rotates to be connected, be equipped with the nut location chamber that the opening is to the right in the nut dismouting piece right-hand member face.

Preferably, the resection piece moving assembly comprises a moving electric guide rail arranged in the upper cavity wall of the resection piece moving groove, the lower end face of the moving electric guide rail is dynamically connected with a carrying electric push rod, a carrying groove with a downward opening is arranged in the lower end face of the carrying electric push rod, and the lower end face of the carrying groove is dynamically connected with a carrying electromagnet in sliding connection with the carrying groove.

The invention has the beneficial effects that: this technical scheme provides one kind when the frame fluting needs to be carried out temporarily to the aluminium template, accessible locating component fixes a position its frame, it cuts the thickness regulation to cut through fluting excision subassembly and dismouting excision piece subassembly cooperation, thereby carry out its groove width precision and carry out effective control and regulation when guaranteeing its position precision, remove the subassembly cooperation through manual and support, thereby remove the stroke effective control, because its manual operation of being convenient for of small, thereby conveniently carry and carry out interim fluting work at any time, thereby improve the efficiency of aluminium template when installation application.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram at D-D in FIG. 2 according to an embodiment of the present invention;

FIG. 6 is a schematic view of the nut shown in FIG. 1 according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view of the embodiment of the present invention at E in FIG. 1;

fig. 8 is a three-dimensional enlarged schematic view of the housing in fig. 1 according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The slotting device for the aluminum template frame, which is described in conjunction with the accompanying drawings 1-8, comprises a support frame 15, wherein positioning cavities 34 with leftward openings are respectively arranged in the left end faces of the front and rear sides of the support frame 15, two side positioning assemblies for positioning the slotting position before slotting are arranged in the two positioning cavities 34, supporting wheel cavities 28 with downward openings are respectively arranged in the front and rear positions of the left and right lower end faces of the support frame 15, supporting and moving assemblies for supporting and assisting in moving in the slotting process are respectively arranged in the four supporting wheel cavities 28, a supporting cavity 48 which is through up and down is arranged in the middle of the support frame 15, a casing 10 which is connected with the supporting cavity 48 in a sliding manner is arranged in the supporting cavity 48, lifting grooves 38 with outward openings are respectively arranged on the front and rear end faces of the casing 10, lifting assemblies for descending and cutting after cutting and positioning are arranged in the lifting grooves 38, and slotting cavities 22 with downward openings are arranged in the lower end faces of the casing 10, a slotting and cutting component for slotting the slot width cutting is arranged at the rear side of the slotting cavity 22, a cutting moving cavity 24 which is communicated with the slotting cavity 22 and has a downward opening is arranged in the right cavity wall at the front side of the slotting cavity 22, the cutting moving cavity 24 is internally provided with a slotting and cutting assembly for cutting off the part needing slotting when slotting, a cutting sheet moving cavity 31 communicated with the left cavity wall at the front side of the slotting cavity 22 is arranged in the left cavity wall of the cutting sheet moving cavity 31, a dismantling cavity 11 communicated with the cutting sheet moving cavity 31 is arranged in the left cavity wall, a dismounting and mounting cutting piece component for adjusting the cutting thickness of the groove when the groove is cut is arranged in the dismounting cavity 11, a resection slice cavity 41 communicated with the resection slice moving cavity 31 is arranged in the back cavity wall of the resection slice moving cavity 31, a resection slice moving groove 42 communicated with the resection slice cavity 41 is arranged in the front cavity wall of the resection slice cavity 41, a cutting sheet moving assembly for storing and moving cutting sheets is arranged in the cutting sheet moving groove 42; this technical scheme provides one kind when the frame fluting needs to be carried out temporarily to the aluminium template, accessible locating component fixes a position its frame, it cuts the thickness regulation to cut through fluting excision subassembly and dismouting excision piece subassembly cooperation, thereby carry out its groove width precision and carry out effective control and regulation when guaranteeing its position precision, remove the subassembly cooperation through manual and support, thereby remove the stroke effective control, because its manual operation of being convenient for of small, thereby conveniently carry and carry out interim fluting work at any time, thereby improve the efficiency of aluminium template when installation application.

In this embodiment, the side positioning assembly includes positioning electric push rods 49 arranged on the right cavity wall in the two positioning cavities 34, the left end surfaces of the two positioning electric push rods 49 are dynamically connected with a positioning body 16, a positioning wheel cavity 19 which is through from left to right is arranged in the left end surface of the positioning body 16, the front, rear, upper and lower cavity walls of the positioning wheel cavity 19 are rotatably connected with three positioning shafts 18, and positioning wheels 17 are fixed on the positioning shafts 18; when the cutting machine needs to work, the extending length of the positioning body 16 is adjusted through the two positioning electric push rods 49, so that the supporting frame 15 determines the cutting position, then the positioning wheel 17 is in contact with the side face of the frame, and therefore effective positioning is carried out before cutting, and guiding effect is carried out during subsequent cutting.

In this embodiment, the supporting and moving assembly includes supporting shafts 29 rotatably connected to the left and right cavity walls of the four supporting wheel cavities 28, and supporting wheels 30 are fixed to all the four supporting shafts 29; after the side edge positioning is completed, the support frame 15 is supported on the aluminum template by the four support wheels 30, so that the support frame is convenient to move and the grooving is ensured to be smoothly carried out.

In this embodiment, the lifting assembly includes two lifting electric blocks 37 disposed on the front and rear chamber walls of the supporting frame 15, and the end surfaces of the lifting electric blocks 37 near the middle of the supporting chamber 48 are disposed in the two lifting grooves 38 on the casing 10 and are in power connection with the chamber walls; after the positioning and supporting are completed, the two lifting motor blocks 37 work and slide in the two lifting grooves 38, so that the casing 10 is lowered, the aluminum template is cut, and the cutting and grooving work is started.

In this embodiment, the grooving and cutting assembly includes a cutting shaft 36 rotatably connected to a cavity wall at the front side of the grooving cavity 22, cutting blades 35 are fixed to both left and right ends of the cutting shaft 36, a cutting adjustment telescopic rod 40 is arranged at a portion of the cutting shaft 36 between the two cutting blades 35, a cutting motor 39 is arranged in the cavity wall of the grooving cavity 22 at the right end of the cutting shaft 36, and the left end face of the cutting motor 39 is dynamically connected to the right end face of the cutting shaft 36; when the cutting is needed, the cutting adjusting telescopic rod 40 is matched with the dismounting and mounting cut-off piece assembly to adjust the groove width, then the cutting motor 39 drives the cutting shaft 36 and the two cutting blades 35 to rotate, and at the moment, the lifting assembly drives the machine shell 10 and the two cutting blades 35 to descend to be in contact with the aluminum template, so that the aluminum template is cut by the lifting assembly.

In this embodiment, the grooving and cutting assembly includes a cutting electric push rod 23 disposed above the cutting moving cavity 24, the lower end of the cutting electric push rod 23 is power connected with a cutting rotating cavity 25 slidably connected with the cavity wall of the cutting moving cavity 24, a cutting rotating motor 26 is disposed in the left end surface of the cutting rotating cavity 25, a cutting shaft 27 is power connected to the left end surface of the cutting rotating motor 26, a plurality of cutting sheets 21 are slidably connected to the cutting shaft 27, a nut 52 is disposed at the left end of the cutting shaft 27, a nut hole 51 penetrating left and right is disposed in the middle of the nut 52, the cutting shaft 27 is in threaded connection with the nut hole 51, four right end surfaces of the nut 52 are provided with squeezing cavities 50 opening right, squeezing blocks 54 extending out of the right end of the squeezing cavities are disposed in the four squeezing cavities 50, and one ends of the squeezing springs 53 are fixed to the four left end surfaces of the squeezing blocks 54, the other end of the extrusion spring 53 is fixed on the left cavity wall of the extrusion cavity 50; when the grooving and cutting assembly starts to cut on an aluminum template, a worker holds the machine shell 10 to move backwards, when the lower end of the cutting piece 21 reaches an initial cutting position, the cutting electric push rod 23 drives the cutting rotating cavity 25 to move downwards, and meanwhile, the cutting rotating motor 26 drives the cutting shaft 27 and the cutting piece 21 to rotate, so that the cut position is further cut, and grooving work is performed.

In this embodiment, the dismounting and mounting cut-off piece assembly includes a dismounting and extending block 13 arranged on the left cavity wall of the dismounting cavity 11, a dismounting block 12 is dynamically connected to the right end face of the upper dismounting and extending block 13, a dismounting electromagnet 20 is arranged on the right end face of the dismounting block 12, a nut dismounting cavity 55 with a rightward opening is arranged in the right end face of the dismounting block 12, a dismounting motor 14 is arranged in the left cavity wall of the nut dismounting cavity 55, a nut dismounting block 32 rotatably connected in the nut dismounting cavity 55 is dynamically connected to the right end face of the dismounting motor 14, and a nut positioning cavity 33 with a rightward opening is arranged in the right end face of the nut dismounting block 32; before the grooving starts, the grooving and cutting assembly starts to adjust the reduced pitch, and at the same time, the dismounting telescopic block 13 drives the dismounting block 12 and the nut dismounting block 32 to move rightwards, so that the nut positioning cavity 33 cooperates with the nut 52, so that the dismounting motor 14 drives the nut dismounting block 32 and the nut 52 to rotate, so that the nut 52 is dismounted from the cutting shaft 27, and at the same time, the dismounting electromagnet 20 works to attract one cutting piece 21, at this time, the dismounting telescopic block 13 drives the dismounting block 12, the nut dismounting block 32, the nut 52 and the cutting piece 21 to reset leftwards, so that the dismounted cutting piece 21 is driven in the cutting piece moving cavity 31, and then the cutting piece moving assembly drives the dismounted cutting piece 21 to move inwards, in the cutting piece cavity 41, then the dismounting telescopic block 13 drives the dismounting block 12 to move the nut 52 rightwards, the nut 52 is fixed on the cutting shaft 27 again by the dismounting motor 14, the operation is continued, and similarly, the slotting and cutting assembly starts to adjust and increase the spacing, so that the dismounting telescopic block 13, the dismounting block 12, the dismounting motor 14, the nut dismounting block 32 cooperate with the cutting piece moving assembly to widen the cutting piece 21, thereby effectively adjusting the slotting spacing.

In this embodiment, the resection slice moving assembly comprises a moving electric guide rail 43 arranged in the upper cavity wall of the resection slice moving groove 42, the lower end surface of the moving electric guide rail 43 is dynamically connected with a carrying electric push rod 46, the lower end surface of the carrying electric push rod 46 is provided with a carrying groove 45 with a downward opening, and the lower end surface of the carrying groove 45 is dynamically connected with a carrying electromagnet 47 slidably connected in the carrying groove 45; when the cut-off piece 21 needs to be increased or decreased, the moving electric guide rail 43 drives the carrying electric push rod 46 to slide in the cut-off piece moving groove 42, the carrying block 44 drives the carrying electromagnet 47 to ascend and descend, so that the cut-off piece moves in the cut-off piece cavity 41 and the cut-off piece moving cavity 31, the carrying electromagnet 47 works to drive the cut-off piece 21 to move in the cut-off piece cavity 41 and the cut-off piece moving cavity 31, so that the cut-off piece 21 is taken out and put back, and the grooving width is changed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an aluminum mould board frame slotting device, includes the support frame, its characterized in that: the left end faces of the front side and the rear side of the support frame are internally provided with a positioning cavity with a left opening, two positioning cavities are internally provided with a side positioning component for positioning the grooving position before grooving, the front and rear positions of the left and the right lower end faces of the support frame are respectively provided with a supporting wheel cavity with a downward opening, four supporting wheel cavities are respectively provided with a supporting and moving component for supporting and assisting in moving in the grooving process, the middle part of the support frame is provided with a supporting cavity which is communicated up and down, the supporting cavity is internally provided with a casing which is in sliding connection with the cavity wall, the front and the rear end faces of the casing are respectively provided with a lifting groove with an outward opening, the lifting groove is internally provided with a lifting component for descending and descending cutting after cutting and positioning, the lower end face of the casing is internally provided with a grooving cavity with a downward opening, the rear side of the grooving cavity is provided with a grooving cutting component for cutting the width of the grooving cavity, the right cavity wall of the front side of the grooving cavity is internally provided with a cutting and moving cavity which is communicated with a downward opening, the utility model discloses a cutting piece, including excision piece, cavity.

2. The aluminum template frame slotting device of claim 1, wherein: the side positioning assembly comprises two positioning electric push rods arranged on the right cavity wall in the positioning cavity, the left end face of each positioning electric push rod is dynamically connected with a positioning body, a left positioning wheel cavity which is communicated with the left and right is arranged in the left end face of the positioning body, the front and rear upper and lower cavity walls of the positioning wheel cavity are respectively rotatably connected with three positioning shafts, and positioning wheels are respectively fixed on the positioning shafts.

3. The aluminum template frame slotting device of claim 1, wherein: the supporting and moving assembly comprises supporting shafts which are arranged on the left cavity wall and the right cavity wall of the four supporting wheel cavities and are connected in a rotating mode, and supporting wheels are fixed on the four supporting shafts.

4. The aluminum template frame slotting device of claim 1, wherein: the lifting assembly comprises two lifting electric blocks arranged on the front cavity wall and the rear cavity wall of the support frame, and the end faces of the lifting electric blocks close to the middle part of the support cavity are arranged on the casing in the two lifting grooves and are in power connection with the cavity walls of the lifting grooves.

5. The aluminum template frame slotting device of claim 1, wherein: fluting cutting subassembly is including establishing rotate the cutting axle of connection on the fluting chamber front side cavity wall, both ends all are fixed with cutting blade, two about the cutting axle between the cutting blade the cutting axle part is equipped with cutting adjustment telescopic link, cutting axle right-hand member be equipped with the cutting motor in the fluting chamber cavity wall, cutting motor left end face power is connected cutting axle right-hand member face.

6. The aluminum template frame slotting device of claim 1, wherein: the fluting excision subassembly is including establishing the excision electricity push rod that removes the chamber top, the excision electricity push rod lower extreme power be connected with the excision removes chamber wall sliding connection's excision and rotates the chamber, the excision is rotated and is equipped with the excision in the chamber left end face and rotates the motor, the excision rotates power connection on the motor left end face and has the excision axle, the epaxial sliding connection of excision has a plurality of excision pieces, excision axle left end is equipped with the nut, the nut hole that link up about the nut middle part is equipped with, the excision axle with nut hole threaded connection, be equipped with four opening right extrusion chambeies on the nut right-hand member face, four the extrusion piece that the chamber was stretched out to the right-hand member all is equipped with in the extrusion piece left end face all makes extrusion spring one end fixed with it, the extrusion spring other end is fixed on the extrusion chamber left side wall.

7. The aluminum template frame slotting device of claim 1, wherein: the dismounting and cutting blade assembly comprises a dismounting and stretching block arranged on the cavity left end face of the dismounting and stretching block, a dismounting and stretching block is connected with power on the right end face of the dismounting and stretching block, a dismounting electromagnet is arranged on the right end face of the dismounting and stretching block, a nut dismounting cavity with a right opening is arranged in the dismounting and stretching block right end face, a dismounting motor is arranged in the cavity left end face of the nut dismounting cavity, a nut dismounting block connected with the nut dismounting cavity in a rotating mode is arranged on the dismounting and stretching block right end face of the dismounting and stretching block in a rotating mode, and a nut positioning cavity with a right opening is arranged in the nut dismounting block right end face.

8. The aluminum template frame slotting device of claim 1, wherein: the resection piece moving assembly comprises a moving electric guide rail arranged in the upper cavity wall of a resection piece moving groove, the lower end face of the moving electric guide rail is dynamically connected with a carrying electric push rod, a carrying groove with a downward opening is arranged in the lower end face of the carrying electric push rod, and the lower end face of the carrying groove is dynamically connected with a carrying electromagnet in sliding connection in the carrying groove.