JP2019181660A - Jig component of mounting finished article - Google Patents

Abstract

To provide an improved type jig component of a mounting finished article.SOLUTION: An improved type jig component of a mounting finished article includes a spindle assembly, a sticking device installed on the spindle assembly, and a slewing gear which is provided at a lower end of the spindle assembly and is rotated in linkage with the spindle assembly. The sticking device includes a first elevation housing which is provided on the spindle assembly and is oriented upward, and a first guide groove is so provided as to be communicated with inner walls on both of left and right sides of the first elevation housing. A screw block is fixedly provided at an upper end of the inner wall of the first elevation housing, and a first slide block, which is vertically slidable, is located on the first elevation housing. A first guide block, which extends into the first guide groove, is fixedly located on end faces on both of left and right sides of the first slide block, and a first electric motor is fixedly located on the first slide block.SELECTED DRAWING: Figure 3

Description

The present invention relates to a processed product clamping technical field, and specifically to a jig component of an improved attachment processed product.

When processing a processed product, it is necessary to attach and fix the processed product first, and it is inconvenient to adjust the angle and height after installing the traditional mounting equipment as a single unit. It is necessary to design a jig part for an improved mounting product that can be mounted in a large amount and the position of the processed product can be adjusted.

Chinese Patent Application Publication No. 103801763

The present invention provides an improved mounting workpiece jig component for the necessary technical problem to be solved, which can solve the above-mentioned problems of the current technology.

The present invention is realized through the following technical scheme. The jig part of the improved attachment work product of the present invention includes a main shaft group, a fixing device installed in the main shaft group, and a rotating device installed at the lower end of the main shaft group and rotating in conjunction with the main shaft group, The anchoring device includes a first elevating housing that is installed on the main shaft assembly and faces upward, and a first guide groove is installed so as to communicate with the inner walls on the left and right sides of the first elevating housing, and the first elevating housing A screw block is fixedly installed at the upper end of the inner wall of the body, a first sliding block slidable up and down is installed in the first elevating housing, and the first sliding blocks are arranged on the left and right end faces of the first sliding block. A first induction block extending into the induction groove is fixedly installed, a first electric motor is fixedly installed on the first sliding block, and an upper end of the first electric motor is connected to the first lifting housing through a rotating shaft. Engage the rotor that extends out of the upper end of the body so that power can be transmitted. The rotor is engaged with and connected to the screw block with a screw, a first mounting block is installed at the upper end of the main shaft set, and the upper end of the rotor is rotatable on the lower end surface of the first mounting block The solar panel is fixedly installed on the upper end surface of the first mounting block, and the first projecting blocks are fixedly installed on the four front, rear, left and right end surfaces of the first mounting block, respectively. The second projecting block is fixedly installed on the four front and rear end surfaces of the main shaft set outside the first elevating housing, and the second projecting block is separated from the first elevating housing on one side end surface. A first fixed structure is engaged and connected so as to be rotatable, and the first fixed structure is engaged so that the second projecting block can rotate on one side end surface that is separated from the first elevating housing. A first connecting rod connected, A second connecting rod is fixedly connected to one end where the series connecting rod is separated from the first lifting housing, and a first fixed plate is fixedly connected to a lower end surface of the second connecting rod, The first block is fixedly installed at the center of the upper end surface of the connecting rod, and the first column is rotatably engaged and connected to the upper end surface of the first block, and is installed symmetrically in the front, rear, left, and right directions. The upper ends of the first series pillars are rotatably engaged with and connected to the one end face separated from the first mounting block by the first projecting blocks installed symmetrically in the front, rear, left and right directions, A second elevating housing is installed so as to communicate with the lower inner wall of the body, and grooves are provided on the left and right inner walls of the second elevating housing so as to communicate with the second elevating housing; A sliding shaft that slides up and down on the body and whose upper end is fixedly connected to the lower end surface of the first sliding block And a second mounting block that slides up and down on the second elevating housing at the lower end of the sliding shaft and that has both left and right ends extending outside the grooved portion is fixedly connected, and the main shaft is disposed outside the main shaft set. A slidable cannula is provided on the outer surface of the set, and a third mounting block is fixedly connected between the lower end surface of the cannula and the upper end surface of the second mounting block, and the front and rear of the cannula A third projecting block is fixedly installed symmetrically on the four left and right end faces, and the second projecting column is rotatable on one end face of the third projecting block installed symmetrically on the front, rear, left and right sides away from the main shaft assembly. The fourth projecting block is fixedly installed on the four front, rear, left and right end surfaces of the main shaft assembly on the lower side of the second elevating housing, and the fourth projecting block is connected to the main shaft assembly. The second fastening structure is rotatably engaged and connected to the one end face that is separated, The second fixed structure includes a connecting rod rotatably engaged with and connected to the fourth projecting block, and the fourth connecting rod is fixed to one end where the third connecting rod is separated from the fourth projecting block. The second block is fixedly installed at the center position of the upper end surface of the fourth connecting rod, and the lower end of the second connecting column is rotatably engaged with the upper end surface of the second block The second fixed plate is fixedly installed on the lower end surface of the fourth connecting rod, and the photoelectric device is installed on the rotating device.

As a preferred technical solution, the rotating device includes a base plate installed on the lower side of the main spindle assembly, and a rotating column is fixedly installed at the center position of the upper end surface of the base plate, and the rotating column rotates upward. A casing is installed, an annular casing is installed so as to communicate with the inner wall of the rotating casing, a second electric motor is fixedly installed on the lower inner wall of the rotating casing, and the lower end of the spindle assembly is Extending downward to the rotating housing and rotatably engaged with and connected to the inner wall of the rotating housing, the lower end of the main shaft assembly can transmit power to the upper end of the second electric motor through the rotating shaft. Are connected to and connected to the left and right sides of the main shaft assembly, and the maintenance blocks extending to the annular housing are fixedly installed, so that the maintenance blocks can rotate on the lower inner wall of the annular housing through a rotating wheel. And an annular cavity on the outer wall of the main shaft assembly. A second rotating column extending to the annular cavity on one side end surface where the first rotating column body is close to the main shaft set, and the first rotating column body is fixedly installed on the upper end surface of the rotating column. A body is fixedly installed, and a rotational engagement connection is formed between the upper end surface of the second rotating column body and the upper inner wall of the cavity through a rotating wheel.

As a preferred technical solution, a rotating wiring device is fixedly installed on the upper end surface of the second rotating column body, a rotating switch is fixedly installed on the upper end surface of the rotating wiring device, and the rotating switch is connected to the second electric motor. When the rotation is controlled and the rotation switch is pressed at once, the second electric motor rotates 90 degrees, and in turn rotates 90 degrees in conjunction with the fixing device, and the user processes the processed product. Make it convenient.

As a preferred technical solution, a lifting / lowering wiring device is fixedly installed on the left end surface of the rotating column, a lifting switch is fixedly installed on the left end surface of the lifting / lowering wiring device, the lifting switch controls the first electric motor, As a result, opening and closing of the first fixing device and the second fixing device is controlled to make it convenient for the user to process the workpiece.

As a preferred technical solution, a storage battery is installed in the main shaft group, the storage battery is connected to the solar panel circuit, and the power stored in the storage battery is used for self-consumption of the power consumption parts of the apparatus, and thus saves the consumption of the commercial power supply. .

As a preferred technical solution, a punch installed vertically through the base plate is installed, and the apparatus is fixedly connected to the ground through the punch.

As a preferred technical solution, the photoelectric device includes a hint lamp in the first rotating column body fixedly attached to the rotating device, and the hint lamp is connected to the storage battery circuit.

The beneficial effect of the present invention is that the present invention is simple in structure and easy to operate, and the lower end surface of the first sliding block is the lower side of the first lifting housing in the initial state. At this time, the lower end face of the first mounting block comes into contact with the upper end face of the main spindle assembly. At this time, the first fixing structure is in an open state, and at the same time, the sliding shaft is at the maximum in the second lifting / lowering housing. At this time, the lower end surface of the second mounting block comes into contact with the lower inner wall of the second elevating housing, and at this time, the second fixing structure is reversed downward. When the work piece needs to be solidified using the one-fixed structure and the work piece needs to be solidified using the second fixed structure, the user presses the lift switch, and at this time, the first motor is activated, As a result, it rotates in conjunction with the rotor through the rotation shaft, and as a result, the screw engagement relationship between the rotor and the screw block is established. Next, the first sliding block rises into the first lifting housing in conjunction with the first sliding block, and the first sliding block is moved by the limiting action between the first conductive block and the first conductive groove in the process of raising the first sliding block. At this time, the first mounting block rises without rotating, and then rotates around the first protruding block in conjunction with the first series of pillars, and thus surrounds the second protruding block in conjunction with the first fixing structure. Flip up, reduce the lateral space occupied by the first fixed structure at this time, at this time the first sliding block rises in conjunction with the sliding shaft 32 and eventually rises in conjunction with the second mounting block, As a result, it rises in conjunction with the sleeve, and as a result, rotates around the third projecting block in conjunction with the second column, and in turn, surrounds the fourth projecting block in conjunction with the second fixing structure and flips upward. At this time, the user has a second fixed structure When the user needs to replace the work piece to be fixed on the left and right sides and the rear side, the user presses the rotation switch, and at this time the second electric motor is activated, and as a result, the spindle assembly and Rotating 90 degrees in conjunction makes it convenient for the user to process the workpiece. Compared with traditional clamping equipment, the structure of this device is simple and the operation is not only convenient, but it occupies less space and can double the number of workpieces to be clamped.

The beneficial effect of the present invention is that the present invention is simple in structure and easy to operate, and the lower end surface of the first sliding block is the lower side of the first lifting housing in the initial state. At this time, the lower end face of the first mounting block comes into contact with the upper end face of the main spindle assembly. At this time, the first fixing structure is in an open state, and at the same time, the sliding shaft is at the maximum in the second lifting / lowering housing. At this time, the lower end surface of the second mounting block comes into contact with the lower inner wall of the second elevating housing, and at this time, the second fixing structure is reversed downward. When the work piece needs to be solidified using the one-fixed structure and the work piece needs to be solidified using the second fixed structure, the user presses the lift switch, and at this time, the first motor is activated, As a result, it rotates in conjunction with the rotor through the rotation shaft, and as a result, the screw engagement relationship between the rotor and the screw block is established. Next, the first sliding block rises into the first lifting housing in conjunction with the first sliding block, and the first sliding block is moved by the limiting action between the first conductive block and the first conductive groove in the process of raising the first sliding block. At this time, the first mounting block rises without rotating, and then rotates around the first protruding block in conjunction with the first series of pillars, and thus surrounds the second protruding block in conjunction with the first fixing structure. Flip up, reduce the lateral space occupied by the first fixed structure at this time, at this time the first sliding block rises in conjunction with the sliding shaft 32 and eventually rises in conjunction with the second mounting block, As a result, it rises in conjunction with the sleeve, and as a result, rotates around the third projecting block in conjunction with the second column, and in turn, surrounds the fourth projecting block in conjunction with the second fixing structure and flips upward. At this time, the user has a second fixed structure When the user needs to replace the work piece to be fixed on the left and right sides and the rear side, the user presses the rotation switch, and at this time the second electric motor is activated, and as a result, the spindle assembly and Rotating 90 degrees in conjunction makes it convenient for the user to process the workpiece. Compared with traditional clamping equipment, the structure of this device is simple and the operation is not only convenient, but it occupies less space and can double the number of workpieces to be clamped.

FIG. 1 is a schematic diagram of the internal structure of a jig part of an improved mounting product according to the present invention. FIG. 2 is an enlarged schematic view of A in FIG. FIG. 3 is an enlarged schematic view of B in FIG. 4 is an enlarged schematic view of C in FIG.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and drawings.

As shown in FIG. 1 and FIG. 4, the jig parts of the improved mounting product according to the present invention are a main shaft group 11, a fixing device installed on the main shaft group 11, and a lower end of the main shaft group 11. A rotating device that rotates in conjunction with the group 11, and the fixing device includes a first elevating housing 39 that is installed on the main shaft group 11 and faces upward. A first guide groove 35 is installed so as to communicate with each other, and a screw block 60 is fixedly installed at the upper end of the inner wall of the first elevating casing 39, and the first elevating casing 39 is slidable up and down. One sliding block 36 is installed, and first guide blocks 38 extending into the first guide groove 35 are fixedly installed on the left and right end faces of the first sliding block 36, and the first sliding block 36 One electric motor 37 is fixedly installed, and the upper end of the first electric motor 37 is connected to the upper end of the first lifting casing 39 through a rotating shaft. A rotor 52 extending out of the mouth is engaged and connected so that power can be transmitted, the rotor 52 is engaged and connected with the screw block 60 with a screw, and a first mounting block 49 is connected to the upper end of the main shaft set 11. And the upper end of the rotor 52 is rotatably engaged with and connected to the lower end surface of the first mounting block 49, and the solar panel 51 is fixedly installed on the upper end surface of the first mounting block 49. The first projecting blocks 48 are fixedly installed on the four front and rear, left and right end surfaces of the first mounting block 49, respectively, on the front and rear, left and right four end surfaces of the main shaft assembly 11 outside the first elevating housing 39. A second projecting block 47 is fixedly installed, and the second projecting block 47 is engaged and connected to one end face away from the first elevating housing 39 so that the first fixing structure can rotate; In the first fixing structure, the second projecting block 47 is connected to the first lifting housing 39. The first connecting rod 50 is rotatably engaged with and connected to one side end surface that is separated from the first connecting rod 50, and the second connecting rod 44 is fixed to one end where the first connecting rod 50 is separated from the first lifting / lowering housing 39. The first fixed plate 43 is fixedly connected to the lower end surface of the second connecting rod 44, and the first block 45 is fixedly installed at the center of the upper end surface of the second connecting rod 44. The upper ends of the first blocks 45 are rotatably engaged with and connected to the first series columns 46, and the upper ends of the first series columns 46 installed symmetrically in the front, rear, left, and right directions are symmetrical in the front, rear, left, and right directions, respectively. The first projecting block 48 installed on the first mounting block 49 is rotatably engaged with and connected to one end face away from the first mounting block 49, and communicates with the lower inner wall of the first lifting casing 39. A second elevating housing 34 is installed, and a grooved 33 communicating with the second elevating housing 34 is installed on the left and right inner walls of the second elevating housing 34. A sliding shaft 32 that slides up and down on the second lifting housing 34 and whose upper end is fixedly connected to the lower end surface of the first sliding block 36 is installed, and the second lifting housing is disposed at the lower end of the sliding shaft 32. A second mounting block 31 that slides up and down on the body 34 and whose left and right ends extend out of the grooved 33 is fixedly connected, and can be slid on the outer surface of the main shaft assembly 11 outside the main shaft assembly 11. A tube 28 is provided, and a third mounting block 29 is fixedly connected between the lower end surface of the cannula 28 and the upper end surface of the second mounting block 31. The third projecting block 27 is fixedly installed symmetrically, and the third projecting block 27 installed symmetrically in the front-rear and left-right directions is configured such that the second column 25 can be rotated on one end face away from the main shaft set 11. A fourth protrusion on the four front and rear end faces of the main shaft assembly 11 on the lower side of the second lifting housing 34 The lock 26 is fixedly installed, and the fourth protruding block 26 is engaged with and connected to the one end face away from the main shaft set 11 so that the second fixing structure can rotate. A connecting rod 41 rotatably engaged with and connected to the fourth projecting block 26, and the fourth connecting rod 21 is fixedly attached to one end of the third connecting rod 41 away from the fourth projecting block 41; The second block 24 is fixedly installed at the center position of the upper end surface of the fourth connecting rod 21, and the lower end of the second connecting column 25 is rotatable to the upper end surface of the second block 24. The second fixed plate 22 is fixedly installed on the lower end surface of the fourth connecting rod 21 by engaging and connecting.

Preferably, the rotating device includes a base plate 71 installed on the lower side of the main spindle 11, and a rotating column 61 is fixedly installed at the center position of the upper end surface of the base plate 71, and the rotating column 61 is located above the rotating column 61. A rotating housing 63 facing the housing, an annular housing 65 is installed so as to communicate with the inner wall of the rotating housing 63, and a second electric motor 62 is fixedly installed on the lower inner wall of the rotating housing 63. A lower end of the main shaft set 11 extends downward to the rotating housing 63 and is rotatably engaged with and connected to an inner wall of the rotating housing 63, and the lower end of the main shaft set 11 passes through the rotating shaft. Engaging and connecting to the upper end of the second electric motor 62 so that power can be transmitted, maintenance blocks 66 extending to the annular casing 65 are fixedly installed on the left and right sides of the main shaft set 11, respectively. Is rotatably engaged with and connected to the lower inner wall of the annular casing 65 through a rotating wheel, An annular cavity 69 is installed on the upper end surface of the rotating column 61, and a first rotating column body 67 is fixedly installed on the upper end surface of the rotating column 61. A second rotating column body 68 extending into the cavity 69 is fixedly installed, and a rotational engagement connection is formed between the upper end surface of the second rotating column body 68 and the upper inner wall of the cavity 69 through a rotating wheel.

Preferably, a rotating wiring device 81 is fixedly installed on the upper end surface of the second rotating column body 68, a rotation switch 82 is fixedly installed on the upper end surface of the rotating wiring device 81, and the rotation switch 82 is When the rotation of the two electric motors 62 is controlled and the rotation switch 82 is pressed at a time, the second electric motor 62 rotates ninety degrees and, in turn, rotates ninety degrees in conjunction with the fixing device. Makes it easy to process goods.

Preferably, a lifting / lowering wiring device 83 is fixedly installed on the left end surface of the rotating column 61, a lifting switch 84 is fixedly installed on the left end surface of the lifting / lowering wiring device 83, and the lifting switch 84 is connected to the first electric motor 37. , And in turn, controlling the opening and closing of the first and second fixing devices, making it convenient for the user to process the workpiece.

Preferably, a storage battery 91 is installed on the main shaft group 11, the storage battery 91 is connected to the solar panel 51 circuit, and the power stored in the storage battery 91 is used for self-consumption of power consumption components of the apparatus, and thus is consumed of commercial power. To save money.

Preferably, a punch 72 is provided on the base plate 71 so as to penetrate vertically, and the apparatus is fixedly connected to the ground through the punch 72.

Preferably, the photoelectric device includes a hint lamp 90 in the first rotating column body 67 fixedly attached to the rotating device, the hint lamp 90 is connected to the storage battery 91 circuit, and the hint lamp 90 is When it becomes bright, it indicates that the storage battery 91 is in a normal work state.

In the initial state of use of this device, the lower end surface of the first sliding block 36 abuts the lower inner wall of the first lifting housing 39, and at this time, the lower end surface of the first mounting block 49 is the main shaft assembly. 11 at this time, the first fixing structure is in an open state, and at the same time, the sliding shaft 32 is lowered to the second lifting housing 34 to the maximum extent, and at this time, the lower end surface of the second mounting block 31 Is in contact with the lower inner wall of the second elevating housing 34, and at this time, the second fixing structure is inverted downward, and at this time the user uses the first fixing structure to fix the workpiece. When the work piece needs to be solidified using the second solidification structure, the user presses the lift switch 84, and at this time, the first electric motor 37 is activated and eventually rotates in conjunction with the rotor 52 through the rotation shaft. As a result, through the screw engagement relationship between the rotor 52 and the screw block 60, the first lifting and lowering is interlocked with the first sliding block 36. The first sliding block 36 does not rotate due to the restricting action between the first conductive block 38 and the first conductive groove 35 in the process of rising into the housing 39 and the first sliding block 36 ascending. The mounting block 49 rises and then rotates around the first projecting block 48 in conjunction with the first series of pillars 46, and as a result, surrounds the second projecting block 47 in conjunction with the first fixed structure and flips upward. At this time, the lateral space occupied by the first fixing structure is reduced, and at this time, the first sliding block 36 rises in conjunction with the sliding shaft 32, and as a result rises in conjunction with the second mounting block 31, and eventually It rises in conjunction with the pipe 28, and in turn rotates around the third projecting block 27 in conjunction with the second column 25, and in turn, surrounds the fourth projecting block in conjunction with the second fixed structure and flips upward. At this time, the user can hold the tool using the second fixing structure. When the user needs to replace the workpieces to be fixed to the left and right sides and the rear side, the user presses the rotation switch 82, and at this time, the second electric motor 62 is started, and in turn, the second motor 62 is interlocked with the main spindle 11 through the rotation shaft. Rotate 10 degrees to make it easier for the user to process the workpiece.

What has been described above are merely preferred embodiments of the present invention and are not used to limit the present invention. All modifications, equivalent replacements and improvements made under the meaning and principle of the present invention are included in the protection scope of the present invention.

 The present invention relates to a processed product clamping technical field, and specifically to a jig component of an improved attachment processed product.

 When processing a processed product, it is necessary to attach and fix the processed product first, and it is inconvenient to adjust the angle and height after installing the traditional mounting equipment as a single unit. It is necessary to design a jig part for an improved mounting product that can be mounted in a large amount and the position of the processed product can be adjusted.

Chinese Patent Application Publication No. 103801763

 The present invention provides an improved mounting workpiece jig component for the necessary technical problem to be solved, which can solve the above-mentioned problems of the current technology.

The present invention is realized through the following technical scheme. The jig part of the improved attachment work product of the present invention includes a main shaft group, a fixing device installed in the main shaft group, and a rotating device installed at the lower end of the main shaft group and rotating in conjunction with the main shaft group, The anchoring device includes a first elevating housing that is installed on the main shaft assembly and faces upward, and a first guide groove is installed so as to communicate with the inner walls on the left and right sides of the first elevating housing, and the first elevating housing A screw block is fixedly installed at the upper end of the inner wall of the body, a first sliding block slidable up and down is installed in the first elevating housing, and the first sliding blocks are arranged on the left and right end faces of the first sliding block. A first induction block extending into the induction groove is fixedly installed, a first electric motor is fixedly installed on the first sliding block, and an upper end of the first electric motor is connected to the first lifting housing through a rotating shaft. engagement as the rotor extending outside of the upper end opening of the body is the power can be transmitted Connected, the rotor is engaged connected by the screw blocks and the screw, the first mounting block is disposed on the upper end of the main shaft assembly, the upper end of the rotor is rotatable on the lower end face of the first mounting block The solar panel is fixedly installed on the upper end surface of the first mounting block, and the first projecting blocks are fixedly installed on the four front, rear, left and right end surfaces of the first mounting block, respectively. The second projecting block is fixedly installed on the four front and rear end surfaces of the main shaft set outside the first elevating housing, and the second projecting block is separated from the first elevating housing on one side end surface. A first fixed structure is engaged and connected so as to be rotatable, and the first fixed structure is engaged so that the second projecting block can rotate on one side end surface that is separated from the first elevating housing. Including first connecting rod connected, front A second connecting rod is fixedly connected to one end where the first connecting rod is separated from the first elevating housing, and a first fixed plate is fixedly connected to a lower end surface of the second connecting rod, The first block is fixedly installed at the center of the upper end surface of the two connecting rods, and the first series of columns are rotatably engaged and connected to the upper end surface of the first block, and are installed symmetrically in the front, rear, left and right directions. The upper ends of the first series of pillars are connected to the first projecting block, which is symmetrically installed in the front, rear, left and right directions, so as to be rotatable and connected to one end face away from the first mounting block. A second elevating housing is installed so as to communicate with the lower inner wall of the housing, and grooves are formed on the left and right inner walls of the second elevating housing so as to communicate with the second elevating housing. A slide that slides up and down on the housing and whose upper end is fixedly connected to the lower end surface of the first slide block A shaft is installed, and a second mounting block that slides up and down on the second elevating housing at the lower end of the sliding shaft and extends to the outside of the grooved both left and right ends is fixedly connected to the outside of the main shaft set. A slidable cannula is provided on the outer surface of the main shaft set, and a third mounting block is fixedly connected between the lower end surface of the cannula and the upper end surface of the second mounting block, The third projecting block is fixedly installed symmetrically on the four front and rear, left and right end surfaces, and the second projecting column can be rotated on one side end surface of the third projecting block that is installed symmetrically in the front and rear and left and right sides. The fourth projecting block is fixedly installed on the four front, rear, left and right end surfaces of the main shaft assembly on the lower side of the second elevating housing, and the fourth projecting block is connected to the main shaft assembly. The second fastening structure is rotatably engaged with and connected to the one end face away from Wherein the attached two solid structure comprises a third connecting rod which is engaged connected so as to be rotatable to the fourth protruding block, fourth connecting rod to one end of said third connecting rod is separated and the fourth protruding block Is fixedly connected, the second block is fixedly installed at the center position of the upper end surface of the fourth connecting rod, and the lower end of the second connecting column is rotatable to the upper end surface of the second block The second fixed plate is fixedly installed on the lower end surface of the fourth connecting rod, and the photoelectric device is installed on the rotating device.

 As a preferred technical solution, the rotating device includes a base plate installed on the lower side of the main spindle assembly, and a rotating column is fixedly installed at the center position of the upper end surface of the base plate, and the rotating column rotates upward. A casing is installed, an annular casing is installed so as to communicate with the inner wall of the rotating casing, a second electric motor is fixedly installed on the lower inner wall of the rotating casing, and the lower end of the spindle assembly is Extending downward to the rotating housing and rotatably engaged with and connected to the inner wall of the rotating housing, the lower end of the main shaft assembly can transmit power to the upper end of the second electric motor through the rotating shaft. Are connected to and connected to the left and right sides of the main shaft assembly, and the maintenance blocks extending to the annular housing are fixedly installed, so that the maintenance blocks can rotate on the lower inner wall of the annular housing through a rotating wheel. And an annular cavity on the outer wall of the main shaft assembly. A second rotating column extending to the annular cavity on one side end surface where the first rotating column body is close to the main shaft set, and the first rotating column body is fixedly installed on the upper end surface of the rotating column. A body is fixedly installed, and a rotational engagement connection is formed between the upper end surface of the second rotating column body and the upper inner wall of the cavity through a rotating wheel.

 As a preferred technical solution, a rotating wiring device is fixedly installed on the upper end surface of the second rotating column body, a rotating switch is fixedly installed on the upper end surface of the rotating wiring device, and the rotating switch is connected to the second electric motor. When the rotation is controlled and the rotation switch is pressed at once, the second electric motor rotates 90 degrees, and in turn rotates 90 degrees in conjunction with the fixing device, and the user processes the processed product. Make it convenient.

As a preferred technical solution, a lifting / lowering wiring device is fixedly installed on the left end surface of the rotating column, a lifting switch is fixedly installed on the left end surface of the lifting / lowering wiring device, and the lifting switch controls the first electric motor, As a result, opening and closing of the first fixed structure and the second fixed structure is controlled to make it convenient for the user to process the workpiece.

As a preferred technical method, a storage battery is installed in the main shaft group, the storage battery is connected to the solar panel through a circuit, and the power stored in the storage battery is used for self-consumption of the power consumption parts of the apparatus, thereby saving consumption of the commercial power supply. To do.

 As a preferred technical solution, a punch installed vertically through the base plate is installed, and the apparatus is fixedly connected to the ground through the punch.

As a preferred technical solution, the photoelectric device includes a hint lamp fixedly mounted in the first rotating column body, and the hint lamp is connected to the storage battery by a circuit .

 The beneficial effect of the present invention is that the present invention is simple in structure and easy to operate, and the lower end surface of the first sliding block is the lower side of the first lifting housing in the initial state. At this time, the lower end face of the first mounting block comes into contact with the upper end face of the main spindle assembly. At this time, the first fixing structure is in an open state, and at the same time, the sliding shaft is at the maximum in the second lifting / lowering housing. At this time, the lower end surface of the second mounting block comes into contact with the lower inner wall of the second elevating housing, and at this time, the second fixing structure is reversed downward. When the work piece needs to be solidified using the one-fixed structure and the work piece needs to be solidified using the second fixed structure, the user presses the lift switch, and at this time, the first motor is activated, As a result, it rotates in conjunction with the rotor through the rotation shaft, and as a result, the screw engagement relationship between the rotor and the screw block is established. Next, the first sliding block rises into the first lifting housing in conjunction with the first sliding block, and the first sliding block is moved by the limiting action between the first conductive block and the first conductive groove in the process of raising the first sliding block. At this time, the first mounting block rises without rotating, and then rotates around the first protruding block in conjunction with the first series of pillars, and thus surrounds the second protruding block in conjunction with the first fixing structure. Flip up, reduce the lateral space occupied by the first fixed structure at this time, at this time the first sliding block rises in conjunction with the sliding shaft 32 and eventually rises in conjunction with the second mounting block, As a result, it rises in conjunction with the sleeve, and as a result, rotates around the third projecting block in conjunction with the second column, and in turn, surrounds the fourth projecting block in conjunction with the second fixing structure and flips upward. At this time, the user has a second fixed structure When the user needs to replace the work piece to be fixed on the left and right sides and the rear side, the user presses the rotation switch, and at this time the second electric motor is activated, and as a result, the spindle assembly and Rotating 90 degrees in conjunction makes it convenient for the user to process the workpiece. Compared with traditional clamping equipment, the structure of this device is simple and the operation is not only convenient, but it occupies less space and can double the number of workpieces to be clamped.

 The beneficial effect of the present invention is that the present invention is simple in structure and easy to operate, and the lower end surface of the first sliding block is the lower side of the first lifting housing in the initial state. At this time, the lower end face of the first mounting block comes into contact with the upper end face of the main spindle assembly. At this time, the first fixing structure is in an open state, and at the same time, the sliding shaft is at the maximum in the second lifting / lowering housing. At this time, the lower end surface of the second mounting block comes into contact with the lower inner wall of the second elevating housing, and at this time, the second fixing structure is reversed downward. When the work piece needs to be solidified using the one-fixed structure and the work piece needs to be solidified using the second fixed structure, the user presses the lift switch, and at this time, the first motor is activated, As a result, it rotates in conjunction with the rotor through the rotation shaft, and as a result, the screw engagement relationship between the rotor and the screw block is established. Next, the first sliding block rises into the first lifting housing in conjunction with the first sliding block, and the first sliding block is moved by the limiting action between the first conductive block and the first conductive groove in the process of raising the first sliding block. At this time, the first mounting block rises without rotating, and then rotates around the first protruding block in conjunction with the first series of pillars, and thus surrounds the second protruding block in conjunction with the first fixing structure. Flip up, reduce the lateral space occupied by the first fixed structure at this time, at this time the first sliding block rises in conjunction with the sliding shaft 32 and eventually rises in conjunction with the second mounting block, As a result, it rises in conjunction with the sleeve, and as a result, rotates around the third projecting block in conjunction with the second column, and in turn, surrounds the fourth projecting block in conjunction with the second fixing structure and flips upward. At this time, the user has a second fixed structure When the user needs to replace the work piece to be fixed on the left and right sides and the rear side, the user presses the rotation switch, and at this time the second electric motor is activated, and as a result, the spindle assembly and Rotating 90 degrees in conjunction makes it convenient for the user to process the workpiece. Compared with traditional clamping equipment, the structure of this device is simple and the operation is not only convenient, but it occupies less space and can double the number of workpieces to be clamped.

FIG. 1 is a schematic diagram of the internal structure of a jig part of an improved mounting product according to the present invention. FIG. 2 is an enlarged schematic view of A in FIG. FIG. 3 is an enlarged schematic view of B in FIG. 4 is an enlarged schematic view of C in FIG.

 For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and drawings.

As shown in FIG. 1 and FIG. 4, the jig parts of the improved mounting product according to the present invention are a main shaft group 11, a fixing device installed on the main shaft group 11, and a lower end of the main shaft group 11. A rotating device that rotates in conjunction with the group 11, and the fixing device includes a first elevating housing 39 that is installed on the main shaft group 11 and faces upward. A first guide groove 35 is installed so as to communicate with each other, and a screw block 60 is fixedly installed at the upper end of the inner wall of the first elevating casing 39, and the first elevating casing 39 is slidable up and down. One sliding block 36 is installed, and first guide blocks 38 extending into the first guide groove 35 are fixedly installed on the left and right end faces of the first sliding block 36, and the first sliding block 36 One electric motor 37 is fixedly installed, and the upper end of the first electric motor 37 is connected to the upper end of the first lifting casing 39 through a rotating shaft. Rotor 52 extending out of the mouth is engaged connected to motive power can be transmitted, the rotor 52 is engaged connected with the screw block 60 and the screw, the spindle assembly to the upper end of the 11 first mounting block 49 The upper end of the rotor 52 is rotatably engaged with and connected to the lower end surface of the first mounting block 49, and the solar panel 51 is fixedly installed on the upper end surface of the first mounting block 49. The first projecting block 48 is fixedly installed on each of the front, rear, left and right end surfaces of the first mounting block 49, and the front, rear, left and right end surfaces of the main shaft set 11 outside the first elevating housing 39 The second projecting block 47 is fixedly installed, and the second projecting block 47 is engaged and connected to the one side end surface away from the first elevating housing 39 so that the first fixing structure can rotate, In the first fixed structure, the second projecting block 47 has the first lifting housing. A first connecting rod 50 that is rotatably engaged with and connected to one end face away from 39, and a second connecting rod 44 is provided at one end where the first connecting rod 50 is separated from the first lifting housing 39. The first fixed plate 43 is fixedly connected to the lower end surface of the second connecting rod 44, and the first block 45 is fixed to the center of the upper end surface of the second connecting rod 44. The upper ends of the first blocks 45 are installed and connected to the upper end surface of the first block 45 so as to be rotatable. The first projecting block 48 installed symmetrically is rotatably engaged and connected to one end face away from the first mounting block 49, and communicates with the lower inner wall of the first lifting casing 39. The second elevating housing 34 is installed on the left and right inner walls of the second elevating housing 34 and grooves 33 that communicate with the second elevating housing 34 are installed. A sliding shaft 32 that slides up and down on the second lifting housing 34 and whose upper end is fixedly connected to the lower end surface of the first sliding block 36 is installed, and the second lifting and lowering is provided at the lower end of the sliding shaft 32. A second mounting block 31 that slides up and down on the housing 34 and that has both left and right ends extending out of the grooved 33 is fixedly connected, and is slidable on the outer surface of the main spindle assembly 11 outside the main spindle assembly 11 A cannula 28 is provided, and a third attachment block 29 is fixedly connected between the lower end surface of the cannula 28 and the upper end surface of the second attachment block 31. A third projecting block 27 is fixedly installed symmetrically on the end surface, and the second projecting column 25 is rotatable on one end surface where the third projecting block 27 installed symmetrically in the front, rear, left and right directions is separated from the main shaft set 11. The four protrusions on the four front and rear end faces of the main spindle assembly 11 on the lower side of the second elevating housing 34 Block 26 is fixedly installed, with the second solid structure is engaged connected so as to be rotatable at one end surface on which the fourth projecting block 26 is separated with the main shaft assembly 11, the second with a solid structure A third connecting rod 41 is rotatably engaged with and connected to the fourth projecting block 26, and the fourth connecting rod 21 is fixed to one end where the third connecting rod 41 is separated from the fourth projecting block 41. The second block 24 is fixedly installed at the center position of the upper end surface of the fourth connecting rod 21, and the lower end of the second connecting column 25 is rotatable to the upper end surface of the second block 24. The second fixed plate 22 is fixedly installed on the lower end surface of the fourth connecting rod 21.

 Preferably, the rotating device includes a base plate 71 installed on the lower side of the main spindle 11, and a rotating column 61 is fixedly installed at the center position of the upper end surface of the base plate 71, and the rotating column 61 is located above the rotating column 61. A rotating housing 63 facing the housing, an annular housing 65 is installed so as to communicate with the inner wall of the rotating housing 63, and a second electric motor 62 is fixedly installed on the lower inner wall of the rotating housing 63. A lower end of the main shaft set 11 extends downward to the rotating housing 63 and is rotatably engaged with and connected to an inner wall of the rotating housing 63, and the lower end of the main shaft set 11 passes through the rotating shaft. Engaging and connecting to the upper end of the second electric motor 62 so that power can be transmitted, maintenance blocks 66 extending to the annular casing 65 are fixedly installed on the left and right sides of the main shaft set 11, respectively. Is rotatably engaged with and connected to the lower inner wall of the annular casing 65 through a rotating wheel, An annular cavity 69 is installed on the upper end surface of the rotating column 61, and a first rotating column body 67 is fixedly installed on the upper end surface of the rotating column 61. A second rotating column body 68 extending into the cavity 69 is fixedly installed, and a rotational engagement connection is formed between the upper end surface of the second rotating column body 68 and the upper inner wall of the cavity 69 through a rotating wheel.

 Preferably, a rotating wiring device 81 is fixedly installed on the upper end surface of the second rotating column body 68, a rotation switch 82 is fixedly installed on the upper end surface of the rotating wiring device 81, and the rotation switch 82 is When the rotation of the two electric motors 62 is controlled and the rotation switch 82 is pressed at a time, the second electric motor 62 rotates ninety degrees and, in turn, rotates ninety degrees in conjunction with the fixing device. Makes it easy to process goods.

Preferably, a lifting / lowering wiring device 83 is fixedly installed on the left end surface of the rotating column 61, a lifting switch 84 is fixedly installed on the left end surface of the lifting / lowering wiring device 83, and the lifting switch 84 is connected to the first electric motor 37. Is controlled, and thus the opening and closing of the first and second fixing structures is controlled to make it convenient for the user to process the workpiece.

Preferably, a storage battery 91 is installed on the main shaft group 11, the storage battery 91 is connected to the solar panel 51 in a circuit, and the power stored in the storage battery 91 is used for self-consumption of the power consumption components of the apparatus, and thus is a commercial power source. Save consumption.

 Preferably, a punch 72 is provided on the base plate 71 so as to penetrate vertically, and the apparatus is fixedly connected to the ground through the punch 72.

Preferably, the photoelectric device includes a hint lamp 90 fixedly mounted in the first rotating column body 67 , the hint lamp 90 is connected to the storage battery 91 in a circuit, and the hint lamp 90 is brightened. It shows that the storage battery 91 is in a normal work state.

 In the initial state of use of this device, the lower end surface of the first sliding block 36 abuts the lower inner wall of the first lifting housing 39, and at this time, the lower end surface of the first mounting block 49 is the main shaft assembly. 11 at this time, the first fixing structure is in an open state, and at the same time, the sliding shaft 32 is lowered to the second lifting housing 34 to the maximum extent, and at this time, the lower end surface of the second mounting block 31 Is in contact with the lower inner wall of the second elevating housing 34, and at this time, the second fixing structure is inverted downward, and at this time the user uses the first fixing structure to fix the workpiece. When the work piece needs to be solidified using the second solidification structure, the user presses the lift switch 84, and at this time, the first electric motor 37 is activated and eventually rotates in conjunction with the rotor 52 through the rotation shaft. As a result, through the screw engagement relationship between the rotor 52 and the screw block 60, the first lifting and lowering is interlocked with the first sliding block 36. The first sliding block 36 does not rotate due to the restricting action between the first conductive block 38 and the first conductive groove 35 in the process of rising into the housing 39 and the first sliding block 36 ascending. The mounting block 49 rises and then rotates around the first projecting block 48 in conjunction with the first series of pillars 46, and as a result, surrounds the second projecting block 47 in conjunction with the first fixed structure and flips upward. At this time, the lateral space occupied by the first fixing structure is reduced, and at this time, the first sliding block 36 rises in conjunction with the sliding shaft 32, and as a result rises in conjunction with the second mounting block 31, and eventually It rises in conjunction with the pipe 28, and in turn rotates around the third projecting block 27 in conjunction with the second column 25, and in turn, surrounds the fourth projecting block in conjunction with the second fixed structure and flips upward. At this time, the user can hold the tool using the second fixing structure. When the user needs to replace the workpieces to be fixed to the left and right sides and the rear side, the user presses the rotation switch 82, and at this time, the second electric motor 62 is started, and in turn, the second motor 62 is interlocked with the main spindle 11 through the rotation shaft. Rotate 10 degrees to make it easier for the user to process the workpiece.

 What has been described above are merely preferred embodiments of the present invention and are not used to limit the present invention. All modifications, equivalent replacements and improvements made under the meaning and principle of the present invention are included in the protection scope of the present invention.

The present invention relates to a processed product clamping technical field, and more specifically, to a jig component of a mounted processed product .

When processing a processed product, it is necessary to attach and fix the processed product first, and it is inconvenient to adjust the angle and height after installing the traditional mounting equipment as a single unit. It is necessary to design a jig part of an attachment processed product that can be attached in large numbers and can adjust the position of the processed product.

Chinese Patent Application No. 103801763

The present invention provides fixture parts for mounting products to the necessary technical problems to be solved, which can solve the above-mentioned problems of the current technology.

The present invention is realized through the following technical scheme. The jig component of the attachment processed product of the present invention includes a main shaft group, a fixing device installed in the main shaft group, and a rotating device installed at a lower end of the main shaft group and rotating in conjunction with the main shaft group. The apparatus includes a first elevating housing that is installed on the main shaft assembly and faces upward, and is installed so that first guide grooves communicate with inner walls on both left and right sides of the first elevating housing, A screw block is fixedly installed at the upper end of the inner wall, a first sliding block that can be slid up and down is installed in the first elevating housing, and the first guide grooves are formed on both left and right end faces of the first sliding block. A first induction block extending in a fixed manner, a first electric motor fixedly installed in the first sliding block, and an upper end of the first electric motor through a rotating shaft at an upper end of the first electric motor. Engage and connect the rotor that extends outside the upper end so that power can be transmitted The rotor is engaged with and connected to the screw block with a screw, and a first mounting block is installed at the upper end of the main shaft set, and the upper end of the rotor is rotatable on the lower end surface of the first mounting block. The solar panel is fixedly installed on the upper end surface of the first mounting block, and the first projecting block is fixedly installed on each of the four front and rear end surfaces of the first mounting block, Second projecting blocks are fixedly installed on the front, rear, left and right end surfaces of the main spindle assembly outside the first elevating housing, and the second projecting blocks are arranged on one end surface away from the first elevating housing. The first fixed structure is engaged and connected so as to be rotatable, and the first fixed structure is engaged and connected so that the second projecting block is rotatable on one side end surface that is separated from the first elevating housing. It comprises a first connecting rod being, the first The end that is farthest from said first elevation housing of Sebbo is fixedly connected a second connecting rod, fixedly connected to the lower end surface of the second connecting rod is first with solid plate The first block is fixedly installed at the center of the upper end surface of the second connecting rod, and the first series of columns are rotatably engaged with and connected to the upper end surface of the first block. The upper ends of the first series of pillars installed symmetrically are engaged and connected so that the first projecting blocks installed symmetrically in the front-rear and left-right directions can rotate on one side end face away from the first mounting block, The second elevating housing is installed to communicate with the lower inner wall of the first elevating housing, and the right and left inner walls of the second elevating housing are provided with grooves that communicate with the second elevating housing, Slides up and down on the second lifting housing and the upper end is fixedly connected to the lower end surface of the first sliding block A second mounting block that slides up and down on the second elevating housing and extends at the left and right ends of the grooved outside is fixedly connected to the lower end of the sliding shaft. A cannula is slidable on the outer surface of the main shaft assembly on the outside, and a third mounting block is fixedly connected between a lower end surface of the cannula and an upper end surface of the second mounting block, A third projecting block is fixedly installed symmetrically on the four front and rear, left and right end faces of the cannula, and the third projecting block installed symmetrically on the front, rear, left and right is a second column on one end face away from the main shaft set. Are engaged and connected so as to be rotatable, and a fourth projecting block is fixedly installed on the front, rear, left and right four end surfaces of the main shaft set on the lower side of the second lifting housing, and the fourth projecting block is Engage so that the second fixing structure can rotate on one side end face away from the main spindle assembly The second fixed structure includes a third connecting rod rotatably engaged with and connected to the fourth projecting block, and the third connecting rod is connected to the fourth projecting block at a first end separated from the fourth projecting block. The four connecting rods are fixedly connected, the second block is fixedly installed at the center position of the upper end surface of the fourth connecting rod, and the lower end of the second connecting column is rotatable to the upper end surface of the second block The second fixed plate is fixedly installed on the lower end surface of the fourth connecting rod, and the photoelectric device is installed on the rotating device.

As a preferred technical solution, the rotating device includes a base plate installed on the lower side of the main spindle assembly, and a rotating column is fixedly installed at the center position of the upper end surface of the base plate, and the rotating column rotates upward. A casing is installed, an annular casing is installed so as to communicate with the inner wall of the rotating casing, a second electric motor is fixedly installed on the lower inner wall of the rotating casing, and the lower end of the spindle assembly is Extending downward to the rotating housing and rotatably engaged with and connected to the inner wall of the rotating housing, the lower end of the main shaft assembly can transmit power to the upper end of the second electric motor through the rotating shaft. Are connected to and connected to the left and right sides of the main shaft assembly, and the maintenance blocks extending to the annular housing are fixedly installed, so that the maintenance blocks can rotate on the lower inner wall of the annular housing through a rotating wheel. And an annular cavity on the outer wall of the main shaft assembly. I is installed, the first rotary pillar to the upper end surface of the rotary column is fixedly installed, the on the end face on the one end in proximity to the main shaft assembly of the first rotary pillar of the cyclic and the A second rotating column extending in the cavity is fixedly installed, and a rotational engagement connection is formed between the upper end surface of the second rotating column and the upper inner wall of the cavity through a rotating wheel.

As a preferred technical solution, a rotating wiring device is fixedly installed on the upper end surface of the second rotating column body, a rotating switch is fixedly installed on the upper end surface of the rotating wiring device, and the rotating switch is connected to the second electric motor. When the rotation is controlled and the rotation switch is pressed at once, the second electric motor rotates 90 degrees , and the fixing device rotates in conjunction with 90 degrees to allow the user to process the workpiece. Make it convenient.

As a preferred technical solution, a lifting / lowering wiring device is fixedly installed on the left end surface of the rotating column, a lifting switch is fixedly installed on the left end surface of the lifting / lowering wiring device, the lifting switch controls the first electric motor, As a result, opening and closing of the first fixed structure and the second fixed structure is controlled to make it convenient for the user to process the workpiece.

As a preferred technical solution, a storage battery is installed in the main shaft group, the storage battery is connected to the solar panel by a circuit, and the power stored in the storage battery is used for self-consumption of the power consumption parts of the apparatus, thereby saving consumption of the commercial power supply. To do.

As a preferred technical solution, a punch installed vertically through the base plate is installed, and the apparatus is fixedly connected to the ground through the punch.

As a preferred technical solution, the photoelectric device includes a hint lamp fixedly mounted in the first rotating column body, and the hint lamp is connected to the storage battery by a circuit.

The beneficial effect of the present invention is that the present invention is simple in structure and easy to operate, and the lower end surface of the first sliding block is the lower side of the first lifting housing in the initial state. At this time, the lower end face of the first mounting block comes into contact with the upper end face of the main spindle assembly. At this time, the first fixing structure is in an open state, and at the same time, the sliding shaft is at the maximum in the second lifting / lowering housing. At this time, the lower end surface of the second mounting block comes into contact with the lower inner wall of the second elevating housing, and at this time, the second fixing structure is reversed downward. When the work piece needs to be solidified using the one-fixed structure and the work piece needs to be solidified using the second fixed structure, the user presses the lift switch, and at this time, the first motor is activated, As a result, it rotates in conjunction with the rotor through the rotation shaft, and as a result, the screw engagement relationship between the rotor and the screw block is established. Next, the first sliding block rises into the first lifting housing in conjunction with the first sliding block, and the first sliding block is moved by the limiting action between the first conductive block and the first conductive groove in the process of raising the first sliding block. At this time, the first mounting block rises without rotating, and then rotates around the first protruding block in conjunction with the first series of pillars, and thus surrounds the second protruding block in conjunction with the first fixing structure. Flip up, reduce the lateral space occupied by the first fixed structure at this time, at this time the first sliding block rises in conjunction with the sliding shaft 32 and eventually rises in conjunction with the second mounting block, As a result, it rises in conjunction with the sleeve, and as a result, rotates around the third projecting block in conjunction with the second column, and in turn, surrounds the fourth projecting block in conjunction with the second fixing structure and flips upward. At this time, the user The tool can be clamped using the structure, and when the user needs to change the work piece to be fixed to the left and right sides and the rear side, the rotation switch is pushed, and at this time, the second electric motor is activated, and as a result, the spindle assembly through the rotating shaft. Rotating 90 degrees in conjunction with the machine makes it convenient for the user to process the workpiece. Compared with traditional clamping equipment, the structure of this device is simple and the operation is not only convenient, but it occupies less space and can double the number of workpieces to be clamped.

The beneficial effect of the present invention is that the present invention is simple in structure and easy to operate, and the lower end surface of the first sliding block is the lower side of the first lifting housing in the initial state. At this time, the lower end face of the first mounting block comes into contact with the upper end face of the main spindle assembly. At this time, the first fixing structure is in an open state, and at the same time, the sliding shaft is at the maximum in the second lifting / lowering housing. At this time, the lower end surface of the second mounting block comes into contact with the lower inner wall of the second elevating housing, and at this time, the second fixing structure is reversed downward. When the work piece needs to be solidified using the one-fixed structure and the work piece needs to be solidified using the second fixed structure, the user presses the lift switch, and at this time, the first motor is activated, As a result, it rotates in conjunction with the rotor through the rotation shaft, and as a result, the screw engagement relationship between the rotor and the screw block is established. Next, the first sliding block rises into the first lifting housing in conjunction with the first sliding block, and the first sliding block is moved by the limiting action between the first conductive block and the first conductive groove in the process of raising the first sliding block. At this time, the first mounting block rises without rotating, and then rotates around the first protruding block in conjunction with the first series of pillars, and thus surrounds the second protruding block in conjunction with the first fixing structure. Flip up, reduce the lateral space occupied by the first fixed structure at this time, at this time the first sliding block rises in conjunction with the sliding shaft 32 and eventually rises in conjunction with the second mounting block, As a result, it rises in conjunction with the sleeve, and as a result, rotates around the third projecting block in conjunction with the second column, and in turn, surrounds the fourth projecting block in conjunction with the second fixing structure and flips upward. At this time, the user The tool can be clamped using the structure, and when the user needs to change the work piece to be fixed to the left and right sides and the rear side, the rotation switch is pushed, and at this time, the second electric motor is activated, and as a result, the spindle assembly through the rotating shaft. Rotating 90 degrees in conjunction with the machine makes it convenient for the user to process the workpiece. Compared with traditional clamping equipment, the structure of this device is simple and the operation is not only convenient, but it occupies less space and can double the number of workpieces to be clamped.

FIG. 1 is a schematic diagram of the internal structure of a jig component of an attachment processed product according to the present invention. FIG. 2 is an enlarged schematic view of A in FIG. FIG. 3 is an enlarged schematic view of B in FIG. 4 is an enlarged schematic view of C in FIG.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and drawings.

As shown in FIG. 1 and FIG. 4 , the jig part of the attachment processed product of the present invention is a main shaft group 11, a fixing device installed in the main shaft group 11, and a lower end of the main shaft group 11. The fixing device includes a first elevating housing 39 that is installed on the main shaft set 11 and faces upward, and the first elevating housing 39 has first inner walls on both left and right sides. A first slide is installed so that the guide groove 35 communicates, a screw block 60 is fixedly installed at the upper end of the inner wall of the first elevating casing 39, and the first elevating casing 39 can slide up and down. A first guide block 38 extending in the first guide groove 35 is fixedly installed on both left and right end faces of the first sliding block 36, and the first electric motor is mounted on the first sliding block 36. 37 is fixedly installed at the upper end of the first electric motor 37. A rotor 52 having an upper end extending outside the upper end opening of the first elevating casing 39 through a rolling shaft is engaged and connected so that power can be transmitted, and the rotor 52 is engaged with and connected to the screw block 60 with a screw. A first mounting block 49 is installed at the upper end of the main spindle assembly 11; the upper end of the rotor 52 is rotatably engaged and connected to the lower end surface of the first mounting block 49; The solar panel 51 is fixedly installed on the upper end surface of the block 49, and the first projecting blocks 48 are fixedly installed on the four front, rear, left and right end surfaces of the first mounting block 49, respectively. The second projecting block 47 is fixedly installed on the front, rear, left and right end surfaces of the main shaft set 11 on the outer side of the main shaft assembly 11, and the second projecting block 47 is attached to the first end surface separated from the first lifting / lowering housing 39. Solid structure The first fixed structure is engaged and connected so that the second projecting block 47 is rotatable and connected to one end face away from the first elevating housing 39. A second connecting rod 44 is fixedly connected to one end of the first connecting rod 50 that is farthest from the first lifting / lowering casing 39 , and includes a series connecting rod 50 . The first fixed plate 43 is fixedly connected to the lower end surface, the first block 45 is fixedly installed at the center of the upper end surface of the second connecting rod 44, and the first block 45 is connected to the upper end surface of the first block 45. The first projecting blocks 48 are arranged symmetrically in the front, rear, left and right, respectively. The first mounting block 49 and the one side end face away from the first mounting block 49 are rotatably engaged and connected, A second elevating casing 34 is installed so as to communicate with the lower inner wall of the first elevating casing 39, and grooves on the left and right inner walls of the second elevating casing 34 communicate with the second elevating casing 34. 33 is installed, a sliding shaft 32 is installed which slides up and down on the second lifting housing 34 and whose upper end is fixedly connected to the lower end surface of the first sliding block 36. A second mounting block 31 that slides up and down on the second elevating housing 34 and that has both left and right ends extending out of the grooved 33 is fixedly connected to the outer surface of the spindle assembly 11 on the outer surface of the spindle assembly 11. A slidable cannula 28 is provided, and a third attachment block 29 is fixedly connected between the lower end surface of the cannula 28 and the upper end surface of the second attachment block 31. The third protruding block 27 is fixedly provided symmetrically on the four left and right end faces. The second projecting block 27, which is symmetrically installed in the front / rear / right / left direction, is engaged with and connected to the one end face away from the main shaft set 11 so that the second column 25 can rotate, The fourth projecting block 26 is fixedly installed on the front, rear, left and right end surfaces of the main shaft assembly 11 below 34, and the fourth projecting block 26 is fixed to the second end surface of the main shaft assembly 11 on the one end surface away from the main shaft assembly 11. A structure is rotatably engaged and connected, and the second fixed structure includes a third connecting rod 41 rotatably connected to the fourth protruding block 26, and the third connecting The fourth connecting rod 21 is fixedly connected to one end where the rod 41 is separated from the fourth protruding block 41, and the second block 24 is fixedly installed at the center position of the upper end surface of the fourth connecting rod 21, The lower end of the second column 25 is the upper end of the second block 24. Engage and connect so as to be rotatable, the second with the solid plate 22 is fixedly installed on the lower end surface of the fourth connecting rod 21.

Preferably, the rotating device includes a base plate 71 installed on the lower side of the main spindle assembly 11, and a rotating column 61 is fixedly installed at the center position of the upper end surface of the base plate 71. A rotary casing 63 facing the rotary casing 63, an annular casing 65 is installed to communicate with the inner wall of the rotary casing 63, and a second electric motor 62 is fixedly installed on the lower inner wall of the rotary casing 63. The lower end of the main spindle assembly 11 extends downward to the rotary casing 63 and is rotatably engaged with and connected to the inner wall of the rotary casing 63. The lower end of the main spindle set 11 passes through the rotary shaft. Engaging and connecting to the upper end of the second electric motor 62 so that power can be transmitted, maintenance blocks 66 extending to the annular housing 65 are fixedly installed on the left and right sides of the main shaft set 11, respectively. Is below the annular housing 65 through a rotating wheel. Engages and connected so as to be rotatable wall, an annular cavity 69 is disposed on the outside wall of the spindle assembly 11, the first rotating pillar 67 is fixedly installed on the upper end surface of the rotary column 61, A second rotary column 68 that is annular and extends into the cavity 69 is fixedly installed on an end surface of one end of the first rotary column 67 that is close to the main shaft set 11. A rotational engagement connection is formed between the upper end surface of the second rotating column 68 and the upper inner wall of the cavity 69 through a rotating wheel.

Preferably, a rotating wiring device 81 is fixedly installed on the upper end surface of the second rotating column body 68, and a rotation switch 82 is fixedly installed on the upper end surface of the rotating wiring device 81. When the rotation of the two electric motors 62 is controlled and the rotation switch 82 is pressed at once, the second electric motor 62 rotates ninety degrees , and the fixing device is interlocked to rotate ninety degrees, and the user processes Makes it easy to process goods.

Preferably, a lifting / lowering wiring device 83 is fixedly installed on the left end surface of the rotating column 61, a lifting switch 84 is fixedly installed on the left end surface of the lifting / lowering wiring device 83, and the lifting switch 84 is connected to the first electric motor 37. Is controlled, and thus the opening and closing of the first and second fixing structures is controlled to make it convenient for the user to process the workpiece.

Preferably, a storage battery 91 is installed in the main shaft group 11, the storage battery 91 is connected to the solar panel 51 through a circuit, and the power stored in the storage battery 91 is used for self-consumption of the power consumption components of the apparatus, and thus is a commercial power source. Save consumption.

Preferably, the base plate 71 is provided with a punch 72 that is vertically penetrated, and the apparatus is fixedly connected to the ground through the punch 72.

Preferably, the photoelectric device includes a hint lamp 90 fixedly mounted in the first rotating column body 67. When the hint lamp 90 is connected to the storage battery 91 in a circuit, and the hint lamp 90 is brightened, It shows that the storage battery 91 is in a normal work state.

In the initial state of use of this apparatus, the lower end surface of the first sliding block 36 contacts the lower inner wall of the first elevating housing 39, and at this time, the lower end surface of the first mounting block 49 is the main shaft assembly. 11, the first fixing structure is open at this time, and at the same time, the sliding shaft 32 is lowered to the second elevating housing 34 to the maximum extent, and at this time, the lower end surface of the second mounting block 31. Is in contact with the lower inner wall of the second elevating housing 34, and at this time, the second fixing structure is inverted downward, and at this time, the user uses the first fixing structure to fix the workpiece. When the work piece needs to be solidified using the second solidification structure, the user presses the lift switch 84, and at this time, the first electric motor 37 is activated and eventually rotates in conjunction with the rotor 52 through the rotary shaft. As a result, through the screw engagement relationship between the rotor 52 and the screw block 60, The first sliding block 36 is lifted into the first elevating casing 39 in conjunction with the first sliding block 36, and the first sliding block 36 is lifted by the limiting action between the first conductive block 38 and the first conductive groove 35 in the process of rising. The block 36 does not rotate. At this time, the first mounting block 49 rises, and as a result, rotates around the first projecting block 48 in conjunction with the first series of columns 46, and as a result, interlocks with the first fixing structure. Surrounding the two projecting blocks 47 and turning up, the lateral space occupied by the first fixed structure is reduced at this time, and at this time, the first sliding block 36 rises in conjunction with the sliding shaft 32, and as a result, the second mounting It rises in conjunction with the block 31, and then rises in conjunction with the cannula 28, and in turn, rotates in conjunction with the second column 25 and surrounds the third protruding block 27, and in conjunction with the second fixing structure. The fourth protrusion When the user needs to replace the work piece to be fixed on the left and right sides and the rear side, the user can pinch the tool using the second fixing structure. When the switch 82 is pressed, the second electric motor 62 is activated at this time, and in turn, it rotates 90 degrees in conjunction with the main shaft set 11 through the rotating shaft, which makes it convenient for the user to process the workpiece.

What has been described above are merely preferred embodiments of the present invention and are not used to limit the present invention. All modifications, equivalent replacements and improvements made under the meaning and principle of the present invention are included in the protection scope of the present invention.

Claims (1)

It is a jig part of an improved mounting work product, including a main shaft group, a fixing device installed in the main shaft group, and a rotating device installed at the lower end of the main shaft group and rotating in conjunction with the main shaft group, The anchoring device includes a first elevating housing that is installed on the main shaft assembly and faces upward, and a first guide groove is installed so as to communicate with the inner walls on the left and right sides of the first elevating housing, and the first elevating housing A screw block is fixedly installed at the upper end of the inner wall of the body, a first sliding block slidable up and down is installed in the first elevating housing, and the first sliding blocks are arranged on the left and right end faces of the first sliding block. A first induction block extending into the induction groove is fixedly installed, a first electric motor is fixedly installed on the first sliding block, and an upper end of the first electric motor is connected to the first lifting housing through a rotating shaft. Engage the rotor that extends out of the upper end of the body so that power can be transmitted. The rotor is engaged with and connected to the screw block with a screw, a first mounting block is installed at the upper end of the main shaft set, and the upper end of the rotor is rotatable on the lower end surface of the first mounting block The solar panel is fixedly installed on the upper end surface of the first mounting block, and the first projecting blocks are fixedly installed on the four front, rear, left and right end surfaces of the first mounting block, respectively. The second projecting block is fixedly installed on the four front and rear end surfaces of the main shaft set outside the first elevating housing, and the second projecting block is separated from the first elevating housing on one side end surface. A first fixed structure is engaged and connected so as to be rotatable, and the first fixed structure is engaged so that the second projecting block can rotate on one side end surface that is separated from the first elevating housing. A first connecting rod connected, A second connecting rod is fixedly connected to one end where the series connecting rod is separated from the first lifting housing, and a first fixed plate is fixedly connected to a lower end surface of the second connecting rod, The first block is fixedly installed at the center of the upper end surface of the connecting rod, and the first column is rotatably engaged and connected to the upper end surface of the first block, and is installed symmetrically in the front, rear, left, and right directions. The upper ends of the first series pillars are rotatably engaged with and connected to the one end face separated from the first mounting block by the first projecting blocks installed symmetrically in the front, rear, left and right directions, A second elevating housing is installed so as to communicate with the lower inner wall of the body, and grooves are provided on the left and right inner walls of the second elevating housing so as to communicate with the second elevating housing; A sliding shaft that slides up and down on the body and whose upper end is fixedly connected to the lower end surface of the first sliding block And a second mounting block that slides up and down on the second elevating housing at the lower end of the sliding shaft and that has both left and right ends extending outside the grooved portion is fixedly connected, and the main shaft is disposed outside the main shaft set. A slidable cannula is provided on the outer surface of the set, and a third mounting block is fixedly connected between the lower end surface of the cannula and the upper end surface of the second mounting block, and the front and rear of the cannula A third projecting block is fixedly installed symmetrically on the four left and right end faces, and the second projecting column is rotatable on one end face of the third projecting block installed symmetrically on the front, rear, left and right sides away from the main shaft assembly. The fourth projecting block is fixedly installed on the four front, rear, left and right end surfaces of the main shaft assembly on the lower side of the second elevating housing, and the fourth projecting block is connected to the main shaft assembly. The second fastening structure is rotatably engaged and connected to the one end face that is separated, The second fixed structure includes a connecting rod rotatably engaged with and connected to the fourth projecting block, and the fourth connecting rod is fixed to one end where the third connecting rod is separated from the fourth projecting block. The second block is fixedly installed at the center position of the upper end surface of the fourth connecting rod, and the lower end of the second connecting column is rotatably engaged with the upper end surface of the second block The second fixed plate is fixedly installed on the lower end surface of the fourth connecting rod, the photoelectric device is installed on the rotating device, and the rotating device is installed below the main spindle assembly. A rotating column is fixedly installed at the center position of the upper end surface of the base plate, and a rotating casing facing upward is installed on the rotating column so as to communicate with the inner wall of the rotating casing. An annular housing is installed, and a second electric motor is fixedly installed on the lower inner wall of the rotating housing, The lower end of the shaft assembly extends downward to the rotating housing and engages and connects with the inner wall of the rotating housing so as to be rotatable, and the lower end of the main shaft assembly is powered by the upper end of the second electric motor through the rotating shaft. Are engaged and connected so as to be able to transmit, and maintenance blocks extending to the annular housing are fixedly installed on the left and right sides of the main shaft set, respectively, and the maintenance block is connected to the lower inner wall of the annular housing through a rotating wheel. And an annular cavity is installed on the outer wall of the main spindle assembly, a first rotating column is fixedly installed on the upper end surface of the rotating column, and the first rotating column A second rotating column that extends into the annular cavity is fixedly installed on one side end surface where the body approaches the main shaft set, and a rotating wheel is passed between the upper end surface of the second rotating column and the upper inner wall of the cavity. Forming a rotating engagement connection, on the second rotating column A rotating wiring device is fixedly installed on the side end surface, and a rotation switch is fixedly installed on the upper end surface of the rotating wiring device, the rotation switch controls the rotation of the second electric motor, and the rotation switch is turned on once. When pressed, the second electric motor rotates 90 degrees, and in conjunction with the fixing device, it rotates 90 degrees, making it easy for the user to process the work piece, and the lifting / lowering wiring device on the left end face of the rotating column Is fixedly installed, a lifting switch is fixedly installed on the left end surface of the lifting wiring device, the lifting switch controls the first electric motor, and opens and closes the first fixing device and the second fixing device. The storage battery is installed in the main shaft set, the storage battery is connected to the solar panel circuit, and the power stored in the storage battery is stored in the improved attachment processed product. Power consumption parts of jig parts A punch that is installed vertically through the base plate is installed to reduce the consumption of commercial power by using it for body wear, and the jig part of the improved mounting product is fixedly connected to the ground through the punch. The photoelectric device includes a hint lamp in the first rotating column body fixedly attached to the rotating device, and the hint lamp is connected to the storage battery circuit. Ingredient parts.