CN211614861U - Structure for detecting height of double pressed workpieces simultaneously - Google Patents

Abstract

The utility model discloses a structure for detecting the height of a double-pressed workpiece simultaneously, which comprises a tension plate press-mounting mechanism and a signal magnet press-mounting mechanism, wherein the tension plate press-mounting mechanism and the signal magnet press-mounting mechanism are arranged on the same processing frame; the signal magnet press-fitting mechanism comprises a third cylinder, a cylinder connecting plate, a displacement ruler measuring auxiliary frame, a displacement ruler fixing frame, a second displacement ruler, a signal magnet end, a first press-fitting lower end and a second manipulator; the third cylinder is arranged on the left side of the machining frame, a cylinder connecting plate is arranged at one end of the third cylinder, the cylinder connecting plate is connected with the displacement ruler measuring auxiliary frame through a corresponding telescopic rod, the displacement ruler fixing frame is arranged at the position of the machining frame corresponding to the displacement ruler measuring auxiliary frame, and the second displacement ruler is arranged on the displacement ruler fixing frame; the utility model provides a simple structure, safe and reliable, the parameter can be established, and the high two pressure that can examine simultaneously go into the work piece and highly detect the structure simultaneously.

Description

Structure for detecting height of double pressed workpieces simultaneously

Technical Field

The utility model relates to a pressure equipment technical field, more specifically the utility model relates to a work piece height detection structure simultaneously is gone into to two pressures that it says so.

Background

At present, the requirement of a client for single-machine operation equipment is higher and higher along with the technical development, particularly, the pressing technology is required, the operation is simple, the safety and the reliability are realized, the parameters can be set, the height can be detected, the defective product removal needs to be known by the equipment, the high efficiency is realized, and a new piece of equipment is urgently needed according to the requirement.

Disclosure of Invention

The utility model overcomes prior art's is not enough, provides a simple structure, safe and reliable, and the parameter can be established, and the high two pressure that can examine simultaneously go into the work piece and highly detect the structure simultaneously.

In order to solve the technical problem, the technical scheme of the utility model as follows:

the structure for detecting the height of the double pressed workpieces simultaneously comprises a tension plate press-mounting mechanism and a signal magnet press-mounting mechanism, wherein the tension plate press-mounting mechanism and the signal magnet press-mounting mechanism are arranged on the same processing frame; the signal magnet press-fitting mechanism comprises a third cylinder, a cylinder connecting plate, a displacement ruler measuring auxiliary frame, a displacement ruler fixing frame, a second displacement ruler, a signal magnet end, a first press-fitting lower end and a second manipulator; the third cylinder is arranged on the left side of the machining frame, a cylinder connecting plate is arranged at one end of the third cylinder, the cylinder connecting plate is connected with the displacement ruler measuring auxiliary frame through a corresponding telescopic rod, the displacement ruler fixing frame is arranged at the position of the machining frame corresponding to the displacement ruler measuring auxiliary frame, and the second displacement ruler is arranged on the displacement ruler fixing frame;

the tension plate press-mounting mechanism comprises an upper press-mounting structure and a lower press-mounting structure, the upper press-mounting structure comprises a fourth cylinder, a press-mounting rod and a first fixing frame, and the lower press-mounting structure comprises a second telescopic frame, a fifth cylinder, a supporting column, a third displacement ruler and a limiting structure; wherein, a workpiece to be processed and detected is placed between the upper press mounting structure and the lower press mounting structure;

the fourth cylinder is arranged on the right side of the processing frame, one end of the fourth cylinder is connected with the press-mounting rod, and the press-mounting rod is connected with the processing frame through the inverted-door-shaped first fixing frame;

the second telescopic frame is integrally in a shape of Chinese character 'ri', and the second telescopic frame is telescopic through a telescopic rod; keep away from one side of waiting to process the detection work piece on the hypoplastron of second expansion bracket and set up the fifth cylinder, set up L shape fixed plate on the intermediate lamella of second expansion bracket, and the one end of this L shape fixed plate sets up the third displacement chi, set up in the middle of the upper plate of second expansion bracket and wait to process the detection work piece, one side that is close to the fifth cylinder in the middle of the upper plate of second expansion bracket sets up the support column, and the side that the upper plate of second expansion bracket and third displacement chi correspond sets up limit structure, and this limit structure has the auxiliary measuring effect.

Furthermore, the signal magnet end is arranged at the same end of the third cylinder connecting plate provided with the cylinder, the first press-fitting lower end corresponds to the first press-fitting lower end, and a workpiece to be processed and detected is arranged between the first press-fitting lower end and the first press-fitting lower end; wherein, set up the second manipulator on the first pressure equipment lower extreme and carry out the centre gripping fixed.

Furthermore, the third cylinder, the telescopic rod and the cylinder connecting plate are fixedly connected through arranging corresponding grooves and bosses.

Compared with the prior art, the utility model the advantage lies in:

the utility model discloses simple structure, safe and reliable, the parameter can be established, highly can examine simultaneously, is in same epaxial relative an axle end face benchmark pressure signal magnet promptly, presses the tension plate, and the pressure equipment parameter can be established respectively, and the pressure equipment height detects together simultaneously to the material is automatic to be emitted, realizes between each station, the high-efficient transmission of stabilizing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the blanking mechanism of the present invention;

FIG. 3 is another schematic view of the blanking mechanism of the present invention;

FIG. 4 is a schematic view of the press-fitting height detection mechanism of the present invention;

FIG. 5 is an enlarged schematic view of a part of the press-fitting height detection mechanism of the present invention;

fig. 6 is a schematic view of the press-fitting height detection position determination structure in fig. 5 according to the present invention;

fig. 7 is a schematic view of the first limit detection structure in fig. 6 according to the present invention;

fig. 8 is a schematic view of the carrying mechanism of the present invention;

fig. 9 is another schematic view of the carrying mechanism of the present invention;

fig. 10 is a schematic view of the tension plate press-fitting mechanism and the signal magnet press-fitting mechanism of the present invention;

fig. 11 is a schematic view of a lower press-fitting structure of the tension plate press-fitting mechanism of the present invention;

fig. 12 is another schematic side view of the lower press-fitting structure of the tension plate press-fitting mechanism of the present invention;

fig. 13 is a partially enlarged schematic view of fig. 10 according to the present invention;

fig. 14 is another schematic view of fig. 13 according to the present invention.

The labels in the figure are: the blanking mechanism comprises a blanking mechanism 1, a blanking fixing plate 11, a blanking bracket fixing plate 111, a blanking right-angle triangle fixing plate 112, a blanking transverse connecting plate 113, a blanking longitudinal connecting plate 114, a blanking connecting plate 12, a blanking mechanism body 13, a blanking guide plate 131, a blanking guide rail 132, a blanking motor 133, a blanking connecting column 134 and a blanking limiting plate 135;

the press-fitting height detection device comprises a press-fitting height detection mechanism 2, a press-fitting height detection manipulator 21, a first control cylinder 211, a first manipulator body 212, a first connecting arm 213, a first clamping piece 214, a press-fitting height detection position measuring structure 22, a first support 221, a first cylinder 222, a first connecting plate 223, a first upper displacement ruler 224, a second cylinder 225, a press-fitting height detection position determining structure 23, a first fixed placing frame 231, a first limit detection structure 232, a first probe 2321, a first guide shaft 2322, a first fixed plate 2323, a first lower displacement ruler 233 and a first sensor 234;

the device comprises a tension plate press-fitting mechanism 3, an upper press-fitting structure 31, a fourth cylinder 311, a press-fitting rod 312, a first fixed frame 313, a lower press-fitting structure 32, a second telescopic frame 321, a fifth cylinder 322, a supporting column 323, a third displacement ruler 324 and a limiting structure 325;

the device comprises a signal magnet press-fitting mechanism 4, a third air cylinder 41, an air cylinder connecting plate 42, a displacement ruler measuring auxiliary frame 43, a displacement ruler fixing frame 44, a second displacement ruler 45, a signal magnet end 46, a first press-fitting lower end 47 and a second manipulator 48;

a conveying mechanism 5, a conveying vertical cylinder 51, a conveying vertical substrate 52, a conveying vertical moving guide rail 53, a conveying horizontal cylinder 54, a conveying horizontal substrate 55, a conveying horizontal moving guide rail 56, and a clamping robot 57; support 6, processing frame 7.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

The first embodiment is as follows:

as shown in fig. 10 to 14, the structure for detecting the simultaneous height of two pressed workpieces includes a tension plate press-fitting mechanism 3 and a signal magnet press-fitting mechanism 4, and the tension plate press-fitting mechanism 3 and the signal magnet press-fitting mechanism 4 are disposed on the same processing rack 7.

The signal magnet press-fitting mechanism 4 comprises a third air cylinder 41, an air cylinder connecting plate 42, a displacement ruler measuring auxiliary frame 43, a displacement ruler fixing frame 44, a second displacement ruler 45, a signal magnet end 46, a first press-fitting lower end 47 and a second manipulator 48; the third cylinder 41 is arranged on the left side of the processing frame 7, one end of the third cylinder 41 is provided with a cylinder connecting plate 42, the cylinder connecting plate 42 is connected with the displacement ruler measurement auxiliary frame 43 through a corresponding telescopic rod, the displacement ruler fixing frame 44 is arranged at the position of the processing frame 7 corresponding to the displacement ruler measurement auxiliary frame 43, and the second displacement ruler 45 is arranged on the displacement ruler fixing frame 44;

the signal magnet end 46 is arranged at the same end of the third cylinder 41 where the cylinder connecting plate 42 is arranged, the first press-fitting lower end 47 corresponds to the signal magnet end, and a workpiece to be processed and detected is arranged between the signal magnet end and the first press-fitting lower end 47; wherein, a second manipulator 48 is arranged on the first press-fitting lower end 47 for clamping and fixing. The third cylinder 41, the telescopic rod and the cylinder connecting plate 42 are fixedly connected by arranging corresponding grooves and bosses.

The tension plate press-fitting mechanism 3 comprises an upper press-fitting structure 31 and a lower press-fitting structure 32, the upper press-fitting structure 31 comprises a fourth cylinder 311, a press-fitting rod 312 and a first fixing frame 313, and the lower press-fitting structure 32 comprises a second telescopic frame 321, a fifth cylinder 322, a supporting column 323, a third displacement ruler 324 and a limiting structure 325; wherein, a workpiece to be processed and detected is placed between the upper press-fitting structure 31 and the lower press-fitting structure 32;

the fourth cylinder 311 is arranged on the right side of the processing frame 7, one end of the fourth cylinder 311 is connected with the press-fitting rod 312, and the press-fitting rod 312 is connected with the processing frame 7 through the inverted-door-shaped first fixing frame 313;

the second expansion bracket 321 is in a shape of Chinese character ri as a whole, and the second expansion bracket 321 expands and contracts through an expansion rod; keep away from one side of waiting to process the detection work piece on the hypoplastron of second expansion bracket 321 and set up fifth cylinder 322, set up L shape fixed plate on the intermediate lamella of second expansion bracket 321, and the one end of this L shape fixed plate sets up third displacement chi 324, set up in the middle of the upper lamella of second expansion bracket 321 and wait to process the detection work piece, one side that is close to fifth cylinder 322 in the middle of the upper lamella of second expansion bracket 321 sets up support column 323, and the side that the upper lamella of second expansion bracket 321 and third displacement chi 324 correspond sets up limit structure 325, and this limit structure 325 has supplementary measuring effect.

In conclusion, the signal magnet is pressed on the same shaft relative to the reference of the end face of one shaft, the tension plate is pressed, the press mounting parameters can be set respectively, the press mounting heights are detected together, and the materials are discharged automatically. During press mounting, fly ash on a press-mounted object is automatically blown and sucked, and the fly ash is efficiently and stably transferred among stations.

Example two:

as shown in fig. 1 to 14, the structure for simultaneously detecting the heights of two pressed workpieces comprises a blanking mechanism 1, a press-mounting height detection mechanism 2, a tension plate press-mounting mechanism 3, a signal magnet press-mounting mechanism 4, a carrying mechanism 5 and a bracket 6, wherein the blanking mechanism 1, the press-mounting height detection mechanism 2, the tension plate press-mounting mechanism 3 and the signal magnet press-mounting mechanism 4 are sequentially arranged on the bracket 6 from right to left, and the carrying mechanism 5 is arranged on the same side of the press-mounting height detection mechanism 2, the tension plate press-mounting mechanism 3 and the signal magnet press-mounting mechanism 4; wherein, the tension plate press-fitting mechanism 3 and the signal magnet press-fitting mechanism 4 are arranged on the same processing frame 7.

The blanking mechanism 1 comprises a blanking fixing plate 11, a blanking connecting plate 12 and a blanking mechanism body 13; the blanking fixing plate 11 is fixed on the bracket 6 through bolts or rivets, and the blanking fixing plate 11 is connected with the blanking mechanism body 13 through a blanking connecting plate 12; the blanking connecting plates 12 are L-shaped connecting plates with two sizes, and the blanking connecting plates 12 are arranged on two sides of the blanking mechanism body 13; the blanking mechanism body 13 comprises a blanking guide plate 131, a blanking guide rail 132, a blanking motor 133, a blanking connecting column 134 and a blanking limiting plate 135, wherein the blanking motor 133 and the blanking limiting plate 135 are respectively arranged at two ends of the blanking guide plate 131, the blanking guide rails 132 are arranged at two sides of the blanking guide plate 131, and the blanking guide rails 132 and the blanking motor 133 are connected and fixed through the blanking connecting column 134; the blanking guide plate 131 is provided with a groove for transporting the tension plate;

the blanking fixing plate 11 comprises a blanking support 6 fixing plate 111, a blanking transverse connecting plate 113 and a blanking longitudinal connecting plate 114, the blanking support 6 fixing plate 111 is integrally L-shaped, and a blanking right-angle triangular fixing plate 112 is arranged on one side of the L shape; the blanking transverse connecting plate 113 is placed on the blanking right-angled triangle fixing plate 112, and one end thereof is fixed on the fixing plate 111 of the blanking bracket 6, and the other end thereof is fixed by the blanking longitudinal connecting plate 114.

The press-fitting height detection mechanism 2 comprises a press-fitting height detection manipulator 21, a press-fitting height detection position determination structure 22 and a press-fitting height detection position determination structure 23, wherein the press-fitting height detection manipulator 21 is arranged at one end, close to the press-fitting height detection position determination structure 23, of the press-fitting height detection position determination structure 22;

the press mounting height detection manipulator 21 comprises a first control cylinder 211, a first manipulator body 212, a first connecting arm 213 and a first clamping piece 214, wherein the first control cylinder 211 is arranged in the first manipulator body 212, one end of the first connecting arm 213 is hinged with one end, close to the press mounting height detection position measuring structure 22, of the first manipulator body 212, the other end of the first connecting arm 213 is connected with the first clamping piece 214, the first clamping piece 214 is L-shaped as a whole, and the shape of one end, away from the first control cylinder 211, of the first clamping piece 214 is matched with the shape of a workpiece to be processed and detected;

the press-fitting height detection position measuring structure 22 includes a first bracket 6221, a first cylinder 222, a first connecting plate 223, a first upper displacement ruler 224, a second cylinder 225; the first air cylinder 222 is arranged at the upper end of the first support 6221, the lower end of the first air cylinder 222 is adjustably connected with a first connecting plate 223, one end of the first connecting plate 223 is connected to the first support 6221, the other end of the first connecting plate 223 is connected with a first upper displacement ruler 224, the first upper displacement ruler 224 is connected with a second air cylinder 225, and one end of the second air cylinder 225 is in contact with a workpiece to be processed and detected; wherein, the first connecting plate 223 can move up and down on the first support 6221, the first connecting plate 223 is fixedly linked with the first upper displacement ruler 224, the second cylinder 225 is transversely provided with a limit plate, and the moving distance of the first connecting plate 223 is limited by the limit plate;

the press mounting height detection position determining structure 23 comprises a first fixed placing frame 231, a first limit detection structure 232 and a first lower displacement ruler 233, wherein the workpiece to be processed and detected is arranged on the first fixed placing frame 231, the first limit detection structure 232 is arranged below the first fixed placing frame 231, and the first lower displacement ruler 233 and a first sensor 234 matched with the first lower displacement ruler 233 are arranged at one end, away from the workpiece to be processed and detected, of the first limit detection structure 232; wherein, the middle of the first fixed placing frame 231 is provided with a corresponding placing hole for placing the first limit detection structure 232; the first limit detection structure 232 comprises a first probe 2321, a first guide shaft 2322 and a first fixing plate 2323, the first probe 2321 is connected with the first fixing plate 2323 through the first guide shaft 2322, and one side of the first fixing plate 2323 away from the first probe 2321 is connected with a first lower displacement scale 233; wherein the first probe 2321 is convex as a whole, and the protruding portion is cylindrical.

The signal magnet press-fitting mechanism 4 comprises a third air cylinder 41, an air cylinder connecting plate 42, a displacement ruler measuring auxiliary frame 43, a displacement ruler fixing frame 44, a second displacement ruler 45, a signal magnet end 46, a first press-fitting lower end 47 and a second manipulator 48; the third cylinder 41 is arranged on the left side of the processing frame 7, one end of the third cylinder 41 is provided with a cylinder connecting plate 42, the cylinder connecting plate 42 is connected with the displacement ruler measurement auxiliary frame 43 through a corresponding telescopic rod, the displacement ruler fixing frame 44 is arranged at the position of the processing frame 7 corresponding to the displacement ruler measurement auxiliary frame 43, and the second displacement ruler 45 is arranged on the displacement ruler fixing frame 44;

the signal magnet end 46 is arranged at the same end of the third cylinder 41 where the cylinder connecting plate 42 is arranged, the first press-fitting lower end 47 corresponds to the signal magnet end, and a workpiece to be processed and detected is arranged between the signal magnet end and the first press-fitting lower end 47; wherein, a second manipulator 48 is arranged on the first press-fitting lower end 47 for clamping and fixing. The third cylinder 41, the telescopic rod and the cylinder connecting plate 42 are fixedly connected by arranging corresponding grooves and bosses.

The tension plate press-fitting mechanism 3 comprises an upper press-fitting structure 31 and a lower press-fitting structure 32, the upper press-fitting structure 31 comprises a fourth cylinder 311, a press-fitting rod 312 and a first fixing frame 313, and the lower press-fitting structure 32 comprises a second telescopic frame 321, a fifth cylinder 322, a supporting column 323, a third displacement ruler 324 and a limiting structure 325; wherein, a workpiece to be processed and detected is placed between the upper press-fitting structure 31 and the lower press-fitting structure 32;

the fourth cylinder 311 is arranged on the right side of the processing frame 7, one end of the fourth cylinder 311 is connected with the press-fitting rod 312, and the press-fitting rod 312 is connected with the processing frame 7 through the inverted-door-shaped first fixing frame 313;

the second expansion bracket 321 is in a shape of Chinese character ri as a whole, and the second expansion bracket 321 expands and contracts through an expansion rod; keep away from one side of waiting to process the detection work piece on the hypoplastron of second expansion bracket 321 and set up fifth cylinder 322, set up L shape fixed plate on the intermediate lamella of second expansion bracket 321, and the one end of this L shape fixed plate sets up third displacement chi 324, set up in the middle of the upper lamella of second expansion bracket 321 and wait to process the detection work piece, one side that is close to fifth cylinder 322 in the middle of the upper lamella of second expansion bracket 321 sets up support column 323, and the side that the upper lamella of second expansion bracket 321 and third displacement chi 324 correspond sets up limit structure 325, and this limit structure 325 has supplementary measuring effect.

The conveying mechanism 5 comprises a conveying longitudinal cylinder 51, a conveying longitudinal base plate 52, a conveying longitudinal moving guide rail 53, a conveying transverse cylinder 54, a conveying transverse base plate 55 and a conveying transverse moving guide rail 56, wherein the conveying longitudinal cylinder 51 is arranged at the upper end of the conveying longitudinal base plate 52, the conveying longitudinal moving guide rail 53 is arranged on the conveying longitudinal base plate 52, the conveying transverse base plate 55 is connected with the conveying longitudinal moving guide rail 53, the conveying transverse cylinder 54 is arranged above the conveying transverse base plate 55, a clamping manipulator 57 is arranged on one side of the conveying transverse base plate 55 far away from the conveying longitudinal base plate 52, and the clamping manipulator 57 clamps the detected workpiece to be processed; one end of the conveyance cross base 55 is connected to the press-fitting height detection mechanism 2.

To sum up, this scheme equipment operation is simple (it is convenient to put three material), safe and reliable, and the parameter can be established, highly can examine simultaneously, and defective products rejection apparatus learns easily to it is high efficiency completion, whole beat is about 8.5 s. The signal magnet is pressed on the same shaft relative to a shaft end face reference, the tension plate is pressed, press-mounting parameters can be set respectively, the press-mounting heights are detected together, and materials are discharged automatically. During press mounting, fly ash on a press-mounted object is automatically blown and sucked, and the fly ash is efficiently and stably transferred among stations.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the concept of the present invention, and these improvements and decorations should also be considered as the protection scope of the present invention.

Claims (4)

1. The structure for detecting the height of the double-pressed workpiece simultaneously is characterized by comprising a tension plate press-mounting mechanism and a signal magnet press-mounting mechanism, wherein the tension plate press-mounting mechanism and the signal magnet press-mounting mechanism are arranged on the same processing frame; the signal magnet press-fitting mechanism comprises a third cylinder, a cylinder connecting plate, a displacement ruler measuring auxiliary frame, a displacement ruler fixing frame, a second displacement ruler, a signal magnet end, a first press-fitting lower end and a second manipulator; the third cylinder sets up in the one side that the processing frame leaned on the left side, and sets up the cylinder connecting plate on the third cylinder one end, and the cylinder connecting plate is connected with the auxiliary frame is measured to the displacement chi through corresponding telescopic link, and the displacement chi mount sets up in the processing frame and the position department that the auxiliary frame corresponds is measured to the displacement chi, and the setting of second displacement chi is on the displacement chi mount.

2. The structure for simultaneous height detection of two pressed-in workpieces according to claim 1, characterized in that: the tension plate press-mounting mechanism comprises an upper press-mounting structure and a lower press-mounting structure, the upper press-mounting structure comprises a fourth cylinder, a press-mounting rod and a first fixing frame, and the lower press-mounting structure comprises a second telescopic frame, a fifth cylinder, a supporting column, a third displacement ruler and a limiting structure; wherein, a workpiece to be processed and detected is placed between the upper press mounting structure and the lower press mounting structure;

the fourth cylinder is arranged on the right side of the processing frame, one end of the fourth cylinder is connected with the press-mounting rod, and the press-mounting rod is connected with the processing frame through the inverted-door-shaped first fixing frame;

the second telescopic frame is integrally in a shape of Chinese character 'ri', and the second telescopic frame is telescopic through a telescopic rod; keep away from one side of waiting to process the detection work piece on the hypoplastron of second expansion bracket and set up the fifth cylinder, set up L shape fixed plate on the intermediate lamella of second expansion bracket, and the one end of this L shape fixed plate sets up the third displacement chi, set up in the middle of the upper plate of second expansion bracket and wait to process the detection work piece, one side that is close to the fifth cylinder in the middle of the upper plate of second expansion bracket sets up the support column, and the side that the upper plate of second expansion bracket and third displacement chi correspond sets up limit structure, and this limit structure has the auxiliary measuring effect.

3. The structure for simultaneous height detection of two pressed-in workpieces according to claim 1, characterized in that: the signal magnet end is arranged at the same end of the third cylinder connecting plate provided with the cylinder, the first press mounting lower end corresponds to the signal magnet end, and a workpiece to be processed and detected is arranged between the first press mounting lower end and the first press mounting lower end; wherein, set up the second manipulator on the first pressure equipment lower extreme and carry out the centre gripping fixed.

4. The structure for simultaneous height detection of two pressed-in workpieces according to claim 3, characterized in that: the third cylinder, the telescopic rod and the cylinder connecting plate are fixedly connected through corresponding grooves and bosses.

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