CN114769149A

CN114769149A - Height detection tool for necking end socket

Info

Publication number: CN114769149A
Application number: CN202210436578.6A
Authority: CN
Inventors: 杨倩; 曾庆玲; 曹源洪
Original assignee: Henan Jiutian Head Manufacturing Co ltd
Current assignee: Henan Jiutian Head Manufacturing Co ltd
Priority date: 2022-04-25
Filing date: 2022-04-25
Publication date: 2022-07-22

Abstract

The invention relates to the technical field of detection of a necking head, in particular to a height detection tool for the necking head, which comprises a support plate A, a support plate B, a support plate C, a support plate D and a support plate E which are sequentially arranged from bottom to top and are fixedly supported by a support rod, wherein the support plate B is used for placing the necking head, the central positions of the support plate A and the support plate B are respectively provided with a limiting hole and a limiting cylinder, measuring rods are inserted into the limiting hole and the limiting cylinder, a transmission groove A is formed between the support plate D and the support plate E, a transmission groove B is formed between the support plate D and the support plate C, transmission mechanisms are arranged at the transmission groove A and the transmission groove B, and the transmission mechanisms are respectively connected with a clamping mechanism A and a clamping mechanism B; the clamping mechanism A and the clamping mechanism B can fix the necking end socket in the middle of the supporting plate B, the measuring rod is kept vertical through the limiting hole and the limiting cylinder, deviation is avoided, measurement is accurate, and the end socket measuring device has the advantages of convenience in fixing the end socket, accuracy in measurement and good using effect.

Description

Height detection tool for necking end socket

Technical Field

The invention relates to the technical field of detection of a necking end socket, in particular to a height detection tool for a necking end socket.

Background

The choke head is the jam subassembly on pressure vessel commonly used, the blind end of head is oval usually, the open end is established to the plain ring round bottom that has the choke, the head is after production is accomplished, need to measure its height, whether detect the head and accord with production standard, current detection instrument is generally with head opening up, then fix the outside of head, then stretch into the head through the measuring stick and carry out height measurement, because the blind end of head is not smooth, the head can appear the condition of rocking when fixed, it is inconvenient to fix it, and influence the accuracy of fixed position, thereby influence the accuracy of measuring stick, the result of use is not good, consequently, how to overcome above-mentioned technical problem and the defect that exists and become the problem that the key needs to solve.

Disclosure of Invention

The invention aims to overcome the defects described in the background technology, and therefore, the height detection tool for the necking head is convenient to fix the head, accurate in measurement and good in using effect.

In order to achieve the purpose, the technical scheme of the invention is as follows: the utility model provides a throat head height detection instrument, includes backup pad A, backup pad B, backup pad C, backup pad D and the backup pad E that sets gradually from supreme down to by bracing piece fixed stay, be used for placing the throat head on the backup pad B, the central point of backup pad A and backup pad B puts and sets up spacing hole and spacing section of thick bamboo respectively, and it has the measuring stick to alternate in spacing hole and the spacing section of thick bamboo, form transmission groove A between backup pad D and the backup pad E, form transmission groove B between backup pad D and the backup pad C, transmission groove A and transmission groove B department are provided with drive mechanism, transport mechanism is connected with clamping mechanism A and clamping mechanism B respectively.

Furthermore, a limit elastic sleeve is sleeved on the measuring rod between the supporting plate A and the supporting plate B, the upper end part of the measuring rod is provided with a tip part, the measuring rod is marked with scale marks, the zero scale mark of the scale mark is arranged at the tip part, after the measuring rod extends to the bottom part of the necking end socket, the length from the upper end surface of the supporting plate B to the lower end surface of the supporting plate A is set to be L, a detector reads the reading of the measuring rod at the lower end surface of the supporting plate A, the L is subtracted to obtain the height of the necking seal head, for the necking end sockets with the same specification, the position of a measuring rod is arranged, the height of the measuring rod is adjusted to the standard height of the specification, then spacing elastic sleeve removes on backup pad A's upper portion, changes different throat head, can read out fast during the measurement whether this throat head is standard height, moves the measuring stick slightly, alright with read error size.

Furthermore, the transmission mechanism comprises a transmission motor arranged on the upper portion of the supporting plate E, the transmission motor is connected with a transmission shaft, the transmission shaft penetrates through the supporting plate E and the supporting plate D and is rotatably connected to the supporting plate C, a transmission gear A is fixed on the transmission shaft in the transmission groove A, a transmission gear B is fixed on the transmission shaft in the transmission groove B, and the transmission gear A and the transmission gear B are driven to rotate simultaneously through the transmission motor.

Further, clamping mechanism A is including the right transmission rack of meshing at drive gear A rear side to and the left transmission rack of meshing at drive gear A front side, the vertical direction vertical fixation of tip of right side transmission rack has right carriage release lever, the lower tip of right side carriage release lever is fixed with right clamp piece, the vertical direction vertical fixation of tip of left side transmission rack has left carriage release lever, the lower tip of left side carriage release lever is fixed with left clamp piece, and under the initial condition, left clamp piece and right clamp piece are the farthest apart, and drive gear A anticlockwise rotates, and left clamp piece and right clamp piece are close to gradually, and left clamp piece and right clamp piece's removal range is the same, can be in left and right directions, fixes the intermediate position with the throat head.

Furthermore, the necking head is placed above the supporting plate B in an inverted mode, and the left clamping block and the right clamping block clamp the left side and the right side of the necking head.

Further, clamping mechanism B is including the meshing at the preceding drive rack on drive gear B right side to and the meshing at the left back drive rack of drive gear B, the vertical direction vertical fixation of tip of preceding drive rack has preceding pole of clamp, the lower tip of preceding pole is fixed with preceding clamp block, the vertical direction vertical fixation of tip of back drive rack has back pole of clamp, the lower tip of back pole of clamp is fixed with back clamp block, and under the initial condition, preceding clamp block and back clamp block are apart from furthest, and drive gear B anticlockwise rotates, and preceding clamp block and back clamp block are close to gradually, and preceding clamp block is the same with the removal range of back clamp block, can be in the front and back upwards, fixes the throat head in the intermediate position.

Furthermore, the connection mode of the front moving rod and the front transmission rack is set to be detachable and fixed, the front moving rod and the front transmission rack can be detached through fixing screws, and the necking head can be conveniently placed on the supporting plate B from the front side.

Furthermore, the necking head is placed above the supporting plate B in an inverted mode, and the front clamping block and the rear clamping block clamp the front side and the rear side of the necking head.

Furthermore, one side that right side transmission rack, left transmission rack, preceding transmission rack and back transmission rack are level and smooth all is provided with the draw-in groove to it is connected with the rotation axis to rotate between corresponding transmission groove A and transmission groove B, be fixed with the spacing wheel on the rotation axis, the spacing wheel removes along the draw-in groove, carries on spacingly to four transmission racks.

The height detection tool for the necking head has the beneficial effects that:

1. according to the height detection tool for the necking head, after a necking is placed on the supporting plate B in an inverted mode, the front moving rod and the front transmission rack are installed together, then the transmission motor is started, the left clamping block and the right clamping block clamp the necking head in the left-right direction under the action of the transmission gear A, and the front clamping block and the rear clamping block clamp the necking head in the front-back direction simultaneously under the action of the transmission gear B.

2. According to the height detection tool for the necking head, the necking head is inversely placed on the supporting plate B, the supporting is relatively stable, and the necking head cannot shake, so that the fixed positions of the necking head are positioned at different positions on the same horizontal plane, the necking head can be accurately and horizontally fixed at the center of the supporting plate B, the measuring rod is positioned at the centers of the supporting plate A and the supporting plate B, the limiting holes and the limiting cylinders of the supporting plate A and the supporting plate B limit the necking head, the measuring rod is in a vertical state, the supporting rod moves upwards, the end part reaches the bottom of the center of the necking head, and the measurement is relatively accurate.

3. According to the height detection tool for the necking heads, when the necking heads with the same specification are measured, the position of the measuring rod is set, the height of the measuring rod is adjusted to be the standard height of the specification, then the limiting elastic sleeve moves to the upper portion of the supporting plate A, different necking heads are replaced, whether the necking heads are at the standard height or not can be quickly read during measurement, the measuring rod is slightly moved, the error can be read, and the using effect is good.

Drawings

FIG. 1 is a schematic front view of the height detection tool for a necking head of the present invention;

fig. 2 is a schematic top structural view of a clamping mechanism a of the necking head height detection tool of the present invention;

fig. 3 is a schematic top view of the clamping mechanism B of the necking head height detection tool of the present invention.

In the figure: 11-support rod, 12-support plate A, 121-limiting hole, 13-support plate B, 131-limiting cylinder, 14-support plate C, 15-support plate D, 16-support plate E, 21-transmission groove A, 22-transmission groove B;

the transmission mechanism is as follows: 31-transmission motor, 32-transmission shaft, 33-transmission gear A, 34-transmission gear B;

a clamping mechanism A: 41-right transmission rack, 42-right moving rod, 43-right clamping block, 44-left transmission rack, 45-left moving rod and 46-left clamping block;

a clamping mechanism B: 51-front driving rack, 52-front moving rod, 53-front clamping block, 54-rear driving rack, 55-rear moving rod and 56-rear clamping block;

6-necking end socket, 7-measuring rod, 71-scale mark, 8-limiting elastic sleeve, 91-limiting wheel, 92-rotating shaft and 93-clamping groove.

Detailed Description

The height detection tool for the necking head of the invention is described in more detail by the specific embodiment with reference to the attached drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-3, the height detection tool for the necking head of the present embodiment, on the basis of good use effect, realizes the technical effects of conveniently fixing and accurately measuring the head, the structure of the present embodiment includes a support plate a12, a support plate B13, a support plate C14, a support plate D15 and a support plate E16, which are sequentially disposed from bottom to top, and are fixedly supported by a support rod 11, the support plate B13 is used for placing the necking head 6, the center positions of the support plate a12 and the support plate B13 are respectively provided with a limiting hole 121 and a limiting cylinder 131, a measuring rod 7 is inserted into the limiting hole 121 and the limiting cylinder 131, a limiting elastic sleeve 8 is sleeved on the measuring rod 7 between the support plate a12 and the support plate B13, the upper end of the measuring rod 7 is provided with a tip, the measuring rod 7 is marked with a scale mark 71, a zero scale 71 of the scale 71 is disposed on the tip 71, the measuring rod 7 is extended to the bottom of the necking head 6, the length from the upper end face of the supporting plate B13 to the lower end face of the supporting plate A12 is fixed, the L is set, a detector reads the reading of a measuring rod 7 at the lower end face of the supporting plate A12, the L is the height of the necking head 6, the position of the measuring rod 7 is set for the necking head 6 of the same specification, the height of the measuring rod 7 is adjusted to be the standard height of the specification, then the limiting elastic sleeve 8 moves on the upper portion of the supporting plate A12, different necking heads 6 are replaced, whether the necking head 6 is the standard height or not can be quickly read during measurement, the measuring rod 7 moves slightly, and the error can be read.

Referring to fig. 1, a transmission groove a21 is formed between a support plate D15 and a support plate E16, a transmission groove B22 is formed between a support plate D15 and a support plate C14, a transmission motor 31 is arranged on the upper portion of the support plate E16, the transmission motor 31 is connected with a transmission shaft 32, the transmission shaft 32 passes through the support plate E16 and the support plate D15 and is rotatably connected to the support plate C, a transmission gear a33 is fixed on the transmission shaft 32 in the transmission groove a21, a transmission gear B34 is fixed on the transmission shaft 32 in the transmission groove B22, the transmission gear a33 and the transmission gear B34 have the same size and specification, and the transmission motor 31 simultaneously drives the transmission gear a33 and the transmission gear B34 to rotate.

Referring to fig. 1 and 2, in the structure of this embodiment, a right transmission rack 41 is engaged and connected to the rear side of a transmission gear a33, and a left transmission rack 44 is engaged and connected to the front side of the transmission gear a33, the right transmission rack 41 and the left transmission rack 44 have the same size and specification, and are located in a transmission groove a21, the transmission groove a21 limits the upper and lower positions thereof, a right moving rod 42 is vertically fixed to the end portion of the right transmission rack 41, a right clamping block 43 is fixed to the lower end portion of the right moving rod 42, a left moving rod 45 is vertically fixed to the end portion of the left transmission rack 44, a left clamping block 46 is fixed to the lower end portion of the left moving rod 45, tracks for the left moving rod 45 and the right moving rod 42 to move are provided on a support plate D15 and a support plate C14, the necking down head 6 is placed upside down above the support plate B13, and the left clamping block 46 and the right clamping block 43 are farthest away in an initial state, the transmission gears A33 rotate anticlockwise, the left clamping block 46 and the right clamping block 43 are gradually close to each other, the moving amplitudes of the left clamping block 46 and the right clamping block 43 are the same, the necking head 6 can be fixed in the middle position in the left-right direction, and clamping on the left side and the right side of the necking head 6 is achieved.

Referring to fig. 1 and 3, in the structure of this embodiment, a front driving rack 51 and a rear driving rack 54 are engaged and connected to the right side of a transmission gear B34, the front driving rack 51 and the rear driving rack 54 are engaged and connected to the left side of a transmission gear B34, the front driving rack 51 and the rear driving rack 54 have the same size and specification, and are the same as the left driving rack 44 and the right driving rack 41, the front driving rack 51 and the rear driving rack 54 are located in a driving groove B22, the driving groove B22 limits the upper and lower positions thereof, a front moving rod 52 is vertically fixed to the end of the front driving rack 51, the front moving rod 52 and the front driving rack 51 are detachably fixed in a connection manner, the front moving rod 52 and the front driving rack 51 can be fixed by screws, the front moving rod 52 and the front driving rack 51 are conveniently placed on a support plate B13 from the front side, a front clamping block 53 is fixed to the lower end of the front moving rod 52, a rear moving rod 55 is vertically fixed to the end of the rear rack 54, the lower end part of the rear moving rod 55 is fixedly provided with a rear clamping block 56, a supporting plate C14 is provided with a track for moving the front moving rod 52 and the rear moving rod 55, in an initial state, the front clamping block 53 and the rear clamping block 56 are farthest away and are positioned at the front side and the rear side of the necking head 6, the transmission gear B34 rotates anticlockwise, the front clamping block 53 and the rear clamping block 56 gradually approach, the moving amplitude of the front clamping block 53 and the moving amplitude of the rear clamping block 56 are the same, the necking head 6 can be fixed at the middle position in the front and rear directions, and clamping on the front side and the rear side of the necking head 6 is realized.

In addition, clamping grooves 93 are formed in smooth sides of the right transmission rack 41, the left transmission rack 44, the front transmission rack 51 and the rear transmission rack 54, a rotating shaft 92 is rotatably connected between the corresponding transmission groove A21 and the transmission groove B22, a limiting wheel 91 is fixed on the rotating shaft 92, the limiting wheel 91 moves along the clamping grooves 93 to limit the four transmission racks, and when the four clamping blocks are located at the farthest positions, the four transmission racks are limited to stop transmission. The distance and the position that each part of this device set up are reasonable, and the left side presss from both sides tight piece 46, the right side and presss from both sides tight piece 43, preceding clamp tight piece 53 and back clamp tight piece 56 and be in the inboard of four corresponding movable rods respectively, have certain width, move less range at four transmission racks, alright in order to realize four clamp tight pieces to the clamp of throat head 6, guarantee four transmission racks and four movable rods connected, four motion that press from both sides tight piece do not interfere each other.

The application principle and the application method of the embodiment are as follows: firstly, the front moving rod 52 and the front driving rack 51 are disassembled, the front side of the upper part of the supporting plate B13 is in a spacious state, and the necking head 6 is inversely placed in the middle part above the supporting plate B13 from the front side;

then, the transmission motor 31 is started, in an initial state, the left clamping block 46 and the right clamping block 43 are farthest away and are respectively positioned at two sides of the necking head 6, the transmission gear A33 rotates anticlockwise, the left clamping block 46 and the right clamping block 43 gradually approach, the moving amplitudes of the left clamping block 46 and the right clamping block 43 are the same, the necking head 6 can be fixed at the middle position in the left-right direction, and clamping of the left side and the right side of the necking head 6 is achieved;

in an initial state, the front clamping block 53 and the rear clamping block 56 are farthest away and are positioned at the front side and the rear side of the necking head 6, the transmission gear B34 rotates anticlockwise, the front clamping block 53 and the rear clamping block 56 gradually approach, the moving amplitudes of the front clamping block 53 and the rear clamping block 56 are the same, the necking head 6 can be fixed at the middle position in the front-rear direction, and the front side and the rear side of the necking head 6 can be clamped;

finally, after the measuring rod 7 extends to the bottom of the necking head 6, the length from the upper end face of the supporting plate B13 to the lower end face of the supporting plate A12 is constant and is set to be L, and a tester reads out the reading of the measuring rod 7 at the lower end face of the supporting plate A12, and the height of the necking head 6 is obtained by subtracting L;

when the necking end sockets 6 of the same specification are measured, the position of the measuring rod 7 is set, the height of the measuring rod 7 is adjusted to be the standard height of the specification, then the limiting elastic sleeve 8 moves on the upper portion of the supporting plate A12, different necking end sockets 6 are replaced, whether the necking end sockets 6 are the standard height or not can be quickly read during measurement, the measuring rod 7 is slightly moved, and the error can be read.

Unless defined otherwise, technical or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The use of the terms "a" or "an" and the like in the description and in the claims of this application do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

Exemplary embodiments of the present invention have been described in detail with reference to the preferred embodiments, however, it will be understood by those skilled in the art that various changes and modifications may be made to the specific embodiments described above, and various combinations of the technical features and structures presented in the present invention may be made without departing from the concept of the present invention.

Claims

1. The utility model provides a throat head height detection instrument which characterized in that: include follow supreme backup pad A, backup pad B, backup pad C, backup pad D and the backup pad E that sets gradually down to by bracing piece fixed stay, be used for placing the throat head on the backup pad B, backup pad A and backup pad B's central point puts and sets up spacing hole and spacing section of thick bamboo respectively, and spacing hole and spacing section of thick bamboo are interior to alternate and have the measuring stick, form driving groove A between backup pad D and the backup pad E, form driving groove B between backup pad D and the backup pad C, driving groove A and driving groove B department are provided with drive mechanism, transport mechanism is connected with clamping mechanism A and clamping mechanism B respectively.

2. The necking head height detection tool of claim 1, wherein: the utility model discloses a measuring instrument, including backup pad A and backup pad B, the backup pad A is equipped with the measuring rod, has cup jointed spacing elastic sleeve on the measuring rod between backup pad A and the backup pad B, the upper end of measuring rod is provided with point portion, and the mark has the scale mark on the measuring rod, and the zero scale mark setting of scale mark is at point portion.

3. The necking head height detection tool of claim 1, wherein: the transmission mechanism comprises a transmission motor arranged on the upper portion of the supporting plate E, the transmission motor is connected with a transmission shaft, the transmission shaft penetrates through the supporting plate E and the supporting plate D and is rotatably connected to the supporting plate C, a transmission gear A is fixed on the transmission shaft in the transmission groove A, and a transmission gear B is fixed on the transmission shaft in the transmission groove B.

4. The necking head height detection tool of claim 3, wherein: clamping mechanism A is including the right transmission rack of meshing in drive gear A rear side to and the left transmission rack of meshing in drive gear A front side, the vertical direction vertical fixation of tip of right transmission rack has the right carriage release lever, the lower tip of right carriage release lever is fixed with the tight piece of right clamp, the vertical direction vertical fixation of tip of left side transmission rack has the left carriage release lever, the lower tip of left side carriage release lever is fixed with the tight piece of left clamp.

5. A necking head height detection tool according to claim 4, wherein: the necking head is placed above the supporting plate B in an inverted mode, and the left clamping block and the right clamping block clamp the left side and the right side of the necking head.

6. A necking head height detection tool according to claim 4, wherein: clamping mechanism B is including meshing at the preceding drive rack on drive gear B right side to and mesh at the left back transmission rack of drive gear B, the vertical direction vertical fixation of tip of preceding drive rack has preceding movable rod, the lower tip of preceding movable rod is fixed with preceding clamp block, the vertical direction vertical fixation of tip of back transmission rack has back movable rod, the lower tip of back movable rod is fixed with back clamp block.

7. The necking head height detection tool of claim 6, wherein: the connection mode of the front moving rod and the transmission rack is set to be detachable and fixed.

8. A necking head height detection tool according to claim 6, wherein: the necking head is placed above the supporting plate B in an inverted mode, and the front clamping block and the rear clamping block clamp the front side and the rear side of the necking head.

9. The necking head height detection tool of claim 6, wherein: the smooth one side of right side transmission rack, left transmission rack, preceding transmission rack and back transmission rack all is provided with the draw-in groove to it is connected with the rotation axis to rotate between corresponding transmission groove A and transmission groove B, be fixed with the spacing wheel on the rotation axis, the spacing wheel removes along the draw-in groove, carries on spacingly to four transmission racks.