CN202485599U - Groove thickness detecting device on cylindrical shell - Google Patents

Abstract

The utility model relates to a groove thickness detecting device on a cylindrical shell. The groove thickness detecting device comprises a bottom board, a dial indicator for measuring a groove thickness, a positioning column for positioning a shell to be detected, a first adjusting mechanism for adjusting a position of the dial indicator in an X axis, a second adjusting mechanism for adjusting a position of the positioning column in a Y axis direction, and a third adjusting mechanism for adjusting the position of the dial indicator in a Z axis. The first adjusting mechanism and the second adjusting mechanism are located on the bottom board; the dial indicator is located on the third adjusting mechanism, and is located at one side of the positioning column; the third adjusting mechanism is located on the first adjusting mechanism; and the positioning column is located on the second adjusting mechanism. The groove thickness detecting device can be used for adjusting a relative position of the dial indicator and the positioning column through the first adjusting device, the second adjusting device and the third adjusting device; in a measurement process, the shell to be detected is sleeved on the positioning column, and the groove thickness is detected by contacting a measurement head of the dial indicator with a groove of the shell. The groove thickness detecting device provided by the utility model has the advantages of simple structure and lower cost; and the measurement operation is simple and convenient.

Description

Groove thickness detection apparatus on the tubular shell

Technical field

The utility model belongs to field of measuring technique, relates in particular to the groove thickness detection apparatus on a kind of tubular shell.

Background technology

Ultracapacitor is double layer capacitor again, is a kind of novel energy-storing device, and it has characteristics such as duration of charging weak point, long service life, good temp characteristic, energy savings and environmental protection, and at present, the application of ultracapacitor more and more widely.The explosion-proof groove of the shell of ultracapacitor relates to the key character of ultracapacitor safety, how to detect explosion-proof slot thickness, is a very crucial technology.At present, industry generally is the thickness that the employing three-dimensional measuring instrument detects explosion-proof groove, yet the three-dimensional measuring instrument price is higher, thereby causes cost higher.

The utility model content

The utility model technical matters to be solved is, the groove thickness detection apparatus on the tubular shell of the lower and convenient measurement of a kind of cost is provided.

For solving the problems of the technologies described above; The utility model provides the thickness detection apparatus of the groove on a kind of tubular shell, comprise base plate, be used to measure groove thickness clock gauge, be used to locate housing to be measured reference column, be used for X-direction regulate said clock gauge position first governor motion, be used for the 3rd governor motion regulating second governor motion of said reference column position and be used for regulating said clock gauge position in Y direction in Z-direction; Said first governor motion and second governor motion are positioned on the said base plate; Said clock gauge is positioned on said the 3rd governor motion; And be positioned at a side of said reference column, said the 3rd governor motion is positioned on said first governor motion, and said reference column is positioned on said second governor motion.

Further, said first governor motion comprises first holder, the first adjusting block and the first adjusting bolt; Said first holder is slidably mounted on the said base plate along X-direction; Said first regulates block is positioned at said first holder along X-direction a side; Said first regulates bolt is arranged on the said first adjusting block through threaded engagement along X-direction, and the one of which end can be resisted against said first holder.

Further, match with the chute structure through projection between said first holder and the said base plate, said chute extends along X-direction.

Further, said the 3rd governor motion comprises column and support; Said column vertical fixing is on said first holder, and said support can be installed on the said column along Z-direction up or down.

Further, said the 3rd governor motion also comprises the column clamp, and said support comprises second splint, and said second splint is folded on the said column, and said column clamp is arranged on the said second splint through threaded engagement.

Further, said second governor motion comprises second holder, the second adjusting block and the second adjusting bolt; Said second holder is slidably mounted on the said base plate along Y direction; Said second regulates block is positioned at said second holder along Y direction a side; Said second regulates bolt is arranged on the said second adjusting block through threaded engagement along Y direction, and the one of which end can be resisted against said second holder.

Further, match with the chute structure through projection between said second holder and the said base plate, said chute extends along Y direction.

Further, said second holder comprises two fixed heads of arranging along Y direction, and said reference column is arranged on the adjacent fixed head, and its end is fixedly connected with another fixed head.

Further, said pick-up unit also comprises the 4th regulating device, and said clock gauge is installed on said the 4th regulating device, and said the 4th regulating device is installed on said the 3rd regulating device; Said the 4th regulating device comprises that two fixed blocks, two connect shell fragment, the 4th and regulate block and the 4th adjusting bolt; Said two fixed blocks are spaced along X-direction; One of them fixed block is fixed on said the 3rd regulating device; Said clock gauge is positioned on another fixed block, and said two connect shell fragment is connected between said two fixed blocks, and the said the 4th regulates block is positioned at said two fixed blocks along Z-direction a side; The said the 4th regulates bolt is arranged in the said the 4th along Z-direction through threaded engagement and regulates on the block, and its end can be resisted against on the said fixed block that clock gauge is installed.

Further, the said fixed block that clock gauge is installed comprises two chucks and fixed block clamp, and said two chucks insert and put said clock gauge, and said fixed block clamp is arranged on said two chucks through threaded engagement.

Compared with prior art; The pick-up unit of the utility model is through the relative position of first, second, third regulating device scalable clock gauge and reference column on X axle, Y axle and three directions of Z axle; Measure groove thickness and calibrated the relative position of clock gauge and reference column before earlier; Guarantee that the axis of clock gauge gauge head and the axis of reference column are positioned at same plane on Z-direction, and the measured value that clock gauge gauge head and reference column are rigidly connected when touching is " 0 ", clock gauge zeroing soon; During measurement housing to be measured is sheathed on the reference column, thereby detects groove thickness through the grooves contact on clock gauge gauge head and the housing.The pick-up unit of the utility model is simple in structure, and cost is lower, and measuring operation is simple and convenient.

Description of drawings

Fig. 1 is the schematic perspective view of groove thickness detection apparatus one preferred embodiment on the utility model tubular shell.

Fig. 2 is the schematic perspective view of another angle embodiment illustrated in fig. 1.

Fig. 3 is a schematic side view embodiment illustrated in fig. 1.

Fig. 4 is the schematic perspective view that is used to detect V-shaped groove on the ultracapacitor shell embodiment illustrated in fig. 1.

Fig. 5 is the local enlarged diagram of clock gauge gauge head and V-shaped groove to be measured contact site among Fig. 4.

Fig. 6 is the local enlarged diagram of another angle of clock gauge gauge head and V-shaped groove to be measured contact site among Fig. 4.

Fig. 7 is the schematic perspective view that is used to detect the prosposition groove on the ultracapacitor shell embodiment illustrated in fig. 1.

Fig. 8 is the local enlarged diagram of clock gauge gauge head and prosposition groove to be measured contact site among Fig. 7.

Fig. 9 is the local enlarged diagram of another angle of clock gauge gauge head and prosposition groove to be measured contact site among Fig. 7.

Figure 10 is the schematic perspective view that is used to detect the C shape groove on the ultracapacitor shell embodiment illustrated in fig. 1.

Figure 11 is the local enlarged diagram of clock gauge gauge head and prosposition groove to be measured contact site among Figure 10.

Figure 12 is the local enlarged diagram of another angle of clock gauge gauge head and prosposition groove to be measured contact site among Figure 10.

Embodiment

In order to make the utility model technical matters to be solved, technical scheme and beneficial effect clearer,, the utility model is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

See also Fig. 1 to Fig. 3; Be a preferred embodiment of the utility model, the groove thickness detection apparatus on this tubular shell comprises base plate 1, be used to measure the clock gauge 2 of groove thickness, be used to locate tubular shell 100 to be measured (like Fig. 4 to shown in Figure 12) reference column 3, first governor motion, second governor motion and the 3rd governor motion.First governor motion, second governor motion and the 3rd governor motion can be used for being adjusted in respectively the relative position of X axle, Y axle and Z-direction clock gauge 2 and reference column 3.Wherein, as shown in Figure 3, the X axle is vertical each other with the Y axle, and is located in the same horizontal plane, and the Z axle is positioned at the perpendicular vertical plane of surface level that belongs to above-mentioned XY axle.

Particularly, first governor motion is installed on the base plate 1, is used for regulating in X-direction the position of clock gauge 2, and it comprises that first holder 41, first regulates block 42 and first and regulate bolt 43.First holder 41 is slidably mounted on the base plate 1 along X-direction; First regulates block 42 is positioned at first holder 41 along X-direction a side; First regulates bolt 43 is arranged on the first adjusting block 42 through threaded engagement along X-direction, and the one of which end can be resisted against first holder 41.In the present embodiment, match with chute 11 structures through projection 411 between first holder 41 and the base plate 1, chute 11 extends along X-direction.Particularly, projection 411 is positioned at the bottom surface of first holder 41, and chute 11 is positioned on the base plate 1.The position that is appreciated that projection and groove also can exchange, and is about to projection and is arranged on the base plate 1, and groove is arranged on first holder 41.When X-direction is regulated clock gauge 2 positions, regulate bolt 43 through rotating first, can make it replace first holder 41 and move along X-direction.

Second governor motion is installed on the base plate 1, is used for regulating in Y direction the position of reference column 3, and it comprises that second holder 51, second regulates block 52 and second and regulate bolt 53.Second holder 51 is slidably mounted on the base plate 1 along Y direction; In the present embodiment; Second holder 51 comprises two fixed heads of arranging along Y direction 511,512; Reference column 3 is arranged on the adjacent fixed head 511, and its end is fixedly connected through some screws 513 with another fixed head 512.Second regulates 52 sides that are positioned at second holder 51 along Y direction of retaining; Second regulates bolt 53 is arranged on the second adjusting block 52 through threaded engagement along Y direction, and the one of which end can be resisted against second holder 51.In the present embodiment, also match with chute 12 structures through projection 511 between second holder 51 and the base plate 1, chute 12 extends along Y direction.Particularly, projection 511 is positioned at the bottom surface of second holder 51, and chute 12 is positioned on the base plate 1.The position that is appreciated that projection and groove also can exchange, and is about to projection and is arranged on the base plate 1, and groove is arranged on second holder 51.When Y direction is regulated clock gauge 2 positions, regulate bolt 53 through rotating second, can make it replace second holder 51 and move along Y direction.

The 3rd governor motion is positioned on first governor motion, is used for regulating in Z-direction the position of clock gauge 2, and clock gauge 2 is positioned on the 3rd governor motion, and is positioned at a side of reference column 3.The 3rd governor motion comprises column 61 and support 62.Column 61 vertical fixing are on first holder 41; Support 62 can be installed on the column 61 along Z-direction up or down.In the present embodiment, support 62 comprises second splint 621, and second splint 621 is folded on the column 61; The 3rd governor motion also comprises column clamp 63, and column clamp 63 is arranged on the second splint 621 through threaded engagement, through regulating column clamp 63, the tightness of scalable second splint 621 clamping columns 61.When Z-direction is regulated the position of clock gauge 2, unclamp column clamp 63 earlier, make support 62 move up and down suitable device along column 61, tighten column clamp 63 afterwards again.

Fig. 4 to Figure 12 shows the situation that is used to detect ultracapacitor shell upper groove 102 with above-mentioned detection device; Wherein, What be provided with on the ultracapacitor shell shown in Fig. 4 to Fig. 6 is V-shaped groove; What be provided with on the ultracapacitor shell shown in Fig. 7 to Fig. 9 is the prosposition groove, and what be provided with on the ultracapacitor shell shown in Figure 10 to Figure 12 is C shape groove.

Before measuring groove 102 thickness, calibrated the relative position of clock gauge 2 and reference column 3 earlier; Guarantee that the axis of clock gauge 2 gauge heads 21 and the axis of reference column 3 are positioned at same plane on Z-direction; And the measured value that clock gauge 2 gauge heads 21 and reference column 3 are rigidly connected when touching is " 0 ", is about to clock gauge 2 zeroings.During measurement; Through the 3rd regulating device clock gauge 2 is moved to the direction away from reference column 3 along Z-direction; Afterwards, tubular shell 100 to be measured is sheathed on the reference column 3, through the 3rd regulating device clock gauge 2 is moved to the direction near reference column 3 along Z-direction again; Contact with groove 102 on the housing 100 up to clock gauge 2 gauge heads 21, thereby detect groove 102 thickness.Particularly, can rotate back and forth the housing to be measured 100 on the reference column 3 slightly, observe the reading on the clock gauge 2 simultaneously, wherein minimum reading is the thickness of the groove of surveying 102.

For improving the measuring accuracy of clock gauge 2; The pick-up unit of the utility model also comprises the 4th regulating device; Clock gauge 2 is installed on the 4th regulating device, and the 4th regulating device is installed on the 3rd regulating device, is used to finely tune the verticality of clock gauge 2 with respect to reference column 3.Particularly, the 4th regulating device comprises that two fixed blocks 71,72, two connect shell fragment the 73, the 4th and regulate block 74 and the 4th adjusting bolt 75.Two fixed blocks 71,72 are spaced along X-direction, and one of them fixed block 71 is fixed on the clamping plate 621 of the 3rd regulating device, and clock gauge 2 is positioned on another fixed block 72.Two to connect shell fragments 73 be the rubber-like shell fragment, and it is connected in two fixed blocks 71, between 72.The 4th regulates block 74 is positioned at a side of two fixed blocks 71,72 along Z-direction, and the 4th regulates bolt 75 is arranged in the 4th along Z-direction through threaded engagement and regulates on the block 74, and its end can be resisted against on the fixed block 72 that clock gauge 2 is installed.In the present embodiment, one of them clamping plate 621 of the 4th adjusting block 74 and the 3rd regulating device are one-body molded.The fixed block 72 that clock gauge 2 is installed comprises two chucks 721 and fixed block clamp 722.Two chucks 721 insert and put clock gauge 2, and fixed block clamp 722 is arranged on two chucks 721 through threaded engagement, through regulating fixed block clamp 722, the tightness of scalable two chucks 721 clamping clock gauges 2.

When above-mentioned the 4th regulating device is finely tuned the position of clock gauge 2; Rotate the 4th and regulate bolt 75, make the 4th to regulate bolt 75 and move down, and then replace fixed block 72 downwards along Z-direction; Make to connect shell fragment 73 elastic deformations, thus the angle of adjustment clock gauge 2 on Z-direction; When bolt 75 was regulated in reverse rotation the 4th, the 4th regulates bolt 75 moved up along Z-direction, connects shell fragment 73 and under the effect of elastic-restoring force, understands resilience, thereby can drive fixed block 72 and clock gauge 2 reverse travelling backwards.

In sum, the pick-up unit of the utility model can be at X axle, Y axle and three direction adjusted of Z axle clock gauge 2 relative position with reference column 3 through first, second, third regulating device, and it is simple in structure, and cost is lower, and measuring operation is simple and convenient.In addition, can finely tune the position of clock gauge 2, can further improve the precision of detection through the 4th regulating device.The pick-up unit that is appreciated that the utility model not only can be used for detecting ultracapacitor outer casing groove thickness, can also be used to detect the groove thickness on other similar tubular shells.

The above is merely the preferred embodiment of the utility model; Not in order to restriction the utility model; Any modification of being done within all spirit and principles at the utility model, be equal to replacement and improvement etc., all should be included within the protection domain of the utility model.

Claims (10)

1. the groove thickness detection apparatus on the tubular shell; It is characterized in that, comprise base plate, be used to measure groove thickness clock gauge, be used to locate housing to be measured reference column, be used for X-direction regulate said clock gauge position first governor motion, be used for the 3rd governor motion regulating second governor motion of said reference column position and be used for regulating said clock gauge position in Y direction in Z-direction; Said first governor motion and second governor motion are positioned on the said base plate; Said clock gauge is positioned on said the 3rd governor motion; And be positioned at a side of said reference column, said the 3rd governor motion is positioned on said first governor motion, and said reference column is positioned on said second governor motion.

2. the groove thickness detection apparatus on the tubular shell as claimed in claim 1 is characterized in that, said first governor motion comprises first holder, the first adjusting block and the first adjusting bolt; Said first holder is slidably mounted on the said base plate along X-direction; Said first regulates block is positioned at said first holder along X-direction a side; Said first regulates bolt is arranged on the said first adjusting block through threaded engagement along X-direction, and the one of which end can be resisted against said first holder.

3. the groove thickness detection apparatus on the tubular shell as claimed in claim 2 is characterized in that, matches with the chute structure through projection between said first holder and the said base plate, and said chute extends along X-direction.

4. the groove thickness detection apparatus on the tubular shell as claimed in claim 2 is characterized in that, said the 3rd governor motion comprises column and support; Said column vertical fixing is on said first holder, and said support can be installed on the said column along Z-direction up or down.

5. the groove thickness detection apparatus on the tubular shell as claimed in claim 4; It is characterized in that; Said the 3rd governor motion also comprises the column clamp; Said support comprises second splint, and said second splint is folded on the said column, and said column clamp is arranged on the said second splint through threaded engagement.

6. the groove thickness detection apparatus on the tubular shell as claimed in claim 1 is characterized in that, said second governor motion comprises second holder, the second adjusting block and the second adjusting bolt; Said second holder is slidably mounted on the said base plate along Y direction; Said second regulates block is positioned at said second holder along Y direction a side; Said second regulates bolt is arranged on the said second adjusting block through threaded engagement along Y direction, and the one of which end can be resisted against said second holder.

7. the groove thickness detection apparatus on the tubular shell as claimed in claim 6 is characterized in that, matches with the chute structure through projection between said second holder and the said base plate, and said chute extends along Y direction.

8. the groove thickness detection apparatus on the tubular shell as claimed in claim 6; It is characterized in that; Said second holder comprises two fixed heads of arranging along Y direction, and said reference column is arranged on the adjacent fixed head, and its end is fixedly connected with another fixed head.

9. the groove thickness detection apparatus on the tubular shell as claimed in claim 1; It is characterized in that; Said pick-up unit also comprises the 4th regulating device, and said clock gauge is installed on said the 4th regulating device, and said the 4th regulating device is installed on said the 3rd regulating device; Said the 4th regulating device comprises that two fixed blocks, two connect shell fragment, the 4th and regulate block and the 4th adjusting bolt; Said two fixed blocks are spaced along X-direction; One of them fixed block is fixed on said the 3rd regulating device; Said clock gauge is positioned on another fixed block, and said two connect shell fragment is connected between said two fixed blocks, and the said the 4th regulates block is positioned at said two fixed blocks along Z-direction a side; The said the 4th regulates bolt is arranged in the said the 4th along Z-direction through threaded engagement and regulates on the block, and its end can be resisted against on the said fixed block that clock gauge is installed.

10. the groove thickness detection apparatus on the tubular shell as claimed in claim 9; It is characterized in that; The said fixed block that clock gauge is installed comprises two chucks and fixed block clamp, and said two chucks insert and put said clock gauge, and said fixed block clamp is arranged on said two chucks through threaded engagement.

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