CN212274871U - Photoelectric displacement sensor convenient to installation - Google Patents

Abstract

The utility model discloses a photoelectric displacement sensor convenient for installation, two opposite surfaces of a sensor shell are provided with clamping grooves in a penetrating way, two opposite surfaces of an installation seat are provided with clamping blocks matched with the clamping grooves, the installation seat is provided with a first installation hole, an installation post is arranged in the first installation hole, the installation post is a cavity structure with an open end and a closed end, the open end of the installation post is arranged in the first installation hole, a spring and a locking post are sequentially arranged in the cavity of the installation post from inside to outside, a bolt hole matched with the locking post is arranged on the sensor shell, the sensor shell is arranged on the installation seat through the matching of the clamping blocks and the clamping grooves, the locking post can move along the axis of the installation post under the action of the spring and extend into the bolt hole, the sensor shell is fixed with the installation seat, an unlocking component can move the locking post and retract into the cavity of the installation post, the adjusting bracket is arranged at one end of the mounting column far away from the mounting seat. The photoelectric displacement sensor is convenient to disassemble and assemble.

Description

Photoelectric displacement sensor convenient to installation

Technical Field

The utility model relates to a photoelectric sensor technical field, concretely relates to photoelectric displacement sensor convenient to installation.

Background

The photoelectric sensor is based on a photoelectric effect, generates the photoelectric effect after being irradiated by visible light, and converts an optical signal into an electric signal to be output. Besides measuring light intensity, it can also utilize the transmission, shielding, reflection and interference of light to measure several physical quantities, such as size, displacement, speed and temp.. The photoelectric measurement is not in direct contact with the measured object, the quality of the light beam is approximate to zero, and no friction exists in the measurement and almost no pressure is applied to the measured object. Therefore, in many applications, photoelectric sensors have significant advantages over other sensors. The photoelectric displacement sensor measures the displacement or geometric dimension of an object according to the light flux blocked by the measured object. It features non-contact measurement and continuous measurement. Photoelectric displacement sensors are commonly used for continuous measurement of wire diameter or as edge position sensors in strip edge position control systems.

The existing photoelectric displacement sensor is generally directly fixed on a shell of equipment through bolts, and because the photoelectric displacement sensor has higher requirements on the measured environmental conditions, the photoelectric displacement sensor is easy to have installation errors when being fixed through the bolts, so that the measurement precision is lower, and meanwhile, the photoelectric displacement sensor is inconvenient to disassemble, assemble and maintain.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that current photoelectric displacement sensor generally passes through on the casing of bolt snap-on equipment, and it is lower to appear that installation error leads to measurement accuracy easily at fixed in-process, the dismouting of being not convenient for simultaneously and maintenance.

The utility model discloses a following technical scheme realizes:

a photoelectric displacement sensor convenient to install comprises a sensor shell, an installation seat, an unlocking assembly and an adjusting support, wherein clamping grooves are formed in two opposite surfaces of the sensor shell in a penetrating mode, clamping blocks matched with the clamping grooves are arranged on two opposite surfaces of the installation seat, a first installation hole is formed in the installation seat, an installation column is arranged in the first installation hole, the installation column is of a cavity structure with an opening at one end and a closed end, one end of the opening of the installation column is arranged in the first installation hole, a spring and a locking column are sequentially arranged in a cavity of the installation column from inside to outside, a bolt hole matched with the locking column is formed in the sensor shell, the sensor shell is installed on the installation seat in a matched mode through the clamping blocks and the clamping grooves, and the locking column can move along an axis of the installation column under the action of the spring and extend into the bolt hole, the sensor shell is fixed with the mounting seat, the unlocking assembly can enable the locking column to move and retract into the cavity of the mounting column, and the adjusting support is mounted at one end, far away from the mounting seat, of the mounting column.

The existing photoelectric displacement sensor is generally directly fixed on a shell of equipment through a bolt, so that the measurement precision is low due to the fact that installation errors easily occur in the fixing process, and meanwhile, the photoelectric displacement sensor is inconvenient to disassemble, assemble and maintain. This application sets up the draw-in groove through the both sides at sensor housing, the draw-in groove link up whole sensor installation casing, set up the fixture block on the mount pad, sensor housing's draw-in groove slides along the fixture block and installs well, the locking post can stretch out the erection column under the effect of spring and stretch into the locking hole and fix sensor housing and mount pad, pull the locking post through the unblock subassembly when needs are dismantled and let spring compression back locking post withdraw the erection column and realize that sensor housing just can realize dismantling along the draw-in groove roll-off, the dismouting and the maintenance of the sensor of being convenient for.

Further, the unblock subassembly is including separating the locking plate, be provided with on the erection column and run through the logical groove of erection column, be provided with the slot on the locking post, it passes in proper order to separate the locking plate logical groove and slot, and it can follow to separate the locking plate the axis removal that leads to groove and slot drives the locking post is received in the erection column cavity. The locking piece is separated to the locking piece cross-section and is the right trapezoid structure, the lower bottom surface length of separating the locking piece is greater than lead to the length of groove, the last bottom surface length of separating the locking piece is less than lead to the length of groove, the last bottom surface of separating the locking piece is provided with the screw hole, threaded hole is provided with spacing bolt, separate the locking piece and run through in proper order and insert lead to groove and slot, and separate the inclined plane of locking piece towards leaning on one side slope of mount pad, spacing bolt can restrict separate the locking piece follow lead to the inslot and slot are fallen out. Through setting up the unblock piece that the cross-section is right trapezoid, the unblock piece is when the axis along leading to groove and slot removes, and right trapezoid's inclined plane can let the locking post withdraw in the erection column as the spigot surface.

Furthermore, a guide chute is arranged on the sensor shell and is parallel to the clamping groove, one end of the guide chute is communicated with the bolt hole, the other end of the guide chute penetrates through the sensor shell, and the guide chute can compress the locking column when the sensor shell slides along the clamping groove for installation. Through setting up the direction chute, the direction chute can slide the locking post when installing along the draw-in groove and carry out the automatic compression at sensor housing, need not manually let the locking post withdraw the erection column when the sensor installation.

Furthermore, adjust the support and include support column, sleeve pipe, bolt, supporting component, the one end that the mount pad was kept away from to the erection column is provided with the connection piece, support column one end is provided with the support lug group, the connection piece passes through fastener and articulates between the support lug group, fastener is used for adjusting the support column with contained angle between the erection column, the support column is kept away from the one end that supports the lug group and is inserted extremely in the sleeve pipe, and the support column can be followed the intraductal wall of sleeve removes and rotates, set up the second mounting hole on the sleeve pipe, the bolt install in can be right in the second mounting hole support column and sleeve pipe carry out relatively fixed, supporting component with the sleeve pipe is kept away from the one end of support column and is connected, supporting component is used for supporting the sleeve. Through setting up the support column to the tip of support column passes through fastener with the tip of erection column and articulates, and articulated department can adjust the contained angle realization between support column and the erection column to the regulation of sensor angle. Through inserting the one end of support column in the sleeve pipe and through bolt-up, realize the adjustment to displacement sensing position through the length that the adjustment support column inserted in the sleeve pipe, the pitch angle that displacement sensor can be adjusted to the support column can be in the intraductal rotation of sleeve simultaneously.

Further, the supporting component comprises a supporting rod, a second bolt and a magnetic suction base, a third mounting hole is formed in one side, away from the supporting column, of the sleeve, a shrinkage groove is formed in the end face, away from the supporting column, of the sleeve, the shrinkage groove is communicated with the third mounting hole, one end of the supporting rod is inserted into the third mounting hole, the second bolt is installed on the side wall of the shrinkage groove and used for adjusting the size of the third mounting hole, and the magnetic suction base is arranged at the other end of the supporting rod. Through setting up bracing piece and second bolt, the sheathed tube tip passes through the second bolt and installs on the bracing piece, can realize inhaling the base through setting up magnetism in the support column bottom to the regulation of displacement sensor height, and magnetism is inhaled that the base can be convenient fix on the equipment that needs used, and it is more convenient to use.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1) this application sets up the draw-in groove through the both sides at sensor housing, the draw-in groove link up whole sensor installation casing, set up the fixture block on the mount pad, sensor housing's draw-in groove slides along the fixture block and installs well, the locking post can stretch out the erection column under the effect of spring and stretch into the locking hole and fix sensor housing and mount pad, pull the locking post through the unblock subassembly when needs are dismantled and let spring compression back locking post withdraw the erection column and realize that sensor housing just can realize dismantling along the draw-in groove roll-off, the dismouting and the maintenance of the sensor of being convenient for.

2) This application is right trapezoid's unblock piece through setting up the cross-section, and the unblock piece is when the axis along leading to groove and slot removes, and right trapezoid's inclined plane can let the locking post withdraw in the erection column as the spigot surface. Through setting up the direction chute, the direction chute can slide the locking post when installing along the draw-in groove and carry out the automatic compression at sensor housing, need not manually let the locking post withdraw the erection column when the sensor installation.

3) This application is through setting up the support column to the tip of support column passes through fastener with the tip of erection column and articulates, and articulated department can adjust the contained angle realization between support column and the erection column to the regulation of sensor angle. Through inserting the one end of support column in the sleeve pipe and through bolt-up, realize the adjustment to displacement sensing position through the length that the adjustment support column inserted in the sleeve pipe, the pitch angle that displacement sensor can be adjusted to the support column can be in the intraductal rotation of sleeve simultaneously. Through setting up bracing piece and second bolt, the sheathed tube tip passes through the second bolt and installs on the bracing piece, can realize inhaling the base through setting up magnetism in the support column bottom to the regulation of displacement sensor height, and magnetism is inhaled that the base can be convenient fix on the equipment that needs used, and it is more convenient to use.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

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

Fig. 2 is a schematic view of a partial structure section according to an embodiment of the present invention.

Fig. 3 is a schematic cross-sectional view of a casing according to an embodiment of the present invention.

Reference numbers and corresponding part names in the drawings:

1-a sensor shell, 2-a mounting seat, 3-a clamping groove, 4-a clamping block, 5-a first mounting hole, 6-a mounting column, 7-a spring, 8-a locking column, 9-a bolt hole, 10-an unlocking sheet, 11-a through groove, 12-a slot, 13-a threaded hole, 14-a limiting bolt, 15-a support column, 16-a sleeve, 17-a bolt, 18-a connecting sheet, 19-a support lug group, 20-a second mounting hole, 21-a support rod, 22-a second bolt, 23-a magnetic suction base, 24-a third mounting hole, 25-a shrinkage groove and 26-a guide chute.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1-3, a photoelectric displacement sensor convenient for installation comprises a sensor housing 1, a mounting seat 2, an unlocking component and an adjusting bracket, wherein two opposite surfaces of the sensor housing 1 are provided with clamping grooves 3 respectively, two opposite surfaces of the mounting seat 2 are provided with clamping blocks 4 matched with the clamping grooves 3 respectively, the mounting seat 2 is provided with a first mounting hole 5, a mounting post 6 is arranged in the first mounting hole 5, the mounting post 6 is a cavity structure with an opening at one end and a closed end, the opening end of the mounting post 6 is arranged in the first mounting hole 5, a spring 7 and a locking post 8 are sequentially arranged in the cavity of the mounting post 6 from inside to outside, the sensor housing 1 is provided with a bolt hole 9 matched with the locking post 8, the sensor housing 1 is installed on the mounting seat 2 through the clamping blocks 4 and the clamping grooves 3, and the locking column 8 can move along the axis of the mounting column 6 under the action of the spring 7 and extend into the bolt hole 9 to fix the sensor housing 1 and the mounting base 2, the unlocking assembly can enable the locking column 8 to move and retract into the cavity of the mounting column 6, and the adjusting bracket is mounted at one end of the mounting column 6, which is far away from the mounting base 2.

Specifically, the unblock subassembly is including separating locking plate 10, be provided with on the erection column 6 and run through the logical groove 11 of erection column 6, be provided with slot 12 on the locking post 8, it passes in proper order to separate locking plate 10 lead to groove 11 and slot 12, and it can follow to separate locking plate 10 the axis that leads to groove 11 and slot 12 removes the drive locking post 8 is received in the 6 cavitys of erection column. The cross-section of the unlocking plate 10 is of a right trapezoid structure, the length of the lower bottom surface of the unlocking plate 10 is greater than the length of the through groove 11, the length of the upper bottom surface of the unlocking plate 10 is smaller than the length of the through groove 11, the upper bottom surface of the unlocking plate 10 is provided with a threaded hole 13, a limiting bolt 14 is arranged in the threaded hole 13, the unlocking plate 10 sequentially penetrates through and is inserted into the through groove 11 and the slot 12, the inclined surface of the unlocking plate 10 leans against one side of the mounting seat 2, the limiting bolt 14 can limit the unlocking plate 10 to be driven to fall out of the through groove 11 and the slot 12.

Specifically, a guide chute is arranged on the sensor housing 1, the guide chute 26 is parallel to the slot 3, one end of the guide chute 26 is communicated with the plug pin hole 9, the other end of the guide chute penetrates through the sensor housing 1, and the guide chute 26 can compress the locking column 8 when the sensor housing 1 is installed along the slot 3 in a sliding manner.

Specifically, the adjusting bracket comprises a supporting column 15, a sleeve 16, a bolt 17 and a supporting component, a connecting sheet 18 is arranged at one end of the mounting column 6 far away from the mounting seat 2, a supporting lug group 19 is arranged at one end of the supporting column 15, the connecting piece 18 is hinged between the supporting lug groups 19 through a fastening device, the fastening device is used for adjusting the included angle between the supporting column 15 and the mounting column 6, the end of the support post 15 remote from the set of support lugs 19 is inserted into the sleeve 16, and the supporting post 15 can move and rotate along the inner wall of the sleeve 16, a second mounting hole 20 is provided on the sleeve 16, the bolt 17 is installed in the second installation hole 20 to relatively fix the support column 15 and the sleeve 16, the support assembly is connected to an end of the sleeve 16 remote from the support column 15, and is configured to support the sleeve 16. The supporting component includes bracing piece 21, second bolt 22, magnetism inhale base 23, one side that support column 15 was kept away from to sleeve pipe 16 is provided with third mounting hole 24, sleeve pipe 16 is kept away from and is provided with shrink groove 25 on the terminal surface of support column 15, shrink groove 25 with third mounting hole 24 intercommunication, 21 one end of bracing piece is inserted third mounting hole 24, second bolt 22 install in shrink groove 25's lateral wall is used for adjusting the size of third mounting hole 24, magnetism inhale base 23 set up in the other end of bracing piece 21.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. The photoelectric displacement sensor convenient to install is characterized by comprising a sensor shell (1), a mounting seat (2), an unlocking assembly and an adjusting support, wherein clamping grooves (3) are formed in two opposite surfaces of the sensor shell (1) in a penetrating mode, clamping blocks (4) matched with the clamping grooves (3) are arranged on two opposite surfaces of the mounting seat (2), a first mounting hole (5) is formed in the mounting seat (2), a mounting column (6) is arranged in the first mounting hole (5), the mounting column (6) is of a cavity structure with an opening at one end and a closed end, the opening end of the mounting column (6) is arranged in the first mounting hole (5), a spring (7) and a locking column (8) are sequentially arranged in a cavity of the mounting column (6) from inside to outside, a bolt hole (9) matched with the locking column (8) is formed in the sensor shell (1), sensor housing (1) pass through fixture block (4) and draw-in groove (3) cooperation install in on mount pad (2), and locking post (8) can be followed under the effect of spring (7) installing post (6) axis removes stretch into to in bolt hole (9), will sensor housing (1) with mount pad (2) are fixed, the unblock subassembly can let locking post (8) remove, and retract in installing post (6) cavity, adjust the support mounting in the one end that mount pad (2) were kept away from to installing post (6).

2. The easy-to-mount photoelectric displacement sensor according to claim 1, wherein the unlocking assembly comprises an unlocking piece (10), a through slot (11) penetrating through the mounting post (6) is disposed on the mounting post (6), a slot (12) is disposed on the locking post (8), the unlocking piece (10) sequentially penetrates through the through slot (11) and the slot (12), and the unlocking piece (10) can move along the axis of the through slot (11) and the slot (12) to drive the locking post (8) to retract into the cavity of the mounting post (6).

3. The easy-to-mount photoelectric displacement sensor according to claim 2, wherein the unlocking plate (10) has a right trapezoid cross section, the length of the lower bottom surface of the unlocking plate (10) is greater than the length of the through groove (11), the length of the upper bottom surface of the unlocking plate (10) is less than the length of the through groove (11), a threaded hole (13) is formed in the upper bottom surface of the unlocking plate (10), a limit bolt (14) is disposed in the threaded hole (13), the unlocking plate (10) is sequentially inserted into the through groove (11) and the insertion groove (12), the inclined surface of the unlocking plate (10) is inclined toward the side close to the mounting seat (2), and the limit bolt (14) can limit the unlocking plate (10) from falling out of the through groove (11) and the insertion groove (12).

4. An easy-to-mount photoelectric displacement sensor according to claim 1, wherein the sensor housing (1) is provided with a guide chute, the guide chute (26) is parallel to the slot (3), one end of the guide chute (26) is communicated with the plug hole (9), the other end of the guide chute penetrates through the sensor housing (1), and the guide chute (26) can compress the locking post (8) when the sensor housing (1) is mounted along the slot (3) in a sliding manner.

5. The easy-to-mount photoelectric displacement sensor according to claim 1, wherein the adjusting bracket comprises a support pillar (15), a sleeve (16), a bolt (17), and a support assembly, one end of the mounting pillar (6) away from the mounting base (2) is provided with a connecting piece (18), one end of the support pillar (15) is provided with a support lug set (19), the connecting piece (18) is hinged between the support lug sets (19) through a fastening device, the fastening device is used for adjusting an included angle between the support pillar (15) and the mounting pillar (6), one end of the support pillar (15) away from the support lug set (19) is inserted into the sleeve (16), and the support pillar (15) can move and rotate along the inner wall of the sleeve (16), and the sleeve (16) is provided with a second mounting hole (20), the bolt (17) is arranged in the second mounting hole (20) and can relatively fix the support column (15) and the sleeve (16), the support assembly is connected with one end, far away from the support column (15), of the sleeve (16), and the support assembly is used for supporting the sleeve (16).

6. The easy-to-mount photoelectric displacement sensor according to claim 5, wherein the support assembly includes a support rod (21), a second bolt (22), and a magnetic attraction base (23), a third mounting hole (24) is disposed on one side of the sleeve (16) away from the support column (15), a shrinkage groove (25) is disposed on an end surface of the sleeve (16) away from the support column (15), the shrinkage groove (25) is communicated with the third mounting hole (24), one end of the support rod (21) is inserted into the third mounting hole (24), the second bolt (22) is mounted on a side wall of the shrinkage groove (25) for adjusting the size of the third mounting hole (24), and the magnetic attraction base (23) is disposed at the other end of the support rod (21).

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