CN212390076U - Slidable sensor mounting rail - Google Patents

Abstract

The utility model relates to the field of sensor mounting rails, in particular to a slidable type sensor mounting rail, which comprises a bottom plate, a vertical plate, a first sliding plate, a connecting plate and a second sliding plate, wherein the first sliding plate can be arranged at the top of the bottom plate in a front-back sliding way, the connecting plate is vertically and fixedly arranged at the top of the first sliding plate, the second sliding plate is arranged at one side of the connecting plate away from the first sliding plate, the second sliding plate is arranged on the connecting plate in a left-right sliding way, the vertical plate can be arranged on the second sliding plate in an up-down sliding way, the bottom plate is provided with a bottom hole for being arranged on equipment, the vertical plate is provided with a through hole for arranging a sensor, after the sensor is arranged, the sensor can not sense an inductor due to insufficient distance, and the replacement of the slidable type sensor mounting rail can be avoided, the waste of a large amount of working time of workers is avoided, and the working efficiency of the workers is improved.

Description

Slidable sensor mounting rail

Technical Field

The utility model relates to a sensor mounting rail field, concretely relates to slidingtype sensor mounting rail.

Background

The slidable sensor mounting rail is also called as a slidable sensor mounting bracket and is used for adjusting a fixed sensor, the conventional sensor mounting rail is bent through a straight plate, then a strip-shaped hole is formed in the bent straight plate, when the sensor can slide on the bent straight plate through the strip-shaped hole, when the bent straight plate is to be fixed on equipment, a hole needs to be drilled in one position on the equipment, the sensor mounting rail is further fixed on the sensor mounting rail, when the sensor is mounted, a sensing end cannot sense a sensing object due to insufficient front-back distance or up-down distance or left-right distance, the sensor mounting bracket is often required to be replaced, a worker needs to process the sensor mounting rail when replacing the sensor mounting rail, and the debugged equipment also needs to wait for a new sensor mounting rail to be sent, just can debug, wasted a large amount of operating time of workman.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a slidingtype sensor mounting rail.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a slidingtype sensor mounting rail, comprising a base plate, the riser, first sliding plate, connecting plate and second sliding plate, gliding top of installing at the bottom plate around the first sliding plate can, the connecting plate is the top of vertical fixed mounting at first sliding plate, the second sliding plate is located the connecting plate and keeps away from one side of first sliding plate, and the second sliding plate with can the horizontal slip install on the connecting plate, the riser is located one side that the connecting plate was kept away from to the second sliding plate, and gliding installation is on the second sliding plate about the riser can, set up the bottom outlet that is used for installing on equipment on the bottom plate, set up the through-hole that supplies the sensor installation on the riser.

Furthermore, three scribing grooves are formed in the bottom plate, the three scribing grooves are evenly distributed along the circumferential direction of the bottom hole, and the axis of the bottom hole is located on the central longitudinal section of each scribing groove.

Further, a first guide strip is fixedly arranged at the top of the bottom plate, a first strip-shaped sliding hole is formed in the first sliding plate, the first guide strip is inserted into the first strip-shaped sliding hole, two sides of the first guide strip are attached to two sides of the first strip-shaped sliding hole, the height of the first guide strip is higher than that of the first strip-shaped sliding hole, a first limiting strip is arranged at the top of the first guide strip, the width of the first limiting strip is larger than that of the first strip-shaped sliding hole, the first limiting strip is fixedly arranged at the top of the first guide strip, two first threaded holes are further formed in the first sliding plate, the first sliding plate is tightly abutted to the bottom plate through screws, the two screws are respectively engaged with the two first threaded holes, and the bottom of each screw is abutted to the top of the bottom plate.

Furthermore, one side of the connecting plate, which is far away from the first sliding plate, is fixedly provided with a second guide strip, a second strip-shaped sliding hole is formed in the second sliding plate, the second guide strip is inserted into the second strip-shaped sliding hole, the two sides of the second guide strip are attached to the two sides of the second strip-shaped sliding hole, the height of the second guide strip is higher than that of the second strip-shaped sliding hole, one side of the second guide strip, which is far away from the first sliding plate, is provided with a second limiting blocking strip, the width of the second limiting blocking strip is larger than that of the second strip-shaped sliding hole, the second limiting blocking strip is fixedly installed on the second guide strip, the connecting plate is further provided with two second threaded holes, the connecting plate is tightly abutted to the second sliding plate through screws, the two screws are respectively engaged to the two second threaded holes, and the bottom of the screws is abutted to the.

Further, one side of the second sliding plate, which is far away from the connecting plate, is fixedly provided with a third guide strip, a third strip-shaped sliding hole is formed in the vertical plate, the third guide strip is inserted into the third strip-shaped sliding hole, the two sides of the third guide strip are attached to the two sides of the third strip-shaped sliding hole, the height of the third guide strip is higher than that of the third strip-shaped sliding hole, one side of the third guide strip, which is far away from the connecting plate, is provided with a third limiting blocking strip, the width of the third limiting blocking strip is larger than that of the third strip-shaped sliding hole, the third limiting blocking strip is fixedly installed on the third guide strip, the second sliding plate is further provided with two third threaded holes, the second sliding plate is tightly supported with the vertical plate through screws, the two screws are respectively engaged with the two third threaded holes, and the bottom of the screws is.

Furthermore, the surfaces of two sides of the second sliding plate, which are contacted with the vertical plate and the connecting plate, are rough, and the surface of the first sliding plate, which is contacted with the bottom plate, is rough.

Furthermore, the two ends of the top of the vertical plate are rounded, and the four ends of the second sliding plate are rounded.

The utility model has the advantages that: this slidingtype sensor mounting rail, can adjust from beginning to end through first sliding plate and bottom plate, can control through second sliding plate and connecting plate and adjust, can adjust from beginning to end through riser and second sliding plate, when the sensor installation back, avoided the response end because the distance is when not enough for the inductor can't be sensed to the sensor, avoided the change to slidingtype sensor mounting rail, avoided extravagant a large amount of operating time of workman, improved workman's work efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

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

FIG. 2 is a first exploded view of the partial three-dimensional structure of the present invention;

FIG. 3 is a second exploded view of the partial three-dimensional structure of the present invention;

FIG. 4 is a schematic perspective view of a connecting plate;

FIG. 5 is a perspective view of the second sliding plate;

fig. 6 is a third exploded view of the partial three-dimensional structure of the present invention;

in the figure:

1. a base plate; 1a, marking a groove; 1b, a first conducting bar; 1c, a first limit bar;

2. a vertical plate; 2a, a third strip-shaped sliding hole;

3. a first sliding plate; 3a, a first strip-shaped sliding hole; 3b, a first threaded hole;

4. a connecting plate; 4a, a second conducting bar; 4b, a second limit stop strip; 4c, a second threaded hole;

5. a second sliding plate; 5a, a second strip-shaped sliding hole; 5b, a third conducting bar; 5c, a third limiting barrier strip; 5d and a third threaded hole.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 6, a slidable formula sensor mounting rail that shows, including bottom plate 1, riser 2, first sliding plate 3, connecting plate 4 and second sliding plate 5, gliding the installing at the top of bottom plate 1 around first sliding plate 3 can, connecting plate 4 is vertical fixed mounting at the top of first sliding plate 3, second sliding plate 5 is located one side that first sliding plate 3 was kept away from to connecting plate 4, and second sliding plate 5 with can the horizontal slip install on connecting plate 4, riser 2 is located one side that connecting plate 4 was kept away from to second sliding plate 5, and riser 2 can be gliding the installing on second sliding plate 5 from top to bottom, set up the bottom outlet that is used for installing on equipment on bottom plate 1, set up the through-hole that supplies the sensor installation on riser 2.

Three marking off groove 1a has been seted up on bottom plate 1, and three marking off groove 1a is along the circumferencial direction evenly distributed of bottom outlet, and the axis of bottom outlet all is located the central longitudinal section of every marking off groove 1 a. After the slidable sensor mounting rail is placed at a proper position, a pen is used for marking in the three marking grooves 1a through a worker, the slidable sensor mounting rail is moved away, the three lines are connected, the connecting point is the center of the bottom hole, then the worker drills the equipment, and the punching position is accurately positioned through the method.

The top of the bottom plate 1 is fixedly provided with a first guide strip 1b, the first sliding plate 3 is provided with a first strip-shaped sliding hole 3a, the first guide strip 1b is inserted into the first strip-shaped sliding hole 3a, two sides of the first guide strip 1b are attached to two sides of the first strip-shaped sliding hole 3a, the height of the first guide strip 1b is higher than that of the first strip-shaped sliding hole 3a, the top of the first guide strip 1b is provided with a first limit strip 1c, the width of the first limit strip 1c is larger than that of the first strip-shaped sliding hole 3a, the first limit strip 1c is fixedly installed at the top of the first guide strip 1b, the first sliding plate 3 is further provided with two first threaded holes 3b, the first sliding plate 3 is tightly abutted to the bottom plate 1 through screws, the two screws are respectively engaged to the two first threaded holes 3b, and the bottoms of the screws are abutted to the top of the bottom plate 1. The height of the first guide strip 1b is two millimeters higher than that of the first strip-shaped sliding hole 3a, when the front position and the rear position of the sensor need to be adjusted, the first sliding plate 3 is pushed, the first sliding plate 3 slides on the top of the bottom plate 1 through the first strip-shaped sliding hole 3a, the first sliding plate 3 is prevented from being separated from the bottom plate 1 through the first limiting strip 1c, after the sensor is adjusted to a proper front position and a proper rear position, the screws on the two first threaded holes 3b are screwed, the bottom of each screw is abutted against the top of the bottom plate 1, the first sliding plate 3 and the bottom plate 1 are abutted against each other, and the first sliding plate 3 and the bottom plate 1 are fixed together.

A second guide bar 4a is fixedly arranged on one side of the connecting plate 4 far away from the first sliding plate 3, a second strip-shaped sliding hole 5a is arranged on the second sliding plate 5, the second guide bar 4a is inserted in the second strip-shaped sliding hole 5a, and the two sides of the second guide strip 4a are attached to the two sides of the second strip-shaped sliding hole 5a, the height of the second guide strip 4a is higher than that of the second strip-shaped sliding hole 5a, one side, far away from the first sliding plate 3, of the second guide strip 4a is provided with a second limiting blocking strip 4b, the width of the second limiting blocking strip 4b is larger than that of the second strip-shaped sliding hole 5a, the second limiting blocking strip 4b is fixedly installed on the second guide strip 4a, the connecting plate 4 is further provided with two second threaded holes 4c, the connecting plate 4 is tightly abutted to the second sliding plate 5 through screws, the two screws are respectively engaged to the two second threaded holes 4c, and the bottom of each screw is abutted to the second sliding plate 5. The height of the second guide strip 4a is two millimeters higher than that of the second strip-shaped sliding hole 5a, when the left position and the right position of the sensor need to be adjusted, the second sliding plate 5 is pushed, the second sliding plate 5 slides on the connecting plate 4 through the second strip-shaped sliding hole 5a, the second sliding plate 5 is prevented from being separated from the connecting plate 4 through the second limiting blocking strip 4b, after the sensor is adjusted to the proper left position and the right position, the screws on the two second threaded holes 4c are screwed, the bottom of each screw is abutted against the second sliding plate 5, the connecting plate 4 and the second sliding plate 5 are abutted against each other, and the connecting plate 4 and the second sliding plate 5 are fixed.

One side of the second sliding plate 5, which is far away from the connecting plate 4, is fixedly provided with a third guide strip 5b, a third strip-shaped sliding hole 2a is formed in the vertical plate 2, the third guide strip 5b is inserted into the third strip-shaped sliding hole 2a, two sides of the third guide strip 5b are attached to two sides of the third strip-shaped sliding hole 2a, the height of the third guide strip 5b is higher than that of the third strip-shaped sliding hole 2a, one side, which is far away from the connecting plate 4, of the third guide strip 5b is provided with a third limiting barrier strip 5c, the width of the third limiting barrier strip 5c is larger than that of the third strip-shaped sliding hole 2a, the third limiting barrier strip 5c is fixedly installed on the third guide strip 5b, the second sliding plate 5 is further provided with two third threaded holes 5d, the second sliding plate 5 is tightly supported with the vertical plate 2 through screws, the two screws are respectively engaged with the two third threaded holes 5d, and the bottoms of the screws are abutted against. The height of third conducting bar 5b is higher than two millimeters of the height of third bar slide opening 2a, when the upper and lower position of sensor needs to be adjusted, through promoting riser 2, and then riser 2 slides on second sliding plate 5 through third bar slide opening 2a, prevent riser 2 from breaking away from second sliding plate 5 through third limit stop 5c, after the sensor adjusts suitable upper and lower position, through screwing up the screw on two third screw holes 5d, and then make the bottom of screw contradict with riser 2, make conflict each other between second sliding plate 5 and the riser 2, and then fix between second sliding plate 5 and riser 2.

The surfaces of the two sides of the second sliding plate 5, which are in contact with the vertical plate 2 and the connecting plate 4, are rough, and the surface of the first sliding plate 3, which is in contact with the bottom plate 1, is rough. The surfaces of the first sliding plate 3 and the second sliding plate 5 are rough, so that the mutual sliding can not occur after the screws are tightly pressed.

The top both ends radius angle of riser 2, the four ends radius angle of second sliding plate 5. Through the fillet structure, prevent to prick the finger.

The working principle is as follows: after the slidable sensor mounting rail is placed at a proper position, a pen is used for marking in the three marking grooves 1a by a worker, the slidable sensor mounting rail is moved away and then the three lines are connected, the connecting point is the center of the bottom hole, then the worker drills the equipment, the slidable sensor mounting rail is mounted on the equipment, then the sensor is mounted on the slidable sensor mounting rail, when the front and back positions of the sensor need to be adjusted, the first sliding plate 3 is pushed, the first sliding plate 3 slides on the top of the bottom plate 1 through the first strip-shaped sliding hole 3a, the first sliding plate 3 is prevented from being separated from the bottom plate 1 through the first limit stop strip 1c, after the sensor is adjusted to the proper front and back positions, the bottom of the screw is enabled to be abutted against the top of the bottom plate 1 by screwing the screws on the two first threaded holes 3b, the first sliding plate 3 and the bottom plate 1 are mutually abutted to fix the first sliding plate 3 and the bottom plate 1, when the left and right positions of the sensor are required to be adjusted, the second sliding plate 5 is pushed to further slide the second sliding plate 5 on the connecting plate 4 through the second strip-shaped sliding hole 5a, the second sliding plate 5 is prevented from being separated from the connecting plate 4 through the second limit baffle 4b, after the sensor is adjusted to the proper left and right positions, the bottom of the screw is abutted to the second sliding plate 5 by screwing the screws on the two second threaded holes 4c, so that the connecting plate 4 is abutted to the second sliding plate 5, so that the connecting plate 4 and the second sliding plate 5 are fixed, when the up and down positions of the sensor are required to be adjusted, the vertical plate 2 is pushed to further slide the vertical plate 2 on the second sliding plate 5 through the third strip-shaped sliding hole 2a, prevent through third spacing blend stop 5c that riser 2 breaks away from second sliding plate 5, after the sensor adjustment suitable upper and lower position, through screwing up the screw on two third screw holes 5d, and then make the bottom of screw contradict with riser 2 for contradict each other between second sliding plate 5 and the riser 2, and then fix between second sliding plate 5 and riser 2.

Claims (7)

1. A slidable sensor mounting rail is characterized by comprising a bottom plate (1), a vertical plate (2), a first sliding plate (3), a connecting plate (4) and a second sliding plate (5), wherein the first sliding plate (3) can be arranged at the top of the bottom plate (1) in a front-back sliding mode, the connecting plate (4) is vertically and fixedly arranged at the top of the first sliding plate (3), the second sliding plate (5) is positioned at one side, far away from the first sliding plate (3), of the connecting plate (4), the second sliding plate (5) is arranged on the connecting plate (4) in a left-right sliding way, the vertical plate (2) is positioned on one side of the second sliding plate (5) far away from the connecting plate (4), and the vertical plate (2) can be installed on the second sliding plate (5) in a vertical sliding mode, a bottom hole used for being installed on equipment is formed in the bottom plate (1), and a through hole used for installing the sensor is formed in the vertical plate (2).

2. The slidable sensor mounting rail according to claim 1, wherein the bottom plate (1) is provided with three scribing grooves (1a), the three scribing grooves (1a) are uniformly distributed along the circumferential direction of the bottom hole, and the axis of the bottom hole is located on the central longitudinal section of each scribing groove (1 a).

3. The slidable sensor mounting rail according to claim 2, wherein a first guide bar (1b) is fixedly arranged at the top of the bottom plate (1), a first strip-shaped sliding hole (3a) is formed in the first sliding plate (3), the first guide bar (1b) is inserted into the first strip-shaped sliding hole (3a), two sides of the first guide bar (1b) are attached to two sides of the first strip-shaped sliding hole (3a), the height of the first guide bar (1b) is higher than that of the first strip-shaped sliding hole (3a), a first limit stop bar (1c) is arranged at the top of the first guide bar (1b), the width of the first limit stop bar (1c) is larger than that of the first strip-shaped sliding hole (3a), the first limit stop bar (1c) is fixedly arranged at the top of the first guide bar (1b), two first threaded holes (3b) are further formed in the first sliding plate (3), the first sliding plate (3) is tightly propped against the bottom plate (1) through screws, the two screws are respectively meshed with the two first threaded holes (3b), and the bottoms of the screws are abutted against the top of the bottom plate (1).

4. The slidable sensor mounting rail according to claim 3, wherein a second guide bar (4a) is fixedly arranged on one side of the connecting plate (4) away from the first sliding plate (3), a second sliding bar hole (5a) is formed in the second sliding plate (5), the second guide bar (4a) is inserted into the second sliding bar hole (5a), two sides of the second guide bar (4a) are attached to two sides of the second sliding bar hole (5a), the height of the second guide bar (4a) is higher than that of the second sliding bar hole (5a), a second limiting barrier bar (4b) is arranged on one side of the second guide bar (4a) away from the first sliding plate (3), the width of the second limiting barrier bar (4b) is larger than that of the second sliding bar hole (5a), the second limiting barrier bar (4b) is fixedly arranged on the second guide bar (4a), and two second threaded holes (4c) are formed in the connecting plate (4), the connecting plate (4) is tightly propped against the second sliding plate (5) through screws, the two screws are respectively meshed with the two second threaded holes (4c), and the bottoms of the screws are abutted against the second sliding plate (5).

5. The slidable sensor mounting rail according to claim 4, wherein a third guide bar (5b) is fixedly arranged on one side of the second sliding plate (5) far away from the connecting plate (4), a third strip-shaped sliding hole (2a) is formed in the vertical plate (2), the third guide bar (5b) is inserted into the third strip-shaped sliding hole (2a), two sides of the third guide bar (5b) are attached to two sides of the third strip-shaped sliding hole (2a), the height of the third guide bar (5b) is higher than that of the third strip-shaped sliding hole (2a), a third limiting stop bar (5c) is arranged on one side of the third guide bar (5b) far away from the connecting plate (4), the width of the third limiting stop bar (5c) is larger than that of the third strip-shaped sliding hole (2a), the third limiting stop bar (5c) is fixedly arranged on the third guide bar (5b), and two third threaded holes (5d) are further formed in the second sliding plate (5), the second sliding plate (5) is tightly propped against the vertical plate (2) through screws, the two screws are respectively meshed with the two third threaded holes (5d), and the bottoms of the screws are abutted against the vertical plate (2).

6. A slidable sensor mounting rail according to claim 5, wherein the second sliding plate (5) has a rough surface on both sides in contact with the riser (2) and the connecting plate (4), and the first sliding plate (3) has a rough surface in contact with the base plate (1).

7. A slidable sensor mounting rail according to claim 6, wherein the top of the riser (2) is rounded at both ends and the second sliding plate (5) is rounded at both ends.

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