CN221007619U - Large chuck speed measuring sensor with stable connection - Google Patents

Abstract

The utility model relates to the technical field related to speed measuring sensors, in particular to a large chuck speed measuring sensor with stable connection. The large chuck speed measuring sensor with stable connection is characterized in that the large chuck speed measuring sensor is fixedly connected with a first connecting ring, a first fixing hole, a first fixing block, a first connecting block, a sliding groove, a sliding block, a second connecting ring, a second fixing hole, a second fixing block, a connecting groove, a screw rod and a nut.

Description

Large chuck speed measuring sensor with stable connection

Technical Field

The utility model relates to the technical field of speed measuring sensors, in particular to a large chuck speed measuring sensor with stable connection.

Background

The speed measuring sensor is an instrument capable of measuring the running speed of a measured object, the increment of displacement in unit time is speed, the speed is vector, the speed is provided with a size and a direction, the size of the speed is called speed, the speed comprises linear speed and rotating speed, the corresponding speed measuring sensor is provided with a measuring linear speed sensor and a measuring rotating speed sensor, the measuring linear speed sensor and the measuring rotating speed sensor are collectively called as a speed measuring sensor, the speed measuring sensor is required to be connected with the measured object when in use, and the speed measuring sensor can accurately measure the running speed when the measured object runs, so that the large chuck speed measuring sensor with stable connection is particularly required.

But the current big chuck speed sensor that connects firmly, most speed sensor, when being connected with the measured object, the junction is not firm enough, and the object can cause the junction to produce when moving not hard up, makes measurement data accurate inadequately, and secondly, most speed sensor's transmission line can't convenient rolling, and is very inconvenient when using and carrying.

Disclosure of utility model

The utility model aims to provide a large chuck speed measuring sensor with stable connection, which solves the problems that the existing large chuck speed measuring sensor with stable connection provided in the background art is inconvenient to use and carry because most of speed measuring sensors are not stable enough in connection with an object to be measured and the connection part is possibly loose when the object runs, so that measurement data is not accurate enough, and the transmission lines of most of speed measuring sensors cannot be wound conveniently.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a big chuck speed sensor that connects firmly, includes the sensor, the one end of sensor is provided with coupling mechanism, the one end of sensor is provided with first transmission line, the one end of first transmission line is connected with winding mechanism, the one end of winding mechanism is connected with the second transmission line, the one end fixedly connected with plug of second transmission line;

The connecting mechanism comprises a first connecting ring, a first fixing hole, a first fixing block, a first connecting block, a sliding groove, a sliding block, a second connecting ring, a second fixing hole, a second fixing block, a connecting groove, a screw rod and a nut, wherein one end of the sensor is connected with the first connecting ring, the first fixing hole is formed in one side surface of the first connecting ring, the first fixing block is fixedly mounted at one end of the first connecting ring, the first connecting block is fixedly connected with one end of the first connecting ring, the sliding groove is formed in one side surface of the first connecting block, the sliding block is arranged in the sliding groove, the second connecting block is fixedly connected with one end of the sliding block, the second fixing ring is fixedly connected with one end of the second connecting block, the connecting groove is formed in one side surface of the first connecting block, the screw rod is welded on one side surface of the sliding block, and the nut is arranged at one end of the screw rod.

Preferably, the first fixing holes are formed in the surface of the first connecting ring at equal intervals, the second fixing holes are formed in the surface of the second connecting ring at equal intervals, and the first connecting ring and the first fixing block are made of rubber materials.

Preferably, the winding mechanism comprises a shell, a first wiring hole, a limit column, a second wiring hole, a bearing, a connecting rod, a winding column, a connecting wire, a winding block, a limit groove, a limit handle and a limit block, wherein one end of the first transmission line is connected with the shell, the first wiring hole is formed in one side surface of the shell, the limit column is arranged in the shell, the second wiring hole is formed in one side surface of the limit column, the bearing is arranged in the shell, the connecting rod is arranged in the bearing, one side surface of the connecting rod is fixedly connected with the winding column, the connecting wire is arranged in the winding column, one end of the winding column is fixedly connected with the winding block, the limit groove is formed in one side surface of the winding block, the limit handle is fixedly arranged on one side surface of the shell, and the limit block is arranged at one end of the limit handle.

Preferably, the size of the limiting block is identical with that of the limiting groove, and the winding column and the bearing form a rotary structure through the connecting rod.

Preferably, the limiting grooves are formed in the surface of one side of the winding block at equal intervals, and the connecting wires are connected with the winding columns in a winding mode.

Compared with the prior art, the utility model has the beneficial effects that: the large chuck speed measuring sensor with stable connection is characterized in that the first connecting ring, the first fixing hole, the first fixing block, the first connecting block, the sliding groove, the sliding block, the second connecting ring, the second fixing hole, the second fixing block, the connecting groove, the screw rod and the nut are arranged, when in connection, the first connecting ring is firstly sleeved on the surface of the sensor, the first connecting ring is tightened, the connecting ring is adjusted to a proper size according to the size of the sensor, then the first fixing block is clamped into the corresponding first fixing hole, then the nut is unscrewed, the second connecting block is pulled according to the distance between the connecting ring and an object to be measured, the second connecting block is moved in the first connecting block through the movement of the sliding block in the sliding groove, the screw rod is moved in the connecting groove, the nut is screwed after the connecting ring is adjusted to a proper position, the fixing is completed, then the second connecting ring is installed on the object to be measured in the same way, the connection between the sensor and the measured object is completed, the connection mode is more stable, the shell, the first wiring hole, the limiting column, the second wiring hole, the bearing, the connecting rod, the winding column, the connecting wire, the winding block, the limiting groove, the limiting handle and the limiting block are arranged, when the sensor is used, the first transmission line and the second transmission line are pulled, the connecting wire which is wound on the winding column inside the shell can move out from the first wiring hole along the second wiring hole, when winding is needed, the limiting block arranged on the limiting handle is pulled upwards, then the winding block is rotated, the winding block drives the winding column to rotate together with the bearing through the connecting rod, the connecting wire can be pulled into the shell by the winding column, the winding block is wound on the winding column again, and after winding is completed, the limiting block is pulled downwards into the corresponding limiting groove to be fixed.

Drawings

FIG. 1 is a schematic diagram of a side view of the present utility model;

FIG. 2 is a schematic view of the structure of the connecting mechanism of the present utility model;

FIG. 3 is a schematic diagram of the mutual cooperation structure of the slider and the second connecting block;

FIG. 4 is a schematic view of a winding mechanism according to the present utility model;

FIG. 5 is a schematic view of the structure of the bearing and connecting rod of the present utility model in cooperation with each other;

Fig. 6 is an enlarged schematic view of the structure of fig. 4 a according to the present utility model.

In the figure: 1. a sensor; 2. a connecting mechanism; 201. a first connection ring; 202. a first fixing hole; 203. a first fixed block; 204. a first connection block; 205. a chute; 206. a slide block; 207. a second connection block; 208. a second connecting ring; 209. a second fixing hole; 210. a second fixed block; 211. a connecting groove; 212. a screw; 213. a nut; 3. a first transmission line; 4. a winding mechanism; 401. a housing; 402. a first wiring hole; 403. a limit column; 404. a second wiring hole; 405. a bearing; 406. a connecting rod; 407. winding a column; 408. a connecting wire; 409. a winding block; 410. a limit groove; 411. a limit handle; 412. a limiting block; 5. a second transmission line; 6. a plug.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides a big chuck speed sensor that connects firmly, includes sensor 1, and the one end of sensor 1 is provided with coupling mechanism 2, and the one end of sensor 1 is provided with first transmission line 3, and the one end of first transmission line 3 is connected with winding mechanism 4, and the one end of winding mechanism 4 is connected with second transmission line 5, and the one end of second transmission line 5 fixedly connected with plug 6;

The connecting mechanism 2 comprises a first connecting ring 201, a first fixing hole 202, a first fixing block 203, a first connecting block 204, a sliding groove 205, a sliding block 206, a second connecting block 207, a second connecting ring 208, a second fixing hole 209, a second fixing block 210, a connecting groove 211, a screw 212 and a nut 213, wherein one end of the sensor 1 is connected with the first connecting ring 201, one side surface of the first connecting ring 201 is provided with the first fixing hole 202, one end of the first connecting ring 201 is fixedly provided with the first fixing block 203, one end of the first connecting ring 201 is fixedly connected with the first connecting block 204, one side surface of the first connecting block 204 is provided with the sliding groove 205, the sliding block 206 is arranged in the sliding groove 205, one end of the sliding block 206 is fixedly connected with the second connecting block 207, one end of the second connecting block 207 is fixedly connected with the second connecting ring 208, one side surface of the second connecting ring 208 is provided with the second fixing hole 209, a second fixing block 210 is fixedly arranged at one end of the second connecting block 207, a connecting groove 211 is formed in one side surface of the first connecting block 204, a screw rod 212 is welded on one side surface of the sliding block 206, a nut 213 is arranged at one end of the screw rod 212, the second connecting block 207 is pulled by the arrangement of the first connecting ring 201, the first fixing hole 202, the first fixing block 203, the first connecting block 204, the sliding groove 205, the sliding block 206, the second connecting block 207, the second connecting ring 208, the second fixing hole 209, the second fixing block 210, the connecting groove 211, the screw rod 212 and the nut 213 through the arrangement of the first connecting ring 201, the first connecting ring 201 is sleeved on the surface of the sensor 1, the first connecting ring 201 is tightened, the connecting ring is adjusted to a proper size according to the size of the sensor 1, then the first fixing block 203 is clamped into the corresponding first fixing hole 202, the nut 213 is unscrewed, the second connecting block 207 is pulled according to the distance between the second connecting block 207 and an object to be measured, the second connection block 207 is moved in the first connection block 204 by the movement of the sliding block 206 in the sliding groove 205, and the screw 212 is moved in the connection groove 211, and after the nut 213 is screwed down after the adjustment to a proper position, the fixation is completed, and then the second connection ring 208 is mounted on the object to be measured in the same manner, so that the connection between the sensor 1 and the object to be measured is completed, and the connection manner is more stable.

Further, the first fixing holes 202 are formed on the surface of the first connecting ring 201 at equal intervals, the second fixing holes 209 are formed on the surface of the second connecting ring 208 at equal intervals, the first connecting ring 201 and the first fixing block 203 are made of rubber materials, the first fixing holes 202 and the second fixing holes 209 are arranged, the first fixing block 203 and the second fixing block 210 are clamped in the fixing holes at different positions, the effect of adjusting the size of the connecting ring is achieved, and therefore the measured object with different sizes can be adapted.

Further, the winding mechanism 4 comprises a housing 401, a first wiring hole 402, a limit post 403, a second wiring hole 404, a bearing 405, a connecting rod 406, a winding post 407, a connecting wire 408, a winding block 409, a limit groove 410, a limit handle 411 and a limit block 412, one end of the first transmission line 3 is connected with the housing 401, the first wiring hole 402 is arranged on one side surface of the housing 401, the limit post 403 is arranged in the housing 401, the second wiring hole 404 is arranged on one side surface of the limit post 403, a bearing 405 is arranged in the housing 401, the connecting rod 406 is arranged in the bearing 405, the winding post 407 is fixedly connected with one side surface of the connecting rod 406, the connecting wire 408 is arranged in the winding post 407, one end of the winding post 407 is fixedly connected with the winding block 409, the limit groove 410 is arranged on one side surface of the winding block 409, the limit handle 411 is fixedly arranged on one side surface of the housing 401, one end of the limiting handle 411 is provided with a limiting block 412, through the arrangement of the shell 401, the first wiring hole 402, the limiting post 403, the second wiring hole 404, the bearing 405, the connecting rod 406, the winding post 407, the connecting wire 408, the winding block 409, the limiting groove 410, the limiting handle 411 and the limiting block 412, when in use, the first transmission line 3 and the second transmission line 5 are pulled, the connecting wire 408 wound on the winding post 407 inside the shell 401 can move out of the first wiring hole 402 along the second wiring hole 404, when in need of winding, the limiting block 412 arranged on the limiting handle 411 is pulled upwards, then the winding block 409 is rotated, the winding block 409 drives the winding post 407 to rotate together with the bearing 405 through the connecting rod 406, the connecting wire 408 can be pulled into the shell by the winding post 407, and is wound on the winding post 407 again, after winding is completed, the stopper 412 is pushed down into the corresponding stopper groove 410 to complete the fixation.

Further, the size of the limiting block 412 is identical to that of the limiting groove 410, the rolling post 407 forms a rotating structure with the bearing 405 through the connecting rod 406, and the bearing 405 drives the rolling post 407 to rotate together through the connecting rod 406 through the arrangement of the connecting rod 406, so that the rolling effect is achieved.

Further, the limiting grooves 410 are formed in the surface of one side of the winding block 409 at equal intervals, the connecting wires 408 are connected with the winding columns 407 in a winding manner, and the connecting wires 408 are used for connecting the first transmission line 3 and the second transmission line 5 together through the arrangement of the connecting wires 408.

Working principle: during connection, first connecting ring 201 is sleeved on the surface of sensor 1, first connecting ring 201 is tightened, connecting ring 201 is adjusted to a proper size according to the size of sensor 1, then first fixing block 203 is clamped into corresponding first fixing hole 202, nut 213 is then unscrewed, second connecting block 207 is pulled according to the distance between the second connecting block 207 and the measured object, second connecting block 207 is made to move in first connecting block 204 through the movement of sliding block 206 in sliding chute 205, screw 212 moves in connecting groove 211, nut 213 is screwed after adjusting to a proper position, fixing is completed, second connecting ring 208 is installed on the measured object in the same way, connection between sensor 1 and the measured object is completed, the connecting mode is more stable, first transmission line 3 and second transmission line 5 are pulled, connecting wire 408 wound inside shell 401 on rolling post 407 is moved out of first wiring hole 402 along second wiring hole 404, so that two convenient sensors 1 and 412 can be wound on rolling post 407 are conveniently, limit block 412 is required to be wound on the corresponding rolling post 407, rolling post shaft is completed, knob 412 is pulled up again in the corresponding rolling post shaft, rolling post 409 is completed, speed measuring post 407 is rotated, and speed measuring post 407 is fixed, and rolling post shaft is rotated, accordingly, winding speed is completed, and speed measuring device is fixed to be fixed to the corresponding connecting post 407.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a connect firm big chuck speed sensor, includes sensor (1), its characterized in that: one end of the sensor (1) is provided with a connecting mechanism (2), one end of the sensor (1) is provided with a first transmission line (3), one end of the first transmission line (3) is connected with a winding mechanism (4), one end of the winding mechanism (4) is connected with a second transmission line (5), and one end of the second transmission line (5) is fixedly connected with a plug (6);

The connecting mechanism (2) comprises a first connecting ring (201), a first fixing hole (202), a first fixing block (203), a first connecting block (204), a sliding groove (205), a sliding block (206), a second connecting block (207), a second connecting ring (208), a second fixing hole (209), a second fixing block (210), a connecting groove (211), a screw rod (212) and a nut (213), one end of the sensor (1) is connected with the first connecting ring (201), one side surface of the first connecting ring (201) is provided with the first fixing hole (202), one end of the first connecting ring (201) is fixedly provided with the first fixing block (203), one end of the first connecting ring (201) is fixedly connected with the first connecting block (204), one side surface of the first connecting block (204) is provided with the sliding groove (205), the sliding block (206) is arranged in the sliding groove (205), one end of the sliding block (206) is fixedly connected with the second connecting block (207), one end of the second connecting ring (207) is fixedly connected with the first connecting block (208), one side of the second connecting block (208) is fixedly connected with the first connecting block (209), a connecting groove (211) is formed in one side surface of the first connecting block (204), a screw (212) is welded on one side surface of the sliding block (206), and a nut (213) is arranged at one end of the screw (212).

2. The firmly connected large chuck speed sensor according to claim 1, wherein: the first fixing holes (202) are formed in the surface of the first connecting ring (201) at equal intervals, the second fixing holes (209) are formed in the surface of the second connecting ring (208) at equal intervals, and the first connecting ring (201) and the first fixing block (203) are made of rubber materials.

3. The firmly connected large chuck speed sensor according to claim 1, wherein: winding mechanism (4) including shell (401), first wiring hole (402), spacing post (403), second wiring hole (404), bearing (405), connecting rod (406), rolling post (407), connecting wire (408), rolling piece (409), spacing groove (410), spacing handle (411) and stopper (412), one end of first transmission line (3) is connected with shell (401), first wiring hole (402) has been seted up to one side surface of shell (401), the inside of shell (401) is provided with spacing post (403), second wiring hole (404) has been seted up to one side surface of spacing post (403), the inside of shell (401) is provided with bearing (405), the inside of bearing (405) is provided with connecting rod (406), one side surface fixedly connected with rolling post (407) of connecting rod (406), the inside of rolling post (407) is provided with (408), one end fixedly connected with rolling piece (409) of rolling post (409), one side surface of rolling piece (409) is provided with one side surface of connecting wire (410), one side surface of spacing groove (410) has fixed mounting handle (411), one end of the limiting handle (411) is provided with a limiting block (412).

4. A firmly connected large chuck speed sensor according to claim 3, characterized in that: the size of the limiting block (412) is identical with that of the limiting groove (410), and the rolling column (407) and the bearing (405) form a rotary structure through the connecting rod (406).

5. A firmly connected large chuck speed sensor according to claim 3, characterized in that: the limiting grooves (410) are formed in the surface of one side of the winding block (409) at equal intervals, and the connecting wires (408) are connected with the winding columns (407) in a winding mode.