CN218114018U - Baffle induction device of hanging carrier - Google Patents

Abstract

The utility model relates to a hang baffle induction system of carrier. Relates to the technical field of hanging and conveying. The device specifically comprises an installation frame fixed on a hanging track, a baffle rotationally connected with the installation frame, and a sensor fixed on the installation frame; when the hanging carrier passes through the mounting rack on the hanging rail, the baffle is pushed to rotate on the mounting rack, and when the baffle rotates to a sensing area away from the sensor on the mounting rack, the sensor senses a signal passing by the hanging carrier and transmits the signal to the control system. The utility model discloses a suspension carrier promotes the baffle when transporting on hanging the track and rotates in mounting bracket one side, and the baffle rotates to certain angle, leaves the induction zone of sensor to make the sensor disconnection response, in the twinkling of an eye of disconnection response, the sensor transmits the signal of telecommunication for control system, and control system takes notes once and hangs the information of carrier process, thereby is used for hanging the conveying capacity of carrier on the track to and conveying speed monitors.

Description

Baffle induction device of hanging carrier

Technical Field

The utility model relates to a hang and carry technical field, especially relate to a baffle induction system of hanging carrier.

Background

In the existing hanging production line, the application of the system is more and more detailed, and the conveying rhythm of the conveying system is often adjusted due to the change of production content or transportation content; in particular, the front material is not yet dissolved, and the rear material, if being continuously conveyed, can cause the blockage of the material and the overflow of the requirement, so that the conveying amount and the conveying speed of the hanging carrier on the hanging track need to be monitored.

Chinese patent CN214933417U, published japanese 2021-11-30, discloses a hanging conveyor line, comprising an annular guide rail, and further comprising a connecting rod conveyor belt arranged below the guide rail, the connecting rod conveyor belt is formed by connecting a plurality of connecting rods end to end, the end of the connecting rod is provided with a roller assembly, and the roller assembly is installed in the cavity of the guide rail; the bottom of connecting rod articulates there is the lifting hook, the rear side of lifting hook is provided with the spring, works as when the lifting hook rotates backward, the spring can make the lifting hook resumes to hanging the form. The utility model discloses a clothes hanger is carried to the lifting hook, need not the clothes hanger orbit, can reduce cost. However, the hanging conveying line lacks a device for monitoring the conveying amount and the conveying speed of the lifting hook, and cannot meet the requirements of the existing production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a baffle induction system of suspension carrier to above-mentioned prior art not enough, can be used for the conveying capacity to suspension carrier on the hanging track to and conveying speed monitors.

The utility model provides a baffle sensing device of a hanging carrier, which comprises a mounting rack fixed on a hanging track, a baffle rotationally connected with the mounting rack, and a sensor fixed on the mounting rack; when hanging carrier is through the mounting bracket on hanging the track, promote the baffle is in rotate on the mounting bracket, the baffle is in turn to on the mounting bracket and leave when the response region of sensor, the sensor senses the signal that hanging carrier passed through to convey control system with it.

Further, the mounting bracket is U type structure, including upper junction plate, lower connecting plate to and intermediate junction plate, the connecting plate is fixed on hanging the track down, the vertical setting of intermediate junction plate, and both ends respectively with upper junction plate and lower connecting plate are connected, the baffle with an upper junction plate side end rotates to be connected, the sensor is fixed the upper junction plate top.

The lower connecting plate is fixedly connected with the bottom of the hanging rail through a fixing piece, and the fixing position of the lower connecting plate on the hanging rail can be adjusted through the fixing piece.

Further, be equipped with the spout in hanging the track, it is equipped with the first bar hole with spout and external intercommunication to hang track bottom, the sectional area in first bar hole is less than the sectional area of spout, be equipped with first through-hole down on the connecting plate, the mounting include the top with spout cooperation, bottom stretch out the slider in first bar hole, the slider bottom is equipped with first screw hole to and one end runs through from connecting plate bottom down first through-hole, with the first screw rod of first screw hole spiro union.

Further, the baffle includes the mainboard body of upper junction plate one side downwardly extending, one end is fixed mainboard body upper end, the other end with a side end of upper junction plate rotates the pivot of connecting, and one end with one side fixed connection, the other end of mainboard body upper end are towards keeping away from the response portion that mainboard body direction extended, response portion leaves during the response region of sensor, the sensor senses the signal that hanging carrier passed through.

Further, an end of the upper connecting plate is provided with a positioning column, the main plate body is provided with a limiting groove, the baffle further comprises one end and a limiting part, wherein the other end of the upper end of the main plate body is fixedly connected with the other side of the upper end of the main plate body and extends towards the direction far away from the main plate body, the positioning column is abutted against the limiting part and used for limiting the anticlockwise rotation of the baffle, and the positioning column is matched with the limiting groove and used for limiting the clockwise rotation of the baffle.

Furthermore, a second through hole is formed in one side end of the upper connecting plate, the other end of the rotating shaft is inserted into the second through hole, and the baffle further comprises a bearing piece sleeved between the rotating shaft and the second through hole.

Further, another side of upper junction plate is equipped with the third through-hole, the intermediate junction plate with the one end that the upper junction plate is connected is equipped with the second bar hole, the mounting bracket still include that one end runs through in proper order the second screw rod in third through-hole, second bar hole, and with the second screw rod runs through in proper order the nut of the one end spiro union in third through-hole, second bar hole.

Further, still include the connecting piece that is used for with sensor and mounting bracket fixed connection, the horizontal distance between adjustable sensor and the mounting bracket of connecting piece.

Further, the upper junction plate top is equipped with the second screw hole, the connecting piece includes that one end is fixed sensor, the other end with the backup pad that the upper junction plate is connected, be equipped with third bar hole in the backup pad, and one end runs through behind the third bar hole, with the third screw rod of second screw hole spiro union.

The utility model relates to a baffle induction system of hanging carrier has following gain effect:

(1) When the baffle of the sensing device rotates to a certain angle at one side of the mounting rack, the baffle leaves a sensing area of the sensor, so that the sensor is disconnected from sensing, and the conveying amount and the conveying speed of a hanging carrier on a hanging rail are monitored;

(2) The baffle of the induction device is provided with an induction part which generates induction with the sensor, the hanging carrier pushes the baffle to rotate at one side end of the upper connecting plate until the hanging carrier can pass through the lower part of the baffle, and the induction part on the baffle leaves the induction area of the sensor, so that the baffle and the sensor are disconnected from induction;

(3) When the lower connecting plate is fixed on the hanging rail by the fixing piece of the sensing device, the position of the lower connecting plate on the hanging rail can be adjusted, so that the mounting position of the sensing device on the hanging rail can be adjusted according to the length of the hanging rail;

(4) One side end of an upper connecting plate of the sensing device is provided with a positioning column, when a main plate body naturally extends downwards from one side end of the upper connecting plate, a limiting part is abutted against the positioning column, so that the main plate body can only rotate under the pushing of a hanging carrier and cannot rotate in the opposite direction, and therefore the sensing part is prevented from colliding with a sensor above, the sensor is prevented from being damaged, and the monitoring data of the sensing device is prevented from losing efficacy;

(5) A bearing piece is arranged between the rotating shaft and the second through hole of the sensing device, an outer ring of the bearing piece is fixedly connected with the inner wall of the second through hole, and an inner ring of the bearing piece is sleeved on the rotating shaft and fixedly connected with the outer surface of the rotating shaft, so that the rotating shaft can rotate in the second through hole and does not generate friction with the inner wall of the second through hole, and the rotating connection of the baffle and the mounting frame is further realized;

(6) When the connecting piece of the induction device is fixedly connected with the sensor and the upper connecting plate, the horizontal distance between the sensor and the upper connecting plate can be adjusted, so that the adjustment of the horizontal distance between the sensor and the mounting frame is realized.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements.

Fig. 1 is a schematic structural diagram of a baffle sensing device of a suspension carrier according to an embodiment of the present invention;

fig. 2 is a left side view of a baffle sensing device of a hanging carrier according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a hanging rail of a baffle sensing device of a hanging carrier according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an installation frame of a baffle sensing device of a hanging carrier according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an upper connecting plate of a baffle sensing device of a hanging carrier according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a middle connection plate and a lower connection plate of a baffle sensing device of a hanging carrier according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a baffle sensing device of a hanging carrier according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of the sensor of the baffle sensing device of the hanging carrier according to the embodiment of the present invention installed on the connecting member.

In the figure: 1. a mounting frame; 11. an upper connecting plate; 111. a positioning column; 112. a second through hole; 113. a third through hole; 114. a second threaded hole; 12. an intermediate connection plate; 121. a second strip-shaped hole; 13. a lower connecting plate; 131. a first through hole; 14. a second screw; 15. a nut; 2. a baffle plate; 21. a main board body; 211. a limiting groove; 22. a rotating shaft; 23. a sensing part; 24. a limiting part; 25. a bearing member; 3. a sensor; 4. hanging a track; 41. a chute; 42. a first strip-shaped hole; 5. a fixing member; 51. a slider; 52. a first screw; 6. a connecting member; 61. a support plate; 611. a third strip-shaped hole; 62. and a third screw.

Detailed Description

For making the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following drawings in the embodiments of the present invention will be combined, and the technical solution in the embodiments of the present invention is clearly and completely described, based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work are included in the protection scope of the present invention.

The utility model provides a baffle induction system of hanging carrier, including the mounting bracket 1 fixed at hanging track 4, baffle 2 connected with mounting bracket 1 in a rotating way, and sensor 3 fixed on mounting bracket 1; when the hanging carrier passes through the mounting rack 1 on the hanging rail 4, the baffle 2 is pushed to rotate on the mounting rack 1, when the baffle 2 rotates to a sensing area away from the sensor 3 on the mounting rack 1, the sensor 3 senses a signal passing by the hanging carrier and transmits the signal to the control system, and the specific effect is shown in figure 1.

In this application, mounting bracket 1 is fixed on the track 4 of hanging that is used for transporting hanging carrier, and baffle 2 and one side fixed connection of mounting bracket 1, sensor 3 are fixed on mounting bracket 1 to realize the installation of baffle 2 and sensor 3 on hanging carrier. When the hanging carrier transports on hanging track 4, when the position at installation frame 1 place, with baffle 2 butt to promote baffle 2 and rotate on installation frame 1. When the baffle 2 rotates at one side of the mounting frame 1, on one hand, the transportation route of the hanging carrier can be left, and the transportation of the hanging carrier on the hanging track 4 is not hindered, so that the hanging carrier can be continuously transported on the hanging track 4; on the other hand baffle 2 when the installation bracket 1 one side turned to certain angle, left the response region of sensor 3 to make sensor 3 disconnection response, in the twinkling of an eye of disconnection response, sensor 3 gave control system with electric signal transmission, and control system records the information that once hangs the carrier and passes through, thereby is used for hanging the conveying capacity of carrier on track 4 to hanging to and conveying speed monitors.

In this embodiment, mounting bracket 1 is U type structure, including upper junction plate 11, lower connecting plate 13 to and intermediate junction plate 12, and lower connecting plate 13 is fixed on hanging track 4, and intermediate junction plate 12 is vertical to be set up, and both ends are connected with upper junction plate 11 and lower connecting plate 13 respectively, and baffle 2 rotates with 11 a side of upper junction plate to be connected, and sensor 3 is fixed at 11 tops of upper junction plate. The mounting bracket 1 comprises an upper connecting plate 11, a lower connecting plate 13 and a middle connecting plate 12, wherein two ends of the middle connecting plate 12 are respectively fixed with the upper connecting plate 11 and the lower connecting plate 13, so that the mounting bracket 1 forms a U-shaped structure.

Lower connecting plate 13 is fixed on hanging track 4, and 12 one end of intermediate junction board and lower connecting plate 13 fixed connection, the vertical upwards extension of the other end to with 11 fixed connection of upper junction board, baffle 2 rotates with one side end of upper junction board 11 to be connected, thereby make baffle 2 be located and hang track 4 top, and downwardly extending to hanging track 4 on, and then when making hanging carrier transport on hanging track 4, can take place the butt with baffle 2. It is foreseen that: hang track 4 and be greater than the gravity of baffle 2 to the effort of hanging carrier conveying to make hanging carrier and baffle 2 take place the butt back, can promote baffle 2 and rotate at 11 one side ends of upper junction plate, and then make baffle 2 let out hanging carrier's transmission route on hanging track 4, hanging carrier can continue to transport on hanging track 4, can not stop the transportation because of blockking of baffle 2.

The baffle 2 is provided with an induction part 23 which is induced by the sensor 3, the sensor 3 is fixed at the top of the upper connecting plate 11, and when the baffle 2 naturally extends downwards at one side end of the upper connecting plate 11, the induction part 23 on the baffle 2 is overlapped with an induction area of the sensor 3, so that the baffle 2 and the sensor 3 are induced mutually; when hanging carrier promotes baffle 2 and rotates at 11 one side ends of upper junction plate, when hanging carrier can follow baffle 2 below through, the response portion 23 on baffle 2 leaves the response region of sensor 3 to make baffle 2 and sensor 3 disconnection response, in the twinkling of an eye of disconnection response, sensor 3 gives control system with the signal of telecommunication transmission, and control system records the information that hanging carrier passed through once, thereby is used for monitoring the conveying capacity of hanging carrier on hanging track 4, and conveying speed.

In this embodiment, a fixing member 5 is further included to fixedly connect the lower connecting plate 13 with the bottom of the hanging rail 4, and the fixing member 5 can adjust the fixing position of the lower connecting plate 13 on the hanging rail 4, as shown in fig. 1. In this device, still be provided with mounting 5, fix lower connecting plate 13 in hanging track 4 bottom through mounting 5, and then realize the fixed of mounting bracket 1 on hanging track 4. When the fixing piece 5 fixes the lower connecting plate 13 on the hanging rail 4, the position of the lower connecting plate 13 on the hanging rail 4 can be adjusted, so that the installation position of the sensing device on the hanging rail 4 can be adjusted according to the length of the hanging rail 4, and the sensing device is prevented from being too close to the initial transportation point of the hanging carrier on the hanging rail 4 or too close to the transportation terminal point of the hanging carrier on the hanging rail 4.

Because the sensor 3 is an electronic instrument, after the sensor is started, the sensor can normally work within a certain reaction time, if the sensor is installed at a position on the hanging rail 4 which is too close to the initial transportation point of the hanging carrier, the hanging carrier starts to be transported on the hanging rail 4, the sensor 3 is started, the hanging carrier reaches the position of the sensor within a short time, and the sensor 3 is still in a state of reacting and working normally, so that the monitoring data of the sensor is inaccurate, and the actual production is influenced.

If the sensing device is installed at a position too close to the transportation end point of the suspension carrier on the suspension rail 4, the monitoring data is delayed, which may cause too many suspension carriers to be transported on the suspension rail 4 at the same time, resulting in too heavy burden on the suspension rail 4 and affecting the service life of the suspension rail 4. Therefore, in the present application, when the lower connecting plate 13 is fixed to the hanging rail 4 by the fixing tool 5, it is preferable that the lower connecting plate 13 is fixed to the middle section of the hanging rail 4 according to the length of the hanging rail 4.

In this embodiment, a sliding groove 41 is arranged in the hanging rail 4, a first strip-shaped hole 42 for communicating the sliding groove 41 with the outside is arranged at the bottom of the hanging rail 4, the sectional area of the first strip-shaped hole 42 is smaller than that of the sliding groove 41, a first through hole 131 is arranged on the lower connecting plate 13, the fixing member 5 comprises a sliding block 51, the top of which is matched with the sliding groove 41, the bottom of which extends out of the first strip-shaped hole 42, a first threaded hole is arranged at the bottom of the sliding block 51, and one end of the first threaded rod 52, which is screwed with the first threaded hole, penetrates through the first through hole 131 from the bottom of the lower connecting plate 13, and the specific effects are shown in fig. 2, fig. 3 and fig. 6. The hanging rail 4 is provided with a sliding chute 41, the bottom of the hanging rail 4 is provided with a first strip-shaped hole 42, and the sliding chute 41 is communicated with the outside through the first strip-shaped hole 42, so that the bottom of the sliding chute 41 is open. The fixing part 5 comprises a sliding block 51 and a first screw rod 52, the top of the sliding block 51 is matched with the sliding groove 41, the bottom of the sliding block extends out of the first strip-shaped hole 42, and the sectional area of the first strip-shaped hole 42 is smaller than that of the sliding groove 41, so that the sliding groove 41 limits the top of the sliding block 51, the sliding block 51 is prevented from falling off from the hanging track 4, and the sliding block 51 can slide along the first strip-shaped hole 42 in the sliding groove 41.

Be equipped with first through-hole 131 on lower connecting plate 13, the slider 51 bottom is equipped with first screw hole, because first bar hole 42 is stretched out to slider 51's bottom, after running through first through-hole 131 through first screw 52 one end, when with first screw hole spiro union, be connected lower connecting plate 13 with hanging track 4, and slider 51 can slide along first bar hole 42 in spout 41, slide along first bar hole 42 in spout 41 through slider 51, it moves along first bar hole 42 to drive lower connecting plate 13 bottom hanging track 4, when treating that lower connecting plate 13 removes the assigned position on hanging track 4, again with first screw 52 spiro union to with hanging track 4 bottom butt, fix lower connecting plate 13 and slider 51 on hanging track 4, thereby realize the regulation of this induction system mounted position on hanging track 4.

It is foreseen that: the sliding groove 41 and the first strip-shaped hole 42 are distributed along the central axis direction of the hanging rail 4, so that the position of the induction device in the central axis direction of the hanging rail 4 can be adjusted. In this application, spout 41 and first bar hole 42 can be in the axis direction of hanging track 4 and distribute completely, also can be in the axis direction part distribution of hanging track 4, and particular case is decided according to the in-service use condition.

In this embodiment, the baffle 2 includes a main plate body 21 extending downward on one side of the upper connecting plate 11, a rotating shaft 22 with one end fixed on the upper end of the main plate body 21 and the other end rotatably connected with one side end of the upper connecting plate 11, and a sensing portion 23 with one end fixedly connected with one side of the upper end of the main plate body 21 and the other end extending in a direction away from the main plate body 21, when the sensing portion 23 leaves a sensing area of the sensor 3, the sensor 3 senses a signal that the hanging carrier passes through, and the specific effect is shown in fig. 7. The baffle 2 comprises a main plate body 21, a rotating shaft 22 and a sensing part 23, wherein the main plate body 21 extends downwards on one side of the upper connecting plate 11 and extends to the hanging rail 4, so that the hanging carrier can abut against the main plate body 21 when being transported on the hanging rail 4.

One end of the rotating shaft 22 is fixedly connected with the upper end of the main plate body 21, and the other end of the rotating shaft 22 is rotatably connected with one side end of the upper connecting plate 11, so that the main plate body 21 is rotatably connected with one side end of the upper connecting plate 11, and further, when the hanging carrier is abutted against the lower end of the main plate body 21, the main plate body 21 is pushed to rotate by taking the rotating shaft 22 at the upper end as a circle center until the hanging carrier passes through the lower part of the baffle 2, and the hanging carrier continues to be transported on the hanging track 4.

The baffle 2 is provided with a sensing part 23, one end of the sensing part 23 is fixedly connected with one side of the upper end of the main plate body 21, and the other end extends towards the direction far away from the main plate body 21. When the main board body 21 naturally extends downwards at one side end of the upper connecting board 11, the sensing part 23 is overlapped with the sensing area of the sensor 3, so that the baffle 2 and the sensor 3 generate mutual sensing; when the hanging carrier pushes the main board body 21 to rotate by taking the rotating shaft 22 at the upper end as a circle center, the sensing part 23 is driven to synchronously rotate, so that the sensing part 23 gradually deviates from a sensing area of the sensor 3 until the hanging carrier can pass through the lower part of the main board body 21, the sensing part 23 completely leaves the sensing area of the sensor 3, at the moment that the sensing part 23 completely leaves the sensing area of the sensor 3, the sensor 3 transmits an electric signal for disconnecting sensing to the control system, and the control system records the passing information of the hanging carrier once, so that the conveying amount and the conveying speed of the hanging carrier on the hanging track 4 are monitored.

In this embodiment, 11 one side ends of upper junction plate are equipped with reference column 111, be equipped with spacing recess 211 on the mainboard body 21, baffle 2 still includes the opposite side fixed connection of one end and the mainboard body 21 upper end, the other end towards keeping away from the spacing portion 24 that the mainboard body 21 direction extends, reference column 111 and spacing portion 24 butt for it is spacing to carry out anticlockwise rotation to baffle 2, reference column and the cooperation of spacing recess 211, it is spacing to carry out clockwise rotation to baffle 2, the concrete effect is seen in fig. 5 and fig. 7. Baffle 2 still includes spacing portion 24, 23 one end of response portion and one side fixed connection of the mainboard body 21 upper end, and the other end extends towards the direction of keeping away from the mainboard body 21, and the opposite side fixed connection of spacing portion 24 one end and the mainboard body 21 upper end, the other end extends towards the direction of keeping away from the mainboard body 21, and spacing portion 24 and response portion 23 set up on the mainboard body 21 relatively.

A positioning column 111 is disposed at one side end of the upper connecting plate 11, and when the main plate body 21 naturally extends downward at one side end of the upper connecting plate 11, the limiting portion 24 abuts against the positioning column 111, so that the main plate body 21 can only rotate clockwise under the pushing of the hanging carrier, but cannot rotate counterclockwise. The arrangement is to prevent the main board body 21 from reversing, and drive the sensing part 23 to reverse, so that the sensing part 23 collides with the sensor 3 above, the sensor 3 is damaged, and monitoring data of the sensing device is invalid.

Be equipped with spacing recess 211 on the mainboard body 21, and spacing recess 211 is located the same one side of baffle 2 with spacing portion 24, after the mainboard body 21 clockwise turned certain angle under the promotion of carrier, spacing recess 211 cooperates with reference column 111, makes the mainboard body 21 can't continue clockwise turning to prevent when the functioning speed of carrier is very fast, it is great to the impact dynamics of baffle 2, cause baffle 2 clockwise turning round, influence its response to next carrier. It is worth noting that: the matching of the limiting groove 211 and the positioning column 111 can not make the baffle 2 rotate clockwise for one turn, nor make the clockwise rotation angle of the baffle 2 too small, resulting in that there is not enough clearance between the baffle 2 and the hanging rail 4 for the carrier to pass through, therefore, in actual use, the position of the limiting groove 211 on the main plate body 21 needs to be designed.

In this embodiment, one side end of the upper connecting plate 11 is provided with a second through hole 112, the other end of the rotating shaft 22 is inserted into the second through hole 112, and the baffle 2 further includes a bearing member 25 sleeved between the rotating shaft 22 and the second through hole 112, as shown in fig. 5 and 7. Be equipped with second through-hole 112 at one side end of upper junction plate 11, the one end and the mainboard body 21 upper end fixed connection of pivot 22, the other end is pegged graft in second through-hole 112, peg graft in pivot 22 and be equipped with bearing piece 25 with the pot head of second through-hole 112, the outer loop of bearing piece 25 and the inner wall fixed connection of second through-hole 112, the inner ring cover of bearing piece 25 is established on pivot 22, and be connected with the external fixed surface of pivot 22, thereby make pivot 22 can rotate in second through-hole 112, and not produce the friction with the inner wall of second through-hole 112, and then realize that baffle 2 is connected with the rotation of mounting bracket 1.

In this embodiment, the other side end of the upper connecting plate 11 is provided with a third through hole 113, one end of the middle connecting plate 12 connected to the upper connecting plate 11 is provided with a second strip-shaped hole 121, the mounting bracket 1 further includes a second screw 14, one end of which sequentially penetrates through the third through hole 113 and the second strip-shaped hole 121, and a nut 15, which is screwed with one end of the second screw 14 sequentially penetrates through the third through hole 113 and the second strip-shaped hole 121, with the specific effects as shown in fig. 4, 5 and 6. Baffle 2 rotates with one side end of upper junction plate 11 to be connected, another side relative to it is equipped with third through hole 113 on upper junction plate 11, the one end that intermediate junction plate 12 and upper junction plate 11 are connected is equipped with second bar hole 121, run through third through hole 113, behind second bar hole 121 in proper order from upper junction plate 11 inboard through second screw 14 one end, make the part spiro union that nut 15 and second screw 14 stretched out second bar hole 121 outside intermediate junction plate 12, until the outside face butt of nut 15 and intermediate junction plate 12, thereby realize upper junction plate 11 and intermediate junction plate 12's fixed connection.

The second strip-shaped holes 121 are formed in the middle connecting plate 12 to adjust the height of the upper connecting plate 11 in the vertical direction of the hanging rail 4, the baffle 2 and the sensor 3 are both arranged on the upper connecting plate 11, and the height of the baffle 2 and the sensor 3 on the hanging rail 4 can be achieved by adjusting the height of the upper connecting plate 11 on the hanging rail 4, so that the baffle 2 can extend downwards onto the hanging rail 4, and the hanging carrier can push the baffle 2 to rotate when passing through; on the other hand, when the hanging rails 4 transport hanging vehicles with different heights, the top of the hanging vehicle collides with the sensor 3 mounted on the upper connecting plate 11, so that the sensor 3 is damaged, and the monitoring data of the sensing device fails.

When the height of the upper connecting plate 11 is adjusted, the nut 15 abutting against the outer side surface of the intermediate connecting plate 12 is loosened to be no longer abutted against the outer side surface of the intermediate connecting plate 12, and at this time, the second screw 14 can move up and down along the second strip-shaped hole 121, thereby changing the height of the upper connecting plate 11. After the upper connecting plate 11 is adjusted to a proper height, the nut 15 is screwed to abut against the outer side face of the middle connecting plate 12, so that the upper connecting plate 11 is fixedly connected with the middle connecting plate 12, and the height of the upper connecting plate 11 is fixed.

In this embodiment, a connecting member 6 is further included to fixedly connect the sensor 3 with the mounting bracket 1, and the connecting member 6 can adjust the horizontal distance between the sensor 3 and the mounting bracket 1, as shown in fig. 1. In this application, carry out fixed connection with sensor 3 and upper junction plate 11 through connecting piece 6, realize the fixed connection of sensor 3 at the mounting bracket 1 top. When the connecting piece 6 is used for fixedly connecting the sensor 3 and the upper connecting plate 11, the horizontal distance between the sensor 3 and the upper connecting plate 11 can be adjusted, so that the adjustment of the horizontal distance between the sensor 3 and the mounting frame 1 is realized. Therefore, the horizontal distance between the sensor 3 and the mounting rack 1 is adjusted through the connecting piece 6, so that the sensor 3 and the sensing part 23 of the baffle 2 generate a better sensing effect, and therefore when the sensor 3 and the sensing part 23 are disconnected for sensing, an electric signal transmitted to the control system is more stable and obvious, and the monitoring data of the sensing device is more accurate.

Since the main plate 21 is rotatably connected to one side end of the upper connecting plate 11 through the rotating shaft 22, the sensing portion 23 is disposed at one side of the main plate 21, and the rotating shaft 22 has a certain length, the sensing portion 23 is spaced apart from the side end of the upper connecting plate 11 in a horizontal direction. The sensor 3 and the main board body 21 are arranged at the same side end of the upper connecting board 11, and the sensing range of the sensor 3 is limited, so that the sensor 3 and the sensing part 23 can generate better sensing effect only by positioning the sensor 3 right above the sensing part 23. Set the horizontal distance between sensor 3 and the mounting bracket 1 to adjustable state, be for different or the pivot 22 of the length of pivot 22 pegs graft in the degree of depth of second through-hole 112 is different, lead to the horizontal distance of response portion 23 and upper junction plate 11 side different, adjust the horizontal connection distance between sensor 3 and the mounting bracket 1 through connecting piece 6, make sensor 3 be located response portion 23 directly over all the time, thereby make this induction system's practicality stronger, application range is wider.

In this embodiment, the top of the upper connecting plate 11 is provided with a second threaded hole 114, the connecting member 6 includes a supporting plate 61 with one end fixing the sensor 3 and the other end connected to the upper connecting plate 11, the supporting plate 61 is provided with a third strip-shaped hole 611, and a third screw 62 with one end penetrating through the third strip-shaped hole 611 and screwed with the second threaded hole 114, for specific effects, see fig. 2, 5 and 8. Be provided with second screw hole 114 at upper junction plate 11 top, backup pad 61 one end and sensor 3 fixed connection, the other end is equipped with third bar hole 611, and third screw rod 62 one end runs through behind the third bar hole 611 with second screw hole 114 spiro union, and the nut and the backup pad 61 butt of until third screw rod 62 to realize the fixed connection of sensor 3 and upper junction plate 11, and then realize the installation of sensor 3 on mounting bracket 1.

When the nut of the third screw 62 is not abutted to the support plate 61, the support plate 61 and the third screw 62 can move relatively along the third bar-shaped hole 611, so that the adjustment of the horizontal distance between the sensor 3 and the mounting frame 1 is realized until the sensor 3 is just above the sensing part 23 of the baffle 2, and the third screw 62 is screwed to be abutted to the support plate 61, so that the horizontal connection distance between the sensor 3 and the mounting frame 1 is fixed.

The above-described embodiments can be implemented individually or in various combinations, and such variations are within the scope of the present invention.

Claims (10)

1. A baffle induction system of hanging carrier which characterized in that: the device comprises a mounting rack (1) fixed on a hanging rail (4), a baffle (2) rotationally connected with the mounting rack (1), and a sensor (3) fixed on the mounting rack (1); when hanging carrier process mounting bracket (1) on hanging track (4), promote baffle (2) are in rotate on mounting bracket (1), baffle (2) are in when turning up to leaving on mounting bracket (1) the response area of sensor (3), sensor (3) sense the signal that hanging carrier passed through to convey it to control system.

2. The apparatus of claim 1, wherein: mounting bracket (1) is U type structure, including upper junction plate (11), lower connecting plate (13) to and intermediate junction plate (12), lower connecting plate (13) are fixed on hanging track (4), intermediate junction plate (12) vertical setting, and both ends respectively with upper junction plate (11) and lower connecting plate (13) are connected, baffle (2) with an upper junction plate (11) one side end is rotated and is connected, sensor (3) are fixed upper junction plate (11) top.

3. The apparatus of claim 2, wherein: the hanging device is characterized by further comprising a fixing piece (5) used for fixedly connecting the lower connecting plate (13) with the bottom of the hanging track (4), wherein the fixing piece (5) can adjust the fixing position of the lower connecting plate (13) on the hanging track (4).

4. The apparatus of claim 3, wherein: hang and be equipped with spout (41) in track (4), it is equipped with first bar hole (42) with spout (41) and external intercommunication to hang track (4) bottom, the sectional area of first bar hole (42) is less than the sectional area of spout (41), be equipped with first through-hole (131) down on connecting plate (13), mounting (5) including the top with spout (41) cooperation, bottom stretch out slider (51) of first bar hole (42), slider (51) bottom is equipped with first screw hole to and one end run through from connecting plate (13) bottom down first through-hole (131), with first screw rod (52) of screw hole spiro union.

5. The apparatus of claim 2, wherein: baffle (2) include mainboard body (21) of upper junction plate (11) one side downwardly extending, one end is fixed mainboard body (21) upper end, the other end with pivot (22) of upper junction plate (11) one side end rotation connection to and one end with mainboard body (21) one side fixed connection, the other end of upper end are towards response portion (23) of keeping away from mainboard body (21) direction extension, response portion (23) leave during the response region of sensor (3), sensor (3) sense the signal of hanging the carrier process.

6. The apparatus of claim 5, wherein: go up connecting plate (11) one side end and be equipped with reference column (111), be equipped with spacing recess (211) on the mainboard body (21), baffle (2) still include one end with opposite side fixed connection, the other end of mainboard body (21) upper end are towards keeping away from the spacing portion (24) that mainboard body (21) direction extends, reference column (111) with spacing portion (24) butt for carry on spacingly to the anticlockwise rotation of baffle (2), reference column (111) with spacing recess (211) cooperation is used for carrying on spacingly to the clockwise rotation of baffle (2).

7. The apparatus of claim 5, wherein the baffle sensing means comprises: the baffle plate is characterized in that a second through hole (112) is formed in one side end of the upper connecting plate (11), the other end of the rotating shaft (22) is inserted into the second through hole (112), and the baffle plate (2) further comprises a bearing piece (25) sleeved between the rotating shaft (22) and the second through hole (112).

8. The apparatus of claim 5, wherein: another side of upper junction plate (11) is equipped with third through hole (113), intermediate junction plate (12) with the one end that upper junction plate (11) are connected is equipped with second bar hole (121), mounting bracket (1) still include that one end runs through in proper order second screw rod (14) of third through hole (113), second bar hole (121), and with second screw rod (14) run through in proper order nut (15) of the one end spiro union of third through hole (113), second bar hole (121).

9. The apparatus of claim 2, wherein: the sensor fixing device is characterized by further comprising a connecting piece (6) used for fixedly connecting the sensor (3) with the mounting rack (1), wherein the connecting piece (6) can adjust the horizontal distance between the sensor (3) and the mounting rack (1).

10. The invention of claim 9 wherein the baffle sensing means comprises: the top of the upper connecting plate (11) is provided with a second threaded hole (114), the connecting piece (6) comprises a supporting plate (61) with one end fixed, the sensor (3) and the other end connected with the upper connecting plate (11), a third strip-shaped hole (611) is formed in the supporting plate (61), and a third screw (62) with one end penetrating through the third strip-shaped hole (611) and then connected with the second threaded hole (114) in a threaded mode.

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