CN113353566A - Carrier spacing device - Google Patents

Abstract

Carrier spacer belongs to conveying system technical field, including separating the track, setting up standing groove on separating the track, a plurality of syntropy arranges the spacer in the standing groove, sets up the derail who is located transport direction end one side at the standing groove. The spacer comprises blocking plates fixedly connected with each other and a lower pressing plate arranged towards the derailing device. And a mounting hole is formed between the blocking plate and the lower pressing plate. The upper end surface of the barrier plate is connected with the upper end surface of the lower pressure plate at an obtuse angle. The volume of the blocking plate is larger than that of the lower pressing plate. When the carrier is not used, one end, facing the direction of transportation of the carrier, of the upper end faces of the blocking plates of all the spacing pieces is not higher than the upper end of the placing groove, and the lower pressing plate faces obliquely upwards. When the carrier is transported to the lower pressing plate through the blocking plate, the lower pressing plate descends, the carrier is transported to the next spacing piece forwards until the carrier is transported to the derailing device, and the upper end of the blocking plate of the spacing piece is tilted to form a blocking part. The invention can space the carriers without driving and ensure the normal transportation of the carriers, and has low cost.

Description

Carrier spacing device

Technical Field

The invention belongs to the technical field of conveying systems, and particularly relates to a carrier spacing device.

Background

A conveyor system is an intelligent system for transporting articles. In particular to a hanging system applied to clothes and a transportation system applied to business supermarkets. In practical applications, there are application scenarios that when the carriers hang clothes and are transported to a workstation for processing, the carriers are tightly stacked together after entering the workstation through the entering device and temporarily wait for exiting before exiting the workstation, and if the carriers hang clothes, friction and collision are generated between the carriers. In the production of pure cotton products and western-style clothes, after clothes are ironed, the fabric of the clothes is creased again by friction and collision. If the carrier is hung by a commercial super product, the goods are easy to collide and damage. Thus requiring a means of spacing the carriers apart where they are to reside.

For example, the utility model patent publication No. CN206013660U, publication No. 2017, 3/15/3/the application discloses a clothes interval transmission mechanism, wherein a plurality of interval transmission members are uniformly arranged between a conveying strip and a hanging rack, each interval transmission member comprises a suspension arm and a movable arm, the suspension arm and the movable arm are hinged to form a hinged end, the other end of the suspension arm relative to the movable arm is fixedly connected with a conveying chain, the movable arm comprises a leading-in section and a separating section, the leading-in section is arranged in an arc shape and is connected with the separating section and a hanging part, the separating section is arranged in a linear shape and is vertically opposite to the suspension arm, the other end of the separating section relative to the leading-in section is provided with a bayonet for accommodating a clothes hanger, the bayonet faces to the clothes transmission direction opposite to the clothes, when one clothes hanger is positioned between two adjacent interval transmission members, the bayonet is linked with a clothes hanger hook, when at least two clothes hangers are positioned between the two interval transmission members, the last clothes hanger passing through the separation section is linked with the bayonet hook. This mechanism can be with clothing spaced transmission to lower station, and the clothing is by ordered only conveying to next processing station, and subsequent processing is more convenient. But the clothes rack needs to be driven by the rail when in transportation, and is not suitable for temporary stay of the clothes rack.

Disclosure of Invention

The invention overcomes the problems that articles hung on a carrier are easy to rub and collide at a temporary waiting position, clothes become wrinkles again, and goods personnel are damaged, and the existing spacing device is not suitable for the temporary stopping position of the carrier, and provides the carrier spacing device which can space the carrier without driving and can ensure the normal transportation of the carrier.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the carrier spacing device comprises a spacing track, a placing groove arranged on the spacing track, a plurality of spacing pieces arranged in the placing groove in the same direction, and a derailing device arranged on one side of the placing groove at the end of the transportation direction; the spacer comprises a blocking plate and a lower pressing plate which are fixedly connected with each other; the lower pressing plates are arranged towards the derailing device; a mounting hole is formed between the blocking plate and the lower pressing plate and is rotatably arranged in the placing groove through the mounting hole; the upper end surface of the barrier plate is connected with the upper end surface of the lower pressure plate in an obtuse angle; the volume of the blocking plate is larger than that of the lower pressing plate; when the carrier is not transported, one end, facing the direction of transportation of the carrier, of the upper end surfaces of the blocking plates of all the spacing pieces is not higher than the upper end of the placing groove, and the lower pressing plate faces the obliquely upper direction; when the carrier is transported to reach the upper end surface of the lower pressing plate through the upper end surface of the blocking plate, the lower pressing plate descends, the carrier is transported to the next spacing piece forwards until the lower pressing plate of the spacing piece at the derailing device is close to one end of the derailing device, the upper end of the blocking plate of the spacing piece is tilted to form a blocking part, and the blocking part is used for blocking and separating the next carrier; after the carriers leave the separation track through the derailing device, the lower pressing plate rises, the blocking part descends, and the next carrier enters the spacing piece.

When the carrier is transported without a carrier, because the volume of the blocking plates is larger than that of the lower pressing plates, under the action of gravity, one ends, facing the direction of the carrier, of the upper end surfaces of the blocking plates of all the spacing pieces are not higher than the placing grooves, and the lower pressing plates face the obliquely upper direction, so that the spacing pieces can smoothly enter the carrier when the carrier is transported. When the carrier is transported to reach the upper end surface of the lower pressing plate through the upper end surface of the blocking plate, the lower pressing plate is made to descend under the action of the gravity of the carrier, the carrier is transported to the next distance piece forwards, passes through a plurality of distance pieces, then reaches one end, close to the derailing device, of the lower pressing plate of the distance piece at the derailing device, and is blocked by the derailing device. And because the upper end surface of the blocking plate is in obtuse angle connection with the upper end surface of the lower pressing plate, the upper end of the blocking plate of the spacing piece is tilted to form a blocking part, and the blocking part blocks the next carrier from entering the spacing piece, so that the carriers are ensured to have intervals. The interval of carrier has wholly been guaranteed, prevents that the clothing friction and collision on the carrier from making clothing surface fabric fold again. And required function is realized to the spacer simple structure while, utilizes gravity to realize that the carrier separates, does not need extra power, and is with low costs and easy dismounting.

Preferably, both sides of the upper end face of the blocking plate are provided with limiting blocks, and the limiting blocks exceed both sides of the placing groove.

The setting of stopper makes the barrier plate can not be less than the standing groove upper end because of gravity, avoids the holding down plate angle to be too big and lead to the unable normal transportation of carrier in the slant.

Preferably, after the lower pressing plate descends towards one end of the derailing device, the spacing between the blocking parts of the adjacent spacing pieces is smaller than the minimum width of the carrier; the lower pressing plate of the spacing piece at the derailing device is close to one end of the derailing device, and the distance between the lower pressing plate and the derailing device is smaller than the minimum width of the carrier in the transportation direction of the separation track.

Therefore, the carrier can be effectively prevented from normally entering the next spacing piece, and when the derailing device is not loosened, the carrier can press the lower pressing plate of the spacing piece at the derailing device, and the spacing piece at the derailing device enters more than two carriers.

Preferably, the plane of one end, facing the derailing device, of the lower pressing plate is an inclined plane; the inclined plane is attached to the outer side face of the adjacent blocking part after the lower pressing plate descends.

This further ensures the stability of the transport.

Preferably, the lower end surface of the blocking plate is connected with the lower end surface of the lower pressing plate at an obtuse angle.

The gravity center of the spacer is enabled to be deviated from the blocking plate by the arrangement, after the carrier is transported conveniently, one end, facing to the direction where the carrier is transported, of the upper end face of the blocking plate can quickly return to the position which is not higher than the upper end of the placing groove.

Preferably, the upper end surface of the blocking plate is connected with the upper end surface of the lower pressing plate by 140-160 degrees; the lower end surface of the barrier plate is connected with the lower end surface of the lower pressure plate by 110-130 degrees.

Preferably, the length of the upper end surface of the lower pressing plate is 6cm-10 cm.

Thus, the clothes or goods carried by the carrier are ensured to have enough space to prevent friction collision.

Preferably, the upper end surface of the blocking plate is connected with the outer side surface of the blocking plate in an arc shape.

The arrangement is convenient for the carriers to pass through the individual spacing pieces, and transportation blockage is prevented.

Preferably, the mounting hole is provided at a lower end between the blocking plate and the lower pressing plate.

The setting makes the whole focus of spacer part incline down like this, and the barrier plate of being more convenient for maintains the state when no carrier transportation to and the carrier in time return after through, effectively prevent the long back of spacer live time at mounting hole department simultaneously and take place the fracture.

Preferably, the placing groove comprises a plurality of baffle blocking grooves and a plurality of lower pressing plate grooves; the single baffle blocking plate slots and the single lower pressing plate slots are connected into a group and are sequentially arranged along the length direction of the separation track; the baffle blocking plate groove penetrates through the separation track, and the lower pressing plate groove does not penetrate through the separation track.

The blocking plate can flexibly rotate due to the arrangement, and the lower pressing plate can not rotate reversely due to rotation under the support of the lower pressing plate groove.

The invention has the advantages that:

(1) according to the invention, the stable transportation and sufficient spacing of the carrier are realized through the spacer under the action of gravity and pressure, and the clothes on the carrier are prevented from being rubbed and collided to cause the clothes fabric to be wrinkled again.

(2) The spacer simple structure realizes required function simultaneously, does not need additionally to set up power drive carrier and gos forward, and is with low costs, easy dismounting moreover.

(3) When no carrier is transported, because the volume of the baffle plate is greater than that of the lower pressing plate, under the action of gravity and the limitation of the limiting block, one end, facing the direction of the carrier transportation, of the upper end face of the baffle plate of all the spacing pieces is not higher than the upper end of the placing groove, and the lower pressing plate faces the obliquely upper side, so that the spacer can be smoothly entered when the carrier transportation comes.

(4) The upper end face of the blocking plate is connected with the upper end face of the lower pressing plate at an obtuse angle, the spacer can be tilted to form a blocking portion at the upper end of the blocking plate after the carrier is transported, the blocking portion blocks the next carrier from entering the spacer, only one carrier is guaranteed to be arranged on one spacer, and the spacing effect is good.

(5) The standing groove comprises baffle blocking grooves and a lower pressing plate groove which are arranged at intervals. The baffle blocking plate groove penetrates through the separation track, the lower pressing plate groove does not penetrate through the separation track, so that the baffle blocking plate can flexibly rotate, and the lower pressing plate cannot rotate reversely due to rotation under the support of the lower pressing plate groove.

Drawings

Fig. 1 is an overall schematic view of a carrier spacing device according to the present invention.

Fig. 2 is a schematic view of the carrier spacing device of the present invention after the carrier enters.

Fig. 3 is a side view of the carrier spacing device of the present invention after carrier entry.

Fig. 4 is a cross-sectional view of the carrier spacing device of the present invention after carrier entry.

Fig. 5 is a schematic view of a spacer of the carrier spacing device of the present invention.

FIG. 6 is a schematic diagram of an derailing apparatus of the carrier spacing apparatus of the present invention.

In the figure: 11-a blocking plate, 111-a blocking part, 112-an upper end face of the blocking plate, 113-an outer side face of the blocking plate, 114-a limiting block, 115-a lower end face of the blocking plate, 12-a lower pressing plate, 121-an upper end face of the lower pressing plate, 122-an inclined plane, 123-a lower end face of the lower pressing plate, 13-a mounting hole, 2-a separation track, 21-a placing groove, 211-a blocking plate groove, 212-a lower pressing plate groove, 3-a carrier, 31-a roller and 4-a derailing device.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 6, the vehicle spacing device includes a partition rail 2, a placement groove 21 provided on the partition rail 2, a plurality of spacers arranged in the placement groove 21 in the same direction, and a derailer 4 provided on the end side of the placement groove 21 in the transport direction. The spacer comprises a blocking plate 11 and a lower pressing plate 12 which are fixedly connected with each other. The lower pressure plates 12 are all arranged towards the derailing means 4. And a mounting hole 13 is formed between the blocking plate 11 and the lower pressing plate 12, and is rotatably arranged in the placing groove 21 through the mounting hole 13. The upper end surface 112 of the blocking plate is connected with the upper end surface 121 of the lower pressing plate at an obtuse angle. The volume of the blocking plate 11 is larger than that of the lower pressing plate 12. When the carrier 3 is not transported, the upper end faces 112 of the stopper plates of all the spacers are not higher than the upper end of the placement groove 21 in the direction in which the carrier 3 is transported, and the lower press plate 12 faces obliquely upward. When the carrier 3 is transported to reach the upper end face 121 of the lower pressing plate through the upper end face 112 of the baffle plate, the lower pressing plate 12 descends, the carrier 3 is transported to the next spacing piece forwards until the lower pressing plate 12 of the spacing piece at the derailing device 4 is close to one end of the derailing device 4, the upper end of the baffle plate 11 of the spacing piece is tilted to form a baffle part 111, and the baffle part 111 is used for blocking and separating the next carrier 3. After the carrier 3 leaves the partition rail 2 through the derailer 4, the lower pressing plate 12 rises, the stopper 111 descends, and the next carrier 3 enters the partition.

When the carrier 3 is not transported, because the volume of the baffle plate 11 is larger than that of the lower pressing plate 12, under the action of gravity, the end of the upper end face 112 of the baffle plate of all the spacing pieces facing to the direction that the carrier 3 is transported is not higher than the upper end of the placing groove 21, and the lower pressing plate 12 faces to the upper oblique direction, so that the spacing pieces can be smoothly entered when the carrier 3 is transported. When the carrier 3 is transported to reach the upper end surface 121 of the lower pressing plate through the upper end surface 112 of the blocking plate, the lower pressing plate 12 is made to descend under the action of gravity of the carrier 3, the carrier 3 is transported to the next spacing element forwards, passes through a plurality of spacing elements, then reaches one end, close to the derailing device 4, of the lower pressing plate 12 of the spacing element at the derailing device 4, and is blocked by the derailing device 4. And because the upper end surface 112 of the baffle plate is connected with the upper end surface 121 of the lower pressing plate in an obtuse angle, the upper end of the baffle plate 11 of the spacing piece is tilted to form a baffle part 111, and the baffle part 111 stops the next carrier 3 from entering the spacing piece, thereby ensuring that the carriers 3 have intervals. The interval of carrier 3 has been guaranteed wholly, prevents that the clothing friction and collision on the carrier 3 from making clothing surface fabric fold again. And required function is realized to the spacer simple structure while, utilizes gravity to realize that carrier 3 separates, does not need extra power, and is with low costs and easy dismounting.

As shown in fig. 5, the present invention discloses a specific structure of the spacer. The spacer shown comprises a blocking plate 11, a lower pressing plate 12 fixedly connected to each other. The lower pressure plates 12 are all arranged towards the derailing means 4. And a mounting hole 13 is formed between the blocking plate 11 and the lower pressing plate 12, and is rotatably arranged in the placing groove 21 through the mounting hole 13. Preferably, the mounting hole 13 is disposed at the lower end between the blocking plate 11 and the lower pressing plate 12, so that the center of gravity of the whole spacer is offset, the blocking plate 11 is more convenient to maintain when the carrier 3 is not transported, the carrier 3 is more convenient to return in time after passing, and the spacer is effectively prevented from being broken at the mounting hole 13 after being used for a long time.

The upper end surface 112 of the blocking plate is connected with the upper end surface 121 of the lower pressing plate at an obtuse angle of 150 degrees. And the lower terminal surface 115 of the baffle plate is also connected with the lower terminal surface 123 of the lower pressing plate in an obtuse angle of 120 degrees, so that the gravity center of the spacer is deviated to the baffle plate 11, and after the carrier 3 is transported, one end of the upper terminal surface 112 of the baffle plate facing to the direction that the carrier 3 is transported can quickly return to the position which is not higher than the upper end of the placing groove 21. The volume of the blocking plate 11 is larger than that of the lower pressing plate 12.

Preferably, both sides of the upper end surface 112 of the blocking plate are provided with a stop block 114, and the stop blocks 114 are arranged beyond both sides of the placing groove 21. The arrangement of the limiting block 114 prevents the blocking plate 11 from being lower than the upper end of the placing groove 21 due to gravity, and prevents the carrier 3 from being transported normally due to the overlarge inclined upward angle of the lower pressing plate 12. Preferably, the upper end surface 112 of the blocking plate is connected with the outer side surface 113 of the blocking plate in a circular arc manner, so that the carriers 3 can pass through the respective spacing pieces conveniently to prevent transportation blockage. Specifically, the length of the upper end surface 121 of the lower pressing plate is 8cm, so that a sufficient space is ensured between clothes or goods carried by the carrier 3 to prevent friction collision.

As shown in fig. 4, the present invention discloses the structural relationship between the spacers. After the lower pressing plate 12 descends towards one end of the derailing device 4, the spacing between the blocking parts 111 of the adjacent spacers is smaller than the minimum width of the carrier 3, so that the carrier 3 is effectively prevented from entering the next spacer normally. The lower pressing plate 12 of the spacer at the derailing device 4 is close to one end of the derailing device 4, and the distance between the lower pressing plate 12 and the derailing device 4 is smaller than the minimum width of the carrier 3 in the transportation direction of the separation track 2, so that when the derailing device 4 is not loosened, the carrier 3 can press the lower pressing plate 12 of the spacer at the derailing device 4, and the spacer at the derailing device 4 enters more than two carriers 3. As shown in fig. 4, the carrier 3 is a clothes hanger, the clothes hanger is provided with a roller 31, the clothes hanger is transported on the separation track 2 through the roller 31, so that after one end of the lower pressing plate 12 facing the derailer 4 descends on the lower pressing plate 12, the spacing between the blocking parts 111 of the spacers adjacent to the lower pressing plate is smaller than the minimum width of the roller 31, and the spacing between the lower pressing plate 12 of the spacers at the derailer 4 and the derailer 4 is smaller than the minimum width of the roller 31.

Preferably, the plane of one end of the lower pressing plate 12 facing the derailing device 4 is an inclined plane 122, and the inclined plane 122 is attached to the outer side surface of the adjacent blocking part 111 after the lower pressing plate 12 descends, so that no gap exists, and transportation is guaranteed.

The invention discloses a concrete structure of the placing groove 21. The placing groove 21 is arranged on the separation track 2 and is arranged in the middle of the separation track 2, so that the service life of the separation track 2 can be guaranteed. The placement groove 21 includes a plurality of blocking plate grooves 211 and a plurality of lower pressing plate grooves 212. The single baffle slots 211 are connected to the single lower platen slot 212 in a group, which are sequentially arranged along the length direction of the partition rail 2. The baffle groove 211 penetrates the partition rail 2, and the lower platen groove 212 does not penetrate the partition rail 2. This arrangement allows the blocking plate 11 to be flexibly rotated without the lower press plate 12 reversing its direction due to the rotation supported by the lower press plate groove 212.

The invention discloses a specific arrangement of the partitioning rail 2. The separation track 2 is horizontally arranged in the transportation system, and when the carrier 3 is transported to the separation track 2, the vehicle moves forward under the action of the initial power of the vehicle and the gravity of the carrier 3 and the carrier 3 for bearing articles. Or the divider track 2 may be inclined downwards slightly beyond the direction of the rail means 4 so that the vehicle 3 is transported more smoothly, but not at too great an angle to prevent the blocking portion 111 from failing. The partition rail 2 may also be made of an elastic material, so that the carrier 3 may be inclined slightly under the gravity of the carrier 3 and the articles carried by the carrier 3, so that the carrier 3 can be transported smoothly.

The invention discloses a specific structure of the derailing device 4. The derailing device 4 is used to block the carrier 3 before the carrier 3 is loaded with the articles to be processed and to move the carrier 3 away from the dividing rail 2 when the carrier 3 is loaded with the articles to be processed. The derailing means 4 here is implemented by a claw as in fig. 6, functioning by gripping and releasing.

In practical applications, when the carrier 3 is transported without the carrier, because the volume of the blocking plate 11 is larger than that of the lower pressing plate 12, under the action of gravity, the end of the upper end surface 112 of the blocking plate of all the spacing elements facing the direction in which the carrier 3 is transported is not higher than the upper end of the placing groove 21, and the lower pressing plate 12 faces obliquely upward, so that the spacing elements can be smoothly entered from the blocking plate 11 when the carrier 3 is transported. Optimally, one end of the upper end face 112 of the blocking plate of all the spacing pieces facing to the transportation direction of the carrier 3 is flush with the upper end of the placing groove 21, and the limiting block 114 is matched, so that the carrier 3 can be effectively prevented from being normally transported due to the overlarge inclined upward angle of the lower pressing plate 12. In application, the upper end face 112 of the baffle plate of the spacer is towards the end of the direction of the carrier 3 transportation, even if slightly higher than the upper end of the placing groove 21 due to the error, because the power of the carrier transportation will not affect the normal transportation.

When the carrier 3 is transported in, the carrier 3 is transported to reach the upper end surface 121 of the lower pressing plate through the upper end surface 112 of the baffle plate, and the lower pressing plate 12 is descended under the action of gravity of the carrier 3. When the carrier 3 is transported to the foremost end of the lower pressing plate 12, the foremost end of the lower pressing plate 12 is slightly higher than or flush with the end of the upper end surface 121 of the lower pressing plate of the next spacer facing to the transportation direction of the carrier 3, and then the carrier is smoothly transported to the next spacer. The carrier 3 passes through several spacers and then reaches the end of the lower pressing plate 12 of the spacer close to the derailer 4 at the derailer 4, and is stopped by the derailer 4.

When the derailing device 4 is released, the carrier 3 leaves the spacing track to go to the next process, and the following carriers 3 sequentially arrive at the derailing device 4.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. The carrier spacing device is characterized by comprising a separation track (2), a placing groove (21) arranged on the separation track (2), a plurality of spacing pieces which are arranged in the placing groove (21) in the same direction, and a derailing device (4) arranged on one side of the placing groove (21) at the end of the transportation direction; the spacer comprises a blocking plate (11) and a lower pressing plate (12) which are fixedly connected with each other; the lower pressing plates (12) are arranged towards the derailing device (4); a mounting hole (13) is formed between the blocking plate (11) and the lower pressing plate (12), and the blocking plate is rotatably arranged in the placing groove (21) through the mounting hole (13); the upper end surface (112) of the blocking plate is connected with the upper end surface (121) of the lower pressing plate in an obtuse angle; the volume of the blocking plate (11) is larger than that of the lower pressing plate (12); when the carrier (3) is not used for transportation, one end of the upper end surface (112) of the stop plate of all the spacing pieces facing to the direction of the carrier transportation is not higher than the upper end of the placing groove (21), and the lower pressing plate (12) faces to the obliquely upper part; when the carrier (3) is transported to reach the upper end surface (121) of the lower pressing plate through the upper end surface (112) of the blocking plate, the lower pressing plate (12) descends, the carrier (3) is transported to the next spacing piece forwards until the lower pressing plate (12) of the spacing piece at the derailing device (4) is close to one end of the derailing device (4), the upper end of the blocking plate (11) of the spacing piece is tilted to form a blocking part (111), and the blocking part (111) is used for blocking and separating the next carrier (3); after the carrier (3) leaves the separation track (2) through the derailing device (4), the lower pressing plate (12) rises, the blocking part (111) descends, and the next carrier (3) enters the spacing piece.

2. The carrier spacing device according to claim 1, wherein both sides of the upper end surface (112) of the blocking plate are provided with a stopper (114), and the stoppers (114) are disposed beyond both sides of the placement groove (21).

3. The carrier spacing device according to claim 1, characterized in that the end of the lower platen (12) facing the derailer (4) has a spacing of the stops (111) of the spacers adjacent thereto that is smaller than the minimum width of the carrier (3) after the lower platen (12) is lowered; the lower pressing plate (12) of the spacing piece at the derailing device (4) is close to one end of the derailing device (4), and the distance between the lower pressing plate and the derailing device (4) is smaller than the minimum width of the carrier (3) in the transportation direction of the separation track (2).

4. The vehicle spacing device according to claim 3, wherein the plane of the end of said lower platen (12) facing the derailment (4) is a ramp (122); the inclined plane (122) is attached to the outer side face of the adjacent blocking part (111) after the lower pressing plate (12) descends.

5. The carrier spacer according to claim 1, wherein the lower end surface (115) of the blocking plate is connected to the lower end surface (123) of the lower pressure plate at an obtuse angle.

6. The carrier spacer according to claim 5, wherein the upper end surface (112) of the blocking plate is connected to the upper end surface (121) of the lower press plate at an angle of 140 ° -160 °; the lower end surface (115) of the blocking plate is connected with the lower end surface (123) of the lower pressure plate in an angle of 110-130 degrees.

7. The carrier spacer according to claim 1, wherein the length of the upper end surface (121) of the lower platen is 6cm-10 cm.

8. The vehicle spacing device according to claim 1, wherein the upper end surface (112) of said blocking plate is connected to the outer side surface (113) of the blocking plate by a circular arc.

9. The carrier spacer according to claim 1, wherein the mounting hole (13) is provided at a lower end between the blocking plate (11) and the lower pressing plate (12).

10. The carrier spacing device according to claim 1, wherein said placement slots (21) comprise a number of baffle slots (211), a number of lower platen slots (212); the single baffle blocking plate slots (211) and the single lower pressing plate slots (212) are connected into a group and are sequentially arranged along the length direction of the separation track (2); the baffle blocking plate groove (211) penetrates through the separation track (2), and the lower pressing plate groove (212) does not penetrate through the separation track (2).

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